Slyb174b PDF

Analog
Signal Chain Guide
Amplifiers
Data Converters
Interface
Clocks and Timing
Sensing
Wireless Connectivity
www.ti.com 2013
Analog Signal Chain Guide
Table of Contents
Overview............................................................ 3 Interface
Amplifiers and Comparators Signal Conditioners:

Repeaters, Equalizers and Retimers.................. 97
Operational Amplifiers.......................................... 4
Crosspoint and Redundancy MUX..................... 99
High-Speed Amplifiers....................................... 16
Communications – Data Buffers and Translators
Instrumentation Amplifiers................................. 24
(LVDS, M-LVDS, PECL/ECL)............................. 100
Logarithmic Amplifiers........................................ 27
SerDes (Serial Gigabit Transceivers)................ 105
Power Amplifiers and Buffers............................. 28
Consumer/Computing............................................
Comparators...................................................... 29
USB.............................................................. 107
1394.............................................................. 111
Data Converters Display Port Switch/Redriver....................... 113
Analog-to-Digital Converters (ADCs)..................... Flatlink™/FPD-LINK..................................... 114
Delta-Sigma ADCs......................................... 32 SerDes....................................................................
SAR ADCs...................................................... 35 Automotive................................................... 116
Pipeline ADCs................................................. 44 Video and Imaging....................................... 117
ADC by Architecture – Folding and Interpolating....51 Consumer/Computing............................................
Digital-to-Analog Converters (DACs)..................... PCI................................................................ 120
String and R2R DACs..................................... 52 HDMI............................................................ 121
Current Steering DACs................................... 58 Industrial.................................................................
Digital Potentiometers.................................... 60 CAN Transceivers......................................... 122
Integrated ADCs and DACs................................ 61 Digital Isolators............................................. 123
Analog Front Ends.................................................. Ethernet PHY................................................ 126
Sensor AFEs................................................... 62 Ethernet........................................................ 128
Medical........................................................... 63 RS-485/RS-422............................................ 129
Other Line Circuit............................................. 132
Monitoring and Control SerDes – Industrial........................................... 134
General
Motor Drivers...................................................... 66
UARTs........................................................... 134
Haptic Drivers..................................................... 72
ESD/EMI....................................................... 137
Touch-Screen Controllers................................... 74
I2C................................................................. 139
Pulse-Width Modulation..................................... 75
RS-232......................................................... 141
Current Shunt Monitors/Current Sense Amplifiers .....76
Voltage-Level Translators............................. 142
Temperature Sensors......................................... 78
4-20 mA Transmitters......................................... 85
Radio Frequency
Broadband RF.................................................. 143
Voltage References
Wireless Connectivity....................................... 145
Voltage References............................................ 86
Wi-Fi®/IEEE 802.11.......................................... 147
Clocks and Timing Resources

Clock Distribution (Fanout Buffers, Zero-Delay Buffers)...88 TI Worldwide Technical Support....................... 151
Clock Generation
(Crystal Oscillator Replacements, Jitter Cleaners).......93
2 | Signal Chain Guide 2013 Texas Instruments

Analog Signal Chain Guide
Overview
Low-Power
Interface
The Real Data RF
World Amplifier Converter
Temperature
Pressure
Position
Speed Power Embedded

Management Processing
Flow
Humidity
Sound
Light
Data
Identification Amplifier Converter
Clocks &
Timing
Logic
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Texas Instruments Signal Chain Guide 2013 | 3

Amplifiers and Comparators
Operational Amplifiers
Precision, 20 MHz, 0.9 pA, Low-Noise, RRIO, CMOS Operational Amplifiers with Shutdown
OPA320
The OPA320 series is ideal for low-power, single-supply applications. The OPA320 Key Features
features a linear input stage with zero-crossover distortion that delivers excellent • Precision with zero-crossover distortion:
—
common-mode rejection ratio (CMRR) of typically 114 dB, low-noise (7 nV/√Hz and Low offset voltage: 150 μV (max)
total harmonic distortion plus noise of 0.0005% typical). High-speed operation also High CMRR: 114 dB
makes them well-suited for driving sampling analog-to-digital converters (ADCs). Other Rail-to-rail I/O
applications include signal conditioning and sensor amplification. • Low input bias current: 0.9 pA (max)
—
• Low noise: 7 nV/√Hz at 10 kHz
+5V
• Wide bandwidth: 20 MHz
• Slew rate: 10 V/μs and
50k
• Quiescent current: 1.45 mA/ch
(2.5V)
• Single-supply voltage range:
8
1.8 V to 5.5 V
• Unity-gain stable
RG
• Small packages: SOT23, MSOP, DFN
REF1004-2.5
Applications
4 R1 R2
100k 25k • High-Z sensor signal conditioning
• Transimpedance amplifiers
+5V
+5V • Test and measurement equipment
R3 R4
• Programmable logic controllers (PLCs)
25k 100k
1/2 • Motor control loops
OPA2320
• Communications
• Input/output ADC/DAC buffers
1/2
V OUT • Active filters
OPA2320
RL
10k
200k
RG
Two Op Amp Instrumentation Amplifier with Improved

High-Frequency Common-Mode Rejection
Get more information: www.ti.com/product/OPA320

23 MHz CMOS EMI Hardened Op Amp with 1.8 V Shutdown Logic

LMV881
The LMV881 is a low power CMOS input operational amplifier that provides low input Key Features
bias currents, a rail-to-rail output with high output drive capability and a wide tempera- • Supply voltage: 2.7 V to 5.5 V
ture range of −40°C to +125°C. Additionally, the LMV881 is EMI hardened to minimize • Supply current: 1.65 mA
sensitivity to external interference. The LMV881 is offered in the space saving six-pin • Shutdown current: 200 pA
micro LLP package and provides excellent performance and economy in terms of • Input offset voltage: 1 mV max
power and space usage. • Input bias current: 0.1 pA
R1
V
+ • GBW: 23 MHz
No RF Related • EMIRR at 1.8 GHz: 105 dB
Disturbances —
Pressure - R2 • Input noise voltage at 1 kHz: 9 nV/√Hz
Sensor - • Slew rate: 12 V/µs
+ -
+ ADC
+ • Output voltage swing: rail-to-rail
• Output current drive: 70 mA
EMI Hardened
EMI Hardened Applications
• Filters/buffers
• Medical diagnosis equipment
• Weight scale systems
Interfering
RF Sources
LMV881 functional diagram
Get more information: www.ti.com/product/LMV881

10-MHz, Low-Noise, RRO, 36 V Operational Amplifier in MicroPackages

OPA172
The OPA172 family of single, dual and quad op amps are a series of 36 V low noise Key Features
operational amplifiers that feature single supply, and MicroPackages with the ability to • Supply range: +2.7 V to +36 V,
operate on supplies ranging from +2.7 V (±1.35 V) to +36 V (±18 V). They offer good ±1.3 5 V to ±18 V
offset, drift and bandwidth with low quiescent current. All versions have identical speci- • MicroPackages: Single in SC-70,
fications for maximum design flexibility. dual in MSOP-8
—
Unlike most op amps, which are specified at only one supply voltage, the OPA172 • Low noise: 8 nV/√Hz
family of op amps are specified from +2.7 V to +36 V. Input signals beyond the supply • Input offset voltage: 1 mV
rails will not cause phase reversal and the OPA172 family is stable with capacitive loads • RFI filtered inputs
of 300 pF. The input can go 100 mV below the negative rail and within 2 V of the top rail • Input range includes the negative supply
for normal operation. • Input range operates to positive supply
• Output short circuit current: 80 mA typ
Field Side
Electrical Isolation
Control Backplane
• Rail-to-rail output
Communication
24 V
Fieldbus IN • Gain Bandwidth: 10 MHz
• Low quiescent current: 1.6 mA per amp max
Power Management: Exists on
DC/DC Converter Isolated Power DC/DC Converter
• High common-mode rejection: 120 dB
All Modules
Applications
Low Noise Power
• Tracking amplifier in power modules
• Merchant power supplies
• Transducer amplifier
Group Isolated Analog Input Module • Bridge amplifier
Buffer
Temp
-
+
Protection AMP
VREF • Temperature measurements
Flow
MUX ADC
Digital
Controller Interface
• Strain gage amplifier
V+ Isolation
Optical
• Precision integrator
Pressure Protection AMP
Level
HART
Digital
Isolation
Memory
• Battery powered instruments
• Test equipment
• Active filters
Field Inputs From Sensors Group Isolated Analog Input Module
Buffer
±5 V, ±10 V VREF
Protection
0–5 V, 0–10 V
Digital
MUX PGA ADC Controller Interface
Isolation
Buffer
4–20 mA
Protection
0–20 mA Digital
HART Memory
Isolation
Per Channel Isolated Analog Input Module
±5 V, ±10 V Digital
0–5 V, 0–10 V Protection AMP ADC Isolation
Controller Interface
4–20 mA
0–20 mA
Digital
Protection AMP ADC Memory
Isolation
From Sensors
System block diagram
Get more information: www.ti.com/product/OPA172

Low Offset Voltage Operational Amplifiers (VOS <500 µV) (sorted by VOS)
IQ Per Slew VOS VOS V at
VS VS Ch. GBW Rate (25°C) Drift IB CMRR 1 NkHz Rail-
(V) (V) (mA) (MHz) (V/µs) (mV) (µV/°C) (pA) (dB) (nV/√Hz) Single to- HiRel
Device Description Ch. (min) (max) (max) (typ) (typ) (max) (typ) (max) (min) (typ) Supply Rail Avail. Package Price*
LMP2021/2 Zero Drift, Low Noise, EMI 1, 2 2.2 5.5 1.57 5 2.6 0.005 0.004 300 120 11 Y Out N SOT23-5, SOIC-8, 1.00
Hardened Amplifiers VSSOP-8
OPAy734/5 12 V, Zero-Drift, SHDN, CMOS 1, 2 2.7 12 0.75 1.6 1.5 0.005 0.01 200 115 135 Y Out N SOT-23, SOIC 1.25
LMP2011/2 High Precision, Rail-to-Rail Output 1, 2 2.7 5.25 1.5 3 4 0.025 0.015 100 35 N Out Y SOIC-8, SOT23-5, 0.90
Amplifiers VSSOP-8
OPAy334/5 Zero-Drift, SHDN, CMOS 1, 2 2.7 5.5 0.35 2 1.6 0.005 0.02 200 110 62 Y Out N SOT-23, MSOP 1.00
OPAy333 Zero Drift, CMOS, µPower 1, 2, 4 1.8 5.5 0.025 0.35 0.16 0.01 0.02 200 106 55 Y I/O Y SC-70, SOT-23, 0.95
SOIC
OPAy330 Low-Power, Zero-Drift, RRIO 1, 2, 4 1.8 5.5 0.035 0.35 0.16 0.05 0.02 500 100 55 Y I/O N SC-70, SOT-23, 0.45
Operation Amplifier SOIC, SON, VQFN,
TSSOP
OPAy381 Precision, Low Power, High-Speed 1, 2 2.7 5.5 1 18 12 0.025 0.03 50 95 114 Y Out N MSOP, DFN 0.75
Transimpedance Amplifier
OPAy188 Precision, Low-Noise, Rail-to-Rail 1, 2, 4 4.0 36.0 0.510 2.0 0.8 0.03 0.03 1400 130 9 Y I/O N MSOP, SOT-23, 0.80
Output, 36-V, Zero-Drift Op Amp SOIC, TSSOP
OPAy277 High Precision, Low Power 1, 2, 4 4 36 0.825 1 0.8 0.02 0.1 1000 130 8 N N N SON, SOIC 0.85
OPA177 Precision Operational Amplifier 1 6 36 25 0.6 0.3 0.025 0.1 2000 130 7.5 N N N PDIP, SOIC 1.00
OPAy378 Zero-Drift, GBW 0.9 MHz, Low IQ 1, 2 2.2 5.5 0.125 0.9 0.4 0.05 0.1 500 100 20 Y I/O N SC-70, SOT-23, 0.70
SOIC
OPAy227/28 Bipolar, Low Noise, Low IB 1, 2, 4 5 36 3.8 8, 33 2.3, 11 0.075 0.1 10000 120 3 N N N SOIC, PDIP 1.10
LMP867x 40 V Low Noise, Precision Amp 1, 2, 4 5 40 8 55 20 0.4 0.1 95000 105 2.5 N N N SOIC-8, SOIC-14 1.20
LMH6626 Wideband Low Noise 2 5 12 16 1300 360 0.5 0.2 20 87 1 Y N N SOIC 2.05
LMH6624 Wideband Low Noise 1 5 12 16 1400 400 0.5 0.2 20 87 0.92 Y N N SOT2-3, SOIC 1.86
OPAy727/8 e-trim™, CMOS 12 V, SHDN 1, 2, 4 4 12 6.5 20 30 0.15 0.3 500 86 23 Y Out N MSOP, SON 0.60
LMP223x Micropower, 1.6 V, Precision Op 1,2,4 1.6 5.5 0.018 0.13 0.058 0.15 0.3 50 81 60 Y Out N SOT23-5, SOIC-8, 1.17
Amp with CMOS Inputs VSSOP-8, SOIC-14,
TSSOP-14
OPAy376 Precision, Low Noise, e-trim Series 1, 2, 4 2.2 5.5 0.95 5.5 2 0.025 0.32 10 76 7.5 Y Out N SC-70, SOT-23 0.65
OPAy211 Bipolar, Ultra-Low Noise 1, 2 4.5 36 4.5 45 27 0.12 0.35 175000 114 1.1 Y Out Y MSOP, SOIC, SON 5.15
OPAy140 10 MHz, Single-Supply, Low- 1, 2, 4 4.5 36 2.0 11 20 0.12 0.35 10 120 5.1 Y Out N SOIC, MSOP, TSSOP, 1.55
Noise, JFET Precision Amplifier SOT-23
OPAy211A 1.1 nV/√Hz Noise, Low-Power, 1, 2 4.5 36 4.5 45 27 0.125 0.35 175000 114 1.1 Y Out N MSOP, SOIC, SON 3.45
Precision Operational Amplifier
TLE2027/37 Wide Supply, Low Noise, Bipolar 1 8 38 5.3 13, 50 2.8, 7.5 0.1 0.4 90000 100 2.5 N N Y SOIC, PDIP 0.90
OPAy241 Optimized for +5 V Supply, High 1, 2, 4 2.7 36 0.03 0.035 0.01 0.25 0.4 20000 80 45 Y Out N SOIC, DIP 1.15
CMRR and AOL
OPAy234 Low Power, Wide Supply, Bipolar 1, 2, 4 2.7 36 0.35 0.35 0.2 0.10 0.5 25000 91 25 N Out N MSOP, SOIC 1.05
OPAy251 Single Supply +36 V, High CMRR 1, 2, 4 2.7 36 0.038 0.035 0.01 0.25 0.5 20000 100 45 Y Out N SOIC, DIP 1.15
and AOL
OPA627/37 Ultra-Low THD+N, Difet 1 9 36 7.5 16, 55, 0.25 0.8 5 106 5.2 N N N PDIP, SOIC 12.25
80 135
OPAy209 Low Noise, Low Power, 36 V, 1, 2, 4 4.5 36 2.5 18 6.25 0.15 1 4500 120 2.2 Y Out N SOT-23, MSOP, SOIC 0.95
Operational Amplifier in SOT-2
LMP7711/ 17 MHz, Low Noise, CMOS Input 1, 2 2 5.5 1.75 17 11.5 0.15 1 100 85 5.8 N Out N SOT23-5, VSSOP-8 0.75
12/15/16/ Amplifiers
17/18
OPAy365 Zero-Crossover, Low VIO and Drift 1, 2 2.2 5.5 5 50 25 0.2 1 10 100 10.1 Y I/O N SOT-23, SOIC 0.65
OPAx320 20 MHz, Low-Noise, Low- Power, 1, 2, 4 1.8 5.5 1.6 20 10 0.15 1.5 0.9 100 8.5 Y I/O N MSOP, SON, 0.80
RRIO Precision CMOS SOT-23, SOIC
OPAy336 µPower, CMOS, Single Supply 1, 2, 4 2.3 5.5 0.032 0.1 0.03 0.125 1.5 10 80 40 Y Out Y SOT-23, SOIC 0.40
LMP7721 Ultra-Low Inputs Bias Current 1 1.8 5.5 1.95 17 12.76 0.15 1.5 0.9 84 6.5 Y Out N SOIC-8 4.70
Precison Amplifier
OPAy827 Precision, Low Noise, JFET Input 1, 2 8 36 5.2 22 28 0.15 2 10 104 4 N N N SOIC, MSOP 3.75
OPA124 Wide Bandwidth, Bipolar 1 10 36 3.5 1.5 1.6 0.3 2 1 94 8 N N N SOIC 3.95
OPAy340 CMOS, Wide Bandwidth 1, 2, 4 2.7 5.5 0.95 5.5 6 0.5 2.5 10 80 25 Y I/O Y MSOP, SOIC, SOT- 0.90
23, SSOP, PDIP
OPAy363/4 1.8 V, RRIO, High CMRR, 1, 2, 4 1.8 5.5 0.75 7 5 0.5 3 10 74 17 Y I/O N MSOP, SOIC, 0.60
Shutdown (0.9 µA) SOT-23
OPAy350 Excellent ADC Driver, Low Noise 1, 2, 4 2.5 5.5 7.5 38 22 0.5 4 10 74 18 Y I/O N PDIP, MSOP, SOIC, 1.15
SSOP
*Suggested resale price in U.S. dollars in quantities of 1,000. See www.ti.com/hirel for HiRel options. New products are listed in bold red.

Low Offset Voltage Operational Amplifiers (VOS <500 µV) (sorted by VOS) (continued)
IQ Per Slew VOS VOS V at
VS VS Ch. GBW Rate (25°C) Drift IB CMRR 1 NkHz Rail-
OPA836 Very Low Power, Rail to Rail Out, 1 2.5 5.5 1 118 580 0.4 6.3 1000000 116 4.6 Y Out Y QFN-10, SOT23-6 0.90
Negative Rail In, VFB Op Amp
OPA2836 Dual, Very Low Power, Rail to Rail 2 2.5 5.5 1 118 580 0.4 6.3 1000000 116 4.6 N Out N MSOP-10, SOIC-8, 1.50
Out, Negative Rail In, VFB Op Amp QFN-10
OPA835 Ultra Low Power, Rail to Rail Out, 1 2.5 5.5 0.34 30 130 0.5 8.5 400000 113 10.0 Y Out Y QFN-10, SOT23-6 0.85
Negative Rail In, VFB Amplifier
OPA2835 Dual, Ultra Low Power, Rail to 2 2.5 5.5 0.34 30 130 0.5 8.5 400000 113 10.0 Y Out Y MSOP-10, SOIC-8, 1.35
Rail Out, Negative Rail In, VFB QFN-10
Amplifier
*Suggested resale price in U.S. dollars in quantities of 1,000. See www.ti.com/hirel for HiRel options.
Low-Power Operational Amplifiers (IQ <1000 µA) (sorted by IQ)

IQ Slew VOS VOS VN at
VS Per Ch. GBW Rate (mV) Drift IB CMRR 1 kHz Rail-
VS (V) (V) (mA) (MHz) (V/µs) (25°C) (µV/°C) (pA) (dB) (nV/√Hz) Single to- HiRel
LPV521 Nano Power, RRIO, CMOS 1 1.6 5.5 0.0004 0.0062 0.0027 1 3.5 1 75 255 Y I/O N SC70 0.49
Input
TLV240x 2.5 V, Sub-μPower, SS, 1, 2, 4 2.5 16 0.00095 0.0055 0.0025 1.2 3 300 63 50 Y I/O N MSOP, SOIC, 0.65
CMOS SOT23
OPAy369 1 μA, SS, Zero Cross- 1, 2 1.8 5.5 0.001 0.012 0.005 0.75 0.4 50 100 290 Y I/O N SC70, SOT23, 0.65
over, CMOS MSOP
TLV224x Low Voltage, 1 μA, SS, 1, 2, 4 2.5 12 0.0012 0.0055 0.002 3 3 500 55 50 Y I/O N MSOP, SOIC, 0.65
CMOS SOT23
LPV511 Micro Power, RRIO 1 2.7 12 0.00175 0.025 0.007 3 15 800 75 320 Y I/O N SC70 0.45
OPAy349 2 μA, SS, CMOS 1, 2 1.8 5.5 0.002 0.07 0.02 10 15 10 52 300 Y I/O N SC70, SOIC, 0.45
SOT23
OPAy379 1.8 V, Ultra-Low Power, 1, 2, 4 1.8 5.5 0.0055 0.09 0.03 1.5 2.7 50 90 80 Y I/O N SC70, SOT23, 0.40
CMOS SOIC
LPV531 Programmable Micro 1 2.7 5.5 0.007 0.073 0.028 4.5 2 10 72 200 Y Out N TSOT23 0.45
Power, CMOS Input, R/R
Output
LPV321 Low voltage, Low Power, 1,2,4 2.7 5 0.012 0.152 0.1 7 2 50000 50 146 Y Out N SC70, SOT23, 0.29
RRIO SOIC, MSOP,
TSSOP
TLC27Lx LinCMOSTM Low-Power 1, 2, 4 3 16 0.017 0.085 0.03 10 1.1 60 65 68 Y N Y SOIC, PDIP 0.37
Operational Amplifier
LMP223x Micropower, 1.6 V, 1, 2, 4 1.6 5.5 0.018 0.13 0.058 0.15 0.3 50 81 60 Y Out N SOT23-5, SOIC-8, 1.17
Precision Operational VSSOP-8, SOIC-14,
Amp with CMOS Inputs TSSOP-14
OPAy333 17 μA, SS, RRIO, Zero- 1, 2 1.8 5.5 0.025 0.35 0.16 0.01 0.02 200 106 55 Y I/O Y SC70, SOT23, 0.95
Drift, CMOS SOIC
OPAy241 Optimized for +5 V Sup- 1, 2, 4 2.7 36 0.03 0.035 0.01 0.25 0.4 20000 80 45 Y Out N PDIP, SOIC 1.15
ply, High CMRR and AOL
OPAy336 μPower, SS, CMOS 1, 2, 4 2.3 5.5 0.032 0.1 0.03 0.125 1.5 10 80 40 Y Out Y SOT23, SOIC 0.40
OPAy347 μPower, Low Cost, SS, 1, 2, 4 2.3 5.5 0.034 0.35 0.17 6 3 10 70 60 Y I/O N SC70, SOT23, 0.20
CMOS WCP
OPAy330 Low-Power, Zero-Drift, 1, 2, 4 1.8 5.5 0.035 0.35 0.16 0.05 0.02 500 100 55 Y I/O N SC70, SOT23, 0.45
RRIO Operational SOIC, SON, VQFN,
Amplifier TSSOP
OPAy251 Single Supply +36 V, 1, 2, 4 2.7 36 0.038 0.035 0.01 0.25 0.5 20000 100 45 N Out N SOIC, PDIP 1.15
High CMRR and AOL
TLV245x μPower, SS, CMOS 1, 2, 4 2.7 6 0.042 0.22 0.11 1.5 0.3 5000 70 52 Y I/O N SOT23, SOIC, 0.60
PDIP
OPAy244 μPower, SS, Low Cost, 1, 2, 4 2.2 36 0.06 0.43 0.1 1.5 4 25000 84 22 Y Out N SOIC, SOT-23, 0.50
Bipolar PDIP
OPAy348 High Open-Loop Gain, 1, 2, 4 2.1 5.5 0.065 1 0.5 5 4 10 70 35 Y I/O N SC70, SOIC, 0.20
SS, CMOS SOT23
LMC7111 Tiny CMOS Amplifier with 1 2.5 11.0 0.075 0 0.0 9 2 20 85 110 Y I/O N 8PDIP 5SOT23 0.38
Rail-to-Rail Input/Output

Low-Power Operational Amplifiers (IQ <1000 µA) (sorted by IQ) (continued)

IQ Slew VOS VOS VN at
VS Per Ch. GBW Rate (mV) Drift IB CMRR 1 kHz Rail-
VS (V) (V) (mA) (MHz) (V/µs) (25°C) (µV/°C) (pA) (dB) (nV/√Hz) Single to- HiRel
LMV65x Low Power, Low Voltage, 1, 2, 4 2.7 5.5 0.14 12 3 1.5 6.6 120000 90 17 Y N N SC70, SOT23 0.40
12 MHz
OPAy170 36 V Single-Supply, 1, 2, 4 2.7 36 0.145 1 0.4 1.8 0.3 15 104 19 Y Out N SOT553, SOT23, 0.40
Low-Noise CMOS SOIC
Amplifier in SOT553
OPAy378 Zero-Drift, GBW 0.9 MHz, 1, 2 2.2 5.5 0.15 0.9 0.4 0.05 0.1 550 100 20 Y I/O N SC70, SOT23 0.70
Low IQ
LMV641 Low Power, 12 V, 10 MHz 1 2.7 12 0.19 10 2.6 0.5 0.1 90000 94 14 Y N N SC70, SOT23 0.62
OPAy703/4 12 V, RRIO, GBW 1 MHz 1, 2, 4 4 12 0.2 1 0.6 0.75 4 10 70 45 Y I/O N SOT23, PDIP, SOIC 1.30
LMV93x Low Voltage, RRIO 1, 2, 4 1.8 5.5 0.21 1.5 0.42 4 1.0 35000 60 50 Y I/O N SC70, SOT23 0.40
LMV98x Low Voltage, RRIO, 1, 2 1.8 5 0.21 1.5 0.42 4 1.0 35000 60 50 Y I/O N Micro SMD, SC70, 0.36
Shutdown SOT23
OPAy345 Wideband, Single 1, 2, 4 2.5 5.5 0.25 3 2 1 3 10 76 35 Y I/O N SOT23, SOIC 0.55
Supply (G >5)
OPAy137 Low Cost, FET-Input 1, 2, 4 4.5 36 0.27 1 3.5 3 15 100 76 45 N N N SOT23, SOIC, DIP 0.60
LMV83x Low Power, CMOS, 3.3 1, 2, 4 2.7 5.5 0.27 3.3 2 1 1.5 10 77 12 Y Out N SC70 0.55
MHz, EMI Hardened
OPA835 Ultra Low Power, Rail to 1 2.5 5.5 0.35 31 160 0.5 8.5 400000 91 9.3 Y OUT Y QFN-10, SOT23-6 0.85
Rail Out, Negative Rail In,
VFB Amplifier
OPA2835 Dual, Ultra Low Power, 2 2.5 5.5 0.35 31 160 0.5 8.5 400000 91 9.3 Y OUT N MSOP-10, SOIC-8, 1.35
Rail to Rail Out, Negative QFN-10
Rail In, VFB Amplifier
TLE202x Precision Low- 1, 2, 4 4 40 0.35 2.0 0.65 0.5 2 70000 100 17 Y N Y SOIC, PDIP, TSSOP 0.45
Power Single-Supply
OPAy234 Low Power, Precision 1, 2, 4 2.7 36 0.35 0.35 0.2 0.25 0.5 25000 91 25 Y N N MSOP, SOIC 1.50
OPAy334/5 Zero Drift, CMOS, SS, 1, 2 2.7 5.5 0.35 2 1.6 0.005 0.02 200 110 62 Y Out N SOT23 1.00
SHDN
LMV82x Low Voltage, Low Power, 1, 2, 4 2.5 5.5 0.4 5.6 2 3.5 1 100000 72 24 Y Out N SC70, SOT23 0.39
R/R Output, 5 MHz
LM6132/34 RRIO, Dual Low Power 2/4 2.7 24 0.40 10 14 2 5 140000 75 27 Y I/O N PDIP, SOIC 1.19
10 MHz Op Amp
LMV951 Low Voltage, 2.7 MHz, 1 0.9 3 0.48 2.7 1.4 2.8 0.15 80000 67 25 Y I/O N Thin SOT23 0.52
RRIO, Shutdown
LMV85x Low Power, CMOS, EMI 1, 2, 4 2.7 5.5 0.5 8 4.5 1 2 10 77 11 Y Out N SC70 0.63
Hardened
OPAy171 36 V Single-Supply, Low- 1, 2, 4 2.7 36 0.595 3 1.5 1.8 0.3 15 104 14 Y Out N SOT553, SOT23, 0.40
Noise CMOS Amplifier in SOIC
SOT553

Low-Noise Operational Amplifiers (VN ≤10 nV/√Hz) (sorted by VN)

Slew
IQ Per Rate VOS VOS VN at
VS VS Ch. GBW (V/ (25°C) Drift IB CMRR 1 kHz Rail-
(V) (V) (mA) (MHz) µs) (mV) (µV/°C) (pA) (dB) (nV/√Hz) Single to- HiRel
LMH6629 Single Ultra Low Noise 1 2.7 5.5 16.7 4000 1100 0.78 0.45 23 82 0.69 Y N N SOT, WSON 1.88
Wideband Op Amp
LMH6624 Single Low Noise Wideband 1 5 12 16 1500, 400 0.5 0.2 20 87 0.92 Y N N SOT, SOIC 1.86
Op Amp G =10
OPA161x High Performance, Bipolar 1, 2 4.5 36 4.5 80 27 0.5 1 250000 110 1.1 N Out N SOIC 1.75
Input, Audio Amp
LMH6626 Dual Low Noise Wideband 2 5 12 16 1300, 360 0.5 0.2 20 87 1 Y N N SOIC, MSOP 2.05
Op Amp G =10
OPAy211 Bipolar, Ultra-Low Noise 1 4.5 36 4.5 80 27 0.125 0.35 175000 114 1.1 N Out Y MSOP, SOIC, SON 5.15
OPAy211A 1.1 nV/√Hz Noise, Low-Power, 1, 2 4.5 36 4.5 80 27 0.125 0.35 175000 114 1.1 N Out N MSOP, SOIC, SON 3.45
LMH6733 Wideband, Low Voltage 1 GHz 3 3 12 7.3 1000 3750 2.2 30 19 53 2.1 Y N N SSOP 2.60
Triple Op Amp
OPAy209 Low-Noise, Low-Power, 1, 4.5 36 2.5 18 6.4 0.15 1 4500 120 2.2 Y Out N SOT23, MSOP, SOIC 0.95
36 V, Operational Amplifier 2, 4
in SOT23
LMH6738 Wideband, Low Distrotion 3 10 12 11.67 750 3300 2.5 30 0.001 46 2.2 Y N N SSOP 2.60
Triple Op Amp
LMH6703 Ultra Low Distortion, 1 8 12 12.5 1800 4200 7 22 20 45 2.3 Y N N SOIC, SOT23 1.37
Wideband Op Amp
TLE2027 Low-Noise Precision 1 8 38 5.3 13 2.8 0.1 0.4 90000 100 2.5 N N Y SOIC, PDIP 0.90
LMP773x 2.9 mN/√Hz Low Noise RRIO 1, 2 1.8 5.5 3.0 22 2.4 0.5 0.5 30000 105 2.9 Y I/0 N SOT23-5, SOIC-8 1.05
OPAy227 Precision, Low Noise, G≥5 1, 5 36 3.8 8 2.3 0.075 0.1 10000 120 3 N N N PDIP, SOIC 1.10
Bipolar 2, 4
LMH6609 900 MHz Voltage Feedback 1 6 12 8.5 900 1400 2.5 — 5 65 3.1 N N N SOT, SOIC 0.94
Op Amp
LMH6714/ Wideband Video Op Amp 1/2/4 10 12 7.5 400 1800 6 8 10 48 3.4 Y N N SOIC, SOT23, TSSOP, 0.77/0.85
20/22 WSON /1.49
LMH6715 Wideband Video Op Amp 2 10 12 7.5 480 1300 6 30 12 50 3.4 Y N Y SOIC 1.05
OPA827 Ultra-LowTHD+N, High 1 8 36 5.2 22 28 0.15 0.1 10 104 4 N N N MSOP, SOIC 3.75
Precision, Low Noise, JFET
LMH6723/ 370 MHz 1 mA Current 1/2 4.5 12 1.4 370 600 3 — 4 57 4.3 Y N N SOT, SOIC 0.80/
24 Feedback Op Amp 1.05
LMH6654/ Low Power, 250 MHz, 1/2 5 12 6 260, G 200 3 6 10 70 4.5 Y N N SOT, SOIC, MSOP 0.90/
55 Low Noise Op Amp >= 5 1.28
LMH6672 Dual, High Current, High Speed 2 5 12 9 90 170 5.5 5 14 150 4.5 Y N N SOIC, PSOP 1.60
Op Amp
Dual, Very Low Power, Rail to MSOP-10, SOIC-8,
OPA2836 Rail out, Negative Rail in, VFB 2 2.5 5.5 1 118 560 0.4 6.3 1000000 116 4.6 N Out N QFN-10 1.50
Op Amp
OPA836 Very Low Power, Rail to Rail Out, 1 2.5 5.5 1 118 560 0.4 6.3 1000000 116 4.6 Y Out Y QFN-10, SOT23-6 0.90
Negative Rail In, VFB Op Amp
OPAy140 10 MHz, Single Supply, Low 1, 4.5 36 2.0 11 20 0.12 0.35 10 126 5.1 Y Out N SOIC, MSOP, SOT23 1.55
Noise, JFET Precision Amp 2, 4
OPA627A Ultra-LowTHD+N, DifetTM Unit 1 9 36 7.5 16 55 0.25 1.2 10 100 5.6 N N N PDIP, SOIC 12.25
LMP771x Single and Dual Precision 1, 2 1.8 5.5 1.4 17 9.5 0.15 –1 1 85 5.8 Y Out N TSOT23, MSOP 0.80
17 MHz Low Noise CMOS
Input Amplifiers
LMV797 17 MHz Low Noise 1.8 V 1, 2 1.8 5.5 1.4 17 9.5 1.35 –1 1 80 5.8 Y Out N MSOP 0.63
CMOS Operational Amplifier
LMV791/2 17 MHz Low Noise 1.8 V CMOS 1, 2 1.8 5.5 1.4 17 9.5 1.35 –1 1 80 5.8 Y Out N TSOT-23 0.50
Operational Amplifier w/SD
LMV793/4 88 MHz Low Noise 1.8 V 1, 2 1.8 5.5 1.4 88 28.0 1.35 –1 1 80 5.8 Y Out N SOT23-5, SOIC 0.63
CMOS Operational Amplifier

Low-Noise Operational Amplifiers (VN ≤10 nV/√Hz) (sorted by VN) (continued)

Slew
IQ Per Rate VOS VOS VN at
VS VS Ch. GBW (V/ (25°C) Drift IB CMRR 1 kHz Rail-
(V) (V) (mA) (MHz) µs) (mV) (µV/°C) (pA) (dB) (nV/√Hz) Single to- HiRel
LM6211 Low Noise RRO Amplifier 1 5 24 1.25 20.0 5.6 2.7 0.25 25 85 6 Y Out N SOT23-5 1.08
w/CMOS Inputs and 24 V
Operation
LMV793 88 MHz Low Noise1.8 V CMOS 1 1.8 5 1.3 88 28 1.35 –1 1 80 6.2 Y Out N SOT23-5, SOIC-8 0.60
Decompensted Amplifier
OPAy141 10 MHz, Single-Supply, Low- 1, 4.5 36 2.3 10 20 3.5 2 20 120 6.5 Y Out N MSOP, SOIC,TSSOP 0.85
Noise, JFET Precision Amplifier 2, 4
LMV751 Low Noise, Single Low Vos 1 2.7 5 0.9 5 2.3 1 5 100 85 6.5 Y Out N SOT23-5 0.77
Op Amp
LMP7721 3 Femptoampere Input Bias 1 1.8 5.5 1.7 17 10.43 0.15 –1.5 0.020 84 6.5 Y Out N SOIC 4.70
Current Precision Amplifier
TLC07xC Wide-Bandwidth, High-Output- 1, 4.5 16 2.9 10 16 1.9 1.2 50 80 7 Y N N PDIP, SOIC, HTSSOP 0.47
Drive Op Amp Family 2, 4
OPA177 Precision Operational Amplifier 1 6 36 2 0.6 0.3 0.025 0.1 2000 130 7.5 N N N PDIP, SOIC 1.10
OPAy376 Low Offset, 5.5 MHz, ADC 1, 2.2 5.5 0.95 5.5 2 0.025 0.26 10 76 7.5 Y I/O N SC70, SOT23, SOIC 0.65
Buffer 2, 4
OPAy377 Low-Cost, Low-Noise, 5.5 MHz 1, 2.2 5.5 1.05 5.5 2 1 0.32 10 70 7.5 Y Out N SC70, SOT23, 0.40
CMOS Operational Amplifier 2, 4 SOIC,TSSOP
OPAy277 High Precision, Low Power 1, 4 36 0.825 1 0.8 0.05 0.15 2800 115 8 N N N SON, SOIC, PDIP 0.85
2, 4
OPA124 Low Noise, Precision, Bipolar 1 10 36 3.5 1.5 1.6 0.5 2 2 94 8 N N N SOIC 4.75
TLC220x Precision, Low Noise, 1, 2 4.6 16 1.5 1.9 2.7 0.5 0.5 60 90 8 Y Out Y SOIC, PDIP 1.75
LinCMOSTM
OPAy132 Wide Bandwidth, FET Input 1, 5 36 4.8 8 20 0.5 2 50 96 8 N N N PDIP, SOIC 1.45
2, 4
TLC227x Low-Noise Rail-to-Rail 2, 4 4.4 16 1.5 2.25 3.6 2.5 2 60 75 9 Y Out Y PDIP, SOIC, TSSOP 0.70
LMP770x Precision CMOS RRIO Wide 1, 2, 4 2.7 12 1.1 2.5 1.1 0.2 1 1 92 9 Y I/O N SOT23-5, SOIC 0.99
Supply Range Amplifier
LM6152/ 75 MHz Rail-to-Rail Input and 2, 4 2.7 24 2.25 80 30 7 10 500000 84 9 Y I/O N SOIC 1.42
54 Output Op Amp
OPA835 Ultra Low Power, Rail to Rail 1 2.5 5.5 0.25 31 160 0.5 8.5 400000 113 9.3 Y OUT Y QFN-10, SOT23-6 0.85
Out, Negative Rail In, VFB
Amplifier
OPA2835 Dual, Ultra Low Power, Rail to 2 2.5 5.5 0.25 31 160 0.5 8.5 400000 113 9.3 N OUT N MSOP-10, SOIC-8, 1.35
Rail Out, Negative Rail In, VFB QFN-10
Amplifier
OPA121 Precision, Difet Op-Amp 1 10 36 4.5 2 2 3 3 10 82 10 N N N SOIC 5.10
LMH6601 2.4 V R-R Out CMOS Video 1 2.4 5.5 11.5 155 275 2.4 5 0.00005 53 10 Y Out N SOT 0.65
Op Amp with Shutdown
LMH6611/ 345 MHz R-R Output Op Amp 1/2 2.7 11 3.8/ 135, G 460 0.6/0.75 0.4 10.1 81 10 Y Out N SOT, SOIC 0.70/
12 with Shutdown 4.05 = 10 0.95
LMH6618/ 130 MHz, 1.25 mA R-R I/O 1/2 2.7 11 1.6/ 64/57, 55 0.6 0.9 2.4 84 10 Y I/O N SOT, SOIC 1.19/
19 Op Amp with Shutdown 1.65 G = 10 1.79

Low Input Bias Current Operational Amplifiers (IB ≤10 pA) (sorted by IB)
IQ Per Slew VOS VOS VNat
VS VS Ch. GBW Rate (25°C) Drift IB CMRR 1kHz Rail-
Current Precision Amp
LMC6001 Ultra Ultra-Low Input 1 4.5 15.5 0.75 1.3 1.5 0.35 10 0.025 75 22 Y Out N MDIP 5.76
Current Amplifier
OPA129 Ultra-Low Bias, Difet Unit 1 10 36 1.8 1 2.5 2 3 0.1 0.1 80 N N N SOIC 3.20
OPAx320 20 MHz, Low-Noise, RRIO 1, 2, 4 1.8 5.5 1.6 20 10 0.14 5 1 114 7 Y I/O N MSOP, SON, 0.80
Precision CMOS SOT23, SOIC
LPV521 Nanopower 1.8 V RRIO 1 1.6 5.5 0.4 0.062 0.0029 1 4 1 75 259 Y I/O N SC70 0.65
CMOS Input Amplifier
LMP223x Micropower 1.6 V 1, 2, 4 1.6 5.5 0.016 0.13 0.058 0.15 0.3 1 81 60 Y Out N SOT23, MSOP, 0.90
Operational Amplifiers SOIC, TSSOP
OPA124 Low Noise, High Precision 1 10 36 3.5 1.5 1.6 0.5 2 2 94 8 N N N PDIP 3.95
OPA602 High-Speed, Precision, 1 10 36 4 6.5 35 1 3 2 88 13 N N N PDIP, SOIC 3.80
Difet Operation Amplifier
LMP201x High Precision Rail to Rail 1, 2, 4 2.7 5.25 1.2 3 4 0.025 0.015 3 95 35 Y Out N SOT23, SOIC, 1.05
Output Amplifier TSSOP
LMC606x Precision CMOS Micropower 1, 2, 4 4.5 15.5 0.032 0.1 0.02 0.8 1 4 75 83 Y Out N SOIC, MDIP 0.72
Operational Amps
LMC608x Precision CMOS Op Amps 1, 2, 4 4.5 15.5 0.75 1.3 0.8 0.35 1 4 75 22 Y Out N SOIC, MDIP 1.28
LPC66x Low Power CMOS Op Ampl 1, 2, 4 4.75 15.5 0.07 0.35 0.011 6 1.3 4 70 42 Y Out N SOIC, MDIP 0.78
LMC604x CMOS Operational Amps 1, 2, 4 4.5 15.5 0.026 0.075 0.02 6 1.3 4 75 83 Y Out N SOIC, MDIP 0.66
OPA627 Ultra-Low THD+N, Difet Unit 1 9 36 7.5 16 55 0.25 0.8 5 106 5.2 N N N PDIP, SOIC 12.25
OPAy300/1 Low Noise, 16-Bit Accurate, 1, 2 2.7 5.5 12 150 80 5 2.5 5 66 38 Y Out N SOT23, MSOP, 0.75
Shutdown (10 μA) SOIC
LM6211 Low Noise RRO CMOS 1 5 24 1.1 5.5 5.5 2.5 2 5 83 6 Y Out N SOT23-5 1.08
Amp with 24 V Operation
LMH6609 900 MHz Voltage 1 6 12 8.5 900 1400 2.5 7.8 5 67 3.1 Y N N SOT, SOIC 0.94
Feedback Op Amp
OPAy140 10 MHz, Low-Noise, JFET 1, 2, 4 4.5 36 2.0 11 20 0.12 0.35 10 120 5.1 Y Out N SOT23, SOIC, 1.55
Precision Amplifier MSOP, TSSOP
OPAy377 Low-Cost, Low-Noise, 1, 2, 4 2.2 5.5 1.05 5.5 2 1 0.26 10 70 7.5 Y Out N SC70, SOT23, 0.40
5.5 MHz CMOS Op Amp SOIC, TSSOP
OPA653 500 MHz, Fixed Gain of +2 1 7.0 13 33.5 500 2675 5 30 10 66 6.1 Y N N SOT23-5, 2.95
V/V, JFET input amplifier SON-8
OPA659 650 MHz Unity Gain Stable 1 7.0 13 33.5 650 2550 5 40 10 70 8.9 Y N N SOT23-5, 2.91
JFET Input Amplifier SON-8
OPAy376 Low Offset, 5 MHz, 1, 2, 4 2.2 5.5 0.95 5.5 2 0.025 0.26 10 76 7.5 Y Out N SC70, SOT23, 0.65
e-trimTM General Purpose MSOP, SOIC,
TSSOP
OPAy365 High Speed, Zero Cross 1, 2 2.2 5.5 5 50 25 0.2 1 10 100 13 Y I/O Y SOT23, SOIC 0.65
Over, CMOS
OPAy336 SS, μPower, CMOS 1, 2, 4 2.3 5.5 0.032 0.1 0.03 0.125 1.5 10 80 40 Y Out Y SOT23, MSOP, 0.40
SSOP, SOIC, PDIP
OPAy340 CMOS, Wide Bandwidth 1, 2, 4 2.7 5.5 0.95 5.5 6 0.5 2.5 10 80 25 Y I/O Y MSOP, SOIC, 0.90
SOT23, SSOP, PDIP
OPAy363/4 1.8 V, RRIO, High CMRR, 1, 2 1.8 5.5 0.75 7 5 0.5 3 10 74 17 Y I/O N MSOP, SOIC, 0.60
Shutdown (0.9 μA) SOT23
OPAy344 Low Power, RRIO, SS 1, 2, 4 2.5 5.5 0.25 1 0.8 1 3 10 76 32 Y I/O N SOT23, MSOP, 0.45
TSSOP, SOIC, PDIP
OPAy350 Excellent ADC Driver, Low 1, 2, 4 2.5 5.5 7.5 38 22 0.5 4 10 74 18 Y I/O N PDIP, MSOP, SOIC, 1.15
Noise SSOP
OPAy703/4 12 V, Low Power, SHDN, 1, 2, 4 4 12 0.2 3 3 0.75 4 10 80 45 Y I/O N MSOP, SOIC, PDIP 1.30
CMOS
OPAy743 12 V, 7 MHz, CMOS 1, 2, 4 3.5 12 1.5 7 10 7 8 10 70 30 Y I/O N MSOP, SOT23, 1.00
SOIC, PDIP
LMV83x 3.3 MHz Low Power CMOS 1, 2, 4 2.7 5.5 0.27 3.3 2 1 1.5 10 76 12 Y Out N SC70, MSOP, 0.55
EMI Hardened Amplifier TSSOP

Low Input Bias Current Operational Amplifiers (IB ≤10 pA) (sorted by IB) (continued)
IQ Per Slew VOS VOS VNat
VS VS Ch. GBW Rate (25°C) Drift IB CMRR 1kHz Rail-
LPV531 Programmable Micropower 1 2.7 5.5 0.055 0.073 0.028 4.5 2 10 72 200 Y Out N TSOT 0.45
CMOS Input Amplifier
LM7171 High Output Current, Voltage 1 5.5 36 8.5 200 4100 1 35 10 75 14 N N Y PDIP, SOIC 1.06
Feedback Amplifier
OPAx314 3 MHz, Low-Power, Low- 1, 2, 4 1.8 5.5 0.21 3 1.5 2.5 1 10 75 14 — I/O — SC70, SOT23 0.25
Noise, RRI/O, 1.8 V CMOS
OPAx313 1-MHz, Micropower, Low- 2 1.8 5.5 0.06 1 0.5 2.5 2 10 70 25 — I/O — SC70, SOT23 0.45
Noise, Rail-to-Rail I/O
1.8-V Operational Amp
OPAy170 36 V Single-Supply, Low- 1, 2, 4 2.7 36 0.145 1.2 0.4 1.8 0.30 15 104 19 Y Out N SOT553, SOT23, 0.40
Power CMOS Amplifier in SOIC, VSSOP,
SOT553 TSSOP
OPAy171 36 V Single-Supply, Low- 1, 2, 4 2.7 36 0.475 3 1.5 1.8 0.30 15 104 30 Y Out N SOT553, SOT23, 0.40
Noise CMOS Amplifier in SOIC, VSSOP,
SOT553 TSSOP
LMH6601 2.4 V R-R Out CMOS Video 1 2.4 5.5 11.5 155 275 2.4 5 50 56 10 Y Out N SOT 0.65
Op Amp with Shutdown
LM641 Single 10 MHz, 12 V Low 1 2.7 12 0.19 10 2 0.5 0.1 9000 94 14 Y Out N SOT-5-DBV, SOT- 0.62
Power Op Amp DCK-5, SOIC-8-O
Wide-Bandwidth Precision Operational Amplifiers (GBW >5 MHz) (sorted by GBW)

IQ Per Slew VOS VOS VN at
VS VS Ch. GBW Rate (25°C) Drift IB CMRR 1 kHz Rail-
OPAy340 CMOS, Wide Bandwidth 1, 2, 4 2.7 5.5 0.95 5.5 6 0.5 2.5 10 80 25 Y I/O Y MSOP, SOIC, 0.90
SOT23, SSOP,
PDIP
OPAy376 Precision, Low-Noise, Low IQ 1, 2, 4 2.2 5.5 0.95 5.5 2 0.025 0.26 10 76 7.5 Y Out N SC70, SOT23, 0.65
Operational Amplifier MSOP, SOIC,
TSSOP
OPAy377 Low-Noise, 5.5 MHz CMOS 1, 2, 4 2.2 5.5 1.05 5.5 2 1 0.26 10 70 7.5 Y Out N SC70, 0.40
Operational Amplifier SOT23 SOIC,
TSSOP
TLE214x Widest Supply, Low Noise 1, 2, 4 4 44 4.5 6 42 0.5 1.7 1500000 85 10.5 Y N Y TSSOP, PDIP, 0.55
SOIC
OPAy743 12 V, 7 MHz, CMOS 1, 2, 4 3.5 12 1.5 7 10 7 8 10 70 30 Y I/O N MSOP, SOT23, 1.00
SOIC, PDIP
OPAy363/4 1.8 V, RRIO, High CMRR, 1, 2 1.8 5.5 0.75 7 5 0.5 3 10 74 17 Y I/O N MSOP, SOIC, 0.60
Shutdown (0.9 μA) SOT23
OPAy132 Wide Bandwidth, FET Input 1, 2, 4 5 36 4.8 8 20 0.5 2 50 96 8 N N N PDIP, SOIC 1.45
OPAy227 Precision, Low Noise, Bipolar 1, 2, 4 5 36 3.8 8 2.3 0.075 0.1 10000 120 3 N N N PDIP, SOIC 1.10
OPAy141 10 MHz, Single-Supply, 1, 2, 4 4.5 36 2.3 10 20 3.5 2 20 120 6.5 Y Out N MSOP, SOIC, 0.85
Low- Noise JFET Amplifier TSSOP
TLC08x Low Noise, WideBandwidth, 1, 2, 4 4.5 16 2.5 10 16 1.4 1.2 50 80 8.5 Y N Y MSOP, SOIC, 0.45
Bipolar PDIP
LMV641 10 MHz, 12 V, Low Power Amp 1 2.7 12 0.17 10 2.3 0.5 0.1 95000 89 14 Y Out N SC70, SOIC 0.62
OPAy140 11 MHz, Precision, Low-Noise, 1, 2, 4 4.5 36 2.0 11 20 0.12 0.35 10 120 5.1 Y Out N SOT23, SOIC, 1.55
JFET Amplifier MSOP, TSSOP
TLE2027 Low-Noise Precision 1 8 38 5.3 13 2.8 0.1 0.4 90000 100 2.5 N N Y SOIC, PDIP 0.90
LMP770x Precision CMOS RRIO Wide 1,2,4 2.7 12 1 14 5.6 0.2 1 1 86 9 Y I/O N SOT23-5, 0.99
Supply Decompensated Amp SOIC

Wide-Bandwidth Precision Operational Amplifiers (GBW >5 MHz) (sorted by GBW) (continued)
IQ Per Slew VOS VOS VN at
VS VS Ch. GBW Rate (25°C) Drift IB CMRR 1 kHz Rail-
LM8272 RRIO, High Output Current & 2 2.5 24 1.15 15 12 5 2 2 61 15 Y I/O N SOIC 1.30
Unlimited Cap Load Op Amp in
Miniature Package
OPA627 Ultra-Low THD+N, DifetTM Unit 1 9 36 7.5 16 55 0.25 0.8 5 106 5.2 N N N PDIP, SOIC 12.25
Current Precision Amplifier
LMP771x Single and Dual Precision 1,2 1.8 5 1.3 17 9.5 0.18 –1 1 83 5.8 Y Out N TSOT23, 0.75
17 MHz Low Noise CMOS MSOP
Input Amplifiers
LM6142/44 RRIO, Dual High Speed/Low 2/4 1.8 24 0.8 17 25 1 3 0.28 79 16 Y I/O N PDIP, SOIC 2.21/
Power 17 MHz Op Amp 2.94
OPAy209 Low-Noise, Low-Power, 1, 2, 4 4.5 36 2.5 18 6.25 0.15 1 4500 120 2.2 Y Out N SOT23, 0.95
36 V Op Amp in SOT23 MSOP, SOIC
OPAx320 20 MHz, Low-Noise, RRIO 1, 2, 4 1.8 5.5 1.6 20 10 0.15 1.5 0.9 100 8.5 Y I/O N MSOP, SON, 0.80
OPAx322 20 MHz, Low-Noise, RRIO 1, 2, 4 1.8 5.5 1.9 20 10 2.00 1.8 10 90 8.5 Y I/O N MSOP, SON, 0.50
OPAy727/8 20 MHz, e-trimTM Precision 1, 2, 4 4 12 6.5 20 30 0.15 0.3 500 86 23 Y N N MSOP, SON 0.95
CMOS
OPAy725/6 12 V CMOS Op Amp 1, 2 4 12 5.5 20 30 3 4 200 94 23 Y Out N SOT23, SOIC, 0.60
MSOP
LMP773x 2.9 mN/√Hz Low Noise RRIO 1,2 1.8 5.5 2.7 21 2.4 0.5 0.5 30000 105 2.9 Y I/0 N SOT23-5, 1.05
Operational Amplifiers SOIC8
LM8261 RRIO, High Output Current & 1 2.5 30 1.5 21 12 5 2 2 72 15 Y I/O N SOT 0.95
Unlimited Cap Load Op Amp
in SOT23-5
LM8262 RRIO, High Output Current & 2 2.5 22 1.4 21 12 5 2 2 72 15 Y I/O N MSOP 1.05
Unlimited Cap Load Op Amp in
MSOP-8
OPAy827 Ultra-Low THD+N, High 1, 2 8 36 5.2 22 28 0.15 1 50 104 4 N N N MSOP, SOIC 3.75
Precision
OPAy228 Precision, Low Noise, G = 5, 1, 2, 4 5 36 3.8 33 11 0.075 0.1 10000 120 3 N N N PDIP, SOIC 1.10
Bipolar
OPAy350 Excellent ADC Driver, Low 1, 2, 4 2.5 5.5 7.5 38 22 0.5 4 10 74 18 Y I/O N PDIP, MSOP, 1.15
Noise SOIC, SSOP
OPAy365 High Speed, Zero Crossover, 1, 2 2.2 5.5 5 50 25 0.2 1 10 100 13 Y I/O Y SOT23, SOIC 0.65
CMOS
TLE2037 Low-Noise High-Speed 1 8 38 5.3 50 7.5 0.1 0.4 90000 100 2.5 N N Y SOIC, PDIP 0.90
OPAy211 Bipolar, Ultra-Low Noise 1, 2 4.5 36 4.5 80 27 0.125 0.35 175000 114 1.1 Y Out Y MSOP, SOIC, 5.15
SON
LM6171/72 Low Power, Low Distortion, 1, 2 5.5 34 4 100 3600/ 6/3 6/4 3 70 12 N N N/Y PDIP, SOIC 1.21/
Voltage Feedback Op Amp 3000 1.60
LMH6657/58 270 MHz Single Supply Op 1, 2 3 12 9 270 700 5 2 20 pA 75 11 Y N N SOIC, MSOP, 0.64/
Amp SC70 0.77
LMH6629 Single Ultra Low Noise 1 2.7 5.5 16.7 4000 1100 0.78 0.45 23 82 0.69 Y N N SOT, WSON 1.88
Wideband Op Amp
LMH6626 Dual Low Noise Wideband 2 5 12 16 1300, 360 0.5 0.2 20 87 1 Y N N SOIC, MSOP 2.05
Op Amp G = 10
LMH6611/12 345 MHz R-R Output Op Amp 1 2.7 11 3.8/4.05 135, 460 0.6/ 0.4 10.1 81 10 Y Out N SOT, SOIC 0.70/
with Shutdown G = 10 0.75 0.95
LMH6624 Single Low Noise Wideband 1 5 12 16 1500, 400 0.5 0.2 20 87 0.92 Y N N SOT, SOIC 1.86
Op Amp G = 10
LMH6618/19 130 MHz, 1.25 mA R-R I/O 1, 2 2.7 11 1.6/1.65 64/57, 55 0.6 0.9 2.4 83 10 Y I/O N SOT, SOIC 1.19/
Op Amp with Shutdown G = 10 1.79

General Purpose Amplifiers
IQ (25°C) VIO (25°C) (mV) Slew
Vs Vs Per Ch. (max) IB (nA) GBW Rate CMRR Vn ‘A’
(V) (V) (mA) A (temp) (MHz) (V/µS) (dB) (1 kHz) Shut- HiRel Standard Grade
Device Ch. (min) (max) (max) Standard Grade (max) RRIO (typ) (typ) (min) (nV/√Hz) down Avail. Packages Price* Price*
LM358 2 3 32 0.6 7 3 500 N 0.7 0.3 65 40 N N PDIP, SOIC, SOP, TSSOP, 0.10 0.11
MSOP/VSSOP
LM324 4 3 32 0.3 7 3 500 N 1.2 0.5 65 35 N N PDIP, SOIC, SOP, TSSOP 0.10 0.11
LM2904 2 3 26 0.6 7 2 500 N 0.7 0.3 50 40 N Y PDIP, SOIC, SOP, TSSOP, 0.11 0.27
MSOP/VSSOP
LM2902 4 3 26 0.3 7 2 500 N 1.2 0.5 50 35 N Y PDIP, SOIC, SOP, TSSOP 0.12 0.27
LMV321 1, 2, 2.7 5.5 0.17 7 — 500 Out 1.0 1 50 39 N Y SC70, SOT23, MSOP/ 0.26 —
LMV358 4 Y VSSOP, SOIC, TSSOP 0.30
LMV324 Y 0.30
LMV324S 4 2.7 5.5 0.17 7 — 500 Out 1.0 1 50 39 Y N SOIC, TSSOP 0.36 —
LMV931 1, 2, 1.8 5 0.21 4 — 75 IO 1.5 0.42 60 50 N Y SC70, SOT23, MSOP/ 0.29 —
LMV932 4 Y VSSOP, SOIC, TSSOP 0.41
LMV934 Y 0.42
LMV981 1, 2 1.8 5 0.21 4 — 75 IO 1.5 0.42 60 50 Y N SC70, SOT23, MSOP/ 0.55 —
LMV982 N VSSOP 0.55

High-Speed Amplifiers (>50 MHz)
2.4 GHz Programmable Differential Amplifier with Gain Control

LMH6881
The LMH6881 is a high-speed, high-performance, programmable differential amplifier. Key Features
With a bandwidth of 2.4 GHz and high linearity of 44 dBm OIP3, it is suitable for a wide • Small signal bandwidth: 2400 MHz
variety of signal conditioning applications. • OIP3 at 100 MHz: 44 dBm
The LMH6881 programmable differential amplifier family combines the best of both fully • HD3 at 100 MHz: −100 dBc
differential amplifiers and variable gain amplifiers. It offers superior noise and distortion • Noise figure: 9.7 dB
performance over the entire gain range without external resistors, enabling the use of • Voltage gain range: 26 dB to 6 dB
just one device and one design for multiple applications requiring different gain settings. • Voltage gain step size 0.25 dB
• Input impedance 100 Ω
• Parallel and serial gain control
• Power down capability
Applications
• Medical equipment
• Military: sonar and radar
• Point-to-point microwave backhaul
• Telecom tower: remote radio unit (RRU)
• Smart meters
LMH6881 functional block diagram
Get more information: www.ti.com/product/LMH6881
Very Low Power, Rail-to-Rail Operational Amplifiers

OPA835/6, OPA2835/6
Fabricated using the industry-leading BiCom-3x (SiGe complementary bipolar) process, Key Features
the OPA835/6 and OPA2835/6 are single and dual ultra-low-power, rail-to-rail output, • Ultra-low power
negative rail input, voltage-feedback operational amplifiers designed to operate over • OPA835/2835 bandwidth: 56 MHz
a power supply range of 2.5 V to 5.5 V single supply and ±1.25 V to ±2.75 V dual OPA836/2836 bandwidth: 205 MHz
supply. These devices set an industry leading power-to-performance ratio for rail-to-rail • OPA836/2836 CMRR: 113 dB
amplifiers. OPA835/2835 CMRR: 116 dB
0 • RRO – rail-to-rail output
-20
V SIG
2.7 V
V SIG • Input voltage range: –0.2 V to 3.9 V
0V
1k
2k
2.7 V
V S+
1.35 V
5V 2.5 V (5 V supply)
V IN
-40 OPA835
100
+In V DD REF • Operating temperature range:
2k
2.2 nF ADS8326
–40°C to 125°C
V S-
-In
A IN - d B c
-60
1k
-80
1k Applications
• Consumer electronics
-100 • High-speed data acquisition and
-120
generation
-140 • Motor control
0 20,000 40,000 60,000 80,000 100,000 120,000
• Smart meters
Frequency (Hz)
OPA835/6, OPA2835/6 functional block diagram
Get more information: www.ti.com/product/Part Number

(OPA835, OPA836, OPA2835, OPA2836)
Ultra-Low-Power, Fully-Differential Operational Amplifier

THS4531
The THS4531 is a low-power, fully-differential op amp with input common-mode range Key Features
below the negative rail and rail-to-rail output. The device is designed for low-power • Ultra-low power
data acquisition systems and high density applications where power consumption and • Fully-differential architecture
dissipation is critical. • Bandwidth: 36 MHz
The device features accurate output common-mode control that allows for dc coupling • Slew rate: 200 V/µs
when driving analog-to-digital converters (ADCs). This control, coupled with the input • THD: –120 dBc at 1 kHz
common-mode range below the negative rail and rail-to-rail output, allows for easy (1 VRMS, RL= 2 kΩ)
interface from single-ended ground-referenced signal sources to successive-approxi- • Input voltage noise:
—
mation registers (SARs), and delta-sigma (Δ∑) ADCs using only single-supply 2.5-V to 10 nV/√Hz (f = 1 kHz)
5-V power. The THS4531 is also a valuable tool for general-purpose, low-power differ- • High DC accuracy:
ential signal conditioning applications. • VOS drift: ±4 µV/°C (–40°C to +125°C)
• AOL: 114 dB
0 • Rail-to-rail output
−10 VS = 5 V
−20 G = 1 V/V • Negative rail input
−30 V OUT = 1 V RMS
RF = 2 kΩ • Output common-mode control
Magnitude (dBV)
−40
R L = 600 Ω
−50
−60 Applications
−70
−80 • Medical equipment
−90
−100 • Military: sonar and radar
−110
−120 • Motor control
−130
−140 • Personal navigation device
0 5k 10 k 15 k 20 k 24 k
• Smart meters
Frequency (Hz)
Get more information: www.ti.com/product/THS4531
2.8 GHz Ultra-Linear Fully Differential Amplifier

LMH6554
The LMH6554 is a high performance fully differential amplifier designed to provide the Key Features
exceptional signal fidelity and wide large-signal bandwidth necessary for driving 8- to • Small signal bandwidth: 2.8 GHz
16-bit high-speed data acquisition systems. This device has unity gain, small-signal • 2 VPP large signal bandwidth: 1.8 GHz
bandwidth of 2.8 GHz and allows operation at gains greater than unity without sacrific- 0.1 dB gain flatness: 830 MHz
ing response flatness, bandwidth, harmonic distortion, or output noise performance. • OIP3 at 150 MHz: 46.5 dBm
• HD2/HD3 at 75 MHz: –96/–97 dBc
—
• Input noise voltage: 0.9 nV/√Hz
V+ —
• Input noise current: 11 pA/√Hz
LMH6554 R2 • Slew rate: 6200 V/μs
ESD Proteciont
R 20k
Supply Bias
Circuitry
• Power: 260 mW
Mid-Point
R1 • Typical supply current: 52 mA
10k
Q2 Q1 V EN • Package: 14-lead LLP
Applications
R
I Tail • Cable modem termination system
• Military radar/sonar
V– • Software defined radio
• Wireless communications
LMH6554 functional block diagram

High-Speed Amplifiers
Distortion
Settling 1 VPP, IQ
BW BW GBW Time G = 25 MHz Per
Supply at ACL G = +2 Product Slew 0.10% VN VOS IB Ch. IOUT
Voltage ACL (MHz) (MHz) (MHz) Rate (ns) HD2 (dBc) HD3 (dBc) (nV/√Hz) (mV) (µA) (mA) (mA) HiRel
Device Ch. SHDN (V) (min) (typ) (typ) (typ) (V/µs) (typ) (typ) (typ) (typ) (max) (max) (typ) (typ) Avail. Package Price*
Voltage Feedback (Sorted by Ascending ACL Bandwidth)
LMH6645/46 N/N 0.71/1.05/
/47
1, 2, 1
/Y
2.5 to 12 1 55 55 55 22 125 –72, 1 MHz 62, 1 MHz 17 3 2 pA 0.725 20 N SOT, SOIC, MSOP
0.58
SOIC, MSOP
THS4051/52 1, 2 N ±5, ±15 1 70 38 — 240 60 –72, G=2 –90, G=2 14 10 6 8.5 100 Y PowerPAD™
0.95
+2.7, ±5, SOT23-5, MSOP,
THS4281 1 N
+15
1 90 40 — 35 78 –69, 1 MHz –76, 1 MHz 12.5 30 0.5 750 30 N SOIC
0.95
OPA2889 2 Y 5, ±5 1 115 60 75, G > 20 250 25 –80 –82 8.4 5 0.75 0.46 40 N MSOP, SOIC 1.20
LMH6618/19 1, 2 Y/N 2.7 to 11 1 130 53 64 / 57, G = 10 55 90 –75, 1 MHz –75, 1 MHz 10 0.6 2.4 pA 1.3 35 N SOT, SOIC 1.19 /1.79
LMH6642/ SOT, SOIC, TSSOP, 0.66/0.79/
43/44
1, 2, 4 N 2.7 to 12.8 1 130 46 130 135 68 –65, 1 MHz –80, 1 MHz 17 5 2.6 pA 2.7 115 N MSOP 1.30
LMH6626 2 N 5 to 12 10 160 — 1300, G = 10 360 14 –65, 10 MHz –80, 10 MHz 1 0.5 20 pA 12 100 N SOIC, MSOP 2.05
3600/
LM6171/72 1, 2 N 5.5 to 34 1 160 62 100
3000
48, 65 –50, 5 MHz –50, 5 MHz 12 6/3 3 pA 4/3 135 / 85 N/Y PDIP, SOIC 1.21/1.60
SOIC, MSOP
THS4081/82 1, 2 N ±5, ±15 1 175 70 — 230 43 –63, G=2 –73, G=2 10 7 6 3.4 85 N PowerPAD
1.20
SOIC, SOIC
OPA2614 2 N 5, ±6 2 180 180 290, G ≥ 20 145 35 –92, 1 MHz –110, 1 MHz 1.8 1 14.5 6.5 350 N PowerPAD
1.95
LMH6624 1 N 5 to 12 10 180 — 1500, G = 10 400 14 –65, 10 MHz –80, 10 MHz 0.92 0.5 20 pA 12 100 N SOT, SOIC 1.86
MSOP-10, SOIC-8,
OPA2836 2 Y 2.5 to 5.5 1 205 100 118 560 30 4.6 0.4 1 1 50 85 105 N QFN-10
1.50
OPA836 1 Y 2.5 to 5.5 1 205 100 118 560 30 4.6 0.4 1 1 50 85 105 Y QFN-10, 6SOT23 0.90
LM7171 1 N 5.5 to 36 2 220 220 200 4100 42 –55, 5 MHz –75, 5 MHz 14 1 10 pA 8.5 100 Y PDIP, SOIC 1.06
3, 5, ±5, SOIC, MSOP
THS4221/22 1, 2 N
15
1 230 100 120, G > 10 975 25 –90 –100 13 10 3 14 100 N PowerPAD
.095
SOIC, SOIC
OPA2613 2 N 5, ±6 1 230 110 125, G ≥ 20 70 40 –95 –97 1.8 1 10 6 350 N PowerPAD
1.55
–75, 1 MHz, –83, 1 MHz, SOT23, SOIC
OPAy354/57 1, 2, 4 Y 2.5 to 5.5 1 250 90 100, G = 10 150 30
2 Vpp 2 Vpp
6.5 8 50 pA 4.9 100 Y PowerPAD
0.70
LMH6601 1 Y 2.4 to 5.5 1 250 130 155 275 50 –73, 10 MHz –56, 10 MHz 10 2.4 50 pA 9.2 150 N SOT 0.65
OPA699 1 N 5, ±5 4 260 — 1000, G = 6 1400 7 –67, 2Vpp –87, 2 Vpp 4.1 5 10 15.5 120 Y SOIC 1.95
LMH6657/58 1, 2 N 3 to 12 1 270 100 140 700 35 –57, 5 MHz –70, 5 MHz 11 5 20 pA 6.5 45 N SOIC, MSOP, SC70 0.67/0.95
OPAy890 1, 2 Y 5, ±5 1 275 92 130, G > 20 400 10 –102 –94 8 6 1.6 2.25 40 N MSOP, SOIC 0.75
SOIC, MSOP
THS4031/32 1, 2 N ±5, ±15 1 275 100 220 100 60 –81, THD — 1.6 2 6 8.5 90 Y PowerPAD
1.80
SOIC, MSOP
THS4011/12 1, 2 N ±5, ±15 1 290 50 — 310 37 –84, G=2 –96, G=2 7.5 6 6 7.8 110 Y PowerPAD
1.85
+3, +5,
OPAy830 1, 2 ,4 N
±5
1 310 120 110, G ≥ 10 600 42 –71 –77 9.5 1.5 10 4.25 150 N SOT23, SOIC 0.50
SOIC, SOIC, MSOP
THS4631 1 N ±15 1 325 105 210, G > 20 1000 40 –76 –94 7 0.26 100 pA 11.5 98 N PowerPAD
3.55
LMH6611/12 1, 2 Y 2.7 to 11 1 345 112 135, G = 10 460 67 –82, 5 MHz –80, 5 MHz 10 0.6/ 0.75 10.1 pA 3.2 120 N SOT, SOIC 0.70/0.95
OPA842 1 N ±5 1 350 150 200 400 15 –94 –93 2.6 1.2 35 20.2 100 N SOT23, SOIC 1.55
–106, G
OPA657 1 N ±5 7 350 — 1600, G > 40 700 10 –74, G = 10
= 10
4.8 1.8 20 pA 14 70 N SOT23, SOIC 4.10
–74, 1 MHz, –79, 1 MHz,
OPAy300/301 1 Y 2.7 to 5.5 1 400 80 150 80 30
G=2 G=2
3 5 0.5 12 40 N SOT23, SOIC 0.75
OPA2822 2 N 5, ±5 1 400 200 240, G ≥ 20 170 32 –95 –105 2 1.2 12 4.8 150 N SOIC, MSOP 1.35
OPA656 1 N ±5 1 400 185 230, G > 10 290 8 –74 –100 6 2 20 pA 25 60 N SOT23, SOIC 3.65
–81, 1 MHz, –93, 1 MHz, SOT23, SOIC,
OPAy356 1, 2 N 2.5 to 5.5 1 450 100 200, G = 1 300 30
G=2 G=2
5.8 9 50 pA 8.3 60 Y MSOP
0.70
–81, 1 MHz, –93, 1 MHz, SOT23, SOIC,
OPAy355 1, 2, 3 Y 2.5 to 5.5 1 450 100 200, G ≥ 10 300 30
G=2 G=2
5.8 9 50 pA 8.3 60 N MSOP, TSSOP
0.70
OPA698 1 N 5, ±5 1 450 215 250, G ≥ 5 1100 — –74, 2 Vpp –87, 2 Vpp 5.6 5 10 15.5 120 Y SOIC 1.90
OPAy690 1, 2, 3 Y 5, ±5 1 500 220 300, G > 10 1800 8 –77 –81 5.5 4 8 5.5 190 N SOT23, SOIC, 1.35
SSOP
OPA843 1 N ±5 3 500 — 800, G = 5 1000 7.5 –96, G = 5 –110, G = 5 2 1.2 35 20.2 100 N SOT23, SOIC 1.60
OPAy846 1, 2 N ±5 7 500 — 1750, G ≥ 40 625 10 –100, G = 10 –112,
= 10
G 1.2 0.6 19 12.6 80 N SOT23, SOIC 1.70
OPA847 1 Y ±5 12 600 — 3800, G ≥ 50 950 10 –105, G = 20 –105,

= 20
G 0.85 0.5 39 18.1 75 N SOT23, SOIC 2.00
OPA2652 2 N ±5 1 700 200 200, G ≥ 10 335 — –76 –66 8 7 15 5.5 140 N SOT23, SOIC 1.15
OPAy820 1, 4 N 5 to ±5 1 800 240 280, G ≥ 20 240 18 –90 –110 2.5 0.75 17 5.6 110 N SOIC, SOIC 0.90
PowerPAD
LMH6609 1 N 6 to 12 1 900 280 900 1400 15 –63, 20 MHz –57, 20 MHz 3.1 2.5 5 pA 7 90 N SOT, SOIC 0.94
LMH6629 1 Y 2.7 to 5.5 10 1000 — 4000 1100 42 –74, 1 MHz –88, 1 MHz 0.69 0.78 23 pA 15.5 250 N SOT, WSON 1.88

High-Speed Amplifiers (continued)

Distortion
Settling 1 VPP, IQ
Voltage Feedback (Sorted by Ascending ACL Bandwidth) (continued)
THS4271/75 1 Y 5, ±5, 15 1 1400 390 400, G > 10 1000 25 –70, 30 MHz –90 3 10 15 22 160 Y SOIC, MSOP 2.25
PowerPAD™
THS4304 1 N 3 to ±5 1 3000 1000 870, G > 10 1000 5 –100 –100 2.4 4 6 18 100 Y SOT23, SOIC, 2.20
MSOP
2 (A
LM6152/54 2, 4 N 2.7 to 24 10 — — 75 30 1100 46 50 9 version), 0.98 pA 2 6.2 N SOIC 1.49/2.70
5 (B
version)
Current Feedback (Sorted by Ascending Gain of +2 Bandwidth)
THS3110/11 1 Y ±5, ±15 1 100 90 — 1300 27 –53, 10 –62, 10 3 6 20 4.8 260 N SOIC, MSOP 1.25
MHz, ±15 V MHz, ±15 V PowerPAD
THS3112/15 2 Y ±5, ±15 1 110 110 — 1550 63 –70, ±15 V –61, ±15 V 2.2 8 23 4.9 270 N SOIC, SOIC 2.50
PowerPAD
THS3120/1 1 Y ±5, ±15 1 130 120 — 1500 11 –53, ±15 V –65, ±15 V 2.5 6 3 7 475 N SOIC, MSOP 1.85
PowerPAD
THS3122/25 2 Y ±5, ±15 1 160 128 — 1550 64 –69, ±15 V –70, ±15 V 2.2 6 23 8.4 440 N SOIC, SOIC 3.70
PowerPAD
OPAy683 1, 2 Y 5, ±5 1 200 150 — 540 — –65, RL –74, RL 4.4 3.5 4 0.94 110 N SOT23, SOIC 1.20
=1k =1k
OPAy684 1, 2, Y 5, ±5 1 210 160 — 820 — –66, RL –89, RL 3.7 3.5 35 1.7 120 N SOT23, SOIC, 1.35
3, 4 =1k =1k TSSOP
OPA2677 2 N 5, ±6 1 220 200 — 2000 — –82, G = 4 –93, G = 4 2 4.54 30 9 500 N SOIC, SOIC 1.50
PowerPAD, QFN
THS3091/5 1 Y ±5, ±15 1 235 210 — 5000 42 –77, ±15 –69, ±15 2 3 15 9.5 280 N SOIC, SOIC 2.65
VRL = 1 kΩ VRL = 1 kΩ PowerPAD
THS3092/6 2 Y ±5, ±15 1 235 210 — 5000 42 –66, ±15 –78, ±15 2 4 15 9.5 280 N SOIC, SOIC 4.90
VRL = 1 kΩ VRL = 1 kΩ PowerPAD
SOIC, SOIC
OPA2674 2 Y 5, ±6 1 250 225 — 2000 — –82, G = 4 –93, G = 4 2 4.5 30 9 500 N 1.75
PowerPAD
1, SOT23, SOIC,
OPAy691 Y 5, ±5 1 280 225 — 2100 8 –79 –93 1.7 2.5 35 5.1 190 N 1.45
2, 3 SSOP
LMH6723/24 1, 2 N 5 to 12 1 370 260 370 600 30 –63, 5 MHz –65, 5 MHz 4.3 3 4 pA 1 110 N SOT, SOIC 0.80/1.05
–68, 20 –72, 20 QFN, MSOP
OPA2673 2 Y ±6 1 300 300 — 2800 — 1.9 TBD 10 28 700 N 1.65
MHz, G = 4 MHz, G = 4 PowerPAD
OPAy694 1, 2 N ±5 1 1500 690 — 1700 13 –92 –93 2.1 4.1 18 5.8 80 N SOT23, SOIC 1.25
–72, 10
LMH6733 3 Y 3 to 12 1 1000 830 1000 3750 10 –63, 10 MHz 2.1 2.2 19 pA 5.5 80 N SSOP 2.60
MHz
1,
OPAy695 Y 5, ±5 1 1700 1400 — 4300 — –78, G = 8 –86, G = 8 1.8 3 30 12.9 120 N SOT23, SOIC 1.35
2, 3
Fully Differential Amplifiers (Sorted by Ascending Gain Bandwidth Product)
SOIC-8, QFN-10,
THS4531/A 1 Y 2.5 to 5.5 1 36 17 27 220 25 –127, 10 KHz –135, 10 KHz 10 1 0.21 0.25 50 Y 1.10/1.21
VSSOP-8
THS4532 2 Y 2.5 to 5.5 1 36 16 27 220 25 –127, 10 KHz –135, 10 KHz 10 0.4 0.21 0.25 50 - 16TSSOP 1.85
THS4521/ –140, SOIC, MSOP,
1, 2, 4 Y 2.5, 5.5 1 145 50 95 490 13 –133, 10 KHz 4.6 3.5 0.9 1.14 55 N 1.10
2/4 10 KHz TSSOP
THS4130/ 5, ±5, –72, G = 1, –53, G = 1, SOIC, MSOP
1 Y 1 150 90 180 52 78 1.3 2 6 12.3 85 N 2.80
31 ±15 ±15 V ±15 V PowerPAD
THS4502/ –83, 8 MHz, –97, 8 MHz, SOIC, MSOP
1 Y 5, ±5 1 370 175 300, G > 10 2800 6.3 6 7 4.6 23 120 N 4.00
03 G=1 G=1 PowerPAD
LMH6554 1 Y 4.7 to 5.25 1 2800 2500 10000 6200 4 –79, 250 MHz –70, 250 MHz 0.9 4 8 pA 52 80 N WSON 4.49
–101, 1 MHz, –101, 1 MHz,
THS4520 1 Y 3 to 5 1 600 400 1200 520 7 2 25 11 13 105 N QFN 1.65
G=1 G=1
–106,
THS4511 1 Y 3, 5 1 1600 1400 2000 4900 3.3 –117, 10 MHz 2 5.2 15.5 39.2 61 Y QFN 4.35
10 MHz
–110, –108,
THS4513 1 Y 3, 5 1 1600 1400 2800 5100 16 2.2 5.2 13 37.7 96 Y QFN 4.10
10 MHz, 10 MHz
–105,
THS4508 1 Y 3, 5 2 2000 2000 3000 6400 2 –104, 10 MHz 2.3 5 15.5 39.2 61 N QFN 4.95
10 MHz
–109,
THS4509 1 Y 3, 5 2 2000 2000 3000 6600 2 –104, 10 MHz 1.9 5 13 37.7 96 Y QFN 3.75
10 MHz
4.75 to –74,
LMH6881 1 Y — 2400 — 40000 6000 — –65, 200 MHz 2.3 — — 200 N WSSON TBD
5.25 200 MHZ
4.75 to –74,
LMH6882 2 Y — 2400 — 40000 6000 — –65, 200 MHz 2.3 — — 200 N WSSON TBD
5.25 200 MHZ
–88,
PGA870 1 Y 5 — — 650 — 2900 5 –93, 100 MHz — 35 — 143 50 N QFN 4.35
100 MHz
–86,
THS770006 1 Y 5 — — 2400 — 3100 2.2 –78, 100 MHz 1.7 12.5 100 100 80 N QFN 4.10
100 MHz


Distortion
Settling 1 VPP, IQ
Fully Differential Amplifiers (Sorted by Ascending Gain Bandwidth Product) (continued)
–84,
THS770012 1 Y 5 — 900 — — 3300 2.2 –73, 100 MHz 1.5 22.5 100 100 80 N QFN 4.10
100 MHz
LMH6550 1 Y 5 to 12 1 400 — — 3000 8 –103, 5 MHz –92, 5 MHz 6 5 16 pA 20 75 N SOIC, MSOP 2.29
LMH6551 1 N 3 to 12 1 370 — — 2400 18 –94, 5 MHz 96, 5 MHz 6 5 10 pA 12.5 65 N SOIC, MSOP 1.60
LMH6552 1 Y 4.5 to 12 1 1500 930 — 3800 10 –74, 70 MHz –84, 70 MHz 1.1 16.5 8 pA 22.5 80 N SOIC, WSON 3.95
LMH6553 1 N 4.5 to 12 1 900 — — 2300 10 –90, 20 MHz –79, 20 MHz 1.2 — 2 pA 29.1 150 N PSOP, WSON 3.35
LMH6555 1 N 3 to 4.2 — 1200 — — 1300 — –60, 250 MHz –67, 250 MHz 3.9 — — 120 — N WSON 5.70
4.75 to –83,
LMH6521 2 Y — 1200 — — — — –84, 200 MHz 33 — — 112.5 — N WSON 6.15
5.25 200 MHz
4.75 to –75,
LMH6522 4 Y — 1400 — — — — –78, 200 MHz 33 — — 116.25 — N WSON 9.85
5.25 200 MHz
Programmable Fully Differential Amplifiers
4.75 to
LMH6881 1 Y — 2400 — 40000 — — –78, 200 MHz — — — — — — N WSON TBD
5.25
4.75 to
LMH6882 2 Y — 2400 — 40000 — — –78, 200 MHz — — — — — — N WSON TBD
5.25
Fixed and Programmable Gain (Sorted by Ascending ACL Bandwidth)
THS7001/ ±4.6,
1, 2 Y 2 70 85 — 85 70 –65 –80 1.7 — 8 5.5 70 N HTSSOP 5.85
02 ±16
OPAy832 1, 2 N 2.8 to ±5 1 90 80 — 350 45 –66 –73 9.2 7 10 4.25 120 N SOT23, SOIC 0.45
5, ±5,
BUF634 1 N 1 180 — — 2000 200 — — 4 100 20 15 250 N SOIC 3.50
±15
SOT23, SOIC,
OPAy692 1, 3 Y 5, ±5 1 280 225 — 2000 8 –79 –94 1.7 2.5 35 5.1 190 N 1.15
SSOP
3.3, 5,
BUF602 1 N 1 1200 — — 8000 — –76 –98 5.1 30 7 5.8 60 N SOT23,SOIC 0.85
±5
OPAy693 1 Y 5, ±5 1 1400 700 — 2500 12 –82, 10 MHz –96, 10 MHz 1.8 2 35 13 120 N SOT23, SOIC 1.60
–75, 70 MHz, –80, 70 MHz, MSOP
THS4303 1 Y 3, 5 10 1800 — 18000 5500 — 2.5 4.25 10 34 180 N 2.60
G = 10 G = 10 PowerPAD™
–75, 70 MHz, –85, 70 MHz, MSOP
THS4302 1 Y 3, 5 5 2400 — 12000 5500 — 2.8 4.25 10 37 180 N 2.90
G=5 G=5 PowerPAD
–88,
PGA870 1 Y 5 — — 650 — 2900 5 –93, 100 MHz — 35 — 143 50 N QFN 4.35
100 MHz
–86,
THS770006 1 Y 5 — — 2400 — 3100 2.2 –78, 100 MHz 1.7 12.5 100 100 80 N QFN 4.10
100 MHz
–67,
LMH6555 1 N 3 to 4.2 — 1200 — — 1300 — –60, 250 MHz 3.9 — — 120 — N WSON 5.70
250 MHz
4.75 to –83,
LMH6521 2 Y — 1200 — — — — –84, 200 MHz 33 — — 112.5 — N WSON 6.15
5.25 200 MHz
4.75 to –75,
LMH6522 4 Y — 1400 — — — — –78, 200 MHz 33 — — 116.25 — N WSON 9.85
5.25 200 MHz
JFET-Input and CMOS Amplifiers
2.7 to
OPA358 1 Y 1 100 10 80 55 35 — — 6.4 6 50 pA 7.5 50 N SC70 0.45
3.3
2.7 to
OPAy380 1, 2 N 1 100 10 90 80 — — — 67 0.025 50 pA 7.5 50 N MSOP, SOIC 1.95
5.5
2.5 to SOT23, SOIC
OPAy354 1, 2, 4 N 1 250 90 100, G = 10 150 30 –75, 1 MHz –83, 1 MHz 6.5 8 50 pA 4.9 100 Y 0.70
5.5 PowerPAD
2.5 to SOT23, SOIC
OPAy357 1, 2 Y 1 250 90 100, G = 10 150 30 –75, 1 MHz –83, 1 MHz 6.5 8 50 pA 4.9 100 N 0.70
5.5 PowerPAD
OPAy300/ 2.7 to
1, 2 Y 1 — 80 150 80 30 –72, 1 MHz –79, 1 MHz 3 5 5 pA 12 40 N SOT23, SOIC 0.75
301 5.5
2.5 to
OPAy355 1, 2, 3 Y 1 450 100 200, G = 10 300 30 –81, 1 MHz –93, 1 MHz 5.8 9 50 pA 8.3 60 N MSOP 0.70
5.5
2.5 to
OPAy356 1, 2 N 1 450 100 200, G = 10 300 30 –81, 1 MHz –93, 1 MHz 5.8 9 50 pA 8.3 60 Y SOT23, SOIC 0.70
5.5
SOIC, SOIC &
THS4631 1 N ±15 1 325 105 210, G > 20 1000 40 –76 –94 7 0.26 100 pA 11.5 98 N 3.55
MSOP PowerPAD
–72, SOT23,
OPA653 1 N 7 to 13 2 500 500 — 2675 –90, 10 MHz 6.1 5 50 33.5 70 N 2.95
10 MHz SON
–106,
OPA657 1 N ±5 7 350 — 1600, G > 40 700 10 –74, G = 10 4.8 1.8 2 pA 14 70 N SOT23, SOIC 4.10
G = 10
–100,
OPA659 1 N 7 to 13 2 650 335 350, G >20 2550 8 –79, 10 MHz 8.9 5 50 33.5 70 N SOT23, SON 2.95
10 MHz


Distortion
Settling 1 VPP, IQ
Transconductance Amplifiers
OPA860 1 N ±5 1 470 — 470 3500 — –77 –79 2.4 — 5 11.2 15 N SOIC 2.45
OPA861 1 N ±5 1 80 — 400 900 — –68 –57 2.4 — 1 5.4 15 N SOT23, SOIC 1.05
Transimpedance Amplifiers (Sorted by Ascending Gain Bandwidth Product)
OPAy380 1, 2 N 2.7, 5.0 1 90 45 90 80 2000 — — 5.8 0.025 50 pA 6.5 50 N MSOP, SOIC 1.95
SOIC, SOIC and
THS4631 1 N ±15 1 325 105 210, G > 20 1000 40 –76 –94 7 0.26 100 pA 11.5 98 N 3.55
MSOP PowerPAD™
–106,
OPA657 1 N ±5 7 350 — 1600, G > 40 700 10 –74, G = 10 4.8 1.8 20 pA 14 70 N SOT23, SOIC 4.10
G = 10
–112,
OPAy846 1, 2 N ±5 7 500 — 1750, G ≥ 40 625 10 –100, G = 10 1.2 0.6 19 12.6 80 N SOT23, SOIC 1.70
G = 10
–105,
OPA847 1 Y ±5 12 600 — 3800, G ≥ 50 950 10 –105, G = 20 0.85 0.5 39 18.1 75 N SOT23, SOIC 2.00
G = 20
LMH6629 1 Y 2.7 to 5.5 10 1000 — 4000 1100 42 –74, 1 MHz –88, 1 MHz 0.69 0.78 23 pA 15.5 250 N SOT, WSON 1.88
Multiplexers
MPA4609 4 N 5 190 90 — — 150 — — — 0.65 0.2 — 12.5 — N TQFP 4.95
OPAy875 1, 3 Y ±3 to ±6 2 700 700 — 3100 3 –71 –90 6.7 7 ±18 11 ±70 N MSOP, SOIC 1.45
±3.5 to –78,
OPA4872 1 Y 1 1100 500 — 2300 14 –60, 10 MHz 4.5 5 18 10.6 ±75 Y SOIC 2.15
±6 10 MHz
LMH6570/ 13.8 pA 2.50/
1 Y 6 to 12 2 500 500 — 2200 — –68, 5 MHz –84, 5 MHz 5 15/20 5.5 / 5 80 N SOIC
74 /13 pA 2.60
LMH6572 3 N 6 to 12 2 350 350 — 1400 — –78, 10 MHz –75, 10 MHz 5 14 2.8 23 pA 80 N SSOP 3.50
Voltage-Limiting Amplifiers
OPA698 1 N 5, ±5 1 450 215 250 1100 — –82 –88 5.6 5 10 15.5 120 Y SOIC 1.90
OPA699 1 N 5, ±5 4 260 — 1000 1400 — — — 4.1 5 10 15.5 120 Y SOIC 1.95
RF/IF Amplifiers
MicroMLP,
THS9000/1 1 N 3, 5 5.8 500 — — — — — — 0.6 — — Var — N 1.05
SOT23
DC Restoration (Sample/Hold Amplifier)
OPA615 1 N ±5 1 710 — — 2500 — –62 –47 4.6 4 1 13 5 N SOIC, MSOP 4.55
Video Amplifiers (Sorted by Ascending G = +2 Bandwidth)

–3 dB at 0.1dB Offset IQ
Supply G = +2 Gain Diff Diff Slew Voltage Per Ch. Input
Voltage Bandwidth Flatness Gain Phase Rate (mV) (mA) Range HiRel
Device Description Ch. SHDN (V) (MHz) (MHz) (%) (°) (V/µs) (max) (typ) (V) RRO Avail. Package Price*
THS7374 SDTV, 6th-Order 4 Y 2.85 to 5 9.5 — 0.5 0.5 150 380 4 –0.1 to Y N TSSOP-14 0.55
Butterworth, 6 dB Gain 1.46
THS7375 SDTV, 6th-Order 4 Y 2.85 to 5.5 9.5 — 0.5 0.5 150 365 4 –0.1 to 0.9 Y N TSSOP-14 0.55
Butterworth, 5.6 V/V
Gain
THS7372 4-Channel Video 4 Y 2.7 to 6 9.5 10 0.15 0.25 250 400 7.1 –0.14 to Y N TSSOP-14 0.85
Amplifier with 1-SD 1.46
and 3-Full-HD Filters
with 6-dB Gain
THS7320 3-Channel ED Filter 3 Y 2.6 to 5 17 11 0.15 0.1 80 320 1.17 –0.03 to Y N DSBGA-9 0.85
Video Amplifier with 0.65
4V/V Gain
OPAy832 VFB, Fixed Gain 1, N +2.8, ±5 80 — 0.1 0.16 350 7 4.25 –0.5 to 1.5 Y N SOT23, SOIC 0.70
2, 3
OPAy354 VFB, Low Cost 1, N 2.5 to 5.5 100 40 0.02 0.09 150 8 4.9 –0.1 to 5.4 Y Y SOT23, SOIC, 0.70
2, 4 MSOP, TSSOP

Video Amplifiers (Sorted by Ascending G = +2 Bandwidth) (continued)

–3 dB at 0.1 dB Offset IQ
Supply G = +2 Gain Diff Diff Voltage Per Ch. Input
Voltage Bandwidth Flatness Gain Phase Slew Rate (mV) (mA) Range HiRel
Device Description Ch. SHDN (V) (MHz) (MHz) (%) (°) (V/µs) (max) (typ) (V) RRO Avail. Package Price*
OPAy357 VFB, Low Cost, SHDN 1, 2 Y 2.5 to 5.5 100 40 0.02 0.09 150 8 4.9 –0.1 to 5.4 Y N SOT23, SOIC, 0.70
MSOP
OPAy830 Voltage Feedback 1, N +2.8, ±5.5 110 — 0.07 0.17 600 7 4.25 –0.45 to Y N SO-8, SOT23 0.50
2, 4 1.2
OPAy683 Current Feedback 1, 2 Y ±5, +5 150 37 0.06 0.03 540 1.5 0.9 ±3.75 N N SOT23, SOIC, 1.20
MSOP
THS7353 I2C, Selectable SD/ED/ 3 Y 2.7 to 5.5 9/16/35/ 5/9/20/25 0.15 0.3 40/70/ 20 5.9 0 to 3.4 Y N TSSOP-20 1.65
HD/Bypass, 5th-Order 150 150/300
LPF, 0 dB Gain
OPAy684 Current Feedback 1, 2, Y ±5, +5 160 19 0.04 0.02 820 3.5 1.7 ±3.75 N N SOT23, SOIC 1.35
3, 4
VCA822 Wideband, Variable 1 Y ±5 168 28 — — 1700 17 36 –2.1 to N N MSOP, SOIC 2.80
Gain, Linear in V/V +1.6
THS7303 I2C, Selectable SD/ED/ 3 Y 2.7 to 5.5 9/16/35/ 5/9.5/ 0.13 0.55 40/75/ 35 6 0 to 2.4 Y N TSSOP-20 1.65
HD/Bypass, 5th-Order 190 22/125 155/320
LPF, 6 dB
OPAy355 VFB, Low Cost, SHDN 1, Y 2.5 to 5.5 200 75 0.02 0.05 300 9 8.3 –0.1 to 3 Y N SOT23, SOIC, 0.70
2, 3 MSOP, TSSOP
OPAy356 VFB, Low Cost 1, 2 N 2.5 to 5.5 200 75 0.02 0.05 300 9 8.3 –0.1 to 3 Y Y SOT23, SOIC, 0.70
MSOP
OPAy690 Voltage Feedback 1, Y ±5, +5 220 30 0.06 0.03 1800 4 5.5 ±3.5 N N SOT23, SOIC 1.35
2, 3
OPAy691 Current Feedback 1, Y ±5, +5 225 90 0.07 0.02 2100 2.5 5.1 ±3.5 N N SOT23, SOIC 1.45
2, 3
OPAy692 CFB1, Fixed Gain 1, 3 Y ±5, +5 240 120 0.07 0.02 2000 2.5 5.1 ±3.5 N N SOT23, SOIC 1.15
THS7360 3-SD and 3-SD/ED/ 6 Y 2.7 to 5 9.2/17/35/ 8/15/31/ 0.15 0.35 850 315 2.5 –0.1 to 2.3 Y N TSSOP-20 0.99
HD/Full-HD Filters and 70/290 61/180
High Gain
THS7364 3-SD and 3-Full-HD 6 Y 2.7 to 5 9.5/72/350 8.2/60/300 0.2 0.35 500 400 2.3 –0.1 to 2.3 Y N TSSOP-20 0.80
Filters and 6-dB Gain
THS7368 3-SD and 3-SD/ED/ 6 Y 2.7 to 5 9.5/18/36/ 8.2/16/30/ 0.2 0.35 600 400 2.3 –0.1 to 2.3 Y N TSSOP-20 0.95
HD/Full-HD Filters and 72/375 60/300
6-dB Gain
THS7327 RGBHV Buffer, I2C, 3 Y 2.7 to 5.5 9/16/35/ 4/7/15/ 0.3 0.45 1300 65 33 0 to 2.4 Y N TQFP-48 3.35
2:1MUX 75/500 38/56
THS7347 RGBHV Buffer, I2C, 3 Y 2.7 to 5.5 500 350 0.05 0.1 1300 15 26.8 0 to 2.4 Y N TQFP-48 2.75
2:1MUX
OPAy693 CFB, Fixed Gain 1, 3 Y ±5, +5 700 200 0.03 0.01 2500 2 13 ±3.4 N N SOT23, SOIC 1.60
VCA824 Ultra-Wideband, 1 Y ±5 710 135 — — 2500 17 36 2.1 to +1.6 N N MSOP, SOIC 3.50
Variable Gain, Linear
in V/V
OPA695 Current Feedback 1, Y ±5, +5 1400 320 0.04 0.007 4300 3 12.9 ±3.3 N N SOT23, SOIC 1.35
2, 3
OPA615 DC Restoration 1 N ±5 N/A N/A N/A N/A 2500 N/A 13 ± 3.5 N N SO-14, MSOP 4.55
SN10501 High Speed, 1,2,3 N 3, 5, ±5 230 100 50 0.007 0.007 25 100 ±4.0 N N SOIC, HTSSOP, 0.70
SN10502 Rail-to-Rail MSOP Power- 1.20
SN10503 PAD™, 0.85 1.65
Video Multiplexers
OPA4872 4:1 MUX 1 Y ±3.5, ±6 500 120 0.035 0.005 2300 5 10.6 ±2.8 N Y SOIC 2.15
OPAy875 2:1 MUX 1, 3 Y ±3, ±6 700 200 0.025 0.025 3100 7 11 ±2.8 N N MSOP, SOIC 1.45
SSOP, QSOP
Voltage-Controlled Amplifiers
VN Bandwidth Specified Number of Variable Gain HiRel
Device (nV/√Hz) (MHz) (typ) at VS (V) Channels Range (dB) Available Package Price*
< 50 MHz
VCA8613 1.2 14 3 8 40 N TQFP-64 25.40
VCA8500 0.8 15 3.3 8 45 N QFN-64 32.00
VCA8617 1 15 3 8 40 N TQFP-64 24.00
VCA810 2.4 30 ±5 1 80 N SO-8 6.15
VCA2618 5.4 30 5 2 43 N TQFP-32 9.25

Voltage-Controlled Amplifiers (continued)

VN Bandwidth Specified Number of Variable Gain HiRel
Device (nV/√Hz) (MHz) (typ) at VS (V) Channels Range (dB) Available Package Price*
< 50 MHz (continued)
VCA2612 1.25 40 5 2 45 N TQFP-48 12.50
VCA2613 1 40 5 2 45 N TQFP-48 10.25
VCA2614 4.8 40 5 2 40 N TQFP-32 8.35
VCA2616/2611 0.95 40 5 2 40 N TQFP-48 10.25
VCA2619 5.9 40 5 2 50 N TQFP-32 8.40
VCA2615 0.7 42 5 2 52 N QFN-48 8.05
> 50 MHz
VCA2617 3.8 50 5 2 48 N QFN-32 7.95
LMH6502 7.7 130 5 to 12 1 70 N SO-14, TSSOP-14 3.48
LMH6503 6.6 135 5 to 12 1 70 N SO-14, TSSOP-14 3.48
LMH6505 4.4 150 7 to 12 1 80 N SO-8, MSOP-8 2.52
VCA820 6 150 ±5 1 40 N MSOP-10, SO-14 2.80
VCA822 6 150 ±5 1 40 V/V N MSOP-10, SO-14 2.80
THS7530 1.27 300 5 1 46 N HTSSOP-14 3.95
VCA821 8.2 420 ±5 1 40 N MSOP-10, SO-14 3.50
VCA824 8.2 420 ±5 1 40 V/V N MSOP-10, SO-14 3.50
Line Drivers
BW BW Slew VN VOUT Swing Power IQ/ IOUT Disable/
Gain = 1 Gain = +2 Rate f >1MHz (RLOADΩ) Supply Amplifier (mA) Power HiRel
Device Description (MHz) (MHz) (V/µs) (nV/√Hz) (min) (V) Range (V) (mA) (max) (min) Control Avail. Package Price*
THS6204 Dual-Port, Differential — 114 3800 2.5 ±10.9 (100) ±5 to ±14 21.5/port ±416 Y N QFN, HTSSOP 1.40
VDSL2 Line Driver
THS6214 Dual Port, Differential — 114 3800 2.7 ±10.9 (100) ±5 to ±14 21/port ±416 Y N QFN, HTSSOP 1.40
VDSL2 Line Driver
OPA2691 Dual, Wideband, CFB Amp 280 225 2100 1.7 ±3.7 (100) +5 to ±6.0 5.3 ±190 Y N SOIC 2.30
with Disable
OPA2690 Dual, Wideband, VFB Amp 500 220 1800 5.5 ±3.7 (100) +5 to ±6.0 5.8 ±190 Y N SOIC 2.15
with Disable
THS6093 ADSL CPE Line Driver with 90 — 400 2.1 1.3 to 3.7 (100) ±2.25 to ±7 9.5 ±240 Y N SOIC, HTSSOP 2.15
Shutdown
THS6092 ADSL CPE Line Driver 90 — 400 2.1 1.3 to 3.7 (100) ±2.25 to ±7 12 ±240 N N SOIC, SOIC 2.15
PowerPAD™
THS6042 ADSL CPE Line Driver 120 95 600 2.2 ±4.1 (25) ±5 to ±15 9.5 ±300 N N SOIC, SOIC 4.10
PowerPAD
THS6043 ADSL CPE Line Driver with 120 95 600 2.2 ±4.1 (25) ±5 to ±15 9.5 ±300 Y N SOIC, HTSSOP 3.60
Shutdown
THS6226 Class H, Fixed Gain VDSL2 — — 1500 6.3 +16/–4 (60) 10 to 12.5 24.5 383 Y N QFN-32 1.50
Dual Port Low-Power
xDSL Line Driver
OPA2614 Dual, High I/O with — 180 145 1.8 ±4.9 (100) +5 to ±6.3 6 ±350 N N SOIC, SOIC 1.95
Current Limit PowerPAD
OPA2613 Dual, High I/O with 230 110 70 1.8 ±4.7 (50) +5 to ±6.3 6 ±350 N N SOIC, SOIC 1.55
Current Limit PowerPAD
OPA2670 VDSL2 Line Driver with — 420 5000 3.6 ±4.8 (50) +5.5 to 12.6 15.75 ±500 Y N QFN 1.25
Power Control (G=±5)
OPA2677 Dual, Wideband, High I/O 220 200 2000 2 ±5.0 (100) +5 to ±6.3 12 ±380 N N SOIC, SOIC 1.50
PowerPAD, QFN
OPA2674 Dual Wideband, High I/O 250 225 2000 2 ±5.0 (100) +5 to ±6.3 9.3 ±380 Y N SOIC 1.75
with Current Limit
THS6184 Dual-Port, Low Power Diff. 50 40 340 3 ±4.1 (100) ±4 to ±12 4.2 ±400 Y N QFN, HTSSOP 3.75
xDSL Line Driver
THS6132 High-Efficiency Class-G 80 70 300 3.5 ±9.9 (30) ±3.0 to 3 ±400 Y N SOIC, SOIC 2.65
ADSL Line Driver ±16.5 PowerPAD, QFN
THS6182 Low-Power ADSL Line 100 80 450 3.2 3.7 (25) 4 to 16.5 12.5 ±450 Y N SOIC, SOIC 3.70
Driver PowerPAD, QFN
OPA2673 Dual, High I/O with Active 600 450 3000 2.4 ±4.8 (100) 3.5 to 6.5 19 ±700 Y N QFN, MSOP 1.65
Off Line Control
OPA4684 Quad Low-Power CFB Amp 250 170 750 3.7 ±3.9 (1000) +5 to ±6.0 1.8 –100/+120 N Y SOIC, TSSOP 3.30
OPA2683 Dual Very Low Power 200 150 400 4.4 ±4.1 (1000) +5 to ±6.0 2.06 –100/+120 Y N SOIC, MSOP, 1.85
CFB Amp SOT23-8
OPA2684 Dual Low-Power CFB Amp 250 170 750 3.7 ±3.9 (1000) +5 to ±6.0 1.8 –100/+130 N N SOIC, SOT23-8 2.10

Instrumentation Amplifiers
Low Noise Instrumentation Amplifiers for Industrial Applications

INA826
The INA826 36 V instrumentation amplifier enables accurate sensor measurement in Key Features
the industrial environment by combining 200 µV offset voltage and input common mode • Low offset voltage: 200 µV
range beyond the power supply rails. Operating from 2.7 V to 36 V on 200 µA operat- • Robust input architecture:
ing current, the INA826 makes it easy to achieve precision measurements in single and Extended input voltage range: Vcc - 0.8 V
bipolar supply applications. ±40 V input protection
EMI hardened
+3 V 3V • Excellent AC performance
CMRR (G = 1): 90 dB min
—
Input noise: 16 nV/√Hz
• Industrial supply:
RG INA826 VO +2.7 to +36 V, ±1.35 V to ±18 V
300 Ω
REF Low power: 200 μA
Rail-to-rail output
−40 to +125°C
150 Ω
• 8-MSOP, 8-DFN, and 8-SOIC
R 1 (1)
Applications
• Industrial process controls
INA826 functional block diagram • Circuit breakers
• Medical instrumentation
• Portable data acquisition
Get more information: www.ti.com/product/INA826
Input Offset CMRR BW IQ
Non Bias at Offset at at Noise Per
Linearity Current G = 100 Drift G = 100 G = 100 1 kHz Power Amp
(%) (nA) (µV) (µV/°C) (dB) (kHz) (nV/√Hz) Supply (mA) HiRel
Device Description Gain (max) (max) (max) (max) (min) (min) (typ) (V) (max) Avail. Package Price*
Single Supply: Vsmax < = 5.5 V
INA333 Zero Drift, Low Power, 1 to 10000 0.001 0.2 25 0.1 100 3.5 50 1.8 to 5.5 0.075 Y MSOP-8, 1.80
Precision DFN-8
INA337 RRIO, Auto-Zero, Low Drift 0.1 to 10000 0.01 2 100 0.4 106 1 33 2.7 to 5.5 3.4 N MSOP-8 1.95
INA338 RRIO, Auto-Zero, Shutdown 0.1 to 10000 0.01 2 100 0.4 106 1 33 2.7 to 5.5 3.4 N MSOP-10 2.80
INA326 CM >Supply, Wide Temp 0.1 to 10000 0.01 2 100 0.4 100 1 33 2.7 to 5.5 3.4 N MSOP-8 1.95
INA327 RRIO, Auto-Zero, Low Drift 0.1 to 10000 0.01 2 100 0.4 100 1 33 2.7 to 5.5 3.4 N MSOP-10 2.45
INA155 CM >Supply, SHDN, Wide 10, 50 0.015 0.01 1000 51 86 110 40 2.7 to 5.5 2.1 N SO-8, 1.10
Temp MSOP-8
INA2321 RRIO, Auto-Zero, CM > 5 to 1000 0.01 0.01 500 71 90 25 100 2.7 to 5.5 0.06 N TSSOP-14 1.75
Supply, Low Drift
INA321 RRIO, Auto-Zero, SHDN 5 to 1000 0.01 0.01 500 71 90 25 100 2.7 to 5.5 0.06 N MSOP-8 1.10
INA331 Low-Power, Single-Supply, 5 to 1000 0.015 0.010 500 51 90 750 46 2.7 to 5.5 0.49 N MSOP-8 0.80
CMOS
INA2331 CM >Supply, Low Drift 5 to 1000 0.015 0.010 1000 51 80 750 46 2.7 to 5.5 0.49 N TSSOP-14 1.20
INA156 Zero Drift, Low Power, Precision 10, 50 0.015 0.010 8000 51 74 50 40 2.7 to 5.5 2.5 N MSOP-8 1.20
INA2322 Low Offset, RRO, Wide Temp, 5 to 1000 0.015 0.01 10000 71 60 25 100 2.7 to 5.5 0.06 N TSSOP-14 0.95
SR = 6.5 V/µs
INA2332 RRO, Wide BW, SHDN, Wide 5 to 1000 0.01 0.01 8,000 51 60 500 46 2.7 to 5.5 2.7 to N TSSOP-14 0.95
5.5
*Suggested resale price in U.S. dollars in quantities of 1,000. 1Typical Value Only See www.ti.com/hirel for HiRel options.

Instrumentation Amplifiers (continued)

Input Offset CMRR BW IQ
Non Bias at Offset at at Noise Per
Linearity Current G = 100 Drift G = 100 G = 100 1 kHz Power Amp
(%) (nA) (µV) (µV/°C) (dB) (kHz) (nV/√Hz) Supply (mA) HiRel
Device Description Gain (max) (max) (max) (max) (min) (min) (typ) (V) (max) Avail. Package Price*
Single Supply: Vsmax < = 5.5 V
INA322 RRO, SHDN, Wide Temp, 5 to 1000 0.015 0.01 10,000 71 60 25 100 2.7 to 5.5 2.7 to N MSOP-8 0.95
Low Cost 5.5
INA332 RRO, Wide BW, SHDN, Wide 5 to 1000 0.01 0.01 8,000 51 60 500 46 2.7 to 5.5 2.7 to N MSOP-8 0.54
Temp, Low Cost 5.5
INA330 Optimized for Precision 10 kΩ — — 0.21 60 0.21 — 1 0.0001°C 2.7 to 5.5 2.7 to N MSOP-10 1.90
Thermistor Applications 5.5
Wide Supply: Vsmax < = 50 V
INA826 Precision RRIO 36 V 1 to 1000 0.0005 65.00 157 2 120 60 20 2.7 to 0.25 N MSOP-8, 1.10
36 V SO-8, QFN
INA827 Precision RRIO 36 V Minimum 5 to 1000 0.0005 50.00 170 2.8 110 150 17 2.7 to 0.25 N MSOP-8, 1.10
Gain of 5 36 V SO-8, QFN
INA128 Precision, Low Noise, Low 1 to 10000 0.001 5 55 0.7 120 200 8 ±2.25 to 0.75 N DIP-8, SOIC-8 3.05
Drift ±18
INA129 Precision, Low Noise, Low 1 to 10000 0.001 5 55 0.7 120 200 8 ±2.25 to 0.75 Y DIP-8, SOIC-8 6.00
Drift, AD620 Second Source ±18
INA141 Precision, Low Noise, Low 10, 100 0.002 5 50 0.5 117 200 8 ±2.25 to 0.8 N DIP-8, SOIC-8 3.55
Power, Pin Compatible with ±18
AD62121
INA114 Precision, Low Drift 1 to 10000 0.002 2 50 0.25 110 10 11 ±2.25 to 3 N DIP-8, SO-16 4.80
±18
INA115 Precision, Low Drift, w/Gain 1 to 10000 0.002 2 50 0.25 110 10 11 ±2.25 to 3 N SO-16 4.20
Sense Pins ±18
INA131 Low Noise, Low Drift 100 0.002 2 50 0.25 110 70 12 ±2.25 to 3 N DIP-8 6.00
±18
INA118 Precision, Low Drift, Low Power 1 to 10000 0.002 5 55 0.7 107 70 10 ±2.25 to 0.39 N DIP-8, SOIC-8 4.80
±18
INA110 Fast Settle, Low Noise, Wide 1, 10, 100, 0.02 0.05 280 2.5 106 470 10 ±6 to ±18 4.5 N DIP-16, 7.00
BW 200, 500 SOIC-16
INA111 Fast Settle, Low Noise, Wide BW 1 to 1000 0.005 0.02 520 6 106 450 10 ±6 to ±18 4.5 N DIP-8, SO-16 4.80
INA101 Low Noise, Wide BW, Gain 1 to 1000 0.002 20 27 0.25 96 25 13 ±5 to ±20 8.5 N PDIP-14, 7.95
Sense Pins, Wide Temp SO-16
INA103 Precision, Fast Settle, Low 1 to 1000 0.01 12000 300 1.21 100 800 1 ±9 to ±25 12.5 N DIP-16, 5.00
Drift, Audio, Mic Pre-Amp, SO-16
THD+N = 0.0009%
INA163 Precision, Fast Settle, Low 1 to 10000 0.00061 12000 300 1.21 100 800 1 ±4.5 to 12 N SOIC-14 2.90
Drift, Audio, Mic Pre Amp, ±18
THD+N = 0.002%
INA166 Precision, Fast Settle, Low 2000 0.005 12000 250 2.50 100 450 1.3 ±4.5 to 12 N SO-14 5.95
Drift, Audio, Mic Pre-Amp, ±18
THD+N = 0.09%
INA217 Precision, Low Drift, Audio, 1 to 10000 0.0006 12000 300 1.21 100 800 1.3 ±4.5 to 12 N DIP-8, SO-16 2.50
Mic Pre-Amp, THD+N = ±18
0.09%, SSM2017
Replacement
INA125 Precision with integrated 4 to 10000 0.01 25 250 2 100 4.5 38 2.7 to 36 0.53 N DIP-16, 2.05
Internal Ref, Sleep Mode SOIC-16
INA121 Low Bias, Precision, Low 1 to 10000 0.005 0.05 505 5 96 50 20 ±2.25 to 0.53 N DIP-8, SO-8 2.50
Power ±18
INA116 Ultra-Low IB 3 fA (typ), with 1 to 1000 0.005 0.000025 2020 40 86 70 28 ±4.5 to 1.4 N DIP-16, 4.20
Buffered Guard Drive Pins ±18 SO-16
INA122 µPower, RRO, CM to GND 5 to 10000 0.012 25 250 3 83 5 60 ±1.3 to 0.085 N DIP-8, 2.45
±18 SOIC-8
INA126 µPower, <1 V VSAT, 5 to 10000 0.012 25 250 3 83 9 35 2.7 to 36 0.2 N DIP/SO/ 1.05
Low Cost MSOP-8
INA2126 Dual INA126 5 to 10000 0.012 25 250 3 83 9 35 2.7 to 36 0.2 N DIP/SO/ 1.70
MSOP-16
*Suggested resale price in U.S. dollars in quantities of 1,000. 1Typical Value Only See www.ti.com/hirel for HiRel options. New products are listed in bold red.

Instrumentation Amplifiers (continued)

Non CMRR BW Noise
Linearity Offset at at at
at Offset Drift G = 100 G = 100 1 kHz Power IQ
G = 100 (µV) (µV/°C) (dB) (kHz) (nV/√Hz) Supply (mA) HiRel
Device Description Gain (%) (max) (max) (max) (min) (typ) (typ) (V) (max) Avail. Package Price*
Digitally Programmable Gain Amplifiers
PGA103 Precision, Single-Ended Input 1, 10, 100 0.01 500 21 — 250 11 ±4.5 to ±18 3.5 N SOIC-8 4.35
PGA202 High Speed, FET-Input, 1, 10, 100, 0.012 1120 13 92 1000 12 ±6 to ±18 6.5 N DIP-14 8.90
50 pA IB 1000
PGA203 High Speed, FET-Input, 1, 2, 4, 8 0.012 1120 13 92 1000 12 ±6 to ±18 6.5 N DIP-14 8.90
50 pA IB
PGA204 High Precision, Gain Error: 1, 10, 100, 0.002 50 0.25 110 10 13 ±4.5 to ±18 6.5 N SOIC-16, PDIP-16 8.35
0.25% 1000
PGA205 Gain Drift: 0.024 ppm/°C 1, 2, 4, 8 0.002 50 0.25 95 100 15 ±4.5 to ±18 6.5 N SOIC-16, PDIP-16 7.25
PGA206 High Speed, FET-Input, 1, 2, 4, 8 0.002 1500 21 95 600 1 ±4.5 to ±18 13.5 N DIP-16, SOIC-16 10.80
100 pA IB
PGA207 High Speed, FET-Input, 1, 2, 5, 10 0.002 1500 21 95 600 1 ±4.5 to ±18 13.5 N DIP-16, SOIC-16 11.85
100 pA IB
PGA112/3 Zero-Drift, Precision PGA 1 to 200 — 100 0.9 — 380 12 +2.2 V to 0.45 N MSOP-10 1.00
with 2 Ch MUX +5.5 V
PGA116/7 Zero-Drift, Precision PGA 1 to 200 — 100 1.2 — 380 12 +2.2 V to 0.45 N TSSOP-20 1.83
with 10 Ch MUX +5.5 V
PGA309 0.1% Digitally Calibrated 8 to 1152 0.002 50 0.2 20 60 210 +2.7 to +5.5 1.6 N TSSOP-16 2.95
Bridge Sensor Conditioner,
Voltage Output
PGA308 Single Supply, Auto-Zero, 4 to 1600 0.002 40 0.2 95 100 50 +2.7 to +5.5 2 N MSOP-10, 1.85
Sensor Amplifier w/ DFN-10
Programmable Gain and
Offset
PGA280 High Voltage, Wide Input 1/8 to 128 0.0010 15 0.17 120 6000 22 ±5 to ±18 4.13 N TSSOP-24 2.90
Range, Zero-Drift PGA 2.7 to 5.5
PGA281 High Voltage, Wide Input 1/8 to 128 0.001 15 0.17 120 6000 22 ±5 to ±18 4.13 N TSSOP-16 1.90
Range, Zero-Drift PGA 2.7 to 5.5
LMP8358 Zero-Drift, Programmable 10 to 1000 0.01 10 0.05 110 680 25 2.7 to 5.5 1.8 N SOIC-14, 2.71
Instrumentation Amplifier TSSOP-14
with Diagnostics
INA148 ±200V Common-Mode 1 V/V ±200 V 5000 101 70 100 550 ±1.35 to ±18 0.3 N SOIC-8 2.10
Voltage Difference Amplifier
INA149 ±275V CM Difference 1 V/V ±275 V 1100 15 90 500 880 ±2 to ±18 0.9 Y SOIC-8 2.70
Amplifier
INA146 High-Voltage, Programmable 0.1 V/V TO ±100 V 5000 301 70 550 550 ±2.25 to ±18 0.7 N SOIC-8 1.70
Gain Difference Amplifier 100 V/V
INA145 Programmable Gain 1 V/V TO ±28 V 1000 41 76 500 90 ±2.25 to ±18 0.7 N SOIC-8 1.50
Difference Amplifier 1000 V/V
INA157 High-Speed, Precision 1/2 V/V, 2 V/V ±37.5 500 20.00 86 4000 26 ±4 to ±18 2.9 N SOIC-8 1.05
Difference Amplifier
INA133 High-Speed, Precision 1 V/V ±27 450 5.00 80 1500 57 ±2.5 to ±18 1.2 N SOIC-8 1.15
Difference Amplifiers
INA105 Precision Unity Gain 1 V/V ±25 250 20.00 86 1000 60 ±5 to ±18 2.0 N DIP-8, SOIC-8 3.20
Differential Amplifier
INA106 Precision Fixed-Gain 10 V/V ±11 200 0.21 86 5000 30 ±5 to ±18 2.0 N DIP-8, SOIC-8 5.00
Differential Amplifier
INA117 High Common-Mode Voltage 1 V/V ±200 1000 401 86 200 550 ±5 to ±18 2.0 N DIP-8, SOIC-8 2.70
INA159 High-Speed, Precision Gain 0.2 V/V ±10 500 1.51 80 1500 30 +1.8 to +5.5 1.5 Y MSOP-8 1.70
of 0.2 Level Translation
*Suggested resale price in U.S. dollars in quantities of 1,000. 1Typical Value Only See www.ti.com/hirel for HiRel options. New products are listed in bold red.

Logarithmic Amplifiers
Single-Supply, High-Speed, Precision Logarithmic Amplifier

LOG114
The LOG114 is specifically designed for measuring low-level and wide dynamic Key Features
range currents in communications, lasers, medical and industrial systems. The device • Advantages:
computes the logarithm or log-ratio of an input current or voltage relative to a reference Tiny for high-density systems
current or voltage (logarithmic transimpedance amplifier). Precision on one supply
High precision is ensured over a wide dynamic range of input signals on either Bipolar Fast over eight decades
(±5 V) or single (+5 V) supply. Special temperature drift compensation circuitry is includ- Fully tested function
ed on-chip. In log-ratio applications, the signal current may be from a high impedance • Two scaling amplifiers
source such as a photodiode or resistor in series with a low impedance voltage source. • Wide input dynamic range:
The reference current is provided by a resistor in series with a precision internal voltage eight decades, 100 pA to 10 mA
reference, photo diode or active current source. • 2.5 V reference
R5 R6 • Stable over temperature
• Low quiescent current: 10 mA
V LOGOUT +IN 4 −IN4 • Dual or single supply: ±5 V, +5 V
9(2) 10 11 • Specified temperature range:
Q1 LOG114 −5°C to +75°C
200 Ω 1250 Ω
• Package: small QFN-16 (4 mm x 4 mm)
I1
R 1(1) R2
4 Applications
A1
V CM IN
VO4(3)
5
A4
12 • Onet erbium-doped fiber optic
I 1 and I 2 are current inputs Q2 A 3(4) amplifiers (EDFA)
+IN 5
from a photodiode 13 • Laser optical density measurement
or other current source
I2 200 Ω 1250 Ω
R 3(1) R4 • Photodiode signal compression amps
3 A5 VO5
A2 15 • Log, log-ratio functions
R REF
I REF • Analog signal compression in front of
16
REF analog-to-digital converters
V REF
2.5 V • Absorbance measurement
1 V 8 6 7 Com 14
REF GND
NOTES: (1) Thermally dependent R1 and R3 V+ V− −IN 5
provide temperature compensation.
(2) VLOGOUT = 0.375 × log(I1/I2).
(3) VO4 = 0.375 × K × log(I1/I2)
K = 1 + R6/R5.
(4) Differential Amplifier (A3) Gain = 6.25
LOG114 functional block diagram
Get more information: www.ti.com/product/LOG114
Logarithmic Amplifiers
Conformity Conformity
Input Input Error Error IQ
Current Current (Initial 5 (Initial 5 Per
Scale Range Range Decades) Decades) VS VS Ch.
Factor (nA) (mA) (%) (%/°C) Bandwidth (V) (V) (mA) Reference Auxiliary HiRel
Device (V/Decade) (min) (max) (max) (typ/temp) (kHz) (min) (max) (max) Type Op Amps Avail. Package Price*
LOG101 1 0.1 3.5 0.2 0.0001 38 9 36 1.5 External — N SO-8 6.95
LOG102 1 1 1 0.3 0.0002 38 9 36 2 External 2 N SO-14 7.25
LOG104 0.5 0.1 3.5 0.2 0.0001 38 9 36 1.5 External — N SO-8 6.95
LOG112 0.5 0.1 3.5 0.2 0.0001 38 9 36 1.75 2.5 V Internal 1 N SO-14 7.90
LOG2112 0.5 0.1 3.5 0.2 0.0001 38 9 36 1.75 2.5 V Internal 1/Ch N SO-16 11.35
LOG114 0.375 0.1 10 0.2 0.001 5000 5 10 15 2.5 V Internal 2 N QFN-16 7.90

Power Amplifiers and Buffers
1.5 A, High-Current Power Amplifier

OPA564
The OPA564 is a high-current operational amplifier ideal for driving up to 1.5 A in reac-
Current
tive loads and provides high reliability in demanding power-line communications and Limit
motor control applications. It operates from a single or dual power supply of ±3.5 V Flag
Thermal Enable
(7 V) to ±13 V (26 V). In single-supply operation, the input common-mode range extends Flag Shutdown
below ground. The OPA564 is easy to heat sink over the specified extended industrial
–In
temperature range, –40°C to +125°C.
OPA564
Key Features Applications +In Current
• Single or dual supply: ±3.5 V (7 V) to • Power-line communications RSET Limit
Set
±13 V (26 V) • Valve, actuator drivers
V–
• Large output swing: 22 VPP at 1.5 A • Synchro, servo drivers
(24 V supply) • Motor drivers OPA564 PowerPAD™-down pinout
• Thermal and over-current warning • Power supply output amplifiers
• Adjustable current limit • Test equipment
• Output enable/disable control • Transducer excitation
• Slew rate: 20 V/µs • General-purpose linear power boosters
• Packaging: HSOP-20 PowerPAD™
Power Amplifiers
IOUT VS Bandwidth Slew Rate IQ VOS VOS Drift IB HiRel
Device (A) (V) (MHz) (V/µs) (mA) (max) (mV) (max) (µV/°C) (max) (nA) (max) Avail. Package Price*
LM6181 0.1 9 to 32 100 2000 6.5 10 2.5 10000 N PDIP, SOIC 1.12
LM7322 0.1 2.5 to 32 16 8.5 2.5 5 2 2000 N SOIC-8, MSOP-8 1.05
LM7372 0.15 9 to 36 120 3000 17 8 12 4000 N SOIC-8, SOIC-16 1.88
LM675 3 16 to 60 5.5 8 50 10 25 2000 N TO-220 2.05
LM7332 0.07 2.5 to 32 19 12.0 2.3 4 2 2000 N SOIC-8, MSOP-8 1.10
LMH6640 0.1 4.5 to 16 190 170 5.5 5 — 2600 N SOT-5 1.15
LMH6672 5 to 12 90 135 8 5.5 — 1600 N SOIC-8 1.60
OPA445 0.015 20 to 90 2 15 4.7 3 10 0.1 N DIP-8, SO-8, SO-8 PowerPAD™ 4.75
OPA452 0.05 20 to 80 1.8 7.2 6.5 3 5 0.1 N TO220-7, DDPak-7 2.55
OPA453 0.05 20 to 80 7.5 23 6.5 3 5 0.1 N TO220-7, DDPak-7 2.55
OPA454 0.120 10 to 100 2.5 13 4 4 1.6 0.1 N SO-8 and HSOP-20 PowerPAD 2.75
OPA541 10 20 to 70 1.6 10 25 1 15 0.05 N TO220-11, TO3-8 11.10
OPA544 2 20 to 70 1.4 8 15 5 10 0.1 N TO220-5, DDPak-5 7.90
OPA2544 2 20 to 70 1.4 8 30 5 10 0.05 N TO220-11 12.00
OPA547 0.5 8 to 60 1 6 15 5 25 500 N TO220-7, DDPak-7 5.00
OPA548 3 8 to 60 1 10 20 10 30 500 N TO220-7, DDPak-7 6.90
OPA549 8 8 to 60 0.9 9 35 5 20 500 N ZIP-11, TO220-11 12.00
OPA551 0.2 8 to 60 3 15 8.5 3 7 0.1 N DIP-8, SO-8, DDPak-7 1.90
OPA552 0.2 8 to 60 12 24 8.5 3 7 0.1 N DIP-8, SO-8, DDPak-7 1.75
OPA561 1.2 7 to 16 17 50 60 20 50 0.1 N HTSSOP-20 2.80
OPA564 1.5 7 to 24 17 40 50 20 10 0.1 N HSOP-20 PowerPAD 2.75
OPA567 2 2.7 to 5.5 1.2 1.2 6 2 1.3 0.01 N QFN-12 1.85
OPA569 2 2.7 to 5.5 1.2 1.2 6 2 1.3 0.01 N SO-20 PowerPAD 3.10
Buffers (Sorted by Ascending BW at ACL)

ACL
Stable Slew Settling THD VN at
VS VS VS VS Gain BW Rate Time IQ (FC = Diff Diff Flatband VOS IB
±15 ±5 3.3 5 (V/V) at ACL (V/ 0.01% (mA) 1MHz) Gain Phase (nV/√Hz) (mV) (µA) HiRel
Device (V) (V) (V) (V) (min) (MHz) µs) (ns) (typ) (typ) (dB) (typ) (%) (°) (typ) (max) (max) Avail. Package Price*
OPA633 Yes Yes — — 1 260 2500 50 21 — — 0.1 — 15 35 N DIP-8 5.45
OPA692 — Yes — Yes 1 280 2000 12 (0.02%) 5.8 –78 0.07 0.02 1.7 2.5 35 N SOT23-6, SOIC-8 1.15
OPA693 — Yes — Yes 1 1400 2500 12 (0.1%) 13 –84 0.03 0.01 1.8 2 35 N SOT23-6, SOIC-8 1.30
OPA832 — Yes Yes Yes 1 92 350 45 (0.1%) 4.25 –84 0.1 0.16 9.2 7 10 N SOT23-5, SOIC-8 0.32
BUF602 — Yes Yes Yes 1 1000 8000 6 (0.05%) 5.8 — 0.15 0.04 4.8 30 7 N SOT23-5, SOIC-8 0.85
DIP-8, SOIC-8
BUF634 Yes Yes Yes Yes 1 30 to 180 2000 200 (0.1%) 15 — 0.4 0.1 4 100 20 N 3.10
TO220-5, DDPak-5

Comparators
Hex Window Comparator with 1.5% Precision and 400 mV Reference

LMV7231
The LMV7231 is a 1.5% accurate Hex Window Comparator which can be used to Key Features
monitor power supply voltages. The device uses an internal 400 mV reference for the • High accuracy voltage reference: 400 mV
comparator trip value. The comparator set points can be set via external resistor divid- • Threshold accuracy: ±1.5% (max)
ers. The LMV7231 has six outputs (CO1-CO6) that signal an under-voltage or over-volt- • Wide supply voltage range 2.2 V to 5.5 V
age event for each power supply input. An output (AO) is also provided to signal when • Input/output voltage range above V+
any of the power supply inputs have an over-voltage or under-voltage event. This ability • Internal hysteresis: 6 mV
to signal an under-voltage or over-voltage event for the individual power supply inputs, • Propagation delay: 2.6 µs to 5.6 µs
in addition to an output to signal such an event on any of the power supply inputs, adds • Supply current 7.7 µA per channel
unparalleled system protection capability. • 24-lead WQFN package
• Temperature range: –40°C to 125°C
COPOL Applications
*
• Power supply voltage detection
+ IN1 + B
UV1 * CO1 • Battery monitoring
-
* • Handheld instruments
Ref * CO2 • Relay driving
+ A OV1 *
• Industrial control systems
- IN1 - CO3
*
+ IN2 + B
UV2 *
- CO4
*
*
+ A OV 2
CO5
-IN2 -
*
*
+IN3 + B UV 3 CO6
*
-
+ A OV 3
OV 1
-IN3 - AOSEL
OV 2
OV 3
+IN4 + B
UV4
OV 4
- OV 5
OV 6
+ A OV4 AO
*
- IN4 - UV 1
UV 2
* Open
+IN5 + B UV5 UV 3 Drain
UV 4
-
UV 5
UV 6
+ A OV 5
-IN5
-
+IN6 + B UV6
+ A
OV6
- IN6 -
LMV7231 functional block diagram
Get more information: www.ti.com/product/LMV7231

Comparators
40-ns, microPOWER, Push-Pull Output Comparators

TLV3201/2
The TLV3201 and TLV3202 are single- and dual-channel comparators that offer the Key Features
ultimate combination of high-speed (40 ns) and low-power consumption (40 μA), all in • Low propagation delay: 40 ns
extremely small packages with features such as rail-to-rail inputs, low offset voltage • Low quiescent current:
(1 mV), and large output drive current. The devices are also very easy to implement in a 40 μA per channel
wide variety of applications where response time is critical. • Input common-mode range extends
200 mV beyond either rail
• Low input offset voltage: 1 mV
D AND DGK PACKAGES DCK AND DBV PACKAGES • Push-pull outputs
SOIC-8 AND MSOP-8 SC70-5 AND SOT23-5 • Supply range: +2.7 V to +5.5 V
(TOP VIEW) (TOP VIEW)
• Industrial temperature range:
V CC
–40°C to +125°C
1OUT 1 8
OUT 1 5 V CC • Small packages:
1IN 2 7 2OUT
GND 2
SC70-5, SOT23-5, SOIC-8, MSOP-8
1IN+ 3 6 2IN
Applications
IN+ 3 4 IN
GND 4 5 2IN+ • Inspection equipment
• Test and measurement
• High-speed sampling systems
TLV3201/2 package diagram
• Telecom
• Portable communications
Get more information: www.ti.com/product/TLV3201,
www.ti.com/product/TLV3202
Comparators
IQ Per Output VOS
Ch. Current tRESP VS VS (25°C)
(mA) (mA) Low-to- (V) (V) (mV) HiRel
Device Description Ch. (max) (min) High (µs) (min) (max) (max) Output Type Avail. Package Price*
TLV3501 Ultra-High Speed, Low Power 1, 2 5 20 0.004 2.7 5.5 5 Push-Pull Y SOT23 1.20
TL714 High Speed, 10 mV (typ) Hysteresis 1 12 16 0.006 4.75 5.25 10 Push-Pull N PDIP, SOIC 2.40
TL3116 Ultra Fast, Low Power, Precision 1 14.7 5 0.0099 5 10 3 Push-Pull N SOIC, TSSOP 1.05
TL712 Single, High Speed 1 20 16 0.025 4.75 5.25 5 Push-Pull N PDIP, SOIC, SOP 0.95
LM306 Single, Strobed, General Purpose 1 10 100 0.028 15 24 5 Push-Pull N PDIP, SOIC 1.05
TLV3201 Single, Dual Push-Pull/Open Drain 1,2 50 25 0.04 2.5 5.5 5 PP/Open-Drain N SC70, SOT23 0.40
MSOP, SOIC 0.50
LM211 Single, High Speed, Strobed 1 6 25 0.115 3.5 30 3 Open-Collector/ Y PDIP, SOIC 0.18
Emitter
LM311 Single, High Speed, Strobed, Differential 1 7.5 25 0.115 3.5 30 7.5 Open-Collector/ N PDIP, SOIC, SOP, 0.18
Emitter TSSOP
LM111 Single, Strobed, Differential 1 6 25 0.165 3.5 30 3 Open-Collector/ Y CDIP, LCCC 1.57
Emitter
LMV331 Single, Low Voltage 1 0.12 10 0.2 2.7 5.5 7 Open-Collector Y SC70, SOT23 0.26
LMV339 Quad, Low Voltage 4 0.075 10 0.2 2.7 5.5 7 Open-Collector N SOIC, TSSOP 0.39
LMV393 Dual, Low Voltage 2 0.1 10 0.2 2.7 5.5 7 Open-Collector Y SOIC, TSSOP 0.30
TLC352 Ultra-Low Supply Voltage 2, 4 0.15 6 0.2 1.5 18 5 Open-Drain N PDIP, SOIC, TSSOP 0.43
TLC372 Fast, Low Power 2, 4 0.15 6 0.2 2 18 5 Open-Drain Y PDIP, SOIC, TSSOP 0.35
TLV2352 Low Voltage 2, 4 0.125 6 0.2 2 8 5 Open-Drain Y PDIP, SOIC, TSSOP 0.80
LM139 Quad, Differential 4 0.5 6 0.3 2 36 2 Open-Collector Y SOIC 0.95
LM193 Dual, Differential 2 0.5 6 0.3 2 36 5 Open-Collector N SOIC 0.33
LM239 Quad, Differential 4 0.5 6 0.3 2 30 2 Open-Collector Y PDIP, SOIC 0.11
LM2901 Quad, Differential 4 0.625 6 0.3 2 30 3 Open-Collector Y PDIP, SOIC, SOP, 0.12
TSSOP
LM2903 Dual, Differential 2 0.5 6 0.3 2 30 7 Open-Collector N PDIP, SOIC, SOP, 0.11
TSSOP

Comparators
Comparators (continued)
IQ Per Output VOS
Ch. Current tRESP VS VS (25°C)
(mA) (mA) Low-to- (V) (V) (mV) HiRel
Device Description Ch. (max) (min) High (µs) (min) (max) (max) Output Type Avail. Package Price*
LM293 Dual, Differential 2 0.5 6 0.3 2 30 3 Open-Collector Y PDIP, SOIC 0.11
LM3302 Quad, General Purpose 4 0.2 6 0.3 2 28 20 Open-Drain/ N PDIP, SOIC 0.36
Emitter
LM339 Quad, Differential 4 0.5 6 0.3 2 30 3 Open-Collector N PDIP, SOIC, SOP, 0.10
SSOP, TSSOP
LM393 Dual, Differential 2 0.5 6 0.3 2 30 3 Open-Collector N PDIP, SOIC, SOP, 0.10
TSSOP
TL331 Single, Differential 1 0.7 6 0.3 2 36 5 Open-Collector Y SOT23 0.23
LMC7215 Micro-Power, Rail-to-Rail CMOS Comparator 1 0.0012 12 1 2 8 6 Push-Pull N SOIC-8, SOT23-5 0.57
with Push-Pull Output
TLC339 Quad, Low Power 4 0.02 6 1 3 16 5 Open-Drain N PDIP, SOIC, TSSOP 0.47
TLC3702 Dual and Quad, µPower 2, 4 0.02 4 1.1 3 16 5 Push-Pull Y PDIP, SOIC, TSSOP 0.36
TLC393 Low Power, LM393 Replacement 2 0.02 6 1.1 3 16 5 Open-Drain Y PDIP, SOIC, SOP, 0.37
TSSOP
LP311 Single, Strobed, Low Power 1 0.3 25 1.2 3.5 30 7.5 Open-Drain/ N PDIP, SOIC, SOP 0.68
Emitter
LP2901 Quad, Low Power, General Purpose 4 0.025 30 1.3 5 30 5 Open-Collector Y PDIP, SOIC 0.30
LP339 Quad, Low Power, General Purpose 4 0.025 30 1.3 5 30 5 Open-Collector N PDIP, SOIC 0.27
LMC6762 Dual, Micropower Rail-to-Rail Input CMOS 2 0.0125 30 4 2.7 15 15 Push-Pull N PDIP-8, SOIC-8 1.01
Comparator with Push-Pull Output
LMC6772 Dual, Micropower Rail-to-Rail Input CMOS 2 0.0125 30 4 2.7 15 15 Open-Drain N PDIP-8, SOIC-8 1.06
Comparator with Open-Drain Output
LMC7221 Tiny CMOS Comparator with Rail-to-Rail 1 0.0018 45 4 2.7 15 15 Open-Drain N SOIC-8, SOT23-5 0.54
Input and Open-Drain Output
TLV3491 Low Voltage, Excellent Speed/Power 1, 2, 4 0.0012 5 6 1.8 5.5 15 Push-Pull Y SOT23, SOIC, 0.35
TSSOP
LMC7225 Micro-Power, Rail-to-Rail CMOS Comparator 1 0.0012 12 12.2 2 8 6 Open-Drain N SOT23-5 0.57
with Open-Drain Output
TLV3401 Nanopower, Open-Drain, RRIO 1, 2, 4 0.00055 1.6 80 2.5 16 3.6 Open-Drain N MSOP, PDIP, SOIC, 0.60
SOT23, TSSOP
LMH7220 High Speed Comparator with LVDS Output 1 9 5 0.0029 2.7 12 9.5 LVDS N SOT 2.00
LMH7322 Dual 700 ps High Speed Comparator with 2 10 50 0.0007 2.7 12 8 LVDS, RSPECL N WQFN 3.39
RSPECL Outputs
LMH7324 Quad 700 ps High Speed Comparator with 4 7.5 25 0.0007 5 12 9.5 LVDS, RSPECL N WQFN 5.19
RSPECL Outputs
LMV7219 7 nsec, 2.7 V to 5 V Comparator with Rail-to- 1 1.8 20 0.007 2.7 5 6 Push-Pull N SOT 0.95
Rail Output
LMV7231 Hex Window Comparator with 1.5% Precision 6 0.01 — 5.6 2.2 5.5 6 Open-Drain N LLP-24 1.42
and 400 mV Reference
Comparator with Integrated Functions
TLV2702 Sub-µPower, Op Amp and Comparator, RRIO 2, 4 0.0019 0.2 36 2.5 16 5 Push-Pull N MSOP, PDIP, SOIC, 1.10
TSSOP
TLV2302 Sub-µPower, Op Amp and Comparator, RRIO 2, 4 0.0017 0.2 55 2.5 16 5 Open-Collector N MSOP, PDIP, SOIC, 0.85
TSSOP
TLV3011 µPower, Comparator with 1.242 V Reference 1 0.003 5 6 1.8 5.5 15 Open-Drain Y SC70, SOT23 0.75
TLV3012 µPower, Comparator with 1.242 V Reference 1 0.003 5 6 1.8 5.5 15 Push-Pull N SC70, SOT23 0.75
LMP7300 Micropower Precision Comparator with 1 0.014 10 11 2.7 12 1 Open-Collector N SOIC-8, VSSOP-8 0.99
Integrated Precision Reference and
Adjustable Hysteresis

Data Converters
Analog-to-Digital Converters – Delta-Sigma ADCs
24-Bit Analog-to-Digital Converters for Temperature and Industrial Measurement

ADS1246, ADS1247, ADS1248
The ADS1246, ADS1247 and ADS1248 are highly integrated, precision, 24-bit analog- Key Features
to-digital converters (ADCs). The ADS1246/7/8 feature an onboard, low-noise program- • Low-noise PGA: 48 nV at PGA = 128
mable gain amplifier (PGA), a precision delta-sigma (∆∑) ADC with a single-cycle • Data output rates up to 2 kSPS
settling digital filter and an internal oscillator. The ADS1247 and ADS1248 also provide • Single-cycle settling for all data rates
a built-in, low-drift voltage reference with 10mA output capacity and two matched • Simultaneous 50/60 Hz rejection at 20 SPS
programmable current digital-to-analog converters (DACs). The ADS1246/7/8 provide a • 4 diff/7 single-ended inputs (ADS1248)
complete front-end solution for temperature sensor applications including thermocou- • 2 diff/3 single-ended inputs (ADS1247)
ples, thermistors and RTDs. • Matched current-source DACs
ADS1248 Only
• Very low drift internal voltage
REFP0/ REFN0/
AVDD GPIO0 GPIO1 REFP1 REFN1 VREFOUT VREFCOM DVDD reference: 10 ppm/°C (max)
Burnout
Detect ADS1247 • Sensor burnout detection
Voltage
V BIAS VREF Mux
Reference ADS1248 • 4/8 general-purpose I/Os (ADS1247/8)
AIN0/IEXC
GPIO
SCLK
• Internal temperature sensor
System
AIN1/IEXC Monitor DIN • Power supply and VREF monitoring
Serial DRDY
AIN2/IEXC/GPIO2 Adjustable
Input 12-Bit Interface
AIN3/IEXC/GPIO3 PGA Digital DOUT/DRDY
AIN4/IEXC/GPIO4
Mux ADC
Filter
and
CS
Applications
Control
AIN5/IEXC/GPIO5
Dual
START • Temperature measurement
AIN6/IEXC/GPIO6 RESET
AIN7/IEXC/GPIO7
Current
DACs
RTDs, thermocouples
Internal Oscillator
ADS1248 Only
Burnout
and thermistors
Detect • Pressure measurement
• Industrial process control
AVSS IEXC1 IEXC2 CLK DGND
ADS1248 Only
ADS1247/1248 functional block diagram

(ADS1246, ADS1247, ADS1248)
Industrial, 14 kSPS, 24-Bit Analog-to-Digital Converter with Low-Drift Reference

ADS1259
The ADS1259 is a high-linearity, low-drift, 24-bit analog-to-digital converter (ADC) Key Features
designed for the needs of industrial process control, precision instrumentation and • High performance
other exacting applications. Combined with a signal amplifier (such as the PGA280-p.26), INL: 0.4 ppm
a high-resolution, high-accuracy measurement system is formed that is capable of digitizing Reference drift: 2 ppm/°C
a wide range of signals. Gain drift: 0.5 ppm/°C
AVDD VREFP VREFN REFOUT SYNCOUT DVDD
Offset drift: 0.05 µV/°C
Noise: 0.7 µVRMS at 60 SPS
Clock
XTAL1/CLKIN • 24-bits, no missing codes
2.5 V fCLK /8
Reference Generator
XTAL2
• Output data rates from 10 SPS to
14 kSPS
AINP
Programmable Calibration /
• Simultaneous 50/60 Hz rejection
Modulator Digital Filter Engine START
AINN
Control at 10 SPS
DRDY
and
Serial SCLK • Single-cycle settling
Out-of-Range
Detection
Interface DIN • Internal oscillator
DOUT
ADS1259
CS Applications
AVSS DGND
• Scientific instrumentation
ADS1259 functional block diagram
Get more information: www.ti.com/product/ADS1259
Data Converters
Delta-Sigma ( ) ADCs
Sample Number of
Res. Rate Input Input Voltage Linearity Power HiRel
Device (Bits) (kSPS) Channels Interface (V) VREF (%) (mW) Avail. Package Price*
ADS1113 16 0.86 1 SE/1 Diff Serial, I2C ±2.048 Int 0.0015 0.3 N MSOP-10, x2QFN-10 1.85
ADS1114 16 0.86 1 SE/1 Diff Serial, I2C PGA (2/3-16), VDD Int 0.0015 0.3 N MSOP-10, x2QFN-10 2.00
ADS1013 12 3.3 1 SE/1 Diff Serial, I2C ±2.048 Int 0.0244 0.3 N MSOP-10, x2QFN-10 0.90
ADS1015 12 3.3 4 SE/2 Diff Serial, I2C PGA (2/3-16), VDD Int 0.0244 0.3 Y MSOP-10, x2QFN-10 1.10
ADS1118 16 0.86 4 SE/2 Diff SPI PGA (2/3-16), VDD Int 0.0015 0.3 N MSOP-10, x2QFN-10 2.25
ADC128D818 12 10 8 SE I2C 0.36 Int/Ext 0.097656 2 N TSSOP-16 2.80
ADS1018 12 3.3 4 SE/2 Diff SPI PGA (2/3-16), VDD Int 0.0244 0.3 N MSOP-10, x2QFN-10 1.10
ADS1146 16 2 1 Diff Serial, SPI PGA (1-128), ±2.5 Ext 0.0015 1.4 N TSSOP-16 2.70
ADS1246 24 2 1 Diff Serial, SPI PGA (1-128), ±2.5 Ext 0.0003 2.56 N TSSOP-16 3.45
ADS1259 24 14 1 SPI 5 Int/Ext 0.00004 13 N TSSOP-20 5.60
ADS1672 24 625 1 Serial 5 Ext 0.0003 350 N TQFP-64 11.75
ADS1158 16 125 16 SE/8 Diff Serial, SPI +5, ±2.5 Ext 0.0045 42 N QFN-40 5.95
ADS1258 24 125 16 SE/8 Diff Serial, SPI 5, ±2.5 Ext 0.0015 40 Y QFN-48 7.95
ADS1174 16 52 4 Serial, SPI w/FS 2.5 Ext 0.0045 135 N HTQFP-64 9.95
ADS1178 16 52 8 Serial, SPI w/FS 2.5 Ext 0.0045 245 N HTQFP-64 15.95
ADS1274 24 128 4 Diff Simultaneous Serial, SPI w/FSYNC 2.5 Ext 0.001 30-300 N TQFP-64 13.95
ADS1278 24 128 8 Diff Simultaneous Serial, SPI w/FSYNC 2.5 Ext 0.001 60-600 Y TQFP-64 23.95
ADS1271 24 105 1 Diff Serial, SPI w/FSYNC 2.5 Ext 0.0015 35-100 N TSSOP-16 5.90
ADS1147 16 2 3 SE/2 Diff Serial, SPI PGA (1-128), ±2.5 Int/Ext 0.0015 1.4 N TSSOP-20 3.45
ADS1148 16 2 7 SE/4 Diff Serial, SPI PGA (1-128), ±2.5 Int/Ext 0.0015 1.4 N TSSOP-28 3.95
ADS1247 24 2 3 SE/2 Diff Serial, SPI 3 to +5, ±2.5 Ext 0.0003 2.56 N TSSOP-20 4.45
ADS1248 24 2 7 SE/4 Diff Serial, SPI 3 to +5, ±2.5 Int/Ext 0.0003 2.56 N TSSOP-28 4.95
ADS1252 24 41 1 SE/1 Diff Serial 5 Ext 0.0015 40 N SOIC-8 6.45
ADS1256 24 30 8 SE/4 Diff Serial, SPI PGA (1-64), 5 Ext 0.001 35 N SSOP-28 6.95
ADS1255 24 30 2 SE/1 Diff Serial, SPI PGA (1-64), 5 Ext 0.001 35 N SSOP-20 6.50
ADS1253 24 20 4 SE/4 Diff Serial 5 Ext 0.0015 7.5 N SSOP-16 6.70
ADS1254 24 20 4 SE/4 Diff Serial 5 Ext 0.0015 4 Y SSOP-20 6.70
ADS1251 24 20 1 SE/1 Diff Serial 5 Ext 0.0015 7.5 N SOIC-8 5.60
ADS1216 24 0.78 8 SE/4 Diff Serial, SPI PGA (1-128), 2.5 Int/Ext 0.0015 0.6 N TQFP-48 5.00
ADS1217 24 0.78 8 SE/4 Diff Serial, SPI PGA (1-128), 5 Int/Ext 0.0012 0.8 N TQFP-48 5.00
ADS1218 24 0.78 8 SE/4 Diff Serial, SPI PGA (1-128), 2.5 Int/Ext 0.0015 0.8 N TQFP-48 5.50
ADS1224 24 0.24 4 SE/4 Diff Serial 5 Ext 0.0015 0.5 N TSSOP-20 3.25
ADS1222 24 0.24 2 SE/2 Diff Serial 5 Ext 0.0015 0.5 N TSSOP-14 2.95
ADS1234 24 0.08 4 SE/4 Diff Serial PGA (1-128), 2.5 Ext 0.0015 3 N TSSOP-28 4.50
ADS1232 24 0.08 2 SE/2 Diff Serial PGA (1-128), 2.5 Ext 0.0015 3 N TSSOP-24 3.90
ADS1226 24 0.08 2 Diff Serial 5 Ext 0.0015 0.5 N QFN-16 2.95
ADS1225 24 0.08 1 Diff Serial 5 Ext 0.0015 0.5 N QFN-16 2.75
ADS1241 24 0.015 8 SE/4 Diff Serial, SPI PGA (1-128), 2.5 Ext 0.0015 0.5 N SSOP-28 4.20
ADS1243 24 0.015 8 SE/4 Diff Serial, SPI PGA (1-128), 2.5 Ext 0.0015 0.6 N TSSOP-20 3.95
ADS1240 24 0.015 4 SE/2 Diff Serial, SPI PGA (1-128), 2.5 Ext 0.0015 0.6 N SSOP-24 3.80
ADS1242 24 0.015 4 SE/2 Diff Serial, SPI PGA (1-128), 2.5 Ext 0.0015 0.6 N TSSOP-16 3.60
ADS1244 24 0.015 1 SE/1 Diff Serial 5 Ext 0.0008 0.3 N MSOP-10 2.95

Data Converters
Delta-Sigma ADCs (continued)

Sample Number of
Res. Rate Input Input Voltage Linearity Power HiRel
Device (Bits) (kSPS) Channels Interface (V) VREF (%) (mW) Avail. Package Price*
ADS1220 24 2 4 SE/2 Diff Serial, SPI 5.5 Int/Ext 0.0015 0.4 N TSSOP-16, QFN-16 3.15
ADS1120 16 2 4 SE/2 Diff Serial, SPI 5.5 Int/Ext 0.0015 0.4 N TSSOP-16, QFN-16 2.30
ADS1245 24 0.015 1 SE/1 Diff Serial 2.5 Ext 0.0015 0.5 N MSOP-10 3.10
ADS1250 20 25 1 SE/1 Diff Serial, SPI PGA (1-8), 4 Ext 0.003 75 N SOIC-16 6.95
ADS1131 18 0.08 1 SE/1 Diff Serial 0.02 Ext 0.0008 1.6 N TSSOP-16 1.95
ADS1230 20 0.08 1 SE/1 Diff Serial 0.02 Ext 0.003 3 N TSSOP-16 2.50
ADS1231 20 0.08 1 SE/1 Diff Serial 0.02 Ext 0.003 1.6 N TSSOP-16 2.10
ADS1112 16 0.24 3 SE/2 Diff Serial, I2C PGA (1-8), 2.048 Int 0.01 0.7 N MSOP-10, SON-10 2.65
ADS1110 16 0.24 1 SE/1 Diff Serial, I2C PGA (1-8), 2.048 Int 0.01 0.7 N SOT23-6 1.95
ADS1100 16 0.128 1 SE/1 Diff Serial, I2C PGA (1-8), VDD Ext 0.0125 0.3 N SOT23-6 1.80
ADS1000 12 0.128 1 SE/1 Diff Serial, I2C PGA (1-8), VDD Ext 0.0125 0.3 Y SOT23-6 0.65
ADS1281 31 4 1 Serial, I2C 5 Ext 0.00006 12 N TSSOP-24 28.95
ADS1282 31 4 1 Serial, I2C PGA (1-64), 5 Ext 0.00006 27 Y TSSOP-28 36.95
Delta-Sigma
ADC128D818 12ADCs for
0.01Measuring Low-Level
8 I2C
Currents (Photodiodes) VDD Int/Ext 0.36 2 N TSSOP-16 2.80
ADC12EU050 12 Sample
45000 Number
8 of Serial, SPI 2.1 Int/Ext 0.036 384 N LLP-68 64.00
Res. Rate Input Linearity Power HiRel
Device (Bits) (kSPS) Channels Interface Input Full-Scale (C) VREF (%) (mW) Avail. Package Price*
DDC264 20 3 64 Serial 12.5-150 pC Ext 0.05 192 N BGA-100 99.00
DDC232 20 3 32 Serial 12-350 pC Ext 0.025 224-320 N BGA-64 70.00
DDC316 16 100 16 Serial 3 pC-12 pC Ext 0.025 440 N BGA-64 48.25
DDC118 20 3 8 Serial 12-350 pC Ext 0.025 110 N QFN-48 32.00
DDC114 20 3 4 Serial 12-350 pC Ext 0.025 55 N QFN-48 18.00
Wide Bandwidth Delta-Sigma ADCs
Res. Sample-Rate Number of Input Signal Bandwidth SNR THD Power HiRel
Device (Bits) (kSPS) Channels Interface (kHz) (dB) (dB) (mW) Avail. Package Price*
ADS1672 24 625 1 Diff SPI/LVDS 305 105 –115 350 N TQFP-64 11.75
ADS1626 18 1250 1 Diff P18 w/FIFO 615 93 –101 515 N TQFP-64 15.50
ADS1625 18 1250 1 Diff P18 615 93 –101 515 N TQFP-64 14.95
ADS1601 16 1250 1 Diff Serial 615 92 –103 350 N TQFP-48 9.95
ADS1602 16 2500 1 Diff Serial 1230 91 –103 530 N TQFP-48 12.50
ADS1675 24 4000 1 Diff Serial/LVDS 1700 107 –107 510 N TQFP-64 17.95
ADS1606 16 5000 1 Diff P16 w/FIFO 2450 88 –99 570 N TQFP-64 15.50
ADS1605 16 5000 1 Diff P16 2450 88 –99 570 N TQFP-64 14.95
ADS1610 16 10 MSPS 1 Diff P16 4900 86 –94 960 N TQFP-64 19.95
Simultaneously Sampling Delta-Sigma ADCs
Res. Sample-Rate Number of Input Signal Bandwidth SNR THD Power HiRel
Device (Bits) (kSPS) Channels Interface (kHz) (dB) (dB) (mW) Avail. Package Price*
ADS130E08 16 8 8 Diff SPI 237 89 –108 6.0 N TQFP-64 3.95
ADS1178 16 52 8 Diff SPI 25 97 –105 245.0 N HTQFP-64 8.00
ADS1278 24 144 8 Diff SPI 70 111 –108 530.0 Y HTQFP-64 25.15
*Suggested resale price in U.S. dollars in quantities of 1,000. See www.ti.com/hirel for HiRel options. Preview products are listed in bold blue. New products are listed in bold red.

Data Converters
Analog-to-Digital Converters – SAR ADCs
2-Channel, 1 Msps, 12-/14-/16-Bit Simultaneous Sampling ADC with 2 Refs

ADS7253/54, ADS7853/54, ADS8353/54
The ADS8353 family is the world’s smallest 2-channel, simultaneous sampling ADCs. With Key Features
sampling speeds up to 1 MSPS and great AC performance like 90dB SNR and –98 dB THD • 1 MSPS throughput with zero latency
at 100 kHz, the devices with internal references do not compromise on ADC specs for size • Integrated reference with independent
and integration. All versions are compatible from a software and hardware standpoint, allow- buffer for each ADC
ing a platform of options from 12-bit, 14-bit, and 16-bits. The small size, high-speed, and zero • Low power: 25 mW with 5 V supply
latency make this ideal in applications such as position sensing in servo motors, digitizing • Extended temperature range: –40 to
optical encoders, EDFA gain control loops, and power monitoring. 125ºC
• Small size: 9mm2 QFN-16 and
16-TSSOP
AVDD DVDD
SAR
DIN
AINP CS
CDAC COMP
AINn SCLK
DOUT
SPI and
Control
Logic
SAR
AINP
CDAC COMP
AINn
REF1
REF
REF2
AGND DGND
Functional block diagram

(ADS7253, ADS7254, ADS7853, ADS7854, ADS8353, ADS8354)

ADCs by Architecture
Unipolar Input SAR ADCs

Res. Sample-Rate Power No. of Input Input Linearity SINAD HiRel
Device (Bits) (kSPS) (mW) Channels Interface Voltage (V) VREF (%) NMC (dB) Avail. Package Price*
18-Bit SAR ADCs
ADS8484 18 1,250 220 1 Diff P8/P16/P18 ±VREF (4.1 V) at Int/Ext 0.0011 18 98 N 7x7 QFN, TQFP-48 23.40
VREF/2
ADS8481 18 1,000 220 1 SE, 1 PDiff P8/P16/P18 VREF (4.1) Int/Ext 0.0013 18 92 N 7x7 QFN, TQFP-48 19.80
ADS8881 18 1,000 5.5 1 Diff Serial, SPI ±VREF (5 V) Ext 0.0011 18 100 N QFN-10, 19.95
VSSOP-10
ADS8883 18 680 4.2 1 Diff Serial, SPI ±VREF (5 V) Ext 0.0011 18 100 N QFN-10, 14.95
VSSOP-10
ADS8380 18 600 110 1 SE, 1 PDiff Serial, SPI VREF Int/Ext 0.0015 18 90 N 6x6 QFN-28 16.50
ADS8382 18 600 110 1 Diff Serial, SPI ±VREF (4.1 V) at Int/Ext 0.0012 18 95 N 6x6 QFN-28 16.95
VREF/2
ADS8381 18 580 115 1 SE, 1 PDiff P8/P16/P18 VREF (4.1) Ext 0.0019 18 88 N TQFP-48 16.65
ADS8383 18 500 110 1 SE, 1 PDiff P8/P16/P18 VREF (4.1) Ext 0.0026 18 85 N TQFP-48 15.75
VSSOP-10
VSSOP-10
16-Bit SAR ADCs
ADS8422 16 4,000 160 1 Diff P8/P16 ±VREF (4.1 V) at Int/Ext 0.0023 16 92.5 N 7x7 QFN, TQFP-48 23.95
VREF/2
ADS8410 16 2,000 290 1 SE, 1 PDiff Serial, LVDS VREF (4.1) Int/Ext 0.0038 16 87.5 N 7x7 QFN-48 23.00
ADS8413 16 2,000 290 1 Diff Serial, LVDS ±VREF (4.1 V) at Int/Ext 0.0038 16 92 N 7x7 QFN-48 24.05
VREF/2
ADS8411 16 2,000 175 1 SE, 1 PDiff P8/P16 VREF Int 0.0038 16 85 N TQFP-48 22.00
ADS8412 16 2,000 175 1 Diff P8/P16 ±VREF (4.1 V) at Int 0.0038 16 88 N TQFP-48 23.05
VREF/2
ADS8405 16 1,250 155 1 SE, 1 PDiff P8/P16 VREF Int/Ext 0.003 16 85 N TQFP-48 14.10
ADS8406 16 1,250 155 1 Diff P8/P16 ±VREF(4.1 V) at Int/Ext 0.003 16 90 N TQFP-48 14.70
VREF/2
ADS8860 16 1,000 5.5 1 SE Serial, SPI ±VREF (5 V) Ext 0.0031 16 93 N QFN-10, 10.00
VSSOP-10
ADS8861 16 1,000 5.5 1 Diff Serial, SPI ±VREF (5 V) Ext 0.0015 16 95 N QFN-10, 11.00
VSSOP-10
ADS8472 16 1,000 110 1 Diff Serial, SPI ±VREF (4.2 V) at Int/Ext 0.00098 16 94 N 6x6 QFN-28 13.00
VREF/2
ADS8471 16 1,000 110 1 SE, 1 PDiff Serial, SPI VREF Int/Ext 0.0015 16 90 N 6x6 QFN-28 12.50
ADS8363 16 1,000 79 4x2/2x2 Serial, SPI ±VREF at ±VREF Dual Int/ 0.009 16 92 N QFN-32 9.28
Ext
ADS8329 16 1,000 20 1 SE, 1 PDiff Serial, SPI VREF (4.2 V at 5 Ext 0.0026 16 92 N TSSOP-16 11.25
V, 2.5 V at 2.7 V
Supply)
ADS8330 16 1,000 15.5 2 SE, 2 PDiff Serial, SPI VREF (5 V at 5 V, Ext 0.0026 16 92 N TSSOP-16, 4x4 11.85
2.5 V at 2.7 V QFN-16
Supply)
ADS8555 16 800 160 1 x 6 Diff Serial, SPI/ ±2x/±4x VREF Int/Ext 0.0046 16 90 N LQFP-64, 9x9 16.00
P16/P8 (±1 V to QFN-64
±12 V)
P16/P8 (±1 V to QFN-64
±12 V)
ADS8353/54 16 700 45 2SE/2 Diff Serial, SPI 2x VREF / Int/Ext 0.0026 16 89 / 92 N QFN-16, 9.00/
±2x VREF) TSSOP-16 9.50
ADS8371 16 750 130 1 SE, 1 PDiff P8/P16 VREF Ext 0.0022 16 87.6 N TQFP-48 12.00
ADS8862 16 680 4.2 1 SE Serial, SPI ±VREF (5 V) Ext 0.0031 16 93 N QFN-10, 8.00
VSSOP-10
VSSOP-10
ADS8370 16 600 110 1 SE, 1 PDiff Serial, SPI VREF Int/Ext 0.0015 16 90 N 6x6 QFN-28 12.50
ADS8372 16 600 110 1 Diff Serial, SPI ±VREF (4.2 V) at Int/Ext 0.0011 16 93.5 N 6x6 QFN-28 13.00
VREF/2
ADS8361 16 500 150 2 x 2 Diff Serial, SPI ±2.5 V at +2.5 Int/Ext 0.00375 14 83 N SSOP-24 8.75
ADS8322 16 500 85 1 PDiff P8/P16 5 Int/Ext 0.009 15 83 N TQFP-32 7.10
ADS8323 16 500 85 1 Diff P8/P16 ±2.5 V at 2.5 Int/Ext 0.009 15 83 N TQFP-32 7.10
ADS8318 16 500 18 1 Diff Serial, SPI ±VREF (4.2 V) at Ext 0.0015 16 96 N MSOP-10 9.00
VREF/2

Unipolar Input SAR ADCs (continued)

Sample- Number
Res. Rate Power of Input Input Linearity SINAD HiRel
16-Bit SAR ADCs (continued)
ADS8319 16 500 18 1 SE, 1 PDiff Serial, SPI VREF (4.1) Ext 0.0023 16 93.8 N MSOP-10 8.00
ADS8332 16 500 10.6 8 SE, 8 PDiff Serial, SPI VREF (2.5) Int/Ext 0.0031 16 87.5 N 4x4 QFN-24, 15.00
TSSOP-24
ADS8331 16 500 10.6 4 SE, 4 PDiff Serial, SPI VREF (2.5) Int/Ext 0.0031 16 87.5 N 4x4 QFN-24, 13.50
TSSOP-24
ADS8328 16 500 10.6 2 SE, 2 PDiff Serial, SPI VREF (5 V at 5 Ext 0.00305 16 88.5 N TSSOP-16, 4x4 9.30
V, 2.5 V at QFN-16
2.7 V Supply)
ADS8327 16 500 10.6 2 SE Serial, SPI VREF (4.2 V at Ext 0.00305 16 88.5 N TSSOP-16 9.30
5 V, 2.5 V at
2.7 V Supply)
ADS8864 16 400 2.6 1 SE Serial, SPI VREF (5 V) Ext 0.0031 16 93 N QFN-10, VSSOP-10 6.50
ADS8865 16 400 2.6 1 Diff Serial, SPI VREF (5 V) Ext 0.0015 16 95 N QFN-10, VSSOP-10 7.50
ADC161S626 16 250 6 1 Diff Serial, SPI VREF (5 V) Ext 0.0038 16 88 N VSSOP-10 5.00
ADS8364 16 250 413 1 x 6 Diff P16 ±2.5 V at +2.5 Int/Ext 0.009 14 82.5 N TQFP-64 18.10
ADS8342 16 250 200 8 SE P8/P16 ±2.5 Ext 0.006 16 85 N TQFP-48 11.30
ADS8365 16 250 190 1 x 6 Diff P16 ±2.5 V at +2.5 Int/Ext 0.006 14 87 N TQFP-64 16.25
ADS8317 16 250 6 1 Diff Serial, SPI ±VREF at VREF Ext 0.0022 16 89.5 N VSSOP-8, QFN-8 5.90
ADS8326 16 250 6 1 SE, 1 PDiff Serial, SPI VREF Ext 0.0022 16 91 N VSSOP-8, QFN-8 5.90
TLC4541 16 200 17.5 1 SE Serial, SPI VREF Ext 0.0038 16 84.5 N SOIC-8, VSSOP-8 6.85
TLC4545 16 200 17.5 1 PDiff Serial, SPI VREF Ext 0.0038 16 84.5 N SOIC-8, VSSOP-8 6.85
ADS8866 16 100 0.7 1 SE Serial, SPI VREF (5 V) Ext 0.0031 16 93 N QFN-10, VSSOP-10 5.00
ADS8867 16 100 0.7 1 Diff Serial, SPI VREF (5 V) Ext 0.0015 16 95 N QFN-10, VSSOP-10 5.50
ADS8321 16 100 5.5 1 Diff Serial, SPI ±VREF at +VREF Ext 0.012 15 84 N VSSOP-8 5.15
ADS8344 16 100 3.6 8 SE/4 Diff Serial, SPI VREF Ext 0.006 15 86 N SSOP-20 8.00
ADS8345 16 100 3.6 8 SE/4 Diff Serial, SPI ±VREF at VREF Ext 0.006 15 85 N SSOP-20 8.00
ADS8341 16 100 3.6 4 SE/2 Diff Serial, SPI VREF Ext 0.006 15 86 N SSOP-16 7.40
ADS8343 16 100 3.6 4 SE/2 Diff Serial, SPI ±VREF at VREF Ext 0.006 15 86 N SSOP-16 7.45
ADS8325 16 100 2.25 1 SE, 1 PDiff Serial, SPI VREF Ext 0.006 16 91 N VSSOP-8, QFN-8 5.90
ADS8320 16 100 1.95 1 SE, 1 PDiff Serial, SPI VREF Ext 0.012 15 84 N VSSOP-8 5.15
14-Bit SAR ADCs

ADS7891 14 3,000 85 1 SE P8/P14 2.5 Int 0.009 14 78 N TQFP-48 10.50
ADS7946 14 2,500 10 2 Pdiff Serial, SPI VREF Ext 0.009 14 78.8 3x3 QFN-16 2.05
ADS7945 14 2,500 10 2 Diff Serial, SPI VREF Ext 0.009 14 83.5 3x3 QFN-16 2.15
ADS7890 14 1,250 45 1 SE Serial, SPI 2.5 Int 0.009 14 77 N TQFP-48 10.50
ADS7853/54 14 1,000 45 2SE/2 Diff Serial, SPI 2x VREF / Int/Ext 0.006 14 88/ N QFN-16, TSSOP-16 6.00/
±2x VREF 82 6.50
ADS7263 14 1,000 79 4x2/2x2 Serial, SPI ±VREF at +VREF Dual Int/ 0.012 14 83 N QFN-32 6.95
Ext
ADS7279 14 1,000 15.5 1 SE Serial, SPI VREF (4.2 V at Ext 0.0061 14 85.7 N TSSOP-16 4.50
5 V, 2.5 V at
2.7 V Supply)
ADS7280 14 1,000 13.7 2 SE Serial, SPI VREF (5 V at 5 Ext 0.0061 14 85.7 N TSSOP-16 4.50
V, 2.5 V at 2.7
V Supply)
ADS8557 14 800 160 1 x 6 Diff Serial, SPI ±2x/±4x VREF Int/Ext 0.0061 14 82 N LQFP-64, 9x9 12.00
(±1 V to ±12 V QFN-64
ADC141S626 14 250 5 1 Diff Serial, SPI ±V REF at +V REF Ext 0.006 14 82 N VSSOP-10 2.75
*Suggested resale price in U.S. dollars in quantities of 1,000. See www.ti.com/hirel for HiRel options. Preview products are listed in bold blue.


Sample- Number
TLC3548 14 200 20 8 SE Serial, SPI 4 Int/Ext 0.006 14 81 N SOIC-24, TSSOP-24 6.40
TLC3544 14 200 20 4 SE Serial, SPI 4 Int/Ext 0.006 14 81 N SOIC-20, TSSOP-20 6.00
TLC3541 14 200 17.5 1 SE Serial, SPI VREF Ext 0.006 14 81.5 N SOIC-8, VSSOP-8 5.00
TLC3545 14 200 17.5 1 PDiff Serial, SPI VREF Ext 0.006 14 81.5 N SOIC-8, VSSOP-8 5.00
ADS8324 14 50 2.5 1 Diff Serial, SPI ±VREF at +VREF Ext 0.012 14 78 N VSSOP-8 4.15
ADS7871 14 40 6 8 SE/4 Diff Serial, SPI PGA (1, 2, 4, Int 0.03 13 — N SSOP-28 5.00
8, 10, 16, 20)
12-Bit SAR ADCs
ADS7881 12 4,000 95 1 SE P8/P12 2.5 Int 0.024 12 71.5 N 7x7 QFN, TQFP-48 7.35
ADS7882 12 3,000 85 1 SE P8/P12 VREF Int/Ext 0.122 10 68.5 N TQFP-48 2.50
ADS7883 12 3,000 15 1 SE Serial, SPI VDD (2.7 V to Ext (VDD) 0.03 12 72 N SOT23-6 2.50
5.5 V)
ADS7863 12 2,000 13.5 2 x 2 Diff Serial, SPI ±2.5 at 2.5 Int/Ext 0.003 12 71 N SSOP-24, 4x4 4.90
QFN-24
ADS7865 12 2,000 13.5 2 x 2 Diff P12 ±2.5 at 2.5 Int/Ext 0.003 12 71.3 N TQFP-32 4.90
ADS7947 12 2,000 7 2 PDiff Serial, SPI VREF Ext 0.0073 12 — N 3x3 QFN-16 1.95
ADS7253/54 12 1,000 45 2SE/2 Diff Serial, SPI 2x VREF / Int/Ext 0.024 12 72 / N QFN-16, TSSOP-16 3.50/
±2x VREF 72 4.00
ADS8028 12 1,000 17 8 SE Serial, SPI VREF Int/Ext 0.024 12 71 N QFN-20 3.25
ADC128S102 12 1,000 2 8 SE Serial, SPI VREF (5.25 V) Ext 0.007 12 73 N TSSOP-16 2.74
ADC12xS101 12 1,000 4 4,2,1 SE Serial,SPI VREF (5.25 V) Ext 0.007 12 72.4 N VSSOP-10, 8 2.19
SOT23-6, WSON-6
ADS7869 12 1,000 175 12 Diff Serial, SPI/ ±2.5 at +2.5 Int/Ext 0.048 11 — N TQFP-100 14.60
P12
ADS7223 12 1,000 79 4 x 2/2 x 2 Serial, SPI ±VREF at +VREF Dual Int/Ext 0.048 12 70 N QFN-32 4.90
ADS7229 12 1,000 15.5 1 SE Serial/SPI VREF (4.2 V at 5 Ext 0.0122 12 73.7 N TSSOP-16 2.30
V, 2.5 V at 2.7
V Supply)
ADS7230 12 1,000 13.7 2 SE Serial/SPI VREF (5 V at Ext 0.0122 12 73.7 N TSSOP-16 2.50
5 V, 2.5 V at
2.7 V Supply)
ADS7953 12 1,000 12.5 16 SE Serial, SPI VREF (2.5 V) Ext 0.024 12 71.3 N TSSOP-38 4.90
ADS7886 12 1,000 7.5 1 SE Serial, SPI VDD (2.35 V to Ext (VDD) 0.03 12 71.2 N SOT23-6, SC70 1.70
5.25 V)
P12/P8 (±1 V to ±12 V) QFN-64
ADC128S052 12 500 1.6 8 SE Serial, SPI VREF (5.25 V) Ext 0.024 12 73 N TSSOP-16 2.54
ADC12xS051 12 500 3.0 4, 2, 1 SE Serial, SPI VREF (5.25 V) Ext 0.007 12 72 N VSSOP-10, 8 1.94
SOT23-6, WSON-6
ADS7864 12 500 52.5 3 x 2 Diff P12 ±2.5 at +2.5 Int/Ext 0.024 12 71 N TQFP-48 6.65
ADS7861 12 500 25 2 x 2 Diff Serial, SPI ±2.5 at +2.5 Int/Ext 0.024 12 70 N SSOP-24, QFN-32 4.05
ADS7862 12 500 25 2 x 2 Diff P12 ±2.5 at +2.5 Int/Ext 0.024 12 71 N TQFP-32 5.70
ADS7852 12 500 13 8 SE P12 5 Int/Ext 0.024 12 72 N TQFP-32 3.40
ADS7818 12 500 11 1 PDiff Serial, SPI 5 Int 0.024 12 70 N PDIP-8, VSSOP-8 2.50
ADS7834 12 500 11 1 PDiff Serial, SPI 2.5 Int 0.024 12 70 N VSSOP-8 2.45
TLC2552 12 400 15 2 SE Serial, SPI VREF Ext 0.024 12 72 N SOIC-8, VSSOP-8 3.95


Sample- Number
TLC2551 12 400 15 1 SE Serial, SPI VREF Ext 0.024 12 72 N SOIC-8, VSSOP-8 3.95
TLC2555 12 400 15 1 Diff Serial, SPI VREF Int 0.024 12 72 N SOIC-8, MSOP-8 3.95
TLC2558 12 400 9.5 8 SE Serial, SPI 4 Int/Ext 0.024 12 71 N SOIC-20, TSSOP-20 5.30
TLC2554 12 400 9.5 4 SE Serial, SPI 4 Int/Ext 0.024 12 71 N SOIC-16, TSSOP-16 5.30
ADC128S022 12 200 1 8 SE Serial, SPI VREF (2.5 V) Ext 0.007 12 73 N TSSOP-16 2.25
ADC12xS021 12 200 2 4, 2, 1 SE Serial, SPI VREF (2.5 V) Ext 0.007 12 72 N VSSOP-10, 8 1.80
SOT23-6, WSON-6
AMC7823 12 200 100 8 SE I/O DAS Serial, SPI VREF (5.0) Int/Ext 0.024 12 74 N QFN-40 9.75
TLV2548 12 200 3.3 8 SE Serial, SPI +2, 4 Int/Ext 0.024 12 70 Y SOIC-20, TSSOP-20 4.85
TLV2544 12 200 3.3 4 SE Serial, SPI +2, 4 Int/Ext 0.024 12 70 Y SOIC-16, TSSOP-16 4.20
TLV2542 12 200 2.8 2 SE Serial, SPI VREF Ext 0.024 12 72 N SOIC-8, VSSOP-8 3.85
TLV2541 12 200 2.8 1 SE Serial, SPI VREF Ext 0.024 12 72 N SOIC-8, VSSOP-8 3.85
TLV2545 12 200 2.8 1 PDiff Serial, SPI +5.5 (VREF = VDD) Ext 0.024 12 72 N SOIC-8, VSSOP-8 3.85
TLV2553 12 200 2.43 11 SE Serial, SPI VREF Ext 0.024 12 — Y SOIC-20, TSSOP-20 3.40
TLV2556 12 200 2.43 11 SE Serial, SPI VREF Int/Ext 0.024 12 — Y SOIC-20, TSSOP-20 3.55
ADS7817 12 200 2.3 1 Diff Serial, SPI ±VREF at +VREF Ext 0.024 12 71 N SOIC-8, VSSOP-8 1.95
ADS7816 12 200 1.9 1 PDiff Serial, SPI VREF Ext 0.024 12 72 N PDIP, SOIC, VSSOP-8 1.95
ADS7844 12 200 0.84 8 SE/4 Diff Serial, SPI VREF, ±VREF at Ext 0.024 12 72 N SSOP-20 2.90
VREF
ADS7841 12 200 0.84 4 SE/2 Diff Serial, SPI VREF, ±VREF at Ext 0.024 12 72 Y SSOP-16 2.50
VREF
ADS7842 12 200 0.84 4 SE P12 VREF Ext 0.024 12 72 N SSOP-28 3.10
ADS7822 12 200 0.6 1 PDiff Serial, SPI VREF Ext 0.018 12 71 Y PDIP, SOIC, VSSOP-8 1.55
ADS7866 12 200 0.25 1 SE, 1 PDiff Serial, SPI VDD (1.2 V to Ext 0.024 12 70 N SOT23-6 1.85
3.6 V)
ADC121C021 12 189 0.3 1 SE Serial, I2C VREF Ext 0.024 12 70 N SOT-6, VSSOP-8 1.16
ADC121C027 12 189 0.3 1 SE Serial, I2C VREF Ext 0.024 12 70 N SOT-6 1.16
ADS7829 12 125 0.6 1 PDiff Serial, SPI VREF Ext 0.018 12 71 N QFN-8 1.50
AMC7820 12 100 40 8 SE DAS Serial, SPI VREF (5.0) Int/Ext 0.024 12 72 N TQFP-48 3.75
(typ)
ADS7924 12 100 0.5 4 SE Serial, I2C VREF Ext 0.122 12 — N 3x3 QFN-16 1.25
TLC2543 12 66 5 11 SE Serial, SPI VREF Ext 0.024 12 — Y CDIP, PDIP, PLCC, 4.45
SOIC, SSOP-20
TLV2543 12 66 3.3 11 SE Serial, SPI VREF Ext 0.024 12 — N PDIP-20, SOIC-20, 4.45
SSOP-20
ADS7870 12 50 4.6 8 SE Serial, SPI PGA (1, 2, 4, 8, Int 0.06 12 72 N SSOP-28 4.15
10, 16, 20)
ADS7823 12 50 0.75 1 SE Serial, I2C VREF Ext 0.024 12 71 N VSSOP-8 2.85
ADS7828 12 50 0.675 8 SE/4 Diff Serial, I2C VREF Int/Ext 0.024 12 71 Y TSSOP-16 3.35
ADS1286 12 37 1 1 PDiff Serial, SPI VREF Ext 0.024 12 72 N PDIP-8, SOIC-8 2.80
10-Bit SAR ADCs
ADS7884 10 3,000 15 1 SE Serial, SPI VDD Ext (VDD) 0.781 10 61.7 N SOT23-6 1.60
(2.7 V to 5.5 V)
TLV1578 10 1,250 12 8 SE P/0 VREF Ext 0.1 10 60 N TSSOP-32 3.85
TLV1571 10 1,250 12 1 SE P/0 VREF Ext 0.1 10 60 N SOIC-24, TSSOP-24 3.70
TLV1570 10 1,250 9 8 SE Serial, SPI 2V, VREF Int/Ext 0.1 10 60 N SOIC-20, TSSOP-20 3.80
TLV1572 10 1,250 8.1 1 SE Serial, SPI VREF Ext 0.1 10 60 N SOIC-8 3.30
ADS7887 10 1,250 8 1 SE Serial, SPI VDD (2.35 V to Ext (VDD) 0.073 10 61 N SOT23-6, SC70 1.50
5.25 V)
ADS7957 10 1,000 12.5 16 SE Serial, SPI VREF (2.5 V) Ext 0.078 10 60 N TSSOP-38 3.90


Sample- Number
ADC108S102 10 1,000 2.1 8 SE Serial, SPI VREF (5.25 V) Ext 0.019 10 61.8 N TSSOP-16 2.69
Mini SOIC-10;8,
ADC10xS101 10 1,000 3.9 4, 2, 1 SE Serial, SPI VREF (5.25 V) Ext 0.039 10 61.8 N 2.00
SOT23-6, LLP-6
ADC108S052 10 500 1.5 8 SE Serial, SPI VREF (5.25 V) Ext 0.014 10 61.5 N TSSOP-16 2.10
Mini SOIC-10;8,
ADC10xS051 10 500 2.7 4, 2, 1 SE Serial, SPI VREF (5.25 V) Ext 0.019 10 60 N 1.85
SOT23-6, LLP-6
TLC1518 10 400 10 8 SE/7 Diff Serial, SPI +5.5 (VREF = VDD) Int/Ext 0.012 10 60 N SOIC-20, TSSOP-20 3.45
TLC1514 10 400 10 4 SE/3 Diff Serial, SPI +5.5 (VREF = VDD) Int/Ext 0.012 10 60 N SOIC-16, TSSOP-16 2.90
VSSOP-10, 8
ADC10xS021 10 200 2.0 4, 2, 1 SE Serial, SPI VREF (5.25 V) Ext 0.05 10 61.5 N 1.80
SOT23-6, WSON-6
TLV1508 10 200 3.3 8 SE Serial, SPI +2, 4 Int/Ext 0.05 10 60 N SOIC-20, TSSOP-20 3.15
TLV1504 10 200 3.3 4 SE Serial, SPI +2, 4 Int/Ext 0.05 10 60 N SOIC-16, TSSOP-16 2.65
ADS7867 10 200 0.25 1SE, 1 PDiff Serial, SPI VDD (1.2 V to 3.6 V) Ext 0.05 10 61 N SOT23-6 1.40
TLC1550 10 164 10 1 SE P10 VREF Ext 0.05 10 — Y PLCC-28, SOIC-24 3.90
TLC1551 10 164 10 1 SE P10 VREF Ext 0.1 10 — N PLCC-28, SOIC-24 3.35
ADC101C021 10 125 0.3 1 SE Serial I2C VREF Ext 0.049 10 62 N SOT-6, VSSOP-8 1.00
ADC101C027 10 125 0.3 1 SE Serial I2C VREF Ext 0.049 10 62 N SOT-6 1.00
TLV1548 10 85 1.05 8 SE Serial, SPI VREF Ext 0.1 10 — Y CDIP, LCCC, SSOP-20 2.30
TLV1544 10 85 1.05 4 SE Serial, SPI VREF Ext 0.1 10 — N SOIC-16, TSSOP-16 1.95
CDIP, LCCC, PDIP,
TLC1542 10 38 4 11 SE Serial, SPI VREF Ext 0.05 10 — Y 2.50
PLCC, SOIC-20
TLC1543 10 38 4 11 SE Serial, SPI VREF Ext 0.1 10 — Y PLCC/SOIC/SSOP-20 1.90
TLC1549 10 38 4 1 SE Serial, SPI VREF Ext 0.1 10 — N PDIP-8, SOIC-8 1.71
TLV1543 10 38 2.64 11 SE Serial, SPI VREF Ext 0.1 10 — N CDIP, LCCC, PDIP, 2.15
PLCC, SOIC, SSOP-20
TLC1541 10 32 6 11 SE Serial, SPI VREF Ext 0.1 10 — N PDIP, PLCC, SOIC-20 3.20
8-Bit SAR ADCs
ADS7885 8 3,000 15 1 SE Serial, SPI VDD (2.7 V to 5.5 V) Ext (VDD) 0.156 8 49.8 N SOT23-6 0.95
TLV571 8 1,250 12 1 SE P8 VREF Ext 0.5 8 49 N SOIC-24, TSSOP-24 2.35
ADS7888 8 1,250 8 1 SE Serial, SPI VDD (2.35 V to Ext (VDD) 0.2 8 49.5 N SOT23-6, SC70 0.85
5.25 V)
ADC088S102 8 1,000 1.8 8 SE Serial, SPI VREF (5.25 V) Ext 0.078 8 49.6 N TSSOP-16 1.50
Mini SOIC-10;8,
ADC08xS101 8 1,000 3.2 4, 2, 1 SE Serial, SPI VREF (5.25 V) Ext 0.16 8 49.6 N 1.25
SOT23-6, LLP-6
Mini SOIC-10;8,
SOT23-6, LLP-6
TLC0820A 8 392 37.5 1 SE P8 VREF Ext 0.2 8 — N PLCC, SOIC, SSOP-20 1.90

Sample- Number
Res. Rate Power of Input Input SINAD HiRel
Device (Bits) (kSPS) (mW) Channels Interface Voltage (V) VREF Linearity (%) NMC (dB) Avail. Package Price*
VSSOP-10, 8
SOT23-6, WSON-6
ADS7868 8 200 0.25 1 SE, 1 PDiff Serial, SPI VDD (1.2 V to 3.6 V) Ext 0.1 8 50 N SOT23-6 0.80
ADC081C021 10 189 0.3 1 SE Serial, I2C VREF Ext 0.078 8 50 N SOT-6, VSSOP-8 0.57
ADC081C027 10 189 0.3 1 SE Serial, I2C VREF Ext 0.078 8 50 N SOT-6 0.57
TLC545 8 76 6 19 SE Serial, SPI VREF Ext 0.2 8 — N PDIP-28, PLCC-28 3.10
ADS7830 8 75 0.675 8 SE/4 Diff Serial, I2C VREF Int/Ext 0.19 8 50 N TSSOP-16 1.40
TLV0831 8 49 0.66 1 SE Serial, SPI +3.6 (VREF = VDD) Ext 0.2 8 — N PDIP-8, SOIC-8 1.40
TLC548 8 45.5 9 1 SE Serial, SPI VREF Ext 0.2 8 — N PDIP-8, SOIC-8 1.20
TLV0832 8 44.7 5 2 SE/1 Diff Serial, SPI VREF Ext 0.2 8 — N PDIP-8, SOIC-8 1.40
PDIP, SOIC,
TLV0834 8 41 0.66 4 SE/2 Diff Serial, SPI VREF Ext 0.2 8 — N TSSOP-14 1.45
TLC549 8 40 9 1 SE Serial, SPI VREF Ext 0.2 8 — Y PDIP-8, SOIC-8 0.95
PDIP, PLCC,
TLC541 8 40 6 11 SE Serial, SPI VREF Ext 0.2 8 — Y SOIC-20 1.50
PDIP, SOIC,
TLV0838 8 37.9 0.66 8 S/4 Diff Serial, SPI VREF Ext 0.2 8 — N TSSOP-20 1.45
TLC0831 8 31 3 1 Diff Serial, SPI VREF Ext 0.2 8 — N PDIP-8, SOIC-8 1.40
PDIP, PLCC,
TLC542 8 25 6 11 SE Serial, SPI VREF Ext 0.2 8 — N SOIC-20 1.50
TLC0832 8 22 12.5 2 SE/1 Diff Serial, SPI VREF Ext 0.2 8 — N PDIP-8, SOIC-8 1.40
PDIP, SOIC,
TLC0838 8 20 3 8 SE/4 Diff Serial, SPI VREF Ext 0.2 8 — N TSSOP-20 1.45
PDIP-14,
TLC0834 8 20 3 4 SE/2 Diff Serial, SPI VREF Ext 0.2 8 — N SOIC-14 1.45
SAR ADC Data Acquisition Systems

Sample- Number
Res. Rate Power of Input Input SINAD HiRel
Device (Bits) (kSPS) (mW) Channels Interface Voltage (V) VREF Linearity (%) NMC (dB) Avail. Package Price*
SAR ADC Data Acquisition Systems
ADS7871 14 40 6 8 SE/4 Diff Serial, SPI PGA (1, 2, 4, 8, Int 0.03 13 — N SSOP-28 5.00
10, 16, 20)
ADS8201 12 100 1.32 8 SE/4 Diff Serial, SPI PGA (1, 2, 4, 8) Ext 0.012 12 — N 4x4 VQFN 2.75
ADS7870 12 50 4.6 8 SE Serial, SPI PGA (1, 2, 4, 8, Int 0.06 12 72 N SSOP-28 4.15
10, 16, 20)
Bipolar Input SAR ADCs

Sample- Number
Res. Rate of Input Input Linearity SINAD Power HiRel
Device (Bits) (kSPS) Channels Interface Voltage (V) VREF (%) NMC (dB) (mW) Avail. Package Price*
16-Bit Bipolar SAR ADCs
ADS8555 16 630 8 SE Serial, SPI/P16 ±5, ±6, ±10, ±12 Int/Ext 0.0045 16 89.5 252 N QFN-64 12.95
ADS7815 16 250 1 SE P16 ±2.5 Int/Ext 0.006 15 84 200 N SOIC-28 21.30
ADS8515 16 250 1 SE P16 ±10 Int/Ext 0.0022 16 92 100 N SSOP-28 10.95
ADS8519 16 250 1 SE Serial, SPI +4, 10, ±3.3, 5, 10 Int/Ext 0.0022 16 91 100 N SSOP-28 12.95

Bipolar Input SAR ADCs (continued)

Sample- Number
16-Bit Bipolar SAR ADCs (continued)
ADS8509 16 250 1 SE Serial, SPI +4, 10, ±3.3, 5, 10 Int/Ext 0.003 16 86 70 N SOIC-20, 12.95
SSOP-28
ADS8505 16 250 1 SE P8/P16 ±10 Int/Ext 0.0022 16 86 70 N SOIC-28, 12.95
SSOP-28
ADS8517 16 200 1 SE Serial, SPI/P8 4, 5, ±10 Int/Ext 0.0022 16 89 38 N SO-28, 13.00
SSOP-28
ADS7805 16 100 1 SE P8/P16 ±10 Int/Ext 0.0045 16 86 81.5 N PDIP-28, 21.80
SOIC-28
ADS7809 16 100 1 SE Serial, SPI +4, 10, ±3.3, 5, 10 Int/Ext 0.0045 16 88 81.5 N SOIC-20 25.00
ADS7825 16 40 4 SE Serial, SPI/P8 ±10 Int/Ext 0.003 16 83 50 N PDIP-28, 29.55
SOIC-28
ADS7813 16 40 1 SE Serial, SPI +4, 10, ±3.3, 5, 10 Int/Ext 0.003 16 89 35 N PDIP-16, 24.70
SOIC-16
ADS8513 16 40 1 SE Serial, SPI +4, 10, ±3.3, 5, 10 Int/Ext 0.0023 16 89.9 30 N SOIC-16 12.00
ADS7807 16 40 1 SE Serial, SPI/P8 4, 5, ±10 Int/Ext 0.0022 16 88 28 N PDIP-28, 32.30
SOIC-28
ADS8507 16 40 1 SE Serial, SPI/P8 4, 5, ±10 Int/Ext 0.0022 16 88 24 N SOIC-28 13.00
ADS8557 14 670 8 SE Serial, SPI/P16 ±5, ±6, ±10, ±12 Int/Ext 0.006 14 84 253 N QFN-64 10.95
TLC3578 14 200 8 SE Serial, SPI ±10 Ext 0.006 14 79 29 N SOIC-24, 8.65
TSSOP-24
TSSOP-24
ADS8634 12 1,000 4 Pdiff Serial, SPI +5, 10, ±5, ±10, ±12 Int/Ext 0.021 12 71.8 22.5 N 4x4 QFN-24 2.70
ADS8638 12 1,000 8 Pdiff Serial, SPI +5, 10, ±2.5, ±5, ±10 Int/Ext 0.021 12 71.8 22.5 N 4x4 QFN-24 3.70
ADS8558 12 730 8 SE Serial, SPI/P16 ±5, ±6, ±10, ±12 Int/Ext 0.020 12 73.8 262 N QFP-64 8.95
ADS7835 12 500 1 SE Serial, SPI ±2.5 Int 0.024 12 72 17.5 N VSSOP-8 2.75
ADS7800 12 333 1 SE P8/P12 ±5, 10 Int 0.012 12 72 135 N CDIP SB-24 30.50
ADS8508 12 250 1 SE Serial, SPI +4, 10, ±3.3, 5, 10 Int/Ext 0.011 12 73 70 N SSOP-28, 10.50
SOIC-20
ADS8504 12 250 1 SE P8/P16 ±10 Int/Ext 0.011 12 72 70 N SSOP-28, 10.50
SOIC-28
TSSOP-24
TSSOP-20
ADS774 12 125 1 SE P12 10, 20, ±5, ±10 Int 0.024 12 68 120 N PDIP-28, 18.25
SOIC-28

Bipolar Input SAR ADCs (continued)

Sample- Number
ADS7804 12 100 1 SE P8/P16 ±10 Int/Ext 0.011 12 72 81.5 N PDIP-28, 16.55
SOIC-28
ADS7808 12 100 1 SE Serial, SPI +4, 10, ±3.3, 5, 10 Int/Ext 0.011 12 73 81.5 N SOIC-20 12.80
ADS7824 12 40 4 SE Serial, SPI/P8 ±10 Int/Ext 0.012 12 73 50 N PDIP-28, 13.10
SOIC-28
ADS7812 12 40 1 SE Serial, SPI +4, 10, ±3.3, 5, 10 Int/Ext 0.012 12 74 35 N PDIP-16, 11.80
SOIC-16
ADS7806 12 40 1 SE Serial, SPI/P8 +4, 5, ±10 Int/Ext 0.011 12 73 28 N PDIP-28, 15.05
SOIC-28
ADS8512 12 40 1 SE Serial, SPI +4, 10, ±3.3, 5, 10 Int/Ext 0.011 12 74 24 N SOIC-16 7.00
ADS8506 12 40 1 SE Serial, SPI/P8 +4, 5, ±10 Int/Ext 0.011 12 73 24 N SOIC-28 7.00

Data Converters
Analog-to-Digital Converters – Pipeline ADCs
Dual 16-Bit 250 MSPS Analog-to-Digital Converter

ADS42JB46/69
The ADS42JB49/69 is a family of high linearity dual channel 14- and 16-bit, 250 MSPS Key Features
analog-to-digital converters (ADC). The ADS42xB49/69 family supports the JESD204B • Dual channel
serial interface with data rates up to 3.125 Gbps as well as DDR and QDR LVDS inter- • 14/16-bit resolution
faces. The buffered analog input provides uniform input impedance across a wide • Maximum clock rate: 250 Msps
frequency range while minimizing sample-and-hold glitch energy. A sampling clock • JESD204B serial interface
divider allows more flexibility for system clock architecture design. The ADS42JB49/69 Subclass 0, 1, 2 compliant up to
provides excellent spurious-free dynamic range (SFDR) over a large input frequency 3.125 Gbps
range with low power consumption. 2 to 4 lanes supporting up to
250 Msps
• Analog input buffer with high
impedance Input
ADS42JB49/69 OVRA
Digital • Flexible input clock buffer with divide
Block
14-bit DA0P/M by 1,2,4
INAP/M 16-bit JESD204B
ADC Gain Digital • 2 Vpp and 2.5 Vpp differential full-scale
Test Modes DA1P/M input (SPI programmable)
Divide PLL
• 64-pin QFN package (9x9mm)
CLKINP/M
by 1,2,4 x10/x20 • Power dissipation: 775mW/ch
SYNCP/M • Aperture jitter: 85 fs rms
SYSREFP/M Delay • Channel isolation: 100 dB
Digital DB0P/M
14-bit
Block
JESD204B Applications
INBP/M 16-bit Digital
ADC DB1P/M • Broadband wireless
Gain
Test Modes • Communications test equipment
OVRB • Microwave receivers
VCM
Common
Configuration Registers • Multicarrier, multimode cellular
Mode
receivers
• Radar and smart antenna arrays
• Software defined radios
P D N _A N A
RESET
S C LK
SDO UT
SEN
PDN
MO D E
S D AT A
ADS42JB69 functional block diagram
Get more information: www.ti.com/product/ADS42JB49,

www.ti.com/product/ADS42JB69

Data Converters
Dual 12-Bit 800 MSPS Analog-to-Digital Converter

ADS5402
The ADS5402 is a high linearity dual channel 12-bit, 800 Msps analog-to-digital Key Features
converter (ADC) easing front end filter design for wide bandwidth receivers. The analog • Dual channel
input buffer isolates the internal switching of the on-chip track-and-hold from disturb- • 12-bit resolution
ing the signal source as well as providing a high-impedance input. Optionally the output • Maximum clock rate: 800 Msps
data can be decimated by two. Designed for high SFDR, the ADC has low-noise perfor- • Low swing full scale input: 1.0 Vpp
mance and very good spurious-free dynamic range over a large input-frequency range. • Analog input buffer with high
impedance input
• Input bandwidth (3 dB): >1.2 GHz
• Data output interface: DDR LVDS
12-bit Digital • Optional 2x decimation with low pass
INA DA[11:0]
800 Msps Block
or high pass filter
DACLK
• 196-pin BGA package (12×12 mm)
CLKIN Clk
Buffer
SYNC Applications
• Cable infrastructure
INB
12-bit Digital
DB[11:0] • Data acquisition
800 Msps Block
DBCLK • Microwave receivers
• Non-destructive testing
• Power amplifier linearization
ADS5402 functional block diagram • Radar and satellite systems
• Signal intelligence and jamming
• Test and measurement instrumentation
Get more information: www.ti.com/product/ADS5402 • Ultra-wide band software defined radio

Data Converters
Pipeline ADCs
Sample- Analog Input Supply
Res. Rate No. of Input Input Bandwidth DNL INL SFDR Voltage HiRel
Device (Bits) (MSPS) Channels Voltage (V) (MHz) (± LSB) (± LSB) SNR (dB) (dB) (V) Power (mW) Avail. Package Price*
ADS42LB/JB69 16 250 2 Diff 2/2.5 650 TBD TBD 73.7 90 3.6,3.0 1480/1550 N QFN-64 185.00
ADS5485 16 200 1 Diff 3 730 0.99 10 75 87 4.75, 5.25 2160 N QFN-64 98.95
ADS5484 16 170 1 Diff 3 730 0.99 10 75.7 87 4.75, 5.25 2160 N QFN-64 78.95
ADS5483 16 135 1 Diff 3 485 0.5 3 79 97 4.75, 5.25 2130 N QFN-64 65.00
ADS5482 16 105 1 Diff 3 125 0.5 3 80.5 98 4.75, 5.25 2100 N QFN-64 56.65
ADS5481 16 80 1 Diff 3 125 0.5 3 80.6 98 4.75, 5.25 2100 N QFN-64 48.33
ADS5562 16 80 1 Diff 3.56 300 0.95 8.5 84 85 3.0, 3.6 865 N QFN-48 48.35
ADS5560 16 40 1 Diff 3.56 300 0.95 8.5 84.3 90 3.0, 3.6 674 N QFN-48 31.80
ADC16DV160 16 160 2 Diff 2.4 1400 0.45 2.5 78 95 3.6, 2.7 1340 N LLP-68 103.00
ADC16V130 16 130 1 Diff 2.4 1400 0.45 1.5 78.5 95.5 3.6, 2.7 755 N LLP-64 65.60
ADS5474 14 400 1 Diff 2.2 1440 0.7 1 70.2 86 4.75, 5.25 2500 N HTQFP-80 160.65
ADS6149 14 250 1 Diff 2 800 0.4 2 72.7 86 3.0, 3.6 687 N QFN-48 96.50
ADS4149 14 250 1 Diff 2 800 0.5 2 72.9 80 1.7, 1.9 265 N QFN-48 89.00
ADS61B49 14 250 1 Diff 2 800 0.4 2 72.4 86 3.0, 3.6 790 N QFN-48 99.95
ADS41B49 14 250 1 Diff 1.78 600 0.5 2 71.7 80 1.7, 1.9 350 N QFN-48 92.50
ADS62P49 14 250 2 Diff 2 800 0.6 2.5 73 85 3.0, 3.6 1250 N QFN-64 144.75
ADS4249 14 250 2 Diff 2 600 1.7 5 72.8 80 1.9, 1.7 470 N QFN-64 118.5
ADS4449 14 250 4 Diff 1.9 500 0.5 1.5 70 85 3.6, 3.0 1400 N TBD 199.85
ADS58C20 14 250 2 Diff 1.9 750 0.5 1.5 77 94 3.45, 3.15 1630 N HTQFP-80 96.90
ADS58C23 14 250 2 Diff 1.9 750 0.5 1.5 75 94 3.45, 3.15 1630 N HTQFP-80 79.50
ADS58H40 14 250 4 Diff 2 500 0.5 1.5 71 85 3.45, 1.8 1460 N NFBGA-144 166.95
ADS58H43 14 250 4 Diff 2 500 0.5 1.5 70.5 85 3.45, 1.8 1460 N NFBGA-144 139.13
ADS42B/JB49 14 250 2 Diff 2/2.5 650 TBD TBD 71/72.3 90 3.6, 3.0 830/1550 N QFN-64 125.00
ADS5547 14 210 1 Diff 2 800 0.5 3.5 73.3 85 3.0, 3.6 1230 N QFN-48 82.50
ADS6148 14 210 1 Diff 2 700 0.4 2 72.7 82 3.0, 3.6 628 N QFN-48 74.25
ADS62P48 14 210 2 Diff 2 800 0.6 2.5 73 85 3.0, 3.6 1140 N QFN-64 120.00
ADS5546 14 190 1 Diff 2 500 0.5 3 73.2 84 3.0, 3.6 1130 N QFN-48 72.50
ADS5545 14 170 1 Diff 2 500 0.5 3 73.5 85 3.0, 3.6 1100 N QFN-48 62.50
ADS4146 14 160 1 Diff 2 800 0.5 2 73 83 1.7, 1.9 200 N QFN-48 49.00
ADS42JB46 14 160 2 Diff 2/2.5 650 1.7 5 71.9 90 3.6,3.0 1330 N QFN-64 65.25
ADS4246 14 160 2 Diff 2 600 1.7 5 72.8 87 1.9, 1.7 332 N QFN-64 65.25
ADS5500 14 125 1 Diff 2 750 0.75 2.5 70.5 82 3.0, 3.6 780 Y HTQFP-64 49.00
ADS6145 14 125 1 Diff 2 450 0.6 2.5 74.1 84 3.0, 3.6 417 N QFN-32 36.90
ADS4145 14 125 1 Diff 2 800 0.5 2 73 85 1.7, 1.9V 140 N QFN-64 34.15
ADS6245 14 125 2 Diff 2 500 0.6 3 73.2 83 3.0, 3.6 1000 N QFN-48 60.00
ADS62P45 14 125 2 Diff 2 450 0.8 3 73.8 85 3.0, 3.6 792 N QFN-64 60.00
ADS6445 14 125 4 Diff 2 500 0.6 3 73.2 83 3.0, 3.6 1680 Y QFN-64 117.00
ADS4245 14 125 2 Diff 2 600 1.7 5 73.4 89 1.9, 1.7 277 N QFN-64 41.00
ADS5424 14 105 1 Diff 2.2 570 –0.95, 1.5 1.5 74 93 4.75, 5.25 1900 Y HTQFP-52 56.00
ADS5541 14 105 1 Diff 2 750 –0.9, 1.1 5 72 85.1 3.0, 3.6 739 N HTQFP-64 41.00
ADS6144 14 105 1 Diff 2 450 0.6 2.5 74.1 84 3.0, 3.6 374 N QFN-32 31.90
ADS6244 14 105 2 Diff 2 500 0.6 3 73 81 3.0, 3.6 810 N QFN-48 51.05
ADS62P44 14 105 2 Diff 2 450 0.7 2.5 73.8 86 3.0, 3.6 700 N QFN-64 61.05
ADS6444 14 105 4 Diff 2 500 0.6 3 73 81 3.0, 3.6 1350 N QFN-64 99.00
ADS5423 14 80 1 Diff 2.2 570 –0.95, 1.5 1.5 74 94 4.75, 5.25 1850 N HTQFP-52 40.00

Data Converters
Pipeline ADCs (continued)

Sample- No. of Input Analog Input
Res. Rate Input Voltage Bandwidth DNL INL SNR SFDR Supply Power HiRel
Device (Bits) (MSPS) Channels (V) (MHz) (± LSB) (± LSB) (dB) (dB) Voltage (V) (mW) Avail. Package Price*
ADS5433 14 80 1 Diff 2.2 570 –0.95, 1.5 1.5 74 97.2 4.75, 5.25 1850 N HTQFP-52 48.00
ADS5542 14 80 1 Diff 2 750 –0.9, 1.1 5 72.9 88 3.0, 3.6 674 N HTQFP-64 25.00
ADS6143 14 80 1 Diff 2 450 0.5 2 74.4 89 3.0, 3.6 318 N QFN-32 25.00
ADS6243 14 80 2 Diff 2 500 0.5 2 73.8 87.5 3.0, 3.6 700 N QFN-48 37.50
ADS62P43 14 80 2 Diff 2 450 0.5 1.5 74.3 88 3.0, 3.6 587 N QFN-64 37.50
ADS6443 14 80 4 Diff 2 500 0.5 2 73.8 87.5 3.0, 3.6 1180 N QFN-64 63.00
ADS4242 14 65 2 Diff 2 600 1.7 5 73.6 92 1.9, 1.7 183 N QFN-64 28.00
ADS5553 14 65 2 Diff 2.3 750 1 4 74 84 3.0, 3.6 890 N HTQFP-80 30.00
ADS6142 14 65 1 Diff 2 450 0.5 2 74.6 89 3.0, 3.6 285 N QFN-32 18.65
ADS6242 14 65 2 Diff 2 500 0.5 2 74 88 3.0, 3.6 630 N QFN-48 30.85
ADS62P42 14 65 2 Diff 2 450 0.4 1.5 74.4 88 3.0, 3.6 518 N QFN-64 30.85
ADS6442 14 65 4 Diff 2 500 0.5 2 74 88 3.0, 3.6 1180 N QFN-64 57.05
ADS5422 14 62 1 Diff 2 to 4 300 1 — 72 85 4.75, 5.25 1200 N LQFP-64 30.45
ADS5421 14 40 1 Diff 2 to 4 300 1 — 75 83 4.75, 5.25 900 N LQFP-64 20.15
ADS850 14 10 1 SE/1 Diff 2 to 4 300 1 5 76 85 4.7, 5.3 250 N TQFP-48 10.50
THS1408 14 8 1 SE/1 Diff 1.5 140 1 5 72 80 3.0, 3.6 270 Y HTQFP-48 14.85
THS1403 14 3 1 SE/1 Diff 1.5 140 1 5 72 80 3.0, 3.6 270 N HTQFP-48 11.05
THS14F03 14 3 1 SE/1 Diff 1.5 140 1 2.5 72 80 3.0, 3.6 270 N TQFP-48 12.60
THS1401 14 1 1 SE/1 Diff 1.5 140 1 5 72 80 3.0, 3.6 270 N HTQFP-48 8.90
THS14F01 14 1 1 SE/1 Diff 1.5 140 1 2.5 72 80 3.0, 3.6 270 N TQFP-48 9.65
ADC14155/V155 14 155 1 Diff 2 1100 0.5 1.9 71.3/71.7 87/86.9 3.6, 3.0 967/951 N LLP-48 63.80/62.00
ADC14DS080/105 14 80/105 2 Diff 2 1000 0.25 1.5 70/70.5 81/83 3.6, 2.7 800/1000 N LLP-60 23.00/60.80
ADC14DC080/105 14 80/105 2 Diff 2 1000 0.4/0.5 1.5/1.9 71 83 3.6, 2.7 600/800 N LLP-60 32.30/60.00
ADC14C080/105 14 80/105 1 Diff 2 1000 0.4/0.5 1.5/1.9 71 83 3.6, 2.7 600/800 N LLP-60 32.30/60.00
ADC14L020/40 14 20/40 1 Diff 2 150 0.5 1.4/1.5 74 93/90 3.6, 3.0 150 N LQFP-32 12.00/15.30
ADS5444 13 250 1 SE/1 Diff 2.2 800 0.4 2.5 68.7 73 4.75, 5.25 2100 Y HTQFP-80 59.00
ADS5440 13 210 1 SE/1 Diff 2.2 800 0.4 2.5 69 80 4.75, 5.25 2100 Y HTQFP-80 42.00
ADS5400 12 1000 1 Diff 2 2100 0.7 2 59.1 75 4.75, 5.25 2200 Y HTQFP-100 775.00
ADS5409 12 900 2 Diff 2 1200 0.8 2 60.7 74 3.15, 3.45 2180 N 196NFBGA 393.35
ADS5401 12 800 1 Diff 2 1200 0.8 2 61.2 73 3.15, 3.46 1200 N 196NFBGA 187.50
ADS5402 12 800 2 Diff 2 1200 0.8 2 61.8 80 3.15, 3.47 2100 N 196NFBGA 349.65
ADS54T01 12 750 1 Diff 2 1200 0.8 2 61.2 79 3.15, 3.48 1200 N 196NFBGA 187.50
ADS54T02 12 750 2 Diff 2 1200 0.8 2 60.9 74 3.15, 3.49 2100 N 196NFBGA 349.65
ADS54RF63 12 550 1 Diff 2.2 2300 0.95 2.5 62.6 76 4.75, 5.25 2250 N HTQFP-80 177.00
ADS5403 12 500 1 Diff 2 1200 0.8 2 60.8 80 3.15, 3.49 1040 N 196NFBGA 125.00
ADS5463 12 500 1 Diff 2.2 2000 0.25 2.5 65.2 84 4.75, 5.25 2200 Y HTQFP-80 135.75
ADS5404 12 500 2 Diff 2 1200 0.8 2 60.8 80 3.15, 3.49 1600 N 196NFBGA 218.75
ADS5407 12 500 2 Diff 2 1200 0.8 2 63.8 84 3.15, 3.49 1350 N 196NFBGA 239.95
ADS54T04 12 500 2 Diff 2 1200 0.8 2 60.8 78 3.15, 3.49 1600 N 196NFBGA 218.75
ADS6129 12 250 1 Diff 2 700 0.2 1 70.5 86 3.0, 3.6 687 N QFN-48 52.85
ADS4129 12 250 1 Diff 2 800 0.2 0.25 70.4 80 1.7, 1.9 265 N QFN-48 45.00
ADS61B29 12 250 1 Diff 2 800 0.2 1 70 86 3.0, 3.6 790 N QFN-48 56.30

Data Converters

Sample- Input Analog Input Supply
Res. Rate No. of Input Voltage Bandwidth DNL INL SNR SFDR Voltage Power HiRel
Device (Bits) (MSPS) Channels (V) (MHz) (± LSB) (± LSB) (dB) (dB) (V) (mW) Avail. Package Price*
ADS41B29 12 250 1 Diff 1.78 600 0.2 1 69.2 80 1.7, 1.9 350 N QFN-48 48.45
ADS62P29 12 250 2 Diff 2 800 0.2 1 70.5 85 3.0, 3.6 1250 N QFN-64 79.50
ADS4229 12 250 2 Diff 2 600 1.5 3.5 73.6 92 1.9, 1.7 470 N QFN-64 59.85
ADS5527 12 210 1 Diff 2 800 0.5 2 69 81 3.0, 3.6 1230 N QFN-48 45.00
ADS6128 12 210 1 Diff 2 700 0.2 1 70.5 82 3.0, 3.6 628 N QFN-48 41.50
ADS62P28 12 210 2 Diff 2 800 0.2 1 70.6 85 3.0, 3.6 1140 N QFN-64 62.25
ADS5525 12 170 1 Diff 2 500 0.5 1.5 70.5 84 3.0, 3.6 1100 N QFN-48 35.00
ADC12C170/ 12 170 1 Diff 2 1100 0.5/ 0.9/ 67.2 85.4/ 3.6, 3.0 715/ N LLP-48 33.00
V170 0.3 0.5 85.8 781
ADS4226 12 160 2 Diff 2 600 1.6 3.5 70.5 87 1.9, 1.7 332 N QFN-64 39.00
ADS4126 12 160 1 Diff 2 800 0.2 0.25 70.5 83 1.7, 1.9 200 N QFN-48 26.00
ADS5520 12 125 1 Diff 2 750 0.5 1.5 69.7 83.6 3.0, 3.6 780 N HTQFP-64 27.50
ADS6125 12 125 1 Diff 2 450 0.6 2.5 71.3 84 3.0, 3.6 417 N QFN-32 24.55
ADS4125 12 125 1 Diff 2 800 0.2 0.25 70.5 83 1.7, 1.9 140 N QFN-64 20.85
ADS6225 12 125 2 Diff 2 500 0.5 2.5 70.3 83 3.0, 3.6 1000 N QFN-64 20.85
ADS62P25 12 125 2 Diff 2 450 0.8 3 70.8 85 3.0, 3.6 792 N QFN-64 36.85
ADS6425 12 125 4 Diff 2 500 0.5 2.5 70.3 83 3.0, 3.6 1650 N QFN-64 68.60
ADS4225 12 125 2 Diff 2 600 1.5 3.5 70.8 89 1.9, 1.7 277 N QFN-64 29.50
ADS5521 12 105 1 DIff 2 750 0.5 1.5 70 86 3.0, 3.6 736 N HTQFP-64 23.00
ADS6124 12 105 1 Diff 2 450 0.5 2 71.3 84 3.0, 3.6 374 N QFN-32 20.75
ADS6224 12 105 2 Diff 2 500 0.5 2.2 70.6 81 3.0, 3.6 900 N QFN-48 31.60
ADS62P24 12 105 2 Diff 2 450 0.7 2.5 71 86 3.0, 3.6 700 N QFN-64 31.60
ADS6424 12 105 4 Diff 2 500 0.5 2.2 70.6 81 3.0, 3.6 1350 N QFN-64 58.50
ADC12C105 12 105 1 Diff 2 1000 0.25 0.5 69 82 3.6, 2.7 400 N LLP-32 24.00
ADC12DS080/ 12 80/105 2 Diff 2 1000 0.25/ 0.5 70/ 81/ 3.6, 2.7 800/ N LLP-60 23.00/
105 0.3 7.1 88 1000 31.00
ADC12DC080/ 12 80/105 2 Diff 2 1000 0.2 0.5 71.2/ 88/ 3.6, 2.7 600/ N LLP-60 20.00/
105 69.1 83 800 30.00
ADC12C080 12 80 1 Diff 2 1000 0.35 0.5 71.2 90 3.6, 2.7 300 N LLP-32 16.70
ADC12DL080 12 80 2 Diff 2 600 0.4 0.9 69.3 82 3.6, 3.0 447 N TQFP-64 15.20
ADC12L080 12 80 1 Diff 2 450 0.4 1.2 66 80 3.6, 3.0 425 N LQFP-32 15.96
ADS5410 12 80 1 SE/1 Diff 2 1000 1 2 65 76 3.0, 3.6 360 N TQFP-48 19.00
ADS5522 12 80 1 Diff 2 750 0.5 1.5 69.7 82.8 3.0, 3.6 663 N HTQFP-64 16.70
ADS809 12 80 1 SE/1 Diff 1 to 2 1000 1.7 6 63 67 4.75, 5.25 905 N TQFP-48 24.95
ADS6123 12 80 1 Diff 2 450 0.5 2 71.5 89 3.0, 3.6 318 N QFN-32 16.50
ADS61B23 12 80 1 Diff 2 450 0.5 2 70 82 3.0, 3.6 351 N QFN-32 19.50
ADS6223 12 80 2 Diff 2 500 0.4 2 70.9 87 3.0, 3.6 760 N QFN-48 25.05
ADS62P23 12 80 2 Diff 2 450 0.5 1.5 71.2 88 3.0, 3.6 587 N QFN-64 25.05
ADS6423 12 80 4 Diff 2 500 0.4 2 70.9 87 3.0, 3.6 1180 N QFN-64 44.30
ADS808 12 70 1 SE/1 Diff 1 to 2 1000 1.7 7 64 68 4.75, 5.25 720 N TQFP-48 19.50
ADS5273 12 70 8 Diff 1.5 300 0.99, 1.2 3 71 85 3.0, 3.6 1003 N HTQFP-80 121.00
ADC12L066 12 66 1 Diff 2 450 0.4 1.2 66 80 3.6, 3.0 357 N LQFP-32 11.97
ADC12QS065 12 65 4 Diff 2 300 0.3 0.7 69.3 83.3 3.6, 3.0 828 N LLP-60 30.50
ADC12DL065 12 65 2 Diff 2 250 0.4 0.75 69 85 3.6, 3.0 360 N TQFP-64 15.00
ADS4222 12 65 2 Diff 2 600 1.5 3.5 70.9 91 1.9, 1.7 183 N QFN-64 14.40
ADS5413 12 65 1 Diff 2 1000 1 2 68.5 79 3.0, 3.6 400 N HTQFP-48 14.75
ADS5221 12 65 1 SE/1 Diff 1 to 2 300 1 1.5 70 88 3.0, 3.6 285 N TQFP-48 13.95
ADS6122 12 65 1 Diff 2 450 0.5 2 71.6 89 3.0, 3.6 318 N QFN-32 12.00
ADS5232 12 65 2 Diff 2 300 0.9 2 70.7 86 3.0, 3.6 340 N TQFP-64 16.00
ADS6222 12 65 2 Diff 2 500 0.4 2 71.2 89 3.0, 3.6 760 N QFN-48 18.10
ADS62P22 12 65 2 Diff 2 450 0.4 1.5 71.3 88 3.0, 3.6 518 N QFN-64 18.10
ADS5242 12 65 4 DIff 1.5 300 0.95, 1 2 71 85 3.0, 3.6 660 N HTQFP-64 30.00
ADS6422 12 65 4 Diff 2 500 0.4 2 71.2 88 3.0, 3.6 1180 N QFN-64 31.65

Data Converters

Sample- No. of Analog Input Supply
Res. Rate Input Input Bandwidth DNL INL SNR Voltage Power HiRel
Device (Bits) (MSPS) Channels Voltage (V) (MHz) (± LSB) (±LSB) (dB) SFDR (dB) (V) (mW) Avail. Package Price*
ADS5272 12 65 8 Diff 1.5 300 0.95,1 2 71.1 85 3.0, 3.6 984 N HTQFP-80 54.85
ADS5282 12 65 8 Diff 2 520 0.3 1.5 70 85 3.0, 3.6 616 N QFN-64 54.85
ADC12L063 12 62 1 Diff 2 170 0.5 1 66 78 3.6, 3.0 354 N LQFP-32 12.10
ADS807 12 53 1 SE/1 Diff 2 to 3 270 1 4 69 82 4.75, 5.25 335 N SSOP-28 11.30
ADS5271 12 50 8 Diff 1.5 300 0.9 2 70.5 85 3.0, 3.6 927 N HTQFP-80 48.00
QFN-64,
ADS5281 12 50 8 Diff 2 52 0.3 1.5 70 85 3.0, 3.6 510 N 48.00
HTQFP-80
ADS5220 12 40 1 SE/1 Diff 1 to 2 300 1 1.5 70 88 3.0, 3.6 195 N TQFP-48 9.85
SO-28,
ADS800 12 40 1 SE/1 Diff 2 65 1 — 62 61 4.75, 5.25 390 N 30.85
TSSOP-28
ADS5231 12 40 2 Diff 2 300 0.9 2 70.7 86 3.0, 3.6 285 N TQFP-64 11.75
ADS5240 12 40 4 Diff 1.5 300 0.9 2 70.5 85 3.0, 3.6 607 N HTQFP-64 20.00
ADS5270 12 40 8 Diff 1.5 300 0.9 2 70.5 85 3.0, 3.6 888 N HTQFP-80 44.00
ADC12DL040 12 40 2 Diff 2 250 0.3 0.8 69 85 3.6, 2.7 210 N TQFP-64 10.00
ADC12D040 12 40 2 Diff 4 100 0.4 0.7 68 80 5.25, 4.75 600 N TQFP-64 12.40
ADC12040 12 40 1 Diff 4 100 0.4 0.7 70 86 5.25, 4.75 340 N LQFP-32 8.55
SOIC-28,
THS1230 12 30 1 SE/1 Diff 1 to 2 180 1 2.5 67.7 74.6 3.0, 3.6 168 N 10.50
TSSOP-28
SO-28,
ADS801 12 25 1 SE/1 Diff 1 to 2 65 1 — 64 61 4.75, 5.25 270 N 12.55
SSOP-28
ADS805 12 20 1 SE/1 Diff 2 270 0.75 2 68 74 4.75, 5.25 300 N SSOP-28 9.90
ADC12020 12 20 1 Diff 4 100 0.35 0.55 70 86 5.25, 4.75 178 N LQFP-32 6.49
SOIC-28,
THS1215 12 15 1 SE/1 Diff 1 to 2 180 0.9 1.5 68.9 81.7 3.0, 3.6 148 N 9.85
SSOP-28
SO-28,
ADS802 12 10 1 SE/1 Diff 2 65 1 2.75 66 66 4.75, 5.25 260 N 12.60
SSOP-28
ADS804 12 10 1 SE/1 Diff 2 270 0.75 2 69 80 4.7, 5.3 180 N SSOP-28 9.20
THS12082 12 8 2 SE/1 Diff 2.5 96 1 1.5 69 71 4.75, 5.25 186 Y TSSOP-32 8.40
THS1209 12 8 2 SE/1 Diff 2.5 98 1 1.5 69 71 4.75, 5.25 186 N TSSOP-32 7.90
THS1206 12 6 4 SE/2 Diff 2.5 96 1 1.8 69 71 4.75, 5.25 186 Y TSSOP-32 7.80
THS1207 12 6 4 SE/2 Diff 2.5 96 1 1.5 69 71 4.75, 5.25 186 N TSSOP-32 7.25
ADS803 12 5 1 SE/1 Diff 2 270 2 0.75 69 82 4.7, 5.3 115 N SSOP-28 7.40
ADC11DV200 11 200 2 Diff 1.5 900 0.32 0.65 62.5 82 1.9, 1.7 473 N LLP-60 56.00
ADS5517 11 200 1 Diff 2 800 0.3 1.5 66.9 84 3.0, 3.6 1230 N QFN-48 32.95
ADS58B18 11 200 1 Diff 2 600 0.25 0.5 66.2 87 1.7, 1.9 368 N QFN-48 39.95
ADS62C17 11 200 2 Diff 2 800 0.2 0.75 67 85 3.0, 3.15 1081 N QFN-64 66.00
ADS58C28 11 200 2 Diff 2 600 0.25 1 66.6 84 1.7, 1.9 505 N QFN-64 63.95
ADS58C48 11 200 4 Diff 2 600 0.25 1 66.6 84 1.7, 1.9 900 N HTQFP-80 111.95
ADC11C125/ 125/ 0.2/ 0.25/ 65.5/ 88.2/ 16.00/
11 1 Diff 2 1100 3.3, 3.0 608/715 N LLP-48
170 170 0.4 0.6 65.1 85.4 21.00
ADS5510 11 125 1 Diff 2 750 1.1 5 66.8 83 3.0, 3.6 780 N HTQFP-64 14.20
ADS62C15 11 125 2 Diff 2 450 0.4 3.5 67 82 3.0, 3.6 740 N QFN-64 41.25
ADS62P15 11 125 2 Diff 2 450 0.4 3.5 67.1 85 3.0, 3.6 740 N QFN-64 18.00
ADS5411 11 105 1 Diff 2.2 750 0.5 0.5 66.4 90 4.75, 5.25 1900 N HTQFP-52 25.50
ADC11DL066 11 66 2 Diff 2 450 0.25 0.5 64 80 3.6, 3.0 686 N TQFP-64 8.51
ADC11L066 11 66 1 Diff 2 450 0.2 0.5 65 78 3.6, 3.0 357 N LQFP-32 9.92
ADS5413-11 11 65 1 Diff 2 1000 0.75 1 65 77 3.0, 3.6 400 N HTQFP-48 14.75
ADC10DV200 10 200 2 Diff 1.5 900 0.17 0.3 59.9 82 1.9, 1.7 450 N LLP-60 50.00
ADC10080 10 80 1 Diff 2 400 0.25 0.5 59.5 78.8 3.6, 2.7 78.6 N TSSOP-28 4.50
ADS828 10 75 1 SE/1 Diff 2 300 1 3 57 68 4.75, 5.25 340 N SSOP-28 8.70
ADS5237 10 65 2 Diff 2 300 0.1 1 61.7 85 3.0, 3.6 330 N HTQFP-64 7.50
ADS5277 10 65 8 Diff 1.5 300 0.5 1 61.7 85 3.0, 3.6 911 N HTQFP-80 32.00
ADS5287 10 65 8 Diff 2 520 0.1 1 61.7 85 3.0, 3.6 592 N QFN-64 32.00

Data Converters

Sample- No. of Input Analog Input Supply
Res. Rate Input Voltage Bandwidth DNL INL SNR SFDR Voltage Power HiRel
Device (Bits) (MSPS) Channels (V) (MHz) (± LSB) (± LSB) (dB) (dB) (V) (mW) Avail. Package Price*
ADS5122 10 65 8 Diff 1 22 1 2.5 59 72 1.65, 2.0 733 N BGA-257 42.85
ADC10DL065 10 65 2 Diff 2 250 0.16 0.25 61 85 3.6, 3.0 370 N TQFP-64 7.03
ADC10065 10 65 1 Diff 2 400 0.3 0.3 59.6 80 3.6, 2.7 68.4 N TSSOP-28 3.77
ADS823 10 60 1 SE/1 Diff 2 300 1 2 60 74 4.75, 5.25 295 N SSOP-28 8.40
ADS826 10 60 1 SE/1 Diff 2 300 1 2 59 73 4.75, 5.25 295 N SSOP-28 8.40
ADS5103 10 40 1 Diff 1 950 0.8 1.5 58 66 1.65, 2.0 105 N TQFP-48 5.25
ADS821 10 40 1 SE/1 Diff 2 65 1 2 58 62 4.75, 5.25 390 N SSOP-28 13.05
ADS822 10 40 1 SE/1 Diff 2 300 1 2 60 66 4.75, 5.25 200 N SSOP-28 5.25
ADS825 10 40 1 SE/1 Diff 2 300 1 2 60 65 4.75, 5.25 200 N SSOP-28 5.25
THS1040 10 40 1 SE/1 Diff 2 900 0.9 1.5 57 70 3.0, 3.6 100 N SOIC-28 5.10
THS1041 10 40 1 SE/1 Diff 2 900 1 1.5 57 70 3.0, 3.6 103 N SOIC-28 5.45
ADS5203 10 40 2 SE/2 Diff 1 300 1 1.5 60.5 73 3.0, 3.6 240 N TQFP-48 9.65
ADS5204 10 40 2 SE/2 Diff 2 300 1 1.5 60.5 73 3.0, 3.6 275 Y TQFP-48 11.05
ADS5120 10 40 8 Diff 1 300 1 1.5 58 72 1.65, 2 794 N BGA-257 36.15
ADS5121 10 40 8 Diff 1 28 1 1.5 60 74 1.65, 2.0 500 N BGA-257 38.85
ADC10D040 10 40 2 Diff 1.4 140 0.35 0.65 60 72 3.6, 3.0 267 N TQFP-48 6.70
ADC10040 10 40 1 Diff 2 400 0.3 0.3 59.5 80 3.6, 2.7 55.5 N TSSOP-28 3.75
THS1030 10 30 1 SE/1 Diff 2 150 1 2 49.4 53 3.0, 5.5 150 N SOIC-28 3.75
THS1031 10 30 1 SE/1 Diff 2 150 1 2 49.3 52.4 3.0, 5.5 160 N SOIC-28 4.10
ADS820 10 20 1 SE/1 Diff 2 65 1 2 60 62 4.75, 5.25 200 N SSOP-28 6.75
ADS900 10 20 1 SE/1 Diff 1 to 2 100 1 — 49 53 2.7, 3.7 54 N SSOP-28 3.55
ADS901 10 20 1 SE/1 Diff 1 to 2 100 1 — 53 49 2.7, 3.7 49 N SSOP-28 3.40
ADC10D020 10 20 2 Diff 1 140 0.35 0.65 59 75 3.6, 2.7 150 N TQFP-48 4.49
THS10082 10 8 2 SE/1 Diff 2.5 96 1 1 61 65 4.75, 5.25 186 N TSSOP-32 3.70
THS1009 10 8 2 SE/1 Diff +1.5, +3.5 96 1 1 61 65 4.75, 5.25 186 N TSSOP-32 3.20
THS10064 10 6 4 SE/2 Diff 2.5 96 1 1 61 65 4.75, 5.25 186 N TSSOP-32 4.15
THS1007 10 6 4 SE/2 Diff +1.5, +3.5 96 1 1 61 65 4.75, 5.25 186 N TSSOP-32 3.70
TLV1562 10 2 4 SE/2 Diff 3 120 1.5 1.5 58 70.3 2.7, 5.5 15 N SOIC-28 4.15
ADC08100/200 8 100/200 1 Diff 1.6 200/500 0.4 0.5/1.0 47/46 60 3.6, 2.7 126/210 N TSSOP-24 4.33/7.67
ADS831 8 80 1 SE/1 Diff 1 or 2 300 1 2 49 65 4.75, 5.25 310 N SSOP-20 3.15
ADS830 8 60 1 SE/1 Diff 1 or 2 300 1 1.5 49.5 65 4.75, 5.25 215 N SSOP-20 2.75
ADC08060 8 60 1 Diff 1.6 200 0.4 0.5 47 63 3.6, 2.7 88 N TSSOP-24 1.55
ADC08L060 8 60 1 Diff 1.6 270 0.25 0.5 48 59.1 3.6, 2.4 53 N TSSOP-24 3.00
TLC5540 8 40 1 SE 2 75 1 1 44 42 4.75, 5.25 85 N SOP-24 1.99
THS0842 8 40 2 SE/2 Diff 1.3 600 2 2.2 42.7 52 3.0, 3.6 320 N TQFP-48 5.05
TLV5535 8 35 1 SE 1 to 1.6 600 1.3 2.4 46.5 58 3.0, 3.6 106 Y TSSOP-28 2.40
ADS931 8 30 1 SE 1 to 4 100 1 2.5 48 49 2.7, 5.5 154 N SSOP-28 2.20
ADS930 8 30 1 SE/1 Diff 1 100 1 2.5 46 50 2.7, 5.25 168 N SSOP-28 2.30
TLC5510 8 20 1 SE 2 14 0.75 1 46 42 4.75, 5.25 127.5 N SOP-24 1.95
TLC5510A 8 20 1 SE 2 14 0.75 1 46 42 4.75, 5.25 150 N SOP-24 1.95
Mixed-Signal Transceiver AFEs
AFE7070 14 65 2 Diff NA 99 - 2700 NA NA — — 3.6, 3.0 390 N QFN-48 23.72
AFE7171 14 65 2 Diff NA 100 - 2700 NA NA — — 3.6, 3.0 334.0 N QFN-48 11.86
AFE7222/5 12 130, 250 2 Diff 2 550 0.50 0.2 76 84 3.6, 3.0 557 N QFN-64 19.50

Data Converters
ADC by Architecture — Folding and Interpolating
12-Bit, 1.8/3.6 GSPS RF sampling ADC

ADC12D1800RF
The 12-bit 1.8 GSPS ADC12D1800RF is an RF-sampling GSPS ADC that can directly Key Features
sample input frequencies up to and above 2.7 GHz. The ADC12D1800RF has excellent • Excellent noise and linearity up to and
noise and linearity performance at RF frequencies, extending its usable range beyond the above fIN = 2.7 GHz
third Nyquist zone. • Configurable to either 3.6 GSPS
The ADC12D1800RF provides a flexible LVDS interface which has multiple SPI interleaved or 1800 MSPS dual ADC
programmable options to facilitate board design and FPGA/ASIC data capture. The • New DESCLKIQ mode for high
LVDS outputs are compatible with IEEE 1596.3-1996 and supports programmable bandwidth, high sampling rate apps
common mode voltage. TI offers a complete family of 12-bit direct RF-sampling ADCs, • Pin-compatible with ADC1xD1x00,
which deliver the industry’s best performance beyond 2.7 GHz at up to 3.6 GSPS. ADC12Dx00RF
• AutoSync feature for multi-chip
LVDS synchronization
Outputs
VIN I+ MUX 12
12 12
DI (11:0)
• Internally terminated, buffered,
12-Bit
VIN I–
T/H
ADC 1:2 differential analog inputs
Rterm DeMUX 12 12
DId (11:0) • Interleaved timing automatic and
DCLKI
ORI manual skew adjust
ORQ • Test patterns at output for system debug
DCLKQ
Rterm
12 12
DQd (11:0)
• Time stamp feature to capture external
VIN Q+ 1:2
T/H
12-Bit
ADC
12 DeMUX
trigger
12 12
VIN Q–
DQ (11:0) • Programmable gain, offset, and tAD
Rterm
CLK+
Clock Control/Status adjust feature
CLK–
Management & Other Logic
• 1:1 non-demuxed or 1:2 demuxed
Control Pins SPI
LVDS outputs
ADC12D1800RF functional block diagram Applications
• Military
Get more information: www.ti.com/product/ADC12D1800RF • Software defined radio
Folding and Interpolating GSPS ADCs

Res. Power NPR IMD Noise Fl ENOB SNR SFDR HiRel
Device (Bits) Chs Speed (MSPS) (W) (dB) (dBc) (dBm/Hz) (Bits) (dB) (dBc) Avail. Package Price*
8-Bit
LM97600 7.6 1/2/4 5000/2500/1250 3.0 — — — 6.7 43.8 50.0 N TEPBGA-292 249.12
ADC08B3000 8 1 3000 1.6 — — — 7.2 45.3 55.4 N eLQFP-128 525.00
ADC083000 8 1 3000 1.9 — — — 7.2 45.4 57 N eLQFP-128 686.00
ADC08D1520 8 1/2 3000/1500 1.6 — — — 7.4 46.8 57 Y eLQFP-128 613.00
ADC08D1020 8 1/2 2000/1000 1.6 — — — 7.4 46.8 58 N eLQFP-128 329.00
ADC081500 8 1 1500 1.2 — — — 7.4 47 56 N eLQFP-128 266.00
ADC08D500 8 1/2 1000/500 1.4 — — — 7.5 48 55 N eLQFP-128 137.00
ADC08500 8 1 500 0.8 — — — 7.5 47.5 56 N eLQFP-128 36.00
ADC08DL502 8 2 500 1.25 38.4 –64.4 –135.4 7.2 46 55 N LQFP-144 43.50
10-Bit
ADC10D1500 10 1/2 3000/1500 3.59 48 — — 8.9 56.4 68 N TEPBGA-292 1800.00
ADC10D1000 10 1/2 2000/1000 2.77 48 — — 9.1 57 66 Y TEPBGA-292 1500.00
12-Bit
ADC12D1800 12 1/2 3600/1800 4.4 48.5 –61 –153.5 9.4 58.6 73 N TEPBGA-292 Web
ADC12D1800RF 12 1/2 3600/1800 4.29 — –64 –155 9.3 58.6 68.1 N TEPBGA-292 Web
ADC12D1600 12 1/2 3200/1600 3.88 48.5 –56 –153.6 9.4 58.5 70.3 N TEPBGA-292 Web
ADC12D1600RF 12 1/2 3200/1600 3.94 — –66.7 –154.6 9.4 59 67.9 Y TEPBGA-292 Web
ADC12D1000 12 1/2 2000/1000 3.38 49.5 –59 –152.6 9.6 60.2 71 N TEPBGA-292 Web
ADC12D1000RF 12 1/2 2000/1000 3.42 — –69 –154 9.6 60.1 71.4 N TEPBGA-292 Web
ADC12D800RF 12 1/2 1600/800 2.5 50.4 –71 –152.2 9.6 60.2 73.4 N TEPBGA-292 Web
ADC12D500RF 12 1/2 1000/500 2.02 50.4 –69 –150.5 9.7 60.4 74.3 N TEPBGA-292 Web

Data Converters
Digital-to-Analog Converters – String and R2R DACs
12-/14-/16-Bit, Dual-Ch, Voltage-Output DAC in Tiny QFN-10 and MSOP-10 Packages

DAC8562, DAC8162, DAC7562
This is a family of low-power, voltage-output, dual-channel, 12/14/16-bit DACs. These Key Features
devices include a 2.5 V, 2ppm/°C internal reference, giving a full-scale output voltage • Designed for low power performance
range of 2.5 V or 5 V. The internal reference has an initial accuracy of 1 mV and can in tiny packages
source up to 20 mA at the VREFIN/VREFOUT pin. These devices are monotonic, provid- DAC7562 (12-bit): 0.3 LSB INL
ing excellent linearity and minimizing undesired code-to-code transient voltages (glitch). DAC8162 (14-bit): 1 LSB INL
The three-wire serial interface is compatible with standard SPI, QSPI, Microwire™ and DAC8562 (16-bit): 4 LSB INL
digital signal processor (DSP) interfaces. 2.5 V internal reference with
5 ppm/°C max. drift
GND AV DD LDAC CLR V REFIN /VREFOUT
Ultra-Low glitch energy 0.1 nV-sec
Power-
Power consumption: 0.27 mW/ch
D IN Buffer Control Register Control
SCLK Input Control Logic
2.5-V
Reference
Down
Control
• Wide temp range: –40°C to +125°C
Control Logic
SYNC Logic
• Tiny packages: 10-pin QFN (3x3mm),
10-pin MSOP (3x5mm)
Data Buffer B DAC Register B DAC V OUT B
DAC7562 (12-Bit) Applications

DAC8162 (14-Bit) Data Buffer A DAC Register A DAC V OUT A
• Portable instrumentation
DAC8562 (16-Bit)
• Closed-loop servo/process control
• Data-acquisition systems
DAC7562, DAC8162, DAC8562 functional block diagram • Programmable attenuation, digital gain
and offset adjustment
Get more information: www.ti.com/product/Part Number • Programmable voltage/current sources
(DAC8562, DAC8162, DAC7562)
16-Bit, Octal, Low Glitch, Low Power DAC with 2 ppm/°C Temp Drift Internal Reference
DAC8568
The DAC8568 family are low power, 8-channel 12-/14-/16-bit DACs that include a Key Features
2.5 V, 2ppm/°C integrated reference, giving a full scale output voltage of 2.5 or 5 V. • High accuracy across temperature
Outperforming the competition with DAC features such as ultra-low glitch, excellent INL, DNL: ±0.5 LSB, INL: ±4 LSB at
lowest power dissipation, an integrated reference with 0.004% initial accuracy and capa- 16-bits
bility to source up to 20 mA at the VREFIN/VREFOUT pin, this family offers a powerful system Low glitch energy: 0.1 nV-s typ
solution. The DAC8568 family offers Binary Input and either Power-On-Reset to Zero or
Reference drift 2 ppm/°C (typ);
Mid-scale. These products are great for precision applications where high channel count,
Wide temp range: –40°C to +105°C
integration of features, small size and low power are paramount considerations.
• High integration in small package
AVDD V REFIN/VREF OUT Eight DACs in TSSOP-16/14
DAC7568
2.5 V
packages
DAC8168
DAC8568
Reference
Integrated reference 2.5 V
12-/14-/16-Bit
DAC
V OUTH
Power on reset to zero/mid-scale
• Available in 12/14/16-bit versions
Applications
12-/14-/16-Bit V OUTA • Automatic test equipment
DAC
SYNC • Portable instrumentation

SCLK
Power-Down
• Precision waveform generation
DIN
GND LDAC CLR
DAC8568 functional block diagram
Get more information: www.ti.com/product/DAC8568

Data Converters
Precision DACs
No. of INL DNL Mono- Settling Power Output Output Output
Res. DAC (max) (max) tonic Time (mW) Output Range (V/mA) (V/mA) HiRel
Device (Bits) Ch. (±LSB) (±LSB) (Bits) (µs) (typ) Interface (typ) Type Programmability (min) (max) VREF Avail. Package Price*
Highest Accuracy, Low-Power DACs
DAC9881 18 1 2 1 18 5 SPI 6 Voltage Fixed 0 5 Ext N QFN-24 16.90
DAC8814 16 4 1 1 16 0.5 SPI 0.027 Current IOUT 0 2 Ext N SSOP-28 16.95
DAC8734 16 4 1 1 16 6 SPI — Voltage ±VREF, ±2 VREF, –16.5 20 Ext N QFN-40, 26.95
+2 VREF, +4 VREF TQFP-48
DAC8812 16 2 1 1 16 0.5 SPI 0.027 Current IOUT 0 2 Ext N TSSOP-16 8.40
DAC8822 16 2 1 1 16 0.5 P16 0.027 Current IOUT 0 2 Ext N TSSOP-18 8.65
DAC8811 16 1 1 1 16 0.5 SPI 0.027 Current IOUT 0 2 Ext N MSOP-8, 7.15
SON-8
DAC8820 16 1 1 1 16 0.5 P16 0.027 Current IOUT 0 2 Ext N SSOP-28 8.50
DAC8830 16 1 1 1 16 1 SPI 0.015 Voltage +VREF 0 5 Ext Y SOIC-8 7.95
DAC8831 16 1 1 1 16 1 SPI 0.015 Voltage +VREF, ±VREF –5 5 Ext Y SOIC-14, 7.95
QFN-14
DAC8832 16 1 1 1 16 1 SPI 0.015 Voltage +VREF, ±VREF –5 5 Ext N QFN-14 7.95
DAC8881 16 1 1 1 16 5 SPI 6 Voltage Fixed 0 5 Ext N QFN-20 8.00
DAC8801 14 1 1 0.5 14 0.5 SPI 0.027 Current IOUT 0 2 Ext N MSOP-8, 4.60
SON-8
Industrial, Bipolar-Output DACs
DAC8760/ 16/12 1 8 1 16/12 10 SPI 125 Voltage/ 0-20 mA, 0-24 mA, –11, –11, Int/Ext N QFN-40, 3.99/
7760 Current 4-20 mA,±VREF, ±2 24mA 24mA TSSOP-24 2.99
VREF, +2 VREF, +VREF
DAC8750/ 16/12 1 8 1 16/12 10 SPI 125 Current 0-20 mA, 0-24 mA, 0 24 Int/Ext N QFN-40, 3.50/
7750 4-20 mA TSSOP-24 2.49
DAC8718 16 8 4 1 16 10 SPI 165 Voltage +6 VREF, ±3 VREF –16.5 33 Ext N QFN-48, 21.95
TQFP-64
DAC8728 16 8 4 1 16 10 P16 165 Voltage +6 VREF, ±3 VREF –16.5 33 Ext N QFN-56, 21.95
TQFP-64
DAC8734 16 4 1 1 16 6 SPI 420 Voltage ±VREF, ±2 VREF, –16.5 20 Ext N QFN-40, 26.95
DAC7734 16 4 2 2 16 10 SPI 50 Voltage +VREFH, -VREFL to –10 10 Ext N SSOP-48 31.45
+ VREFH
DAC7744 16 4 2 1 16 10 P16 50 Voltage +VREFH, -VREFL to –10 10 Ext N SSOP-48 31.45
+ VREFH
DAC7634 16 4 3 2 15 8 SPI 7.5 Voltage +VREFH, -VREFL to –2.5 2.5 Ext N SSOP-48 19.95
+ VREFH
DAC7644 16 4 3 2 15 8 P16 7.5 Voltage +VREFH, -VREFL to –2.5 2.5 Ext N SSOP-48 19.95
+ VREFH
DAC7654 16 4 3 1 16 12 SPI 18 Voltage +2.5, ±2.5 –2.5 2.5 Int N LQFP-64 27.25
DAC7664 16 4 3 3 16 12 P16 18 Voltage +2.5, ±2.5 –2.5 2.5 Int N LQFP-64 25.95
DAC7642 16 2 3 2 15 8 P16 2.5 Voltage +VREFH, -VREFL to –2.5 2.5 Ext N LQFP-32 13.19
+ VREFH
DAC7643 16 2 3 2 15 8 P16 2.5 Voltage +VREFH, -VREFL to –2.5 2.5 Ext N LQFP-32 13.19
+ VREFH
DAC7632 16 2 3 2 15 8 SPI 2.5 Voltage +VREFH, -VREFL to –2.5 2.5 Ext N LQFP-32 10.45
+ VREFH
SON-8
DAC8871 16 1 1 1 16 1 SPI 0.015 Voltage -VREFL to + VREFH –18 18 Ext N SOIC-14 8.00
DAC714 16 1 1 1 16 6 SPI 525 Voltage +10, ±5, ±10 –10 10 Int N SOIC-16 14.50
DAC712 16 1 2 1 16 6 P16 525 Voltage ±10 –10 10 Int N SOIC-28, 14.50
PDIP-28
DAC7731 16 1 3 3 16 5 SPI 100 Voltage +10, ±5, ±10, –10 10 Int/Ext N SSOP-24 8.20
+VREF
DAC7742 16 1 3 1 16 5 P16 100 Voltage +10, ±5, ±10, –10 10 Int/Ext N LQFP-48 10.88
+VREF

Data Converters
Precision DACs (continued)

Industrial, Bipolar-Output DACs (continued)
DAC7741 16 1 3 1 16 5 P16 100 Voltage +10, ±5, ±10, +VREF –10 10 Int/Ext N LQFP-48 8.30
DAC7641 16 1 3 2 15 8 P16 1.8 Voltage -VREFL to + VREFH –2.5 2.5 Ext N TQFP-32 7.88
DAC7631 16 1 3 2 15 8 SPI 1.8 Voltage -VREFL to + VREFH –2.5 2.5 Ext N SSOP-20 5.95
DAC8580 16 1 64 1 16 0.35 SPI 200 Voltage ±VREF –5.5 5.5 Ext N TSSOP-16 1.85
DAC8581 16 1 64 0.5 16 0.35 SPI 200 Voltage ±VREF –5.5 5.5 Ext N TSSOP-16 1.85
TQFP-64
TQFP-64
DAC8234 14 4 1 1 14 6 SPI 165 Voltage ±VREF, ±2 VREF, –16.5 20 Ext N QFN-48, 19.95
DAC8801 14 1 1 0.5 14 0.5 SPI 0.027 Current IOUT 0 2 Ext N MSOP-8, 4.60
SON-8
TQFP-64
TQFP-64
DAC7716 12 4 1 1 12 6 SPI 420 Voltage ±VREF, ±2 VREF, –16 20 Ext N QFN-40, 10.95
DAC7614 12 4 1 1 12 5 SPI 15 Voltage -VREFL to + VREFH –2.5 2.5 Ext N SOIC-16, 6.70
SSOP-20
DAC7615 12 4 1 1 12 5 SPI 15 Voltage -VREFL to + VREFH 0 2.5 Ext N SOIC-16, 6.70
SSOP-20
DAC7616 12 4 1 1 12 5 SPI 2.4 Voltage -VREFL to + VREFH 0 1.25 Ext N SOIC-16, 5.40
SSOP-20
DAC7617 12 4 1 1 12 5 SPI 2.4 Voltage -VREFL to + VREFH 0 1.25 Ext N SOIC-16, 5.40
SSOP-20
DAC7624 12 4 1 1 12 5 P12 15 Voltage +VREFH,-VREFL to –2.5 2.5 Ext N PDIP-28, 9.75
+ VREFH SOIC-28
DAC7625 12 4 1 1 12 5 P12 15 Voltage +VREFH,-VREFL to –2.5 2.5 Ext N PDIP-28, 9.75
+ VREFH SOIC-28
DAC7714 12 4 1 1 12 8 SPI 45 Voltage -VREFL to + VREFH –10 10 Ext N SOIC-16 11.45
DAC7715 12 4 1 1 12 8 SPI 45 Voltage -VREFL to + VREFH –10 10 Ext N SOIC-16 11.45
DAC7724 12 4 1 1 12 8 P12 45 Voltage -VREFL to + VREFH –10 10 Ext N PLCC-28, 11.85
SOIC-28
DAC7725 12 4 1 1 12 8 P12 45 Voltage -VREFL to + VREFH –10 10 Ext N PLCC-28, 11.85
SOIC-28
DAC7800 12 2 0.5 1 12 0.4 SPI 1 Current IOUT 0 1 Ext N PDIP-16, 13.55
SOIC-16
DAC7801 12 2 0.5 1 12 0.4 P(8+4) 1 Current IOUT 0 1 Ext N PDIP-24, 20.94
SOIC-24
DAC7802 12 2 0.5 1 12 0.4 P12 1 Current IOUT 0 1 Ext N PDIP-24, 14.00
SOIC-24
DAC7822 12 2 1 1 12 0.2 P12 0.027 Current IOUT 0 1 Ext N QFN-40 3.80
DAC811 12 1 0.25 0.5 12 3 P12 625 Voltage +10, ±5, ±10 –10 10 Int N CDIP SB-28, 11.00
SOIC-28
DAC813 12 1 0.25 0.5 12 3 P12 270 Voltage +10, ±5, ±10, –10 10 Int/Ext N PDIP-28, 12.60
+VREF SOIC-28
SON-10
DAC7821 12 1 1 1 12 0.2 P12 0.027 Current IOUT 0 1 Ext N QFN-20, 2.60
TSSOP-20
DAC8043 12 1 1 1 12 0.25 SPI 2.5 Current IOUT 0 1 Ext N SOIC-8 3.60
DAC7613 12 1 1 1 12 5 P12 1.8 Voltage +VREFH,-VREFL to –2.5 2.5 Ext N SSOP-24 2.50
+ VREFH

Data Converters

Industrial, Bipolar-Output DACs (continued)
TLC7524 8 1 0.5 0.5 8 0.1 P8 5 Current IOUT –10 10 Ext N SOIC-16, 1.55
TSSOP-16
TLC7528 8 2 0.5 0.5 8 0.1 P8 7.5 Current IOUT –10 10 Ext N SOIC-20, 1.77
TSSOP-20
TLC7628 8 2 0.5 0.5 8 0.1 P8 20 Current IOUT –10 10 Ext N SOIC-20, 1.91
PDIP-20
Low-Power, Single-Supply DACs
DAC715 16 1 2 1 16 6 P16 525 Voltage Fixed 0 10 Int N PDIP-28, 19.85
SOIC-28
DAC716 16 1 2 2 16 6 SPI 525 Voltage Fixed 0 10 Int N PDIP-16, 19.85
SOIC-16
DAC8411 16 1 8 2 16 6 SPI 0.1 Voltage +AVDD 0 5 Ext N SC70-6 2.90
DAC8501 16 1 64 1 16 8 SPI 0.6 Voltage V+REF 0 5 Ext N MSOP-8 2.97
DAC8531 16 1 64 1 16 8 SPI 0.6 Voltage V+REF 0 5 Ext N MSOP-8, 2.97
SON-8
DAC8532 16 2 65 1 16 8 SPI 1.35 Voltage +VREF 0 5 Ext N MSOP-8 5.35
DAC8534 16 4 64 1 16 8 SPI 2.7 Voltage +VREFH 0 5 Ext N TSSOP-16 8.75
DAC8541 16 1 65 1 16 8 P16 0.6 Voltage V+REF 0 5 Ext N TQFP-32 3.00
DAC8544 16 4 65 1 16 8 P16 2.6 Voltage +VREFH 0 5 Ext N TQFP-48 12.20
DAC8552 16 2 8 1 16 8 SPI 0.8 Voltage +VREFH 0 5 Ext N MSOP-8 3.20
DAC8560 16 1 8 1 16 8 SPI 1.4 Voltage +2.5,+VREF 0 5 Int/Ext N MSOP-8 2.88
DAC8562 16 2 12 1 16 5 SPI 0.5 Voltage +2.5,+5,+VREF 0 5 Int/Ext N QFN-10, 3.40
MSOP-10
DAC8564 16 4 8 1 16 8 SPI 2.6 Voltage +VREF 0 5 Int/Ext N TSOP-16 7.65
DAC8565 16 4 8 1 16 8 SPI 2.6 Voltage +VREF 0 5 Int/Ext N TSSOP-16 7.65
DAC8568 16 8 12 1 16 5 SPI 1.8 Voltage +VREF +2 VREF 0 5 Int/Ext N TSSOP-16 10.95
DAC8571 16 1 65 1 16 8 I2C 0.4 Voltage V+REF 0 5 Ext N MSOP-8 2.95
DAC8574 16 4 64 1 16 8 I2C 2.4 Voltage +VREFH 0 5 Ext N TSSOP-16 12.85
DAC161S055 16 1 3 1.1 16 5 SPI 2 Voltage +VREF 0.015 VA -0.04 Ext N LLP-16 3.55
DAC8162 14 2 3 0.5 14 5 SPI 0.5 Voltage +2.5,+5,+VREF 0 5 Int/Ext N QFN-10, 2.50
MSOP-10
DAC8168 14 8 4 0.5 14 5 SPI 1.8 Voltage +VREF +2 VREF 0 5 Int/Ext N TSSOP-16, 10.20
TSSOP-14
DAC121C081 12 1 8 0.6 12 6 I2C 0.38 Voltage Fixed 0 VA Supply N TSOT-6, 1.15
LLP-6
DAC121C085 12 1 8 0.6 12 6 I2C 0.38 Voltage +VREF 0 VREF Ext N MSOP-8 1.15
DAC121S101 12 1 8 1 12 8 SPI 0.64 Voltage Fixed 0 VA Supply Y TSOT-6, 1.15
MSOP-8
DAC122S085 12 2 8 0.7 12 6 SPI 0.6 Voltage +VREF 0 VREF Ext N LLP-10, 1.85
MSOP-10
MSOP-10
TSSOP-16
DAC7512 12 1 8 1 12 8 SPI 0.3 Voltage +VREF 0 5 Ext N MSOP-8, 1.45
SOT23-6
DAC7513 12 1 8 1 12 8 SPI 0.3 Voltage +VREF 0 5 Ext N MSOP-8, 1.65
SOT23-8
*Suggested resale price in U.S. dollars in quantities of 1,000. See www.ti.com/hirel for HiRel options. New devices are listed in bold red.

Data Converters

Low-Power, Single-Supply DACs (continued)
DAC7551 12 1 1 0.5 12 5 SPI 0.3 Voltage +VREF 0 5 Ext N SON-12 1.40
DAC7552 12 2 1 0.5 12 5 SPI 0.7 Voltage +VREF 0 5 Ext N QFN-16 2.35
DAC7554 12 4 1 0.5 12 5 SPI 1.5 Voltage +VREF 0 5 Ext N MSOP-10 4.80
DAC7562 12 2 0.75 0.25 12 5 SPI 0.5 Voltage +2.5,+5,+VREF 0 5 Int/Ext N QFN-10, 2.05
MSOP-10
DAC7564 12 4 1 0.5 12 8 SPI 2.9 Voltage +VREF 0 5 Int/Ext N TSSOP-16 4.00
DAC7565 12 4 1 0.5 12 8 SPI 2.9 Voltage +VREF 0 5 Int/Ext N TSSOP-16 4.00
DAC7568 12 8 1 0.25 12 5 SPI 1.8 Voltage +VREF +2 VREF 0 5 Int/Ext N TSSOP-16 8.20
DAC7571 12 1 4 — 12 8 I2C 0.3 Voltage +VREF 0 5 Ext N SOT23-6 1.55
DAC7573 12 4 8 1 12 8 I2C 1.5 Voltage +VREF 0 5 Ext N TSSOP-16 7.65
DAC7574 12 4 8 — 12 8 I2C 1.5 Voltage +VREF 0 5 Ext N MSOP-10 6.12
DAC7578 12 8 1 0.25 12 6 I2C 2.3 Voltage +VREF 0 5 Ext N TSSOP-16 5.50
DAC7611 12 1 1 1 12 7 SPI 2.5 Voltage Fixed 0 4.1 Int N SON-12 2.55
DAC7612 12 2 1 1 12 7 SPI 3.5 Voltage Fixed –2.5 2.5 Int N SOIC-8 3.10
DAC7621 12 1 1 1 12 7 P12 2.5 Voltage Fixed –2.5 2.5 Int N SSOP-20 2.75
DAC7678 12 8 1 0.25 12 6 I2C 2.3 Voltage +2.5,+VREF 0 5 Int/Ext N TSSOP-16 6.00
TLV5610 12 8 6 1 12 1 SPI 18 Voltage +VREF 0 5 Ext N SOIC-20, 10.65
TSSOP-20,
CSP-20
TLV5630 12 8 6 1 12 1 SPI 18 Voltage +2.048,+4.096, 0 5 Int/Ext N SOIC-20, 11.06
+2 VREF TSSOP-20
TLV5613 12 1 4 1 12 1 P8 1.2 Voltage +VREF 0 5 Ext N SOIC-20, 3.30
TSSOP-20
TLV5614 12 4 4 1 12 3 SPI 3.6 Voltage +VREF 0 5 Ext Y SOIC-16, 10.00
TSSOP-16,
CSP-16
TLV5616 12 1 4 1 12 3 SPI 0.9 Voltage +VREF 0 5 Ext N VSSOP-8, 3.30
SOIC-8
TLV5618A 12 2 4 1 12 2.5 SPI 1.8 Voltage +VREF 0 5 Ext Y SOIC-8, 5.10
LCCC-20
TLV5619 12 1 4 1 12 1 P12 4.3 Voltage +VREF 0 5 Ext Y SOIC-20, 4.10
TSSOP-20
TLV5638 12 2 4 1 12 1 SPI 4.5 Voltage +VREF 0 5 Int/Ext Y SOIC-8, 4.65
CDIP-8,
LCCC-20
TLV5633 12 1 3 0.5 12 1 P8 2.7 Voltage +VREF 0 5 Int/Ext N SOIC-20, 5.90
TSSOP-20
TLV5639 12 1 3 0.5 12 1 P12 2.7 Voltage +VREF 0 5 Int/Ext N SOIC-20, 4.35
TSSOP-20
TLV5636 12 1 4 1 12 1 SPI 4.5 Voltage +VREF 0 5 Int/Ext N SOIC-8, 4.55
VSSOP-8
DAC101C081 10 1 2 0.3 10 4.5 I2C 0.38 Voltage Fixed 0 VA Supply N TSOT-6, 0.92
LLP-6
DAC101C085 10 1 2 0.35 10 4.5 I2C 0.38 Voltage +VREF 0 VREF Ext N MSOP-8 0.92
DAC101S101 10 1 2.8 0.35 10 5 SPI 0.63 Voltage Fixed 0 VA Supply N TSOT-6, 0.65
MSOP-8
DAC102S085 10 2 2 0.35 10 4.5 SPI 0.6 Voltage +VREF 0 VREF Ext N LLP-10, 1.44
MSOP-10
MSOP-10
TSSOP-16
DAC6311 10 1 0.5 0.5 10 6 SPI 0.2 Voltage +AVDD 0 5 Ext N SC70-6 0.65
DAC6571 10 1 2 0.5 10 7 I2C 0.5 Voltage +VREF +2 VREF 0 5 Ext N SOT23-6 1.40
DAC6573 10 4 2 0.5 10 7 I2C 1.5 Voltage +VREF 0 5 Ext N TSSOP-16 3.05

Data Converters

Low-Power, Single-Supply DACs (continued)
DAC6574 10 4 2 0.5 10 7 I2C 1.5 Voltage +VREF 0 5 Ext N MSOP-10 3.85
DAC6578 10 8 1 0.25 10 6 I2C 2.3 Voltage +VREF 0 5 Ext N QFN-24, 3.90
TSSOP-16
TLV5604 10 4 1 1 10 2.5 SPI 3 Voltage +VREF 0 5 Ext N SOIC-16, 3.70
TSSOP-16
TLV5606 10 1 1.5 1 10 3 SPI 0.9 Voltage +VREF 0 5 Ext N SOIC-8, 1.30
MSOP-8
TLV5608 10 8 2 1 10 1 SPI 18 Voltage +VREF 0 5 Ext N SOIC-20, 4.90
TSSOP-20,
CSP-20
TLC5615 10 1 1 0.5 10 12.5 SPI 0.8 Voltage +VREF 0 5 Ext N PDIP-8, 1.90
SOIC-8
TLV5617A 10 2 1 0.5 10 1 SPI 1.8 Voltage +VREF 0 5 Ext N SOIC-8 2.25
TLV5631 10 8 2 1 10 1 SPI 18 Voltage +2.048,+4.096, L6 0 5 Int/Ext N SOIC-20, 5.60
+2 VREF TSSOP-20
TLV5637 10 2 1 0.5 10 0.8 SPI 4.2 Voltage +VREF 0 5 Int/Ext N SOIC-8 3.95
DAC5311 8 1 0.25 0.25 8 6 SPI 0.2 Voltage +AVDD 0 5 Ext Y SC70-6 0.55
DAC5571 8 1 1 0.25 8 6 I2C 0.3 Voltage +VREF 0 5 Ext N SOT23-6 0.90
DAC5573 8 4 0.5 0.25 8 6 I2C 1.5 Voltage +VREF 0 5 Ext N TSSOP-16 2.55
DAC5574 8 4 0.5 0.25 8 6 I2C 1.5 Voltage +VREF 0 5 Ext N MSOP-10 2.55
DAC5578 8 8 1 0.25 8 6 I2C 2.3 Voltage +VREF 0 5 Ext N QFN-24, 3.00
TSSOP-16
TLC5620 8 4 1 0.9 8 10 SPI 8 Voltage +VREF +2 VREF 0 5 Ext N PDIP-14, 1.75
SOIC-14
TLC5628 8 8 1 0.9 8 10 SPI 15 Voltage +VREF 0 5 Ext N PDIP-16, 2.45
SOIC-16
TLC7225 8 4 1 1 8 5 P8 75 Voltage +VREF –5 10 Ext N SOIC-24 2.35
TLC7226 8 4 1 1 8 5 P8 90 Voltage +VREF –5 10 Ext Y PDIP-20, 2.15
SOIC-20
TLV5620 8 4 1 0.9 8 10 SPI 6 Voltage +VREF +2 VREF 0 5 Ext N PDIP-14, 1.00
SOIC-14
TLV5621 8 4 1 0.9 8 10 SPI 3.6 Voltage +VREF +2 VREF 0 5 Ext N SOIC-14 2.10
TLV5623 8 1 0.5 0.2 8 3 SPI 2.1 Voltage +VREF 0 5 Ext N SOIC-8, 0.99
MSOP-8
TLV5624 8 1 0.5 0.2 8 1 SPI 5 Voltage +VREF 0 5 Int/Ext N SOIC-8, 1.60
MSOP-8
TLV5625 8 2 0.5 0.2 8 3 SPI 2.4 Voltage +VREF 0 5 Ext N SOIC-8 1.70
TLV5626 8 2 1 0.5 8 0.8 SPI 4.2 Voltage +VREF 0 5 Int/Ext N SOIC-8 1.90
TLV5627 8 4 0.5 0.5 8 2.5 SPI 3 Voltage +VREF 0 5 Ext N SOIC-16, 2.05
TSSOP-16
TLV5628 8 8 1 0.9 8 10 SPI 12 Voltage +VREF 0 5 Ext N PDIP-16, 2.20
SOIC-16
TLV5629 8 8 1 1 8 1 SPI 18 Voltage +VREF +2 VREF 0 5 Ext N SOIC-20, 3.15
TSSOP-20
TLV5632 8 8 1 1 8 1 SPI 18 Voltage +2.048, +4.096, 0 5 Int/Ext N SOIC-20, 4.20
+2 VREF TSSOP-20
DAC081C081 8 1 0.6 0.1 8 3 I2C 0.38 Voltage Fixed 0 VA Supply N TSOT-6, 0.72
LLP-6
DAC081C085 8 1 0.6 0.1 8 3 I2C 0.38 Voltage +VREF 0 VREF Ext N MSOP-8 0.72
DAC081S101 8 1 0.75 0.1 8 3 SPI 0.63 Voltage Fixed 0 VA Supply N TSOT-6, 0.55
MSOP-8
DAC082S085 8 2 0.5 0.18 8 3 SPI 0.6 Voltage +VREF 0 VREF Ext N LLP-10, 0.86
MSOP-10
MSOP-10
TSSOP-16

Data Converters
Digital-to-Analog Converters – Current Steering DACs
Quad-Channel, 16-Bit, 1.5 GSPS DAC

DAC34SH84
The DAC34SH84 is a very low-power, high-dynamic range, quad-channel, 16-bit digital- Key Features
to-analog converter (DAC) with a sample rate as high as 1.5 GSPS. The device includes • Low power
features that simplify the design of complex transmit architectures: 2× to 16× digital • Multi-DAC synchronization
interpolation filters with over 90 dB of stop-band attenuation simplify the data interface • Selectable 2×, 4×, 8×, 16×
and reconstruction filters. Independent complex mixers allow flexible carrier placement. interpolation filter
The DAC34SH84 low-power, high-bandwidth support, superior crosstalk, high dynamic • Flexible on-chip complex mixing
range, and features are an ideal fit for next-generation communication systems. • High-performance, low-jitter
In addition, the DAC34H84, DAC3484 and DAC3482 16-bit dual and quad-channel clock-multiplying PLL
DACs offer sample rates up to 1.25 GSPS. Learn more about the entire portfolio of TI’s • Digital I and Q correction
current steering DACs at www.ti.com/dataconverters. • Digital inverse sinc filters
• 32-bit DDR flexible LVDS input
data bus
• Differential scalable output:
10 mA to 30 mA
PLLAVDD
DACVDD
CLKVDD
DIGVDD
• 196-ball, 12-mm × 12-mm BGA

VFUSE
LPF
DACCLKP
Low Jitter EXTIO
LVPECL Clock Distribution 1.2-V
DACCLKN
PLL
AB
Reference
BIASJ Applications
LVDS 32-Bit NCO
DATACLKP
Programmable QMC • Cellular base stations
100
Delay cos sin

DATACLKN FIR0 FIR1 FIR2 FIR3 FIR4 A-offset
• Diversity transmit
LVDS
DAB15P x IOUTA1
16-b
100
x2 x2 x2 x2 sin(x) DACA
IOUTA2
DAB15N 16
• Wideband communications
Complex Mixer
Gain and Phase

(FMIX or CMIX)
Pattern Test
AB-Data Bus
• • •
AB-QMC
• • • AB-Channel
• • •
5 9 ta p s 2 3 ta p s 11 ta p s 11 ta p s 9 ta p s
LVDS
DAB0P x IOUTB1
16-b
100
x2 x2 x2 x2 sin(x) DACB
IOUTB2
DAB0N 16
LVDS QMC
DCD15P
B-offset
100
De-interleave
8 Sample FIFO
16
Programmable Delay
DCD15N CMIX Control DAC

2x–16x Interpolation (±n*Fs/8) Gain
CD-Data Bus
Pattern Test
• • •
• • • QMC
• • • C-offset
FIR0 FIR1 FIR2 FIR3 FIR4
LVDS
DCD0P x IOUTC1
16-b
100
x2 x2 x2 x2 sin(x) DACC
IOUTC2
DCD0N 16
Gain and Phase
(FMIX or CMIX)
Complex Mixer
LVDS
SYNCP
CD-QMC
CD-Channel
100
SYNCN 5 9 ta p s 2 3 ta p s 11 ta p s 11 ta p s 9 ta p s
LVDS
PARITYCDP x 16-b IOUTD1
x2 x2 x2 x2 sin(x) DACD
100
IOUTD2
PARITYCDN
LVDS
cos sin QMC
ISTR/PARITYABP
D-offset
100
ISTR/PARITYABN CD
32-Bit NCO
OSTRP
Temp AVDD
LVPECL Control Interface
Sensor
OSTRN
GND
IOVDD
IOVDD2
SDO
SDIO
SDENB
TXENB
RESETB
SLEEP
ALARM
TESTMODE
SCLK
DAC34SH84 functional block diagram
Get more information: www.ti.com/product/DAC34SH84

Data Converters
Digital-to-Analog Converters – Current Steering DACs
Current Steering DACs

INL
Res. Update Rate Settling Time Number of Power (mW) DNL (±LSB) HiRel
Device (Bits) Supply (V) (MSPS) (ns) DACs (typ) (±LSB) (max) (max) Avail. Package Price*
DAC3482 16 1.2/3.3 1250 10.1 2 800 2 4 Y QFN-88, BGA-196 29.95
DAC3484 16 1.2/3.3 1250 10.1 4 1200 2 4 Y QFN-88, BGA-196 58.60
DAC34H84 16 1.2/3.3 1250 10.1 4 1400 2 4 Y BGA-196 60.00
DAC34SH84 16 1.3/3.3 1500 10.1 4 1480 2 4 Y BGA-196 78.00
DAC5681 16 1.8/3.3 1000 10.4 1 650 2 4 N QFN-64 27.50
DAC5681Z 16 1.8/3.3 1000 10.4 1 800 2 4 N QFN-64 30.95
DAC5682Z 16 1.8/3.3 1000 10.4 2 1300 2 4 N QFN-64 31.95
DAC5688 16 1.8/3.3 800 11 2 1750 2 4 N QFN-64 29.95
DAC5681 16 1.8/3.3 1000 10.4 1 650 2 4 N QFN-64 27.50
DAC5681Z 16 1.8/3.3 1000 10.4 1 800 2 4 N QFN-64 30.95
DAC5682Z 16 1.8/3.3 1000 10.4 2 1300 2 4 N QFN-64 31.95
DAC5688 16 1.8/3.3 800 11 2 1750 2 4 N QFN-64 29.95
DAC5689 16 1.8/3.3 800 11 2 1750 2 4 N QFN-64 28.95
DAC3283 16 1.8/3.3 800 10.4 2 1150 2 4 N QFN-48 26.95
DAC3282 16 1.8/3.3 625 10.4 2 950 2 4 N QFN-48 24.95
DAC5687 16 1.8/3.3 500 12 2 750 4 4 Y HTQFP-100 22.50
DAC5686 16 1.8/3.3 500 12 2 450 9 12 N HTQFP-100 19.75
DAC5670 14 1.8/3.3 2400 — 1 2000 0.8 1.5 Y BGA-252 45.00
DAC3174 14 1.8/3.3 500 10 2 460 0.5 1 N QFN-48 18.90
DAC5675 14 3 400 5 1 820 2 4 Y HTQFP-48 29.45
DAC5672A 14 3.0 to 3.6 275 20 2 330 3 4 Y TQFP-48 13.25
DAC904 14 3.0 to 5.0 165 30 1 170 1.75 2.5 N SOP-28, TSSOP-28 6.25
DAC2904 14 3.3 to 5.0 125 30 2 310 4 5 N TQFP-48 20.19
DAC3164 12 1.8/3.3 500 10 2 460 0.20 0.5 N QFN-64 12.60
DAC3162 12 1.8/3.3 500 10 2 270 0.25 0.5 N QFN-48 12.60
DAC5674 12 1.8/3.3 400 20 1 420 2 3.5 N HTQFP-48 15.00
DAC5662A 12 3.0 to 3.6 275 20 2 330 2 2 Y TQFP-48 10.70
DAC902 12 3.0 to 5.0 165 30 1 170 1.75 2.5 N SOP-28, TSSOP-28 6.25
THS5661A 12 3.0 to 5.0 125 35 1 175 2 4 N SOP-28, TSSOP-28 6.25
DAC2902 12 3.3 to 5.5 125 30 2 310 2.5 3 N TQFP-48 15.41
DAC2932 12 2.7 to 3.3 40 25 2 29 0.5 2 N TQFP-48 7.95
DAC3154 10 1.8/3.3 500 10 2 460 0.04 0.15 N QFN-64 9.15
DAC3152 10 1.8/3.3 500 10 2 270 0.1 0.25 N QFN-48 9.15
DAC5652A 10 3.0 to 3.6 275 20 2 290 1 0.5 Y TQFP-48 7.60
DAC900 10 3.0 to 5.0 165 30 1 170 0.5 1 Y SOP-28, TSSOP-28 4.25
THS5651A 10 3.0 to 5.0 125 35 1 175 0.5 1 N SOP-28, TSSOP-28 4.25
DAC2900 10 3.3 to 5.5 125 30 2 310 1 1 N TQFP-48 6.00
DAC908 8 3.0 to 5.0 165 30 1 170 0.5 0.5 N SOP-28, TSSOP-28 2.90
THS5641A 8 3.0 to 5.0 100 35 1 100 0.5 1 N SOP-28, TSSOP-28 2.90
TLC5602 8 4.75 to 5.25 30 30 1 80 0.5 0.5 N SOP-20 1.55
Input Analog Input

Res. Sample- Rate No. of Input Voltage Bandwidth DNL INL SNR SFDR Supply Power HiRel
Device (Bits) (MSPS) Channels (V) (MHz) (± LSB) (± LSB) (dB) (dB) Voltage (V) (mW) Avail. Package Price*
AFE7070 14 65 2 NA 99 - 2700 NA NA — — 3.6, 3.0 390 N QFN-48 23.72
AFE7071 14 65 2 NA 100 - 2700 NA NA — — 3.6, 3.0 334.0 N QFN-48 11.86
AFE7222/5 12 130, 250 2 2 550 0.50 0.2 76 84 3.6, 3.0 557 N QFN-64 19.50

Data Converters
Digital-to-Analog Converters – Digital Potentiometers
256-Tap Dual Potentiometer with I2C Interface in Industry’s Smallest Package

TPL0102-100
The TPL0102-100 is a two channel, linear-taper digital potentiometer with 256 wiper Key Features
positions and 100 kΩ end-to-end resistance. Each potentiometer can be used as a • Accuracy and speed
three-terminal potentiometer or as a two-terminal rheostat. It has non-volatile memory Low temp coefficient: 35 ppm/°C
which can be used to store the wiper position which is loaded within 300 µs after power ±20% resistance tolerance
up. The internal registers of the TPL0102-100 can be accessed using the I2C interface. Fast power-up response time to
The TPL0102-100 has a nominal temperature coefficient of 35 ppm/°C. It is available in wiper setting: <300 µs
industry’s smallest 14-pin microQFN as well as 14-pin TSSOP package with a specified • Usage flexibility
temperature range of -40°C to +85°C. Programmable nonvolatile memory
2.7 V to 5.5 V single-supply operation
A0 A1 A2 VDD VSS HA HB
±2.25 V to ±2.75 V dual-supply operation
10 kΩ, 50 kΩ, 100 kΩ end-to-end
SCL VOLATILE
resistance
I2 C INTERFACE WA
SDA
REGISTERS Operating temperature –40°C to +85°
• Industry’s smallest package
14-pin microQFN (2 x 2 mm)
14-pin TSSOP
WB
NON-VOLATILE
REGISTERS Applications
• Adjustable power supplies
GND LA LB
• Adjustable gain amps and offset trimming
• Precision calibration of set point thresholds
TPL0102 functional block diagram
• Sensor trimming and calibration
• Mechanical potentiometer replacement
Get more information: www.ti.com/product/TPL0102-100
256-Tap Dual Potentiometer with SPI Interface in Industry’s Smallest Package

TPL0202-10
The TPL0202-10 is a two channel, linear-taper digital potentiometer with 256 wiper posi- Key Features
tions and 100 kΩ end-to-end resistance. Each potentiometer can be used as a three- • Accuracy and speed
terminal potentiometer or as a two-terminal rheostat. It has non-volatile memory which Low temp coefficient: 35 ppm/°C
can be used to store the wiper position which is loaded within 300 µs after power up. ±20% resistance tolerance
The internal registers of the TPL0202-10 can be accessed using the SPI™ interface. The Fast power-up response time to
TPL0102-10 has a nominal temperature coefficient of 35 ppm/°C. It is available in indus-
wiper setting: <300 µs
try’s smallest 14-pin microQFN as well as 16-pin QFN package with a specified tempera-
• Usage flexibility
ture range of -40°C to +85°C.
Programmable nonvolatile memory
2.7-V to 5.5-V single-supply operation
VDD HA HB
±2.25-V to ±2.75-V dual-supply
SCLk
operation
DIN SPI™ INTERFACE
VOLATILE
WA
10 kΩ end-to-end resistance
REGISTERS
CS\ Operating temperature –40°C to +85°
• Industry’s smallest package
14-pin microQFN (2 x 2 mm)
WB 16-pin QFN
NON-VOLATILE
REGISTERS
Applications
• Adjustable power supplies
GND LA LB
• Adjustable gain amps and offset trimming
TLP0202 functional block diagram • Precision calibration of set point thresholds
• Sensor trimming and calibration
• Mechanical potentiometer replacement
Get more information: www.ti.com/product/TPL0202-10

Data Converters
Integrated ADCs and DACs
Integrated, Multichannel ADC and DAC for Analog Monitoring & Control
AMC7812
The AMC7812 is a complete analog monitoring and control solution that includes a Key Features
16-channel, 12-bit analog-to-digital converter (ADC), twelve 12-bit digital-to-analog • 12, 12-bit DACs with programmable
converters (DACs), eight GPIOs, and two remote/one local temperature sensor channels. outputs
• DAC shutdown to user-defined level
The AMC7812 has an internal reference of +2.5 V that can configure the DAC output
• 12-bit, 500 kSPS ADC with 16 inputs
voltage to a range of either 0 V to +5 V or 0 V to +12.5 V. An external reference can be
• Two remote temperature sensors and
used as well. Typical power dissipation is 95 mW. The AMC7812 is ideal for multichannel
one internal temperature sensor
applications where board space, size, and low power are critical. • Input out-of-range alarms
• 2.5 V internal reference
ADC-REF-IN/CMP
AMC7812 • Eight general-purpose input/outputs
S in g le -E n d e d /
CH0
D iffe re n tia l
CH1
CH2 • Configurable I2C-compatible/SPI
CH3
CH4
CH5
Reference
REF-OUT
interface with 5-V/3-V logic
(2.5V)
CH6
CH7 • Power-down mode
S in g le -E n d e d
CH8
CH9
CH10
REF-DAC
• Wide temperature range:
CH11
CH12
Trigger
–40°C to +105°C
CH13 DAC-0 DAC0-OUT
CH14
CH15
ADC
DAC1-OUT • Small packages: 9 mm × 9 mm
D1+ GPIO-5 Control/Limits/Status
DAC2-OUT
DAC3-OUT
QFN-64, and 10 mm × 10 mm
Registers
DAC4-OUT HTQFP-64
DAC5-OUT
T E M P /G P IO
D1 GPIO-4 DAC6-OUT
D2+ GPIO-7
Remote
Temperature
Local
Temperature DAC7-OUT Applications
Sensor
Sensor
Driver
DAC8-OUT
DAC9-OUT
• Telecom shelter: filter unit
D2 GPIO-6
DAC10-OUT • General purpose analog and monitoring
DAC-11 DAC11-OUT
GPIO-3
G P IO
GPIO-0
LOAD-DAC
ALARM
Out-of-Range
Alarms DAC-CLR-0
DAC-CLR-1
RESET
Control
DAV Logic (SPI/I 2C)
C S /A 0
AG N D 1
AV D D 1
AV D D 2
S D O /A 1
A2
AG N D 2
AG N D 3
AG N D 4
D V DD
DD
S D I/S D A
S C L K /S C L
DG ND
AV C C
CNVT
S P I/I2 C
IOV
AMC7812 functional block diagram
Get more information: www.ti.com/product/AMC7812
Integrated ADCs and DACs: Analog Monitoring and Control Devices

ADC/ No. No. ADC ADC Input DAC Output Number of Local
DAC Res ADC DAC Sample- Range Voltage - and Remote No. of HiRel
Device (Bits) Inputs Outputs Rate (Ksps) (V) (max) (V) Temp Sensors GPIOs Interface Additional Features Avail. Package Price*
AMC7820 12 8 SE 3 100 0 to 5 +5 V None/None None SPI 9 Op Amps, Thermistor N TQFP-48 4.70
Current Source
AMC7823 12 8 SE 8 200 0 to 5 +5 V 1/None 6 SPI Precision Current N QFN-40 6.00
Source
AMC7812 12 (16 SE) or 12 500 –5 to 5 +5 V/+12.5 V 1/2 8 SPI or I2C Out-of-Range Alarms N QFN-64 9.95
(12 SE, 2 DE)
AMC7891 10 8 SE 4 500 0 to 5 +5V 1/None 12 SPI Out-of-Range Alarms N QFN-36 4.50
LMP92001 12 16 12 100 0 to 5 0 to 5 1/None 8 I2C Out-of-Range Alarms N LLP-54 9.00
(SQA54AB)
LMP92018 10 8 4 500 0 to 5 0 to 5 1/None 12 SPI Integrated Reference N LLP36 3.60
(SQA36A)
*Suggested resale price in U.S. dollars in quantities of 1,000. See www.ti.com/hirel for HiRel options. All parts have a built-in internal reference.

Data Converters
Analog Front Ends—Sensor AFEs
Multi-Channel, Low-Power 24-Bit Sensor AFE with True Continuous Background Calibration
LMP90100
The LMP90100 is a highly integrated, multi-channel, low-power 24-bit sensor AFE. The Key Features
device features a precision, 24-bit Sigma Delta Analog-to-Digital Converter (ADC) with • 24-bit low-power Sigma Delta ADC
a low-noise programmable gain amplifier and a fully differential high impedance analog • True continuous background calibration
input multiplexer. A true continuous background calibration feature allows calibration at all at all gains
• In-place system calibration using
gains and output data rates without interrupting the signal path. The background calibra-
expected value programming
tion feature essentially eliminates gain and offset errors across temperature and time, • Low-noise programmable gain (1x - 128x)
providing measurement accuracy without sacrificing speed and power consumption. • Continuous background open/short and
Chip Configurable out of range sensor diagnostics
LMP90xxx
Channel Configurable
Fixed
VA VIO
• Eight output data rates (ODR) with
EXC. VA single-cycle settling
Current
EXC.
Current
• Two matched excitation current sources
IB1
LMP90100/
LMP90098 only IB2 Open/Short POR from 100 µA to 1000 µA
Sensor Diag.
Serial I/F
• Seven general purpose input/output pins
• Chopper-stabilized buffer for low offset
VIN0 SCLK
Control
VIN1 PGA & SDI
Background Calibration
• SPI 4/3-wire with CRC data link error
1x, 2x, SDO/DRDYB
VIN2 Calibration 4x, 8x Data Path
Input MUX
VIN3 CSB
detection
FGA
16x BUFF
LMP90100/ VIN4
• 50 to 60 Hz line rejection at ODR ≤13.42 SPS

LMP90099 only
VIN5 24-Bit ∑Δ Digital
VIN6/VREFP2
Module Filter
VIN7/VREFN2 • Independent gain and ODR selection per

CLK
MUX
channel
VREF
Internal
CLK
Ext. Clk
Detect • Supported by WEBENCH® sensor AFE
MUX
GPIO designer
• Automatic channel sequencer
GND VREFP1 VREFN1 XOUT CLK/ D6/ D0
XIN DRDYB
Applications
LMP90100 functional block diagram
• Field transmitter—pressure and
Get more information: www.ti.com/product/LMP90100 temperature sensors
• Programmable logic controller
Digital Sensor AFEs
Sample Supply Supply Temp.
ADC Res. Rate Input Voltage Current Range Current Calib- HiRel
Device Description (Bits) (ksps) Chs. Range (V) (mA) (°C) Sources ration Avail. Package Price*
LMP90100 Multi-Channel, Low Power 24-Bit Sensor AFE with 24 0.215 7 2.85 to 5.5 0.4 –40 to Y Y N TSSOP-28 3.33
True Continuous Background Calibration 125
LMP90097 Multi-Channel, Low Power 24-Bit Sensor AFE with 24 0.215 4 2.85 to 5.5 0.4 –40 to N Y N TSSOP-28 3.17
LMP90099 Multi-Channel, Low Power 24-Bit Sensor AFE with 24 0.215 7 2.85 to 5.5 0.4 –40 to N Y N TSSOP-28 2.86
LMP90077 Multi-Channel, Low-Power 16-Bit Sensor AFE with 16 0.215 4 2.85 to 5.5 0.4 –40 to N Y N TSSOP-28 2.33
LMP90078 Multi-Channel, Low-Power 16-Bit Sensor AFE with 16 0.215 4 2.85 to 5.5 0.4 –40 to Y Y N TSSOP-28 2.45
LMP90079 Multi-Channel, Low-Power 16-Bit Sensor AFE with 16 0.215 7 2.85 to 5.5 0.4 –40 to N Y N TSSOP-28 2.58
Analog Sensor AFEs

ADC Res. Sample Rate Input Supply Voltage Supply Current Temp. Range
Device Description (Bits) (ksps) Chs. Range (V) (mA) (°C) Package Price*
LMP91000 Configurable AFE Potentiostat for Low-Power 1 2.7 to 5.25 0.01 –40 to 85 Y N LLP-14 2.80
Chemical Sensing Applications
LMP91050 Configurable AFE for NDIR Based Sensors 1 2.7 to 5.5 3.7 –40 to 105 N N MSOP-10 1.32
LMP91051 Configurable AFE for NDIR Sensing Applications 2 2.7 to 5.5 3.6 –40 to 105 — N TSSOP-14 1.45
LMP91200 Configurable AFE for Low-Power pH Sensing 1 1.8 to 5.5 0.05 –40 to 125 Ext N TSSOP-16 3.90
Applications
LMP91002 Configurable AFE Potentiostat for Zero-Bias Sensing 1 2.7 to 3.6 0.01 –40 to 85 N N LLP-14 1.80
Applications

Data Converters
Analog Front Ends – Medical
Complete Low Power Integrated Analog Front End for ECG Applications
ADS1293
The ADS1293 incorporates all features commonly required in portable, low-power medical, Key Features
sports, and fitness electrocardiogram (ECG) applications. With high levels of integration and • Three high resolution digital ECG chan-
exceptional performance, the ADS1293 enables the creation of scalable medical instru- nels with simultaneous pace output
mentation systems at significantly reduced size, power, and overall cost. The ADS1293 • EMI hardened inputs
delivers a solution that can extend battery life, simplify product design and improve overall • Low power: 0.3 mW/channel
performance. • Input-referred noise: 7 µVpp
(40 Hz bandwidth)
• Input bias current: 175 pA
• Data rate: up to 25.6 ksps
AFE MCU Wireless
• Differential input voltage range: ±400 mV
• Analog supply voltage: 2.7 V to 5.5 V
• Digital I/O supply voltage: 1.65 V to 3.6 V
Power
Battery Applications
Featured Products • Low-power medical, sports, and fitness
electrocardiogram (ECG) applications
ADS1293 diagram
Low-Noise, 8-Channel, 24-Bit Analog Front-End for Biopotential Measurements

ADS1299
The ADS1299 is a low-noise, multichannel, simultaneous-sampling, 24-bit, delta-sigma (ΔΣ) Key Features
analog-to-digital converter (ADC) with a built-in programmable gain amplifier (PGA), internal • Eight low-noise PGAs and eight high-
reference, and an onboard oscillator. The ADS1299 incorporates all commonly-required resolution simultaneous-sampling ADCs
features for electroencephalogram (EEG) applications. With its high levels of integration and • Very low input-referred noise:
exceptional performance, the ADS1299 enables the creation of scalable medical instru- • 1.0 µVPP (70-Hz BW)
mentation systems at significantly reduced size, power, and overall cost. • Low power: 5 mW/channel
REF
• Input bias current: 300 pA
Test Signals and
Monitors Reference
• Data rate: 250 SPS to 16 kSPS
• CMRR: –110 dB
SPI
A1 ADC1 SPI
• Programmable gain: 1, 2, 4, 6, 8, 12, or 24
A2 ADC2 • Built-in oscillator
A3 ADC3 Applications
CLK
A4 ADC4 Oscillator
• Electroencephalogram (EEG) applications
Inputs
Control
MUX
A5 ADC5
GPIO and Control
A6 ADC6
A7 ADC7
A8 ADC8
To Channel
Patient Bias and Reference
ADS1299 functional diagram

Data Converters
Analog Front Ends for Ultrasound

Device Channels Integration Power Noise ADC SNR Package Price*
—
AFE5808 8 LNA+VCA+LPF+ADC+ CW 136 mW/Ch at 40 MSPS 0.75 nV/√Hz 77 dBFS 135-pin, 15x9mm 68.00
—
AFE5807 8 LNA+VCA+LPF+ADC+ CW 88 mW/Ch at 40 MSPS 1.1 nV/√Hz 74 dBFS 135-pin, 15x9mm 62.00
—
AFE5805 8 LNA+VCA+LPF+ADC 122 mW/Ch at 40 MSPS 0.85 nV/√Hz 70 dBFS 135-pin, 15x9mm 56.00
—
AFE5804 8 LNA+VCA+LPF+ADC 101 mW/Ch at 40 MSPS 1.23 nV/√Hz 69 dBFS 135-pin, 15x9mm 58.00
—
AFE5801 8 VCA+LPF+ADC 58 mW/Ch at 50 MSPS 5.0 nV/√Hz (without LNA) 66 dBFS 64-pin, 9x9mm 52.00
—
AFE5851 16 VCA+LPF+ADC 39 mW/Ch at 32.5 MSPS 5.0 nV/√Hz (without LNA) 66 dBFS 64-pin, 9x9mm 92.00
*Suggested resale price in U.S. dollars in quantities of 1,000.
Biopotential Sensing (ECG/EEG) Delta-Sigma ADCs

Res. Sample-Rate Number of Input Input-Referred Common Mode Power HiRel
Device (Bits) (kSPS) Channels Interface Noise (µVpp) Rejection (dB) (mW) Avail. Package Price*
ADS1299 24 16 8 Diff Serial SPI 1 120 41 N TQFP-64 36.00
ADS1298 24 32 8 Diff SPI 4 115 6 N BGA-64, TQFP-64 23.95
ADS1298R 24 32 8 Diff SPI 4 115 6 Y BGA-64, TQFP-64 23.95
ADS1296 24 32 6 Diff SPI 4 115 5.1 N BGA-64, TQFP-64 17.95
ADS1296R 24 32 6 Diff SPI 4 115 5.1 Y BGA-64, TQFP-64 17.95
ADS1294R 24 32 4 Diff SPI 4 115 3.6 Y BGA-64, TQFP-64 11.95
ADS1293 24 25.6 3 Diff SPI 7 100 0.9 N WQFN-28 5.50
ADS1292 24 8 2 Serial SPI 8 120 0.7 N TQFP-32, VQFN-32 3.50
ADS1292R 24 8 2 Serial SPI 8 120 0.7 Y TQFP-32, VQFN-32 3.50
ADS1194 16 8 4 Diff SPI 12 100 3 N BGA-64, TQFP-64 15.95
*Suggested resale price in U.S. dollars in quantities of 1,000. All parts have a built-in internal reference. New products are listed in bold red.
Embedded Processors with Integrated ADCs

ADC ADC ADC Max Standby Active
Device Channels Resolution Sample-Rate Speed Flash ROM RAM Current Current MAX GPIO Timers PWM Price*
MSP430™
MSP430G2131 8 10 200 16 1 0 0.125 0.5 0.22 10 2 2 0.49
MSP430F1122 5 10 200 8 4 0 0.25 0.7 0.2 14 2 3 1.65
MSP430F5505 8 10 200 25 16 0 6 2.6 0.16 31 5 18 1.75
MSP430F5510 12 10 200 25 32 0 6 2.6 0.16 47 5 18 1.90
MSP430F2272 12 10 200 16 32 0 1 0.5 0.27 32 3 6 2.20
MSP430F233 8 12 200 16 8 0 1 0.3 0.27 48 3 6 2.15
MSP430F2410 8 12 200 16 56 0 4 0.3 0.27 48 3 10 4.60
MSP430F5524 12 12 200 25 64 0 6 2.6 0.16 47 5 18 3.55

Data Converters
Embedded Processors with Integrated ADCs (continued)

ADC ADC ADC Max Standby Active
Device Channels Resolution Sample-Rate Speed Flash ROM RAM Current Current MAX GPIO Timers PWM Price*
MSP430™ (continued)
MSP430F5525 16 12 200 25 64 0 6 2.6 0.16 63 5 18 3.66
MSP430F2013 4 16 4 16 2 0 0.125 0.5 0.22 10 2 2 1.20
MSP430F478 5 16 32 8 48 0 2 1.1 0.28 48 3 6 5.00
MSP430F47176 6 16 32 16 92 0 8 1.1 0.35 68 3 6 5.90
MSP430F47187 7 16 32 16 116 0 8 1.1 0.35 68 3 6 7.55
TMS320C2000™
TMS320F28021 13 12 2000 40 64 0 10 N/A N/A 22 9 1 2.20
TMS320F28027 13 12 4600 60 64 0 12 N/A N/A 22 9 1 2.85
TMS320F28022 13 12 3800 50 32 0 12 N/A N/A 22 9 1 2.25
TMS320F280200 13 12 2000 40 16 0 6 N/A N/A 22 8 0 1.85
TMS320F28235 16 12 12500 150 512 0 68 N/A N/A 88 16 6 14.55
TMS320F2809 16 12 12500 100 256 0 36 N/A N/A 35 14 4 12.95
TMS320F28035 16 12 4600 60 128 0 20 N/A N/A 45 12 1 4.41
TMS320F28232 16 12 12500 100 128 0 52 N/A N/A 88 14 4 12.88
TMS320F28031 16 12 2000 60 64 0 16 N/A N/A 45 12 1 2.97
TMS320F2806 16 12 6250 100 64 0 20 N/A N/A 35 14 4 8.70
TMS320F28015 16 12 3750 60 32 0 12 N/A N/A 35 10 2 3.25
Tiva™ C Series
TM4C1230 12 12 1000 80 32-256 0 12-32 N/A N/A 49 2 0 3.27
TM4C1231 22 12 1000 80 32-256 0 12-32 N/A N/A 69 2 0 3.44
TM4C1233 12 12 1000 80 32-256 0 12-32 N/A N/A 43 2 0 4.35
TM4C1232 12 12 1000 80 32-256 0 12-32 N/A N/A 49 2 0 4.35
TM4C1237 12 12 1000 80 32-256 0 12-32 N/A N/A 43 2 0 4.41
TM4C1236 12 12 1000 80 32-256 0 12-32 N/A N/A 49 2 0 4.41
TM4C123B 12 12 1000 80 128-256 0 32 N/A N/A 43 2 16 3.40
TM4C123A 12 12 1000 80 128-256 0 32 N/A N/A 49 2 16 3.40
TM4C123G 12 12 1000 80 128-256 0 32 N/A N/A 43 2 16 4.52
TM4C123F 12 12 1000 80 128-256 0 32 N/A N/A 49 2 16 4.52
ARM® Cortex® R4
TMS570LS10106 24 12 1000 160 1024 0 128 N/A N/A 114 32 32 20.46
TMS570LS10116 24 12 1000 160 1024 0 128 N/A N/A 114 32 32 21.26
TMS570LS10206 24 12 1000 160 1024 0 160 N/A N/A 114 32 32 20.66
TMS570LS10216 24 12 1000 160 1024 0 160 N/A N/A 114 32 32 21.46
TMS570LS20206 24 12 1000 160 2048 0 160 N/A N/A 114 32 32 23.16
TMS570LS20216 24 12 1000 160 2048 0 160 N/A N/A 114 32 32 23.96

Monitoring and Control
Motor Drivers
Stepper Pre-Driver with On-chip 1/256 Micro-Stepping Indexer and Stall Detect
DRV8711
The DRV8711 is a pre-driver IC for bipolar stepper motor drive applications. It provides Key Features
four half bridge gate drivers, each capable of driving two external N-channel MOSFETs, • Stepper gate driver with 8 to 52 V
one for the high side and one for the low side. It supports up to 400 mA sink and 200 supply voltage and 200 mA gate
mA source peak current output. The on-chip micro-stepping indexer supports step current
modes from full to 1/256-step. Advanced current regulation techniques, including auto • Step/Direction, PWM, or SPI control
mixed decay mode enable ultra smooth and quiet motion profiles. The motor back EMF options
is monitored and system controller alerted when a stall occurs. Step/direction, PWM, • 1/256 micro-step on-chip indexer
or SPI control options allows for easy interfacing to controller circuits. A SPI serial • SPI management I/F for
interface is used to program the device operation. Output current (torque), step mode, programmability
decay mode, and stall detection functions are all programmable via a SPI serial inter- • Advanced current regulation with
face. Internal shutdown functions/protection is provided for over-current, short circuit, programmable fixed time off, banking
under-voltage lockout, gate drive over-current and over-temperature events. time, and mixed decay ratio
• Supports slow, fast, mixed, and auto-
mixed decay modes
Control • Stall detect with optional back EMF
DRV8711 output signal
Mgmt
M • Fully protected with over current,
FETs thermal, shoot-through, UVLO, and
Controller (External) gate drive over-current protection
Fault
1/256 µ-steps Applications
Stall • Textile MFG equipment
8 to +52 V Stall Detect • Factory automation & robotics
• Video security cameras
• Automatic teller machines (ATM)
DRV8711 functional block diagram • Stage lighting
* Expected release date: Q2 2013
Get more information: www.ti.com/product/DRV8711

Motor Drivers
5 A Brushed DC or Quad 1.75 A Solenoid/Relay Driver with Split Rail Support

DRV8844
The DRV8844 provides four individually controllable 1/2-H-bridge drivers. It can be Key Features
used to drive two DC motors, one stepper motor, four solenoids, or other loads. It • Quad half H-Bridge motor driver with
supports both high side or low side switching when driving solenoids with the non- 8 to 60 V supply voltage
switching FET acting as the catch diode. The output driver channel for each channel • ±30 V split-rail support with floating
consists of N-channel power MOSFET’s configured in a 1/2-H-bridge configuration. The “control” inputs
DRV8844 can supply up to 2.5-A peak or 1.75-A RMS output current per channel (with • Up to 1.75 A continuous/2.5 A peak
proper PCB heatsinking at 24 V and 25°C) per H-bridge. Separate inputs to indepen- output current per half bridge
dently control each 1/2-H-bridge are provided. To allow operation with split supplies, • PWM control interface with
the logic inputs and nFAULT output are referenced to a separate floating ground pin. independent enables
Internal shutdown functions/protection is provided for over-current, short circuit, under- • 480 mΩ RDS(ON) (HS + LS) improves
voltage lockout and over-temperature events. thermal performance
• On-chip 3.3 V LDO (10 mA)
• Integrated protection features
including over-current, thermal,
PWM Input 4 x 1.75 A shoot-through, and UVLO protection
(4x pins) DRV8844
Solenoid Applications
Enable • Textile machines
(4x pins) • Factory automation
Solenoid • Robotics
Controller
Logic GND • Solenoid / Relay drivers
Solenoid
Fault
Solenoid
+30 V 10 mA LDO
-30 V
DRV8844 functional block diagram

Motor Drivers
Industry’s Smallest 1.8 A Brushed DC Motor Driver

DRV8837
The DRV8837 is an integrated motor driver IC for brushed DC motor drive applica- Key Features
tions. The output driver block consists of N-channel power MOSFETs configured as an • Single H-Bridge motor driver with
H-bridge to drive the motor winding. An internal charge pump generates needed gate- 1.8 to 11 V supply voltage
drive voltages. The DRV8837 can supply up to 1.8 A of output current. It operates on a • Split Vm/Vcc supplies improve
motor power-supply voltage of 1.8 V to 11 V, a device power-supply voltage of 1.8 V to performance and prevent battery
7 V and supports up to 6 stack alkaline or 2-stack Li-ion battery pack applications. Low voltage drop from tripping UVLO
RDSON and ultra low sleep current help extend battery life. The DRV8837 has a PWM • Up to 1.8 A continuous/1.8 A peak
(IN/IN) input interface, which is compatible with industry-standard devices. Internal output current
shutdown functions/protection is provided for over-current, short-circuit, under-voltage • 280 mΩ RDS(ON) (HS + LS) and
lockout and ove-temperature events. ultra-low 35 nA sleep current extend
battery life
• Robust short circuit, thermal, shoot-
through, and UVLO protection
Charge Pump • Tiny 8-pin WSON (2.0 x 2.0 mm)
VM (motor)
1.8 to 11 V
package
OUT1
• Easy-to-use evaluation module and
VCC (Logic) design-in documentation
1.8 to 7 V Gate
Drive H-Bridge M Applications
• Toys
• E-locks
OUT2
• Smart meters (gas and water)
Logic
• Battery powered consumer products
PWM 1
Short
MSP430TM PWM 2 Thermal
Circuit
Controller
SLEEP Shoot Under

Through Voltage
GND

Motor Drivers
Stepper Motor Controller IC

DRV8825
The DRV8825 provides an integrated motor driver solution for printers, scanners and Key Features
other automated equipment applications. The device has two H-bridge drivers and can • PWM microstepping motor driver
drive a Bipolar stepper motor. Each of the output driver block consists of N-channel Built-in microstepping indexer
power MOSFET configured as full H-bridges to drive the motor windings. The DRV8825 supports up to 32 microsteps
can supply up to 2.5 A peak or 1.75 A RMS output current (with proper heatsinking at Supports slow, fast, and mixed
24 V and 25°C). decay modes
• 2.5 A maximum drive current at
24 V, 25°C
VM
• 8 V to 45 V operating supply
VM
Int CP 2 voltage range
Internal
Reference
VCC
0.22 µF
• Advanced on-chip protection
LS Gate
and Registers
Drive
Charge
Pum p
CP 1
Over-current
V3P3OUT
3.3 V
VCP
0.22 µF Thermal
Under-voltage
3.3 V Thermal
Shutdow n HS Gate Applications
Drive
AVREF VM A
• Automatic teller machines
• Money handling machines
BVREF • Video security cameras
AOUT 1 Step
Motor Motor • Printers
Driver
nENBL A AOUT 2
• Scanners
STEP • Office automation machines
DIR ISEN A • Gaming machines
MODE 0
MODE 1
Indexer/
MODE 2 Control
Logi c
VM B
nRESET
BOUT 1
nSLEEP
Motor
nHOME Driver
B BOUT 2
nF AU LT ISEN B
GND GND

Motor Drivers
DRV8x Motor Drivers www.ti.com/motor

Supply IOUT IOUT
Voltage Cont. Peak Drives
Device Description (V) (A) (A) Control Interface Solenoids Price*
Stepper Motors
DRV8412 6-A High-Performance Stepper Driver 0 to 52 3 6 PWM Yes (4x) 3.85
DRV8432 12-A High-Performance Stepper Driver 0 to 52 7 12 PWM Yes (4x) 5.50
DRV8812 1.6-A Stepper Driver (P2P w/8813) 8 to 45 1.1 1.6 Phase/Enable No 1.65
DRV8813 2.5-A Stepper Driver (P2P w/8812) 8 to 45 1.75 2.5 Phase/Enable No 2.25
DRV8823 Dual 1.5-A Stepper Driver 8 to 32 1.5 1.5 Serial No 2.00
DRV8828 3-A Stepper Driver (Need 2x per Motor) 8 to 45 2.1 3 Phase/Enable No 1.65
DRV8829 5-A Stepper Driver (Need 2x per Motor) 8 to 45 3.5 5 Phase/Enable No 2.25
DRV8842 5-A Stepper Driver (Need 2x per Motor) 8 to 45 3.5 5 PWM Yes (2x) 2.25
DRV8843 2.5-A Stepper Driver 8 to 45 1.75 2.5 PWM No 2.25
Indexers (On-chip microstepping support)
Ext Ext
DRV8711 Stepper Pre-Driver with Stall Detect (256 Microsteps) 8 to 52 Indexer, PWM or SPI No 2.75
FETs FETs
DRV8811 1.9-A Stepper Driver (8 Microsteps) (P2P w/8818) 8 to 38 1.4 1.9 Indexer No 1.80
DRV8821 Dual 1.5-A Stepper Driver (8 Microsteps) 8 to 32 1.5 1.5 Indexer No 2.00
Unipolar Stepper Drivers
DRV8803 2-A Unipolar Stepper Driver 8 to 60 2 2 PWM Yes (4x) 1.40
DRV8804 2-A Unipolar Stepper Driver 8 to 60 2 2 Serial Yes (4x) 1.40
DRV8805 2-A Unipolar Stepper Driver w/Indexer 8 to 60 2 2 Indexer Yes (4x) 1.40
DRV8806 2-A Unipolar Stepper Driver w/Open Load Detect 8 to 40 2 2 Serial Yes (4x) 1.50
Low-Voltage Stepper Drivers
2.7 to
DRV8833 2-A Stepper Driver 1.5 2 PWM No 0.95
10.8
2.5 to Indexer or Phase/
DRV8834 2.2-A Stepper Driver (32 Microsteps) 1.5 2.2 No 1.15
10.8 Enable
DRV8835 1.5-A Stepper Driver w/Dual Supplies 2.0 to 11 1.5 1.5 PWM or Phase/Enable No 0.70
DRV8836 1.5-A Stepper Driver 2.0 to 7 1.5 1.5 PWM or Phase/Enable No 0.70
Brushed DC Motors
Ext Ext
DRV8301 Pre-Driver with 1.5-A Step-Down Voltage Regulator and Dual Current-Sense Amps (SPI Control) 8 to 60 PWM No 2.50
FETs FETs
Ext Ext
DRV8302 Pre-Driver with 1.5-A Step-Down Voltage Regulator and Dual Current-Sense Amps (H/W Control) 8 to 60 FETs FETs PWM No 2.50
DRV8412 12-A High-Performance Brushed DC Driver 0 to 52 6 12 PWM Yes (4x) 3.85
DRV8432 24-A High-Performance Brushed DC Driver 0 to 52 14 24 PWM Yes (4x) 5.50
DRV8800 2.8-A Brushed DC Driver 8 to 36 1.5 2.8 Phase/Enable No 1.25
DRV8801 2.8-A Brushed DC Driver w/Current-Sense Pin 8 to 36 1.5 2.8 Phase/Enable No 1.25
DRV8840 5-A Brushed DC Driver 8 to 45 3.5 5 Phase/Enable No 2.25
DRV8842 5-A Brushed DC Driver 8 to 45 3.5 5 PWM Yes (2x) 2.25
DRV8844 5-A Brushed DC Driver w/Split Supply Support (+30/–30) 8 to 60 3.5 5 PWM Yes (4x) 2.50
Dual/Quad Brushed Drivers
DRV8412 Dual 6-A High-Performance Brushed DC Driver 0 to 52 3 6 PWM Yes (4x) 3.85
DRV8432 Dual 12-A High-Performance Brushed DC Driver 0 to 52 7 12 PWM Yes (4x) 5.50
DRV8802 Dual 1.6-A Brushed DC Driver (P2P w/8814) 8 to 45 1.1 1.6 Phase/Enable No 1.65
DRV8814 Dual 2.5-A Brushed DC Driver (P2P w/8802) 8 to 45 1.75 2.5 Phase/Enable No 2.25
DRV8823 Quad 1.5-A Brushed DC Driver 8 to 32 1.5 1.5 Serial No 2.00
DRV8843 Dual 2.5-A Brushed DC Driver 8 to 45 1.75 2.5 PWM No 2.25
DRV8844 Dual 2.5-A Brushed DC Driver w/Split Supply Support (+30/–30) 8 to 60 1.75 2.5 PWM Yes (4x) 2.50
*Suggested resale price in U.S. dollars in quantities of 1,000. Preview products are listed in bold blue. New products are listed in bold red.

Motor Drivers
DRV8x Motor Drivers (continued) www.ti.com/motor

Supply IOUT IOUT
Voltage Cont. Peak Drives
Device Description (V) (A) (A) Control Interface Solenoids Price*
Brushed DC Motors (continued)
Low-Voltage Brushed Drivers
DRV8830 1-A Brushed DC Driver w/on-Chip Speed Regulation 2.75 to 6.8 1 1 IN/IN No 0.85
DRV8832 1-A Brushed DC Driver w/on-Chip Speed Regulation 2.75 to 6.8 1 1 Serial No 0.85
DRV8833 Dual 2-A or Single 4-A Brushed DC Driver 2.7 to 10.8 3 4 PWM No 0.95
DRV8835 Dual 1.5-A or Single 3-A Brushed DC Driver w/Dual Supplies 2.0 to 11 3 3 PWM or Phase/Enable No 0.70
DRV8836 Dual 1.5-A or Single 3-A Brushed DC Driver 2.0 to 7 3 3 PWM or Phase/Enable No 0.70
DRV8837 1.8-A Brushed DC Driver w/Dual Supplies 1.8 to 11 1.8 1.8 PWM No 0.45
DRV8839 1.8 A Low Voltage Dual Half-Bridge Driver with Individual Control Interface 1.8 to 11 1.8 1.8 PWM No 0.50
3-Phase Brushless Motors
DRV8301 Pre-Driver with 1.5-A Step-Down Voltage Regulator and Dual Current-Sense Amps (SPI Control) 8 to 60 Ext FETs Ext FETs PWM No 2.50
DRV8302 Pre-Driver with 1.5-A Step-Down Voltage Regulator and Dual Current-Sense Amps (H/W Control) 8 to 60 Ext FETs Ext FETs PWM No 2.50
DRV8303 3-Phase Brushless Motor Pre-Driver with Dual Current Sense Amps (SPI Ctrl) 8 to 60 Ext FETs Ext FETs PWM No TBD
DRV8308 3-Phase Brushless Motor Controller with Speed Loop (Hall Sensored) 8.5 to 32 Ext FETs Ext FETs PWM/SPI/CLK No TBD
DRV8312 6.5-A High-Performance 3-Phase Driver 0 to 52 3.5 6.5 PWM Yes (3x) 3.30
DRV8813 2.5-A 3-3-Phase Driver w/10-mA LDO 8 to 60 1.75 2.5 PWM Yes (3x) TBD
DRV8332 13-A High-Performance 3-Phase Driver 0 to 52 8 13 PWM Yes (3x) 4.70

Haptic Drivers
DRV2667 Industry’s Most Highly Integrated Piezo Haptic Driver

DRV2667
Haptics is a technology that makes use of motor vibrations to create tactile response Key Features
in electronics, providing feedback that you can feel in addition to what you see and • High-voltage differential amplifier
hear. TI’s DRV2667 is a highly integrated piezo haptic driver featuring advanced digital generates up to 200 Vpp output allow-
interface, configurable boost converter and high voltage amplifier. Unlike competing ing support of a wide range of piezo
devices, the DRV2667 does not require a large, expensive transformer, making it the actuators
industry’s smallest complete single-chip solution for piezo haptic waveform genera- • 15 V to 105 V boost converter
tion. High-voltage drive technology combined with ultra-small solution size make the eliminates the need for external
DRV2667 ideal for systems requiring the best possible tactile feedback experience. components and a transformer
• Digital interface, integrated memory
and 2-ms startup allow faster response
L1 time and a more realistic experience
3 V to 5.5 V • Complete single-chip solution for high-
DRV2667 voltage piezo haptics saves board
C VDD space and cost
• Piezo haptics enables the highest
VDD SW
fidelity “HD” haptic experience for a
VREG VBST wide range of products such as smart-
PVDD C VBST phones, tablets, white goods and
CV
REG R1 automotive applications
R PU RPU
FB Applications
SDA R2
IC
2
• Smartphones
SCL
• Tablets
Analog IN+ OUT+ Piezo • E-readers
Input IN- OUT- Actuator • Mouse/touch pads
• Remote controls
VPUMP REXT • White goods
R EXT • Gaming machines
C PUMP GND

Haptic Drivers
Haptic Drivers Deliver Unmatched Performance and 123 Royalty-Free Haptic Effects
DRV2604/5
Haptics has been popular in gaming and mobile phones and TI’s DRV2604/5 ERM/ Key Features
LRA haptic drivers make it easy to integrate haptics into any touch-enabled consumer • DRV2605 is the industry’s first ERM/
or industrial application. Enhancing the user experience presents a number of design LRA haptic driver with 123 pre-load-
challenges, including software programming, system diagnostics, motor calibration and ed, royalty-free distinct haptic effects
haptic effect generation. The DRV2604/5 are truly differentiated solutions that address designed and licensed by Immersion
these challenges and simplify system design. • Audio-to-haptics mode in DRV2605
automatically converts audio from
music, movies or games into haptic
effects allowing users to feel and fully
experience audio and video content
• Smart Loop architecture
2.5 V – 5.5 V C VREG
Automatic overdriving and braking simpli-
VDD fies software programming and reduces
DRV2605 startup and braking time by 50%
SDA Automatic resonance tracking for the
I2C IC
2 Feedback
Control I/F
ROM REG
Detection LRA delivers 2x the vibration force
SCL OUT+ at half the power of competitive
solutions
EN Playback Engine LRA or
Auto Calibration Driver Automatic actuator diagnostics and
IN/Trigger DC Motor
Auto Diagnostic level tracking delivers consistent
OUT- acceleration over a range of environ-
GND
mental conditions
• Industry’s smallest form factor (1.5 mm2)
DRV2604/5 functional block diagram Applications

• Smartphones • Mouse/touch pads
• Tablets • Remote controls
Get more information: www.ti.com/product/DRV2605 • E-readers • White goods
Haptic Drivers
VOUT IQ Startup Haptic VS VS Operating
(Max) Input (Typ) Time Actuator (Max) (Min) Temp
Device Description (V) Signal (mA) (ms) Type (V) (V) Range (ºC) Package Price*
DRV2667 Piezo Haptic Driver with Boost, Digital Front End, and 200 I2C, PWM, 0.13 2 Piezo 5.5 3 –40 to 85 QFN-20 2.95
Internal Waveform Memory Analog
DRV2604 Haptic Driver for ERM/LRA with Waveform Memory 5.5 I2C, PWM, 0.6 0.7 ERM, LRA 5.5 2.5 –40 to 85 9DSBGA 1.15
and Smart Loop Architecture Analog
DRV2605 Haptic Driver for ERM/LRA with Built-In Library and 5.5 I2C, PWM, — 0.7 ERM, LRA 5.5 2.5 –40 to 85 9DSBGA 1.60
Smart Loop Architecture Analog
DRV2603 Haptic Driver with Auto Resonance Tracking for LRA — PWM, 1.5 1.3 ERM, LRA 5.2 2.5 –40 to 85 QFN-10 0.70
and Optimized Drive for ERM Analog
DRV2665 Piezo Haptic Driver with Integrated Boost Converter 200 I2C, PWM, 5 2 Piezo 5.5 3 –40 to 70 QFN-20 2.50
and Digital Front End Analog
DRV8662 Piezo Haptic Driver with Integrated Boost Converter 100 PWM, 5 1.5 Piezo 5.5 3 –40 to 70 QFN-20 1.75
Analog
DRV8601 400 mA Fully Differential Motor Driver with 1.8-V Input 5.5 PWM, 1.7 0.1 ERM, LRA 5.5 2.5 –40 to 85 BGA-8 0.48
Logic Thresholds Analog MICROSTAR
JUNIORTM, SON-8

Touch-Screen Controllers
Resistive Single Touch Screen Controller with Integrated Haptics Driver

TSC2011
The TSC2011 is a very low power touch screen controller designed to work with a low Key Features
cost four-wire resistive touch sensor but also includes a comprehensive set of haptic • Advanced four-wire touch screen
feedbacks to provide a complete human machine interface. Unlike other competing interface
solutions that rely on a simple, one way “trigger” mechanism, the haptic controller and • Preprocessing to reduce bus activity
touch screen controller work side-by-side to ensure consistent haptic effect and touch • Integrated haptic feedback control
detection. This synchronized operation minimizes the skew between detection and • High-speed I2C-compatible interface
feedback, reducing system power consumption. Other advanced features include a • Register-based programmable
bandwidth saving preprocessing, integrated H-bridge to drive actuator and GPO pins • Low power design
may be used for an IR proximity circuit. These make the TSC2011 a perfect device for • Enhanced IEC ESD protection
low cost consumer applications that can benefit from many new bidirectional human
Applications
machine interactions such as touch, gaming, and supplemental effects of ring tone.
• Smart phones, MP3, PMPs, games
• Portable industrial/medical
PENIRQ
PINTDAV
instruments, POS
(optional )
DAV
X+
P reprocessing
X– Touch Screen Touch Engine

Drivers With Touch Screen
Y+ Interface Analog Signal Controller
Processing
Y–
AD 0
TEMP
S ystem A rbitrator
and C ontrol
I2 C S erial
SCL
Interface
AUX /IRRX
Status Register
SDA
H +/U + Haptic
H –/U – Controller
RESET
S ynthesize r
Overcurrent
External H - Protection 10 ~20 kHz Profiler
Bridge Driver PWM
H -Bridge Driver Parameters
GPIO 1/D –/IRTX
Inte rnal
C lock
GPIO 0/D +/IRPWN

Actuator
Enhanced ESD
TSC2011 functional block diagram
Get more information: www.ti.com/product/TSC2011
Non-Audio Touch-Screen Controllers

Touch Res. Supply Voltage Power HiRel
Device Panel (Bits) Interface Features ESD VREF (V) Consumption (mW) Avail. Package Price*
ADS7843 4-Wire 12 (8) Serial, SPI X, Y, AUX 2 KV Ext 2.7 to 5.25 1.8 N SSOP-16 1.70
ADS7845 5-Wire 12 (8) Serial, SPI X, Y, AUX 2 KV Ext 2.7 to 5.25 1.8 N SSOP-16 4.20
ADS7846 4-Wire 12 (8) Serial, SPI X, Y, Pressure, VBAT, 2 KV Int 2.7 to 5.25 1.8 N SSOP-16, QFN-16 2.05
Temp, AUX TSSOP-16, BGA-48
TSC2003 4-Wire 12 (8) Serial, I2C X, Y, Pressure, VBAT, Temp, 2 KV A, 2 Int 2.7 to 5.25 1.8 N TSSOP-16 2.25
AUX KV C
TSC2004 4-Wire 12 (10) Serial, I2C Processor, X, Y, Pressure, 18 KV A, 15 Ext Analog: 1.2 to 3.6, 0.075 (typ) Std 0.6, N 2.5 x 2.5 2.00
Temp, AUX KV C VI/O: 1.2 to 3.6 (typ) Enhanced WCSP-18, QFN-20
TSC2005 4-Wire 12 (10) Serial, SPI Processor, X, Y, Pressure, 18 KV A, 15 Ext Analog: 1.6 to 3.6, 0.075 (typ) Std 0.6, N 2.5 x 3.0 WCSP-18 2.20
Temp, AUX KV C VI/O: 1.2 to 3.6 (typ) Enhanced
TSC2006 4-Wire 12 (10) Serial, SPI Processor, X, Y, Pressure, 18 KV A, 15 Ext Analog: 1.2 to 3.6, 0.075 (typ) Std 0.6, N QFN-20 1.90
Temp, AUX KV C VI/O: 1.2 to 3.6 (typ) Enhanced
TSC2007 4-Wire 12 (8) Serial, I2C Processor, X, Y, Pressure, 25 KV A, 15 VDD 1.2 to 3.6 0.04 (typ) N 1.5 x 2.0 WCSP-12, 1.75
Temp, AUX KV C TSSOP-16
TSC2008 4-Wire 12 (8) Serial, SPI Processor, X, Y, Pressure, 25 KV A, 15 VDD 1.2 to 3.6 0.04 (typ) N 1.5 x 2.0 WCSP, 1.75
Temp, AUX KV C QFN-16
TSC2014 4-Wire 12 (10) Serial, I2C Processor, X, Y, Pressure, 18 KV A, 15 Ext Analog: 1.2 to 3.6, 0.075 (typ) Std 0.6, N 2.5 x 2.5 WCSP- 2.00
Temp, AUX KV C VI/O: 1.2 to 3.6 (typ) Enhanced 18, QFN-20
TSC2046 4-Wire 12 (8) Serial, SPI X, Y, Pressure, VBAT, 2 KV A, 2 Int Analog: 2.2 to 5.25, 1.8 Y TSSOP-16, QFN-16, 1.95
Temp, AUX KV C VI/O: 1.5 to 5.25 BGA-48
TSC2046E 4-Wire 12 (8) Serial, SPI X, Y, Pressure, VBAT, 18 KV A, 15 Int Analog: 2.2 to 5.25, 0.7 N TSSOP-16, QFN-16, 2.20
Temp, AUX KV C VI/O: 1.5 to 5.25 BGA-48
TSC2017 4-Wire 12 Serial, I2C Processor, X, Y, Pressure, 25 KV A, 15 VDD 1.6 to 3.6 37 µW N 1.6 mm x 1.6 mm 1.95
Temp, AUX KV C WCSP

Pulse-Width Modulation
Sensor Signal Conditioning IC for Closed-Loop Magnetic-Current Sensor

DRV411
The DRV411 is designed for conditioning InSb Hall Elements for use in closed loop Key Features
current sensor modules. It provides precision excitation circuitry for the hall-element • Optimized for symmetic hall elements
effectively eliminating the offset and offset-drift of the hall element. It also provides a AKM HW-302, HW-322, or similar
250 mA H-Bridge for driving the sensor’s compensation coil as well a precision differen- • Spinning current excitation
tial amplifier to generate the output signal. The 250 mA drivecapability of the H-Bridge Elimination of hall offset, drift, and
enables roughly doubling the current measurement range compared with conventional low frequency noise
single-ended drive methods. • Extended current measurement range
The Hall-Element Amplifier and also the differential amplifier employ proprietary offset H-Bridge output drive: 250 mA
cancelling techniques. This, along with a high accuracy voltage reference, significantly • Precision differential amplifier
improves the accuracy of the overall current sensor module. The output voltage is pin- Offset/Drift: 100 µV max, 1 µV/°C
selectable to support 2.5 V output for use with 5 V power supply as well as 1.65 V for max
3.3 V sensors. 200 kHz system bandwidth
• Precision reference
RM
Accuracy: 0.2% max, DRIFT:
GSEL1 GSEL2 5V
ICOMP1 IAIN2 IAIN1
50 ppm/°C max
Pin-selectable for 2.5 V, 1.65 V
Gain, Compensation Diff • Over-range and error flag
Excitation Control Amp
AB+ AB+ Applications
- Class • Closed loop current sensor modules
Filtering
Switches
Demod/
Rotation
AB
+ Driver VOUT • DC- and AC-current measurement
AB- AB- REFIN
Excitation
REF
Over- 2.5V/1.65V REFOUT
Range 0.25V/Ratio
ICOMP2 Over-Range RSEL1 RSEL2
PWM Power Drivers

Output Saturation
Supply Voltage Current Voltage RON Frequency HiRel
Device Description (V) (A) (typ) (V) (Ω) (kHz) Avail. Package Price*
Single Switch
DRV101 Low-Side with Internal Monitoring 9 to 60 2.3 1 0.8 24 N TO-220, DDPAK 3.85
DRV102 High-Side with Internal Monitoring 8 to 60 2.7 2.2 0.95 24 N TO-220, DDPAK 3.85
DRV103 Low-Side with Internal Monitoring 8 to 32 1.5/3 0.6 0.9 0.5 to 100 N SOIC-8, SOIC-8 PowerPAD™ 2.00
DRV104 High-Side with Internal Monitoring 8 to 32 1.2 0.65 0.45 0.5 to 100 N HTSSOP-14 PowerPAD 1.75
Bridge
DRV590 1.2 A, High-Efficiency PWM Power Driver 2.7 to 5.5 1.2 0.48 0.4 250/500 N SOIC-PowerPAD, 4 mm x 4 mm 12.00
MicroStar Junior™
DRV591 ±3 A, High-Efficiency PWM Power Driver 2.8 to 5.5 3 0.195 0.065 100/500 N 9x9 PowerPAD QFP 11.00
DRV592 ±3 A, High-Efficiency H-Bridge 2.8 to 5.5 3 0.195 0.065 1000 N 9x9 PowerPAD QFP 2.85
Sensor Signal Conditioning
DRV401 Signal Cond. for Magnetic-Current Sensor 4.5 to 5.5 0.2 0.4 — 2000 Y QFN-20, SOIC-20 2.05
DRV411 Signal Conditioning and 250 mA Full-Bridge 2.7 to 5.5 0.25 0.4 — 2000 N QFN-20, TSSOP-20 2.05
Drive-IC for Closed-Loop Hall-Sensors

Current Shunt Monitors/Current Sense Amplifiers
Triple Channel Shunt and Bus Voltage Monitor

INA3221
The INA3221 is a three-channel, high-side current and bus voltage monitor with an I2C Key Features
interface. The INA3221 monitors both shunt voltage drops and bus supply voltages • Senses bus voltages from 0 V to +26 V
in addition to having programmable conversion times and averaging modes for these • Reports shunt and bus voltage
signals. The INA3221 offers both critical and warning alerts to detect multiple program- • High accuracy
mable out-of-range conditions for each channel. • Configurable averaging options
Power Supply
• Four programmable addresses
(0V to 26V) CBYPASS
0.1 µF • Power-supply operation: 2.7 V to 5.5 V
Load 1
• Programmable alert and warning
Vs (Supply
VIN+1 VIN-1
Voltage)
10 kΩ
outputs
Power Supply
(0V to 26V) SDA
Applications
SCL
CH1
Bus
I 2C
Interface
• Computers
VIN+2 CH2 Voltages 1-3 A0
VPU VS
• Power management
Shunt
VIN-2
ADC
Voltages 1-3 • Telecom equipment
Critical Limit
10 kΩ • Battery chargers
Alerts 1-3 VPU
Load 2 CH3 Shunt Voltage

Power Valid • Power supplies
Critical
Sum Alerts
Warning • Test equipment
Timing Control
GND
VIN+3 VIN-3
Power Supply
(0V to 26V) Load 3
INA3221 functional block diagram
Get more information: www.ti.com/product/INA3221
Precison 76 V High-Side Current Sense Amps with Volt Output

LMP8480/1
The LMP8480 and LMP8481 are precision high-side current sense amplifiers that Key Features
amplify a small differential voltage developed across a current sense resistor in the • Bi-directional or uni-directional sensing
presence of high input common-mode voltages. • Common mode voltage range 4.0 V to
These amplifiers are designed for bidirectional (LMP8481) or unidirectional (LMP8480) 76 V
current applications and will accept input signals with common-mode voltage range • Supply voltage range 4.5 V to 76 V
from 4 V to 76 V with a bandwidth of 270 kHz. • Fixed gains 20, 50, 60 and 100 V/V
• Gain accuracy ±0.1%
ISENSE
To Load
V CC = +4.5 V to +76 V • Offset ±80 µV
R SENSE
C1 • Bandwidth (–3 dB) 270 KHz
0.1 µF
• Quiescent current < 100 µA
RSN
GND • Buffered high-current output > 5 mA
V SENSE LMP8481 V OUT
REFA V IN + • Input bias current 7 µA
REFB
ADC
RSP
V IN - V REF Applications
• Energy Management
• High-side current sense
LM4140ACM-1.2
C2 • Laser or LED Drivers
0.1 µF
• Motor controls
• Solar panel monitoring
LMP8480/1 functional block diagram
• Telecommunications
Get more information: www.ti.com/product/LMP8480, • Vehicle current measurement
www.ti.com/product/LMP8481
Current Shunt Monitors/Current Sense Amplifiers
Current Shunt Monitors

Offset Output
Offset Drift CMRR BW Voltage Power IQ
(µV) (µV/ºC) (dB) (kHz) Swing (V) Supply (mA) HiRel
Device Description Gain (V/V) (max) (max) (typ) (typ) (min) (V) (max) Avail. Package Price*
Standard Common Mode Voltage (<= 60 V), Analog Current Output
INA138 +2.7 V to 36 V CMV Range 1 to 100 1000 1 120 800 0 to V (+) –0.8 2.7 to 36 0.045 Y SOT23-5 0.65
Standard Common Mode Voltage (<= 60 V), Analog Voltage Output
INA199 Zero Drift, High or Low Side Current 50, 100, 200 150 0.5 120 14 V (+) –0.2 2.7 to 26 0.1 N SC70, QFN-10 0.50
Monitor, –0.3 V to +26 V CMV
INA209 Voltage Current, Power Over I2C, 0 to 1, 2, 4, 8 100 0.1 120 — — 3 to 5.5 1.5 N TSSOP-16 2.50
+26 V CMV
INA21x Zero Drift, Bidirectional, –0.3 V to 50, 100, 200, 35 0.5 140 14 V (+) –0.1 2.7 to 26 0.1 Y SC70 0.65
+26 V CMV 500, 1000
INA216A Small Size, Low-power, 1.8 V to 25, 50, 100, 100 0.3 90 0.02 1.8 to 5.5 1.8 to 5.5 0.025 N UQFN-10, 0.35
+5.5 V CMV 200 DSBGA-4
INA223 Current Shunt, Voltage and Instantaneous Programmable 100 0.3 100 0.025 0 to 26 2.7 to 5.5 0.25 N SON-10 1.15
Power Monitor, , 0 V to +26 V CMV
LMP8278Q High Common Mode, 14 x Gain, 14 2000 15 90 90 –2 to 40 4.5 to 5.5 0.55 N VSSOP-8 0.75
Precision Current Sensing Amplifier
LMP8640 Precision High Voltage Current Sense Amp 20, 50, 100 900 2.6 103 450 –2 to 42 2.7 to 12 0.72 N SOT-6 0.85
LMP8645 Precision High Voltage Current Sense Programmable 1000 7 95 260 –2 to 42 2.7 to 12 0.61 N SOT-6 0.85
Amplifier
Standard Common Mode Voltage (<= 60 V), I2C Output
INA219 Low Cost, Voltage Current, Power Over 1, 2, 4, 8 100 0.1 120 — — 3 to 5.5 1.5 N SOT23-8 0.99
I2C, 0 to +26 V CMV
INA220 High-or Low-Side I2C Current/Power 1, 2, 4, 8 100 0.16 120 — — 3 to 5.5 1 N MSOP-10 0.99
Monitor, 0 to +26 V CMV
INA226 Current Shunt & Power Monitor, 0 V to +36 1 10 0.1 126 — 0 to 36 2.7 to 5.5 0.33 N MSOP-10 1.30
V CMV
INA230 Digital Current/Voltage/Power Monitor, 1 50 0.5 100 — 0 to 28 2.7 to 5.5 0.42 N QFN-16 1.15
0 V to 28 V CMV
INA3221 Triple channel Current Shunt & Bus 1 80 0.5 110 — 0 to 26 2.7 to 5.5 0.35 N VQFN-16 1.85
Voltage Monitor, 0V to 26 V CMV
TMP512/513 High-Side I2C Monitor with Integreated 1, 2, 4, 8 100 0.2 120 — — 3 to 26 1.4 N SO-14, SO-16 1.45
Temp Sensor
High Common Mode Voltage (> 60 V), Analog Current Output
INA170 +2.7 V to 60 V CMV 1 to 100 1000 1 120 440 0 to V (+) –1.2 2.7 to 40 0.125 N MSOP-8 0.95
High Common Mode Voltage (> 60 V), Analog Voltage Output
INA19x –16 V to +80 V CMV 20, 50, 100 2000 2.5 120 500, V (+) –0.2 2.7 to 18 0.9 Y SOT23-5 0.80
300,
200
INA20x Dual Comparator, 1.2 V VREF –16 V to 20, 50, 100 2500 3.5 123 500, V (+) –0.25 2.7 to 18 2.2 N TSSOP/SO-14, 0.45
+18 V CMV 300, MSOP-10,MSOP/
200 SO/DFN-8
INA27x –16 V to +18 V CMV, Filtering Provision 14, 20 2000 2.5 120 130 V (+) –0.2 2.7 to 18 0.9 Y SO-8 0.40
INA28x Zero Drift, Bidirectional, –16 V to +80 50, 100, 200, 10 0.05 100 14 V (+) –0.1 2.7 to 18 0.9 N SO-8, DFN-10 0.95
V CMV 500, 1000
LMP8601 60 V Common Mode, Bidirectional 20 1000 10 105 60 –22 to 60 3 to 5.5 1.5 N SOIC-8 1.05
Precision Current Sensing Amplifier
LMP8602 60 V Common Mode, Fixed Gain, 50 1000 10 105 60 –22 to 60 3 to 5.5 1.5 N SOIC-8, 1.05
Bidirectional Precision Current Sensing VSSOP-8
Amplifier
LMP8603 60 V Common Mode, 100 x Gain, 100 1000 10 105 60 –22 to 60 3 to 5.5 1.5 N SOIC-8, 1.05
Bidirectional Precision Current Sensing Amp VSSOP-8
LMP8640HV Precision High Voltage Current Sense Amp 20, 50, 100 900 2.6 95 450 –2 to 76 2.7 to 12 0.72 N SOT-6 0.94
LMP8645HV Precision High Voltage Current Sense Amp Programmable 1000 7 95 260 –2 to 76 2.7 to 12 0.61 N SOT-6 0.94
LMP8646 Precision Current Limiter Programmable 1000 7 95 35 –2 to 76 2.7 to 12 0.66 N SOT-6 1.01
LMP8480/1 Prec 76 V Hi-Side Current Sense 20, 50, 60, 265 6 100 270 4 to 76 4.5 to 76 0.155 N VSSOP-8, 0.95
Amplifier with Volt Output 100 WSON-8
*Suggested resale price in U.S. dollars in quantities of 1,000. See www.ti.com/hirel for HiRel options. New products are listed in bold red. Preview products are listed in bold blue.

Temperature Sensors
Single-Chip Monolithic Thermopile Sensor in WCSP

TMP006
The TMP006 is an infrared thermopile sensor that measures the temperature of an Key Features
object without the need to make contact with the object. The sensor has an object • Digital output thermopile
temperature range from –40°C to +125°C to enable use in a wide range of applications. IR spectrum sensitivity: 4 μm-8 μm
Low power consumption along with low operating voltage enables system 16-bit ADC with I2C SMBus interface
power savings. Integrated local temperature sensor
Measurement range & accuracy:
- Local: –40° to 125°C (±1°C)
- IR object: –40° to 125°C (±3°C)
0.0001 nm 0.01 nm
Increasing wavelength
10 nm 100 nm 0.01 cm 1 cm 1m 100 m
• Ultra-small 1.6x1.6x0.625 mm WCSP
Infrared Radiation: Gamma rays X-rays Ultra- Infrared Radio waves
• Industry’s lowest power
Generates hot spot on violet
the thermocouple
Radar TV FM AM • Quiescent power: 240 μA
V+ • Shutdown power: 1 μA
+
DRDY Applications
ADR0
-
Gain 16 Bit ∆Σ
ADC
Digital
Control
I2C/SMBus
Compatible
ADR1 • Exhaust temperature measurements
SCL
IR Sensor
SDA • Thermostats
Thermopile Amplifier
Sensor • Home appliances
Local Voltage
Temperature Reference
TMP006
• Security & fire detection
AGN DGND
• Notebook PC case temperature
• Handset user applications
TMP006 functional block diagram
Get more information: www.ti.com/product/TMP006

Temperature Sensors
2.4 V, 10 µA, SC70, Temperature Sensor

LMT88
The LMT88 is a precision analog output CMOS integrated-circuit temperature sensor Key Features
that operates over a −55°C to 130°C temperature range. The power supply operating • Cost-effective alternative to thermistors
range is 2.4 V to 5.5 V. The transfer function of LMT88 is predominantly linear, yet has • Very low power consumption
a slight predictable parabolic curvature. The accuracy of the LMT88 when specified to • Highly linear output
a parabolic transfer function is ±1.5°C at an ambient temperature of 30°C. The • Simple to use
LMT88 is a cost-competitive alternative to thermistors. To learn more, visit • Rated for full −55°C to +130°C range
ti.com/analogtempsensors • Available in an SC70 package
• Predictable curvature error
+1.5 V to +5.5 V Applications
Analog C BP • Industrial
Sensor AVcc
• HVAC
LMT8x Input
Pin
Voltage • Computers, printers
Reference
V DD OUT • Automotive
GND M
C FILTER 10 -bit • Portable medical instruments
U
X ADC • Battery management
MSP430TM • Power supply modules
LMT88 functional block diagram
Get more information: www.ti.com/product/LMT88
Analog Temperature Sensors

Accuracy
Over Temp Specified Temp Supply IQ
Range Temp Range Resolution Voltage (µA) HiRel
Device Description (˚C) (max) (˚C) (Bits) (V) (typ) Avail. Package Price*
LM135 Two Terminal Temperature Sensor 3 –55 to 150 — 5 1000 Y PFM-3 5.65
LM135A Two Terminal Temperature Sensor 1 — — 5 1000 Y PFM-3 11.15
LM19 –2.4 V, 10 C39 µA, TO-92 Temperature Sensor 2.5 –55 to 130 — 2.4 to 5.5 4.5 N TO-3 0.24
LM20 –2.4 V, 10 C40 µA, SC70, micro SMD 1.5 –40 to 125 — 2.4 to 5.5 4.5 N DSBGA-4, SOT-5 0.32
Temperature Sensor –55 to 130
–30 to 130
LM234 3-Terminal Adjustable Current Source — –25 to 100 — — — N TO-3 0.46
LM235 Two Terminal Temperature Sensor 3 –40 to 125 — 5 1000 Y PFM-3 4.59
LM235A Two Terminal Temperature Sensor 1 –40 to 125 — 5 1000 Y PFM-3 7.06
LM26LV 1.6 V, LLP-6 Factory Preset Temperature 2.3 –40 to 150 — 1.6 to 5.5 8 N WSON-6 0.43
Switch and Temperature Sensor 0 to 150
LM335 Two Terminal Temperature Sensor 6 –40 to 100 — 5 1000 Y PFM-3, TO-3, 0.33
SOIC-8
LM335A Two Terminal Temperature Sensor 3 –40 to 100 — 3 to 5.5 1000 Y PFM-3 4.12
LM34 Precision Fahrenheit Temperature Sensor 0.556 –40 to 110 — 5 to 30 75 Y PFM-3 0.92
0 to 100 TO-3
–45.6 to 148.9 SOIC-8
LM35 Precision Centigrade Temperature Sensor 0.5 0 to 100 — 4 to 30 56 Y PFM-3 TBD
–40 to 110 TO-3
–55 to 150 SOIC-8
LM45 SOT23 Precision Centigrade Temperature 2 –20 to 100 — 4 to 10 120 N SOT-3 TBD
Sensor
LM50 SOT23 Single-Supply Centigrade 2 –25 to 100 — 4 to 10 130 N SOT-3 0.32
Temperature Sensor –40 to 125
LM57 Resistor-Programmable Temperature Switch 0.7 –50 to 150 — 2.4 to 5.5 24 N WSON-8 0.65
and Analog Temperature Sensor

Temperature Sensors
Analog Temperature Sensors (continued)

Accuracy
LM60 2.7 V, SOT23 or TO-92 Temperature Sensor 2 –40 to 125 — 2.7 to 10 82 N SOT-3, TO-3 TBD
–25 to 125
–25 to 85
LM61 2.7 V, SOT23 or TO-92 Temperature Sensor 2 –30 to 100 — 2.7 to 10 82 N SOT-3, TO-3 0.25
LM62 2.7 V, SOT23 or TO-92 Temperature Sensor 2 –40 to 125 — 2.7 to 10 82 N SOT-3, TO-3 0.28
–55 to 130
–30 to 130
LMT84 1.5 V, SC70, Analog Temperature Sensor with 2.7 –50 to +150 — 1.5 to 5.5 5.4 N SC70-5 0.20
Push-Pull Output
LMT85 SC70, Analog Temperature Sensor with 2.7 –50 to +150 — 1.8 to 5.5 5.4 N SC70-5 0.20
Push-Pull Output
Push-Pull Output
Push-Pull Output
LMT88 Industry Standard Analog Output 4 –50 to +150 — 2.4 to 5.5 4.5 N SC70-5 0.18
LMT89 Industry Standard Analog Output 1.5 –50 to +150 — 2.4 to 5.5 4.5 N SC70-5 0.19
LMT90 Wide Supply Range Analog Temp Sensor 3 –40 to +125 — 4.5 to 10 130 N SOT-323 0.20
LM94021 Multi-Gain Analog Temperature Sensor 1.5 –50 to 150 — 1.5 to 5.5 9 N SOT-5 0.35
LM94022 1.5 V, SC70, Multi-Gain Analog Temperature 1.5 –50 to 150 — 1.5 to 5.5 5.4 N SOT-5 0.37
Sensor with Class-AB Output
LM94023 1.5 V, micro SMD, Dual-Gain Analog 1.5 –50 to 150 — 1.5 to 5.5 5.4 N DSBGA-4 0.37
Temperature Sensor with Class AB Output
SM72480 SolarMagicTM 1.6 V, LLP-6 Factory Preset — –50 to 150 — 1.6 to 5.5 8 N WSON-6 0.44
Temperature Switch and Temperature Sensor
SM73710 2.7 V, SOT23 Temperature Sensor — −40 to 125 — 2.7 to 10 110 N SOT-3 TBD
TMP20 ±2.5°C Low-Power, Analog Out Temperature 2.5 –55 to +130 — 2.7 to 5.5 2.6 N SOT563-6, SC70 0.30
Sensor
Temperature Switches
Trip Point Specified Temp Supply IQ
Accuracy Hysteresis Range Voltage (µA) HiRel
Device Description (˚C) (typ) (˚C) (˚C) (V) (max) Avail. Package Price*
LM26 ±3°C Accurate, Factory Preset Thermostat ±3 2 or 11 –55 to 125 2.7 to 5.5 40 N SOT-5 0.43
LM26LV 1.6 V, LLP-6 Factory Preset Temperature Switch and ±2.2 5 –40 to 150 1.6 to 5.5 8 N WSON-6 0.43
Temperature Sensor 0 to 150
LM26NV ±3°C Accurate, Factory Preset Thermostat (LM26 without ±3 2 or 11 –55 to 125 2.7 to 5.5 40 N SOT-5 0.44
V temp) from the PowerWiseTM Family
LM27 ±3°C Accurate, 120°C-150°C Factory Preset ±3 2 or 10 120 to 150 2.7 to 5.5 40 N WSON-8 0.60
Thermostat
LM56 Dual Output Low Power Thermostat ±2 4 –40 to 125 2.7 to 10 230 N SOIC-8 0.66
VSSOP
LM57 Resistor-Programmable Temperature Switch and Analog ±1.5 5 or 10 –50 to 150 2.4 to 5.5 24 N WSON-8 0.65
Temperature Sensor
SM72480 SolarMagic 1.6 V, LLP-6 Factory Preset Temperature ±2.2 5 –50 to 150 1.6 to 5.5 8 N WSON-6 0.44
Switch and Temperature Sensor
TMP300 Comparator-Output Temperature Switch with ±2 5 or 10 –40 to +125 1.8 to 18 110 N SC70-6, 0.75
Additional Analog Output SOT23-6
TMP302 Low-Power, High-Accuracy Temperature Switch ± 0.2 5 or 10 –40 to +125 1.4 to 3.6 15 N SOT-563 0.20
TMP303 Low-Power, High-Accuracy Temperature Switch with ±0.2 1, 2, 5 or 10 –40 to +125 1.4 to 3.6 15 N SOT-563 0.40
Push-Pull Output
TMP708 Resistor Programmable Temperature Switch ± 0.5 10 or 30 –40 to +125 2.7 to 5.5 55 N SOT23-5 0.30
TMP709 Resistor Programmable Temperature Switch ± 0.5 2 or 10 –40 to +125 2.7 to 5.5 55 N SOT23-5 0.30

Temperature Sensors
Remote Temperature Sensors

Remote Local
Sensor Sensor Remote
Accuracy Accuracy Sensor
Over Temp Over Temp Temp Supply IQ
Range Range Range Voltage (µA) HiRel
Device Description Feature (˚C) (max) (˚C) (max) (˚C) (V) (typ) Avail. Package Price*
LM82 Remote Diode and Local Digital Temp Remote Diode Fault Detection 3 3 –40 to 125 3 to 3.6 800 N SSOP-16 1.93
Sensor with Two-Wire Interface
LM83 3 Diode Input ACPI Compatible Digital Remote Diode Fault Detection 3 3 –40 to 125 3 to 3.6 800 N SSOP-16 2.23
Temp Sensor with Two-Wire Interface
LM84 Diode Input Digital Temp Sensor with Remote Diode Fault Detection 3 1 0 to 125 3 to 3.6 500 N SSOP-16 1.61
Two-Wire Interface
LM86 ±0.75°C Accurate, Remote Diode and Offset Correction Register 0.75 3 0 to 125 3 to 3.6 800 N SOIC-8, 0.71
Local Digital Temp Sensor with Two- VSSOP-8
Wire Interface
LM89 ±0.75°C , Remote and Local Digital Programmable Alert 0.75 3 0 to 125 3 to 3.6 800 N SOIC-8, 0.90
Temp Sensor with Two-Wire Interface- VSSOP-8
Wire Interface
LM90 ±3°C Accurate, Remote Diode and Programmable Conversion Rate, One Shot 3 4 0 to 125 3 to 3.6 800 N VSSOP-8 0.72
Local Digital Temp Sensor with Two- Conversion Control, Remote Diode Fault
Wire Interface Detection, Thermal Diode Input Stage Filtering
LM95213 2-Diode Input and Local Digital Temp Offset Correction Registe 1.1 2 –40 to 140 3 to 3.6 570 N WSON-14 0.87
Sensor with Two-Wire Interface and
Outputs
LM95214 Quad Remote Diode and Local Temp Offset Correction Register 1.1 2 –40 to 140 3 to 3.6 570 N WSON-14 1.00
Sensor with SMBus Interface
LM95221 Dual Remote Diode Digital Temp Sensor Offset Correction Register 1 3 0 to 85 3 to 3.6 2000 N VSSOP-8 1.05
with SMBus Interface
LM95231 Precision Dual Remote Diode Temp Programmable Conversion Rate, One Shot 0.75 3 0 to 85 3 to 3.6 402 N VSSOP-8 0.95
Sensor with SMBus Interface and Conversion Control, Remote Diode Fault
TruThermTM Technology Detection
LM95233 Dual Remote Diode and Local Temp Beta compensation, TruThermTM 0.875 2 –40 to 140 3 to 3.6 570 N WSON-14 0.95
Sensor with SMBus Interface and
TruThermTM Technology
LM95234 Quad Remote Diode and Local Beta Compensation, TruThermTM 1.1 2 –40 to 140 3 to 3.6 570 N WSON-14 1.03
Temperature Sensor with SMBus
Interface and TruThermTM Technology
LM95235 Precision Remote Diode Temperature Beta Compensation, TruThermTM 0.75 2 0 to 90 3 to 3.6 350 N VSSOP-8 0.74
Sensor with SMBus Interface and –40 to 90
TruThermTM Technology –40 to 85
LM95241 Dual Remote Diode Temp Sensor Beta Compensation, TruThermTM 1.25 3 0 to 85 3 to 3.6 471 N VSSOP-8 0.70
with SMBus Interface and TruThermTM
Technology (65 nm/90 nm)
LM95245 Precision Remote Diode Digital Beta Compensation, TruThermTM 0.075 2 –40 to 125 3 to 3.6 350 N SOIC-8, 0.80
Temperature Sensor with TruThermTM VSSOP-8
BJT Beta Compensation (45 nm)
LM99 ±1°C Accurate, Remote Diode and Offset Correction Register 1 3 0 to 85 3 to 3.6 800 N VSSOP-8 1.10
Local Digital Temperature Sensor with
Two-Wire Interface
TMP006 Infrared Thermopile Contactless Sensor Offset Correction Register 0.075 2 –40 to 125 3 to 3.6 350 N SOIC-8, 0.80
VSSOP-8
TMP400 Remote and Local Temp Sensor with n-Factor Correction, Series Resistace 1 3 0 to 85 3 to 3.6 800 N VSSOP-8 1.10
Programmable Non-Ideality Factor Cancellation, Alert Flag
TMP401 Programable Remote and Local Series Resistance Cancellation, Fault 1 3 –40 to +150 3.0 to 5.5 350 N MSOP-8 0.85
Temperature Sensor Detection, Alert Flag
TMP411 Remote and Local Temp Sensor with n-Factor Correction, Series Resistance 1 2.5 –40 to +150 2.7 to 5.5 350 N MSOP-8 0.45
Programmable Non-Ideality Factor Cancellation, Fault Detection, Alert Flag
TMP421 Remote and Local Temp Sensor in n-Factor Correction, Series Resistance 1 2 –40 to +150 2.7 to 5.5 400 N SOT23-8 0.55
SOT23-8 Cancellation, Fault Detection
TMP422 2x Remote and Local Temp Sensor in n-Factor Correction, Series Resistance 1 2 –40 to +150 2.7 to 5.5 400 Y SOT23-8 0.65
TMP423 3x Remote and Local Temp Sensor in n-Factor Correction, Series Resistance 1 2 –40 to +150 2.7 to 5.5 400 N SOT23-8 0.75

Temperature Sensors
Remote Temperature Sensors (continued)

Remote Local
Sensor Sensor Remote
Accuracy Accuracy Sensor
Over Temp Over Temp Temp Supply IQ
Range Range Range Voltage (µA) HiRel
Device Description Feature (˚C) (max) (˚C) (max) (˚C) (V) (typ) Avail. Package Price*
TMP431 Remote and Local Temp Sensor with Beta Correction, n-Factor Correction, 1 2.5 –40 to +150 2.7 to 5.5 700 N MSOP-8 0.45
Programmable n-Factor and Beta Series Resistance Cancellation, Fault
Correction Detection, Alert Flag
TMP432 2x Remote and Local Temp Sensor Beta Correction, n-Factor Correction, 1 2.5 –40 to +150 2.7 to 5.5 700 N MSOP-10 0.55
with Programmable n-Factor and Beta Series Resistance Cancellation, Fault
Correction Detection, Alert Flag
TMP435 Programable Addresss Remote and Beta Correction, n-Factor Correction, 1 2.5 –40 to +150 2.7 to 5.5 700 N MSOP-10 0.60
Local Temp Sensor Series Resistance Cancellation, Fault
Detection, Alert Flag
TMP441 Remote and Local Temp Sensor with Beta Correction, n-Factor Correction, 1 2 –40 to +150 2.7 to 5.5 400 N SOT23-8 0.55
Beta Correction in SOT23-8 Series Resistance Cancellation, Fault
Detection
TMP442 2x Remote and Local Temp Sensor Beta Correction, n-Factor Correction, 1 2 –40 to +150 2.7 to 5.5 400 N SOT23-8 0.65
with Beta Correction in SOT23-8 Series Resistance Cancellation, Fault
Detection
TMP512 2x Remote and Local Temp Sensor Beta Correction, n-Factor Correction, 1 2.5 –40 to +150 3 to 26 1000 N S0-14 1.45
with Integrated Current Shunt Series Resistance Cancellation, Fault
TMP513 3x Remote and Local Temp Sensor Beta Correction, n-Factor Correction, 1 2.5 –40 to +150 3 to 26 1000 N S0-16 1.55
with Integrated Current Shunt Series Resistance Cancellation, Fault
Digital Temperature Sensors

Accuracy
I2C/SMBus Interface
LM73 2.7 V, SOT23, 11- to 14- Bit Digital 1 –40 to 150 14 2.7 to 5.5 320 N SOT-6 0.75
Temperature Sensor with 2-Wire Interface
LM75A Digital Temperature Sensor and Thermal 2 –55 to 125 10 2.7 to 5.5 280 N SOIC-8, 0.50
Watchdog with Two-Wire Interface VSSOP-8
LM75B Digital Temperature Sensor and Thermal 2 –55 to 125 9 3 to 5.5 250 N SOIC-8, 0.70
Watchdog with Two-Wire Interface VSSOP-8
LM76 ±0.5°C, ±1°C, 12-Bit + Sign Digital Temp 1 –55 to 150 13 4.5 to 5.5 250 N SOIC-8, 1.17
Sensor & Thermal Window Comparator w/
Two-Wire Interface
LM77 9-Bit + Sign Digital Temperature Sensor and 1.5 –40 to 125 10 3 to 5.5 250 N SOIC-8, 0.86
Thermal Window Comparator with Two-Wire VSSOP-8
Interface
LM92 ±0.33°C, 12-Bit + Sign Temperature Sensor 0.33 –55 to 150 13 2.7 to 5.5 350 N SOIC-8, 1.61
and Thermal Window Comparator with Two-
Wire Interface
TMP100 Digital Temp Sensor 2, 3 –25 to +85, –55 to +125 9 to 12 2.7 to 5.5 45 Y SOT23-6 0.75
TMP101 Digital Temp Sensor with Prog. Thermostat/ 2, 3 –25 to +85, –55 to +125 9 to 12 2.7 to 5.5 45 N SOT23-6 0.80
Alarm Function
TMP102 Ultra-Low-Power Digital Temp Sensor in Micro 2, 3 –25 to 85, –40 to 125 12 1.4 to 3.6 7 N SOT563-6 0.80
Surface Mount Pkg.
TMP103 Chipscale Digital Temp Sensor with Multiple 1, 3 –10 to 100, –40 to 125 8 1.4 to 3.6 3 N 0.8 mm x 0.39
Device Access 0.8 mm WCSP-4
TMP105 Chipscale Digital Temp Sensor with 1.8 V to 2, 3 –25 to +85, –40 to +125 9 to 12 2.7 to 5.5 50 N 1 mm x 1.5 mm 0.85
3.0 V Logic WCSP-6

Temperature Sensors
Digital Temperature Sensors (continued)

Accuracy
I2C/SMBus Interface (continued)
TMP106 Chipscale Digital Temp Sensor with 2.7 V to 2, 3 –25 to +85, –40 to +125 9 to 12 2.7 to 5.5 50 N 1 mm x 1.5 mm 0.85
5.0 V Logic WCSP-6
TMP112 Ultra-Low-Power, High-Accuracy Digital Temp 0.5 , 1 0 to 65, –40 to +125 12 1.4 to 3.6 7 N SOT563-6 0.85
Sensor in SOT563 package
TMP175 Digital Temp Sensor with 2-Wire Interface, 27 1.5, 2 –25 to +85, –40 to +125 9 to 12 2.7 to 5.5 50 N MSOP-8, SOIC-8 0.85
Addresses
TMP275 Ultra-High-Accuracy Digital Temp Sensor 0.5, 1 +10 to +85, –40 to +125 9 to 12 2.7 to 5.5 50 N MSOP-8, SOIC-8 1.25
TMP75 Industry-Standard Sensor with 2-Wire 2 –25 to +85 9 to 12 2.7 to 5.5 50 N MSOP-8, SOIC-8 0.70
Interface, 8 Addresses
Single-Wire
LM95010 Digital Temp Sensor with Single-Wire 2 –20 to 125 10 3 to 3.6 500 N 8-VSSOP 0.50
SensorPath Bus
TMP141 Digital Temp Sensor with Single-Wire 2, 3 –25 to +85, –40 to +125 10 2.7 to 5.5 110 N SOT23-6, 0.80
SensorPath Bus MSOP-8
TMP104 Chipscale Digital Temp Sensor with SMART 0.5, 3 –10 to 100, –40 to 125 8 1.4 to 3.6 3 N 0.8mm x 1mm 0.45
Wire Interface WCSP-4
SPI Interface
LM70 SPI/10-Bit plus Sign Digital Temperature 2 –55 to 150 11 2.65 to 5.5 260 N VSSOP-8, 0.71
Sensor WSON-8
LM71 SPI/MICROWIRE™ 13-Bit Plus Sign 1.5 –40 to 150 14 2.65 to 5.5 300 N SOT-5, 0.71
Temperature Sensor WSON-6
LM74 SPI/12-Bit Plus Sign Temperature Sensor 1.25 –55 to 150, –40 to 125 13 2.65 to 5.5 265 Y DSBGA-5 0.62
SOIC-8
LM74A SPI/MICROWIRE™ 12-Bit Plus Sign 1.25 –55 to 150, –40 to 125 13 2.65 to 5.5 265 Y DSBGA-5 0.62
Temperature Sensor SOIC-8
LM95071 SPI/MICROWIRE™ 13-Bit Plus Sign 1 –40 to 150 14 2.4 to 5.5 280 N SOT-5 0.67
Temperature Sensor
LM95172 13-Bit to 16-Bit 200°C Digital Temp Sensor 1, 3 –40 to 200 16 3 to 5.5 400 N CLGA-10 125.00
with 3-Wire Interface High Temp
TMP121 1.5˚C Accurate Digital Temp Sensor with SPI 1.5, 2 –25 to +85, –40 to +125 12 2.7 to 5.5 35 Y SOT23-6 0.90
Interface
TMP122 1.5˚C Accurate Programmable Temp Sensor 1.5, 2 –25 to +8, –40 to +125 9 to 12 2.7 to 5.5 50 Y SOT23-6 0.99
with SPI Interface
TMP123 1.5˚C Accurate Digital Temp Sensor with SPI 1.5, 2 –25 to +85, –55 to +125 12 2.7 to 5.5 35 N SOT23-6 0.90
Interface
TMP124 1.5˚C Accurate Programmable Temp Sensor 1.5, 2 –25 to +85, –40 to +125 9 to 12 2.7 to 5.5 50 N SOIC-8 0.70
with SPI Interface
TMP125 2˚C Accurate Digital Temp Sensor with SPI 2, 2.5 –25 to +85, –40 to +125 10 2.7 to 5.5 36 N SOT23-6 0.80
Interface

Temperature Sensors
Fan Controllers
No. of
local and
remote No. of Fan Supply
temp fan Control Voltage Current V HiRel
Device Description sensors inputs Outputs Monitoring Special Function (mA) (Vcc) Interface Avail. Package Price*
AMC80 System Hardware 1/0 2 7-ch Intrusion Detection; 2 INT Outputs 0.5 5 I2C N TSSOP-24 2.90
Monitor with Two-Wire/ 1 GPO; 2 INT Inputs
SMBus Serial Interface
LM63 Accurate Remote Diode 1/1 1 1 PWM — Fan Control 8-Step Look up Table 2 3.3 SMBus N SOIC-8 1.00
Digital Temperature
Sensor w/ Integrated
Fan Control
LM64 ±1°C Remote Diode 1/1 1 1 PWM — Fan Control 8-Step Look up Table 2 3.3 SMBus N WQFN-24 1.71
Temperature Sensor 5 GPIOs, 5 GPIs
with PWM Fan Control
and 5 GPIO
LM80 Serial Interface 1/0 2 — 7-ch Intrusion Detection; 2 INT Outputs — — I2C N TSSOP-24 2.90
ACPI-Compatible 1 GPO; 2 INT Inputs
Microprocessor System
Hardware Monitor
LM81 Serial Interface 1/0 2 1 DAC 6-ch Intrusion Detection; Internal Voltage 0.9 3.3 SMBus N TSSOP-24 1.70
ACPI-Compatible Scaling Resistors
Microprocessor System
Hardware Monitor
LM87 Serial Interface System 1/2 2 1 DAC 8-ch Intrusion Detection; VID Monitoring; 2 3.3 SMBus N TSSOP-24 2.49
Hardware Monitor Internal Voltage Scaling Resistors
with Remote Diode
Temperature Sensing
LM93 Hardware Monitor with 1/2 4 2 PWM 16-ch Fan Control 13-Step Look up Table 3 3.3 SMBus N TSSOP-56 4.50
Integrated Fan Control and PI Fan Control Loop; Dual
for Server Management Dynamic VID Monitoring; 8 GPIOs,
2 GPIs; Dual Host Interrupt Register
Support
LM94 Hardware Monitor with 1/4 4 2 PWM 16-ch Fan Control 13-Step Look up Table 2.75 3.3 SMBus N TSSOP-56 5.89
PI Loop Fan Control for and PI Fan Control Loop; Dual
Server Management Dynamic VID Monitoring; 8 GPIOs,
2 GPIs; Dual Host Interrupt Register
Support; Internal Voltage Scaling
Resistors
LM96000 Hardware Monitor with 1/2 4 3 PWM 5-ch VID Monitoring; Linear Fan Control; 3.5 3.3 SMBus N TSSOP-24 1.95
Integrated Fan Control Internal Voltage Scaling Resistors
LM96063 Remote Diode Digital 1/1 1 1 PWM — Fan Control 12-Step Look up Table 0.825 3.3 SMBus N WSON-10 1.14
Temperature Sensor with Ramp Rate Control; TCRIT and
with Integrated Fan ALERT Outputs.
Control
LM96080 System Hardware 1/0 2 — — Intrusion Detection; 2 INT Outputs 0.48 3.3 I2C N TSSOP-24 2.90
Monitor with 2-Wire 1 GPO; 2 INT Inputs
Serial Interface
LM96163 Remote Diode Dig 1/1 1 1 PWM — Fan Control 12-Step Look up Table 0.825 3.3 SMBus N WSON-10 1.14
Temp Sens w/Int Fan with Ramp Rate Control; TCRIT and
Cntrl & TruTherm™ ALERT Outputs.
BJT Transistor Beta
Compensation Tech
LM96194 TruThermTM Hardware 1/4 4 2 PWM 9-ch Fan Control 13-Step Look up Table 2.75 3.3 SMBus N WQFN-48 3.80
Monitor with PI Fan and PI Fan Control Loop; Dual
Control for Workstation Dynamic VID Monitoring; 8 GPIOs,
Management 2 GPIs; Dual Host Interrupt Register
Support; Internal Voltage Scaling
Resistors

4-20 mA Transmitters
Single-Channel 16-/12-Bit Programmable Current Output and Voltge Output DAC

for 4-mA to 20-mA Current Loop Applications
DAC8760/DAC7760 Key Features
• Output current: 4-20 mA; 0-20 mA; 0-24 mA
The DAC7760 and DAC8760 are low-cost, precision, fully-integrated 12-bit and 16-bit
• Voltage output:
digital-to-analog converters (DACs), and are designed to meet the requirements of
0-5 V; 0 to 10 V; ±5 V; ±10 V
industrial process control applications. The output can be programmed as acurrent
0-5.5 V; 0 to 11 V; ±5.5 V; ±11 V
output with range of 4 mA to 20 mA, 0 mA to 20 mA, or 0 mA to 24 mA; or it can be
(10% over range)
programmed as a voltage output with a range of 0 V to 5 V, 0 V to 10 V, ±5 V, or ±10 V,
• ±0.1% FSR Total Unadjusted Error (TUE) max
with a 10% over range.
• DNL: ±1 LSB max
DVDD DVDD -EN REFOUT REFIN HARTIN AVSS AVDD
• Simultaneous voltage/current output
DAC7760
DAC8760
Internal
Reference Current Output Stage
• Internal 5 V reference (10 ppm/°C, max)
BOOST
• Internal 4.5-V power-supply generator
Input Control Logic
LATCH Pre-
SPI Shift Register
• HART® compatible input

DAC Input IOUT
DAC Conditioning
SCLK Register
Current
DIN
Thermal
Source ALARM
• Wide temperature range: –40°C to +125°C
SDO
Shutdown IGAIN I ENABLE ISET-R
Applications
User Calibration
Gain/Offset
Register Voltage Output Stage
• 4-mA to 20-mA current loops
+VSENSE
Control Logic
CLR
• Analog output modules
Slew Rate VOUT
CLR-SEL
Control VGAIN • Programmable logic controllers (PLCs)
–VSENSE
Watchdog VENABLE • Sensors/transducers
Timer CMP
GND Get more information:

Functional block diagram www.ti.com/product/DAC8760
4-20 mA Transmitters and Receivers

Additional
Loop Output Power
Sensor Voltage Full-Scale Range Available HiRel
Device Description Excitation (V) Input Range (mA) (V at mA) Avail. Package Price*
2-Wire, 4-20 mA Transmitters
XTR105 100 Ω RTD Conditioner with Linearization Two 800 µA 7.5 to 36 5 mV to 1 V 4-20 5.1 at 0.5 N DIP-14, SOIC-14 4.60
XTR106 Bridge Conditioner with Linearization 5 V and 2.5 V 7.5 to 36 5 mV to 1 V 4-20 5.1 at 1 N DIP-14, SOIC-14 4.00
XTR108 10 Ω to 10 kΩ RTD Conditioner, 6-Channel Input MUX, Two 500 µA 7.5 to 24 5 mV to 320 mV 4-20 5.1 at 2.1 N SSOP-24 3.35
Extra Op Amp Can Convert to Voltage Sensor Excitation,
Calibration Stored in External EEPROM
XTR112 1 kΩ RTD Conditioner with Linearization Two 250 µA 7.5 to 36 5 mV to 1 V 4-20 5.05 at 1 N SOIC-14 4.00
XTR114 10 kΩ RTD Conditioner with Linearization Two 100 µA 7.5 to 36 5 mV to 1 V 4-20 5.05 at 1 N SOIC-14 4.00
XTR115 IIN to IOUT Converter, External Resistor Scales VIN to IIN VREF = 2.5 V 7.5 to 36 40 µA to 250 µA 4-20 4.9 at 1 N SOIC-8 1.25
XTR116 IIN to IOUT Converter, External Resistor Scales VIN to IIN VREF = 4.096 V 7.5 to 36 40 µA to 250 µA 4-20 4.9 at 1 N SOIC-8 1.05
XTR117 Current Loop, 7.5 to 40 V, 5 V Voltage Regulator VREG= 5 V 7.5 to 40 40 µA to 250 µA 4-20 4.9 at 1 N MSOP-8, DFN-8 0.90
Bridge Conditioner with Digital Calibration for Linearization, Span and Offset Over Temperature
PGA309 Complete Digitally Calibrated Bridge Sensor VEXC = VS, 2.7 to 5.5 1 mV/V to 0.05 V-4.9 V — N TSSOP-16 2.95
Conditioner, Voltage Output, Calibration Stored in 2.5 V 4.096 V 245 mV/V at VS = +5 V
External EEPROM, One-Wire/Two-Wire Interface
PGA308 Single Supply, Auto-Zero, Sensor Amplifier with — 2.7 to 5.5 0.2 V to 4.1 V 0.03 V to 5.44 mA — N MSOP-10, 2.00
Programmable Gain and Offset at VS = +5 V DFN-10
Industrial Current/Voltage Drivers
DAC8760/ 16-/12-Bit Programmable Current and Voltage — +10/–18 — 0-20, 4-20, 0-24, 0-5 V, — N QFN-40, 3.99/
7760 Output DAC to 0/36 0-10 V, ±5 V, ±10 V TSSOP-24 2.99
DAC8750/ 16-/12-Bit Programmable Current Output DAC — +10/–18 — 0-20, 4-20, 0-24, 0-5 V, — N QFN-40, 3.50/
DAC7750 to 0/36 0-10 V, ±5 V, ±10 V TSSOP-24 2.49
XTR110 Precision V-to-I Converter/Transmitter, Selectable I/O VREF = 10 V 13.5 to 40 0 V to 5 V, 0-20, 4-20 — N DIP-16, SOL-16 7.10
Ranges 0 V to 10 V 5-20
XTR111 Precision V-to-I Converter/Transmitter, Adjustable VREG VREG = 3 to 8 to 40 0 V to 12 V 0-20, 4-20, 3 V to N DFN/MSOP-10 1.10
3 V to 15 V 15 V 5-20 15 V
XTR300 Industrial Analog Current/Voltage Output Driver — <34 V (–) +3 to ±17 V — N 5x5 2.45
V (+) –3 Prog VOUT ±24 mA QFN/TSSOP-20
4-20mA Current Loop Receiver
RCV420 4-20 mA Input, 0 V to 5 V Output, 1.5 V Loop Drop VREF = 10 V +11.5/–5 4-20 mA 0 V to 5 V — N DIP-16 3.55
to ±18

Voltage References
Voltage References
3ppm/°C Drift, 0.05% Accurate, Low-Noise, Precision Series Voltage References

REF5020, REF5025, REF5030, REF5040, REF5045, REF5050, REF5010
The REF50xx brings a new level of precision to the TI series voltage reference line. Key Features
Offering 3 ppm/°C (max) drift and 0.05% initial accuracy and very low noise, the • High accuracy: 0.05%
REF50xx is designed for industrial, medical and test applications that require perfor- • Low temperature drift: 3 ppm/°C (max)
mance over temperature. • Very low noise: 3 µVPP/V
• High output current: ±10 mA
Model Voltage Out • Wide supply range: 2.7 V to 18 V
DNC (1) 1 8 DNC (1)
REF5020 2.048 V • Industrial temperature range:
REF5025 2.5 V VIN 2 7 NC (2) –40°C to +125°C
REF50xx
REF5030 3.0 V TEMP 3 6 V OUT • Packaging: SO-8, MSOP coming soon
REF5040 4.096 V GND 4 5 TRIM/NR Applications
REF5045 4.5 V
REF5050 5V SO-8, MSOP-8
• 16-bit data acquisition systems
REF5010 10 V
REF50xx package diagram • Medical and patient monitoring

(REF5020, REF5025, REF5030, REF5040, REF5045, REF5050, REF5010)
Voltage References
Initial Long-Term Noise
Accuracy Drift Stability 0.1 to 10Hz IQ Temperature Output
(%) (ppm/°C) (ppm/1000hr) (µVp-p/V) (mA) Range Current HiRel
Device Description Output (V) (max) (max) (typ) (typ) (max) (°C) (mA) Avail. Package Price*
REF50xx High Accuracy Bandgap 2.048, 2.5, 3.0, 0.05 3 5 3 1 –40 to +125 ±10 Y SOIC-8 2.95
Reference 4.096, 4.5, 5, 10
REF50xxA High Accuracy Bandgap 2.048, 2.5, 3.0, 0.1 8 5 3 1 –40 to +125 ±10 Y SOIC-8 1.35
Reference 4.096, 4.5, 5, 10
REF33xx microPower, Tiny 1.25, 1.8, 2.048, 0.15 30 — 28 0.005 –40 to +125 ±5 N SC70, 0.85
Bandgap 2.5, 3.0, 3.3 SOT23-3
REF32xx Low Drift, Low Power, 1.25, 2.048, 2.5 0.2 7 55 13 0.120 –40 to +125 ±10 Y SOT23-6 1.70
Small Bandgap 3.0, 3.3, 4.096
REF31xx Series Bandgap 1.25, 2.048, 2.5 0.2 15 70 13 0.115 –40 to +125 ±10 N SOT23-3 1.10
3.0, 3.3, 4.096
REF30xx Series Bandgap 1.25, 2.048, 2.5, 0.2 50 24 11 0.05 –40 to +125 25 Y SOT23-3 0.60
3.0, 3.3, 4.096
REF29xx Series Bandgap 1.25, 2.048, 2.5, 2 100 24 11 to 16 0.05 –40 to +125 25 N SOT23-3 0.49
3.0, 3.3, 4.096
REF02A Low Drift, Buried Zener 5 0.3 15 50 0.8 1.4 –40 to +85 +21, –0.5 N SOIC, PDIP 1.45
REF02B Low Drift, Buried Zener 5 0.2 10 50 0.8 1.4 –40 to +85 +21, –0.5 N SOIC, PDIP 2.05
REF102A Low Drift, Buried Zener 10 0.1 10 20 0.5 1.4 –25 to +85 +10, –5 N SOIC, PDIP 1.75
REF102B Low Drift, Buried Zener 10 0.05 5 20 0.5 1.4 –25 to +85 +10, –5 N SOIC, PDIP 3.25
REF102C Ultra-Low Drift, 10 0.025 2.5 20 0.5 1.4 –25 to +85 +10, –5 N SOIC, PDIP 4.50
Buried Zener
LM4140 Precision Micropower 1.024, 1.25, 0.1 10 60 2.2 0.4 0 to 70 8 N 8SOIC 1.65
Low Dropout Voltage 2.048, 2.5, 4.096
Reference
LM4132 Precision Low Dropout 1.8, 2.048, 2.5, 3, 0.05 30 50 170 0.1 –40 to 125 20 N SOT23-5 0.78
Voltage Reference 3.3, 4.096
LM4128 Precision Micropower 1.8, 2.048, 2.5, 3, 0.1 100 50 170 0.1 –40 to 125 20 Y SOT23-5 0.52
Series Voltage Reference 3.3, 4.096

Voltage References
Voltage References
Voltage References (continued)

Initial Long-Term Noise
Accuracy Drift Stability 0.1 to 10Hz IQ Temperature Output
(%) (ppm/°C) (ppm/1000hr) (µVp-p/V) (mA) Range Current HiRel
Device Description Output (V) (max) (max) (typ) (typ) (max) (°C) (mA) Avail. Package Price*
Shunt
REF1112 µPower, 1.25 V Shunt 1.25 0.2 30 60 20 0.0015 –40 to +125 0.0012 N SOT23-3 0.85
to 5
LM385- Mircropower Voltage 2.5 2 20 20 120 0.02 0 to 70 1 to 20 N 3TO-92, 0.22
2.5-N Reference Diode SOIC-8,
TSSOP-8
LMV431A Low-Voltage Adjustable 1.24 to 30 1 39 — — 0.055 –40 to 85 — N SOT23-3, 0.20
Precision Shunt 3TO-92,
Regulators SOT23-5
LMV431B Low-Voltage Adjustable 1.24 to 30 0.5 39 — — 0.055 –40 to 85 — N SOT23-3, 0.28
Precision Shunt SOT23-5
Regulators
LMV431 Low-Voltage Adjustable 1.24 to 30 39 — — 0.055 –40 to 85 — N 3TO-92, 0.16
Precision Shunt SOT23-5
Regulators
LM4041 Precision Micropower 1.2 0.1 100 120 20 0.045 –40 to 125 0.06 to 12 N SOT23-3, 0.23
Shunt Voltage Reference 3TO-92,
SC70-5
LM4051 Precision Micropower 1.225 0.5 50 50 20 0.06 –40 to 85 0.06 N SOT23-3 0.70
Shunt Voltage Reference
LM4040 Precision Micropower 2.048, 2.5, 3, 0.1 50 120 35 0.065 –40 to 85 0.015 Y SOT23-3, 0.22
Shunt Voltage Reference 4.096, 5.0, 8.192, 3TO-92,
10 SC70-5
LM4431 Micropower Shunt 2.5 2 60 120 35 0.015 0 to 70 0.045 N SOT23-3 0.33
Voltage Reference
LM431 Adjustable Precision 2.5 to 36 0.022 50 — — 0.003 –40 to 85 0.004 N SOT23-3, 0.18
Zener Shunt Regulator 3TO-92,
SOIC-8
LM4050 Precision Micropower 2.048, 2.5, 4.096, 0.1, 0.2, 15 120 34 0.065 –40 to 85 0.015 Y SOT23-3 0.70
Shunt Voltage Reference 5, 8.192, 10 0.5
LM4030 Ultra-High Precision 2.5, 4.096 0.05 10 40 165 0.13 –40 to 125 0.05 N SOT23-5 0.45
Shunt Voltage Reference
LM385- Mircropower Voltage 1.2 1 20 20 60 0.02 0 to 70 20 N 3TO-92, 0.22
1.2 -N Reference Diode SOIC-8, ,
TSSOP-8
Current Reference
REF200 Dual-Current Reference 100 µA/Channel ±1 25 (typ) — 1nAp-p — –25 to +85 50 µA to N PDIP-8, 2.60
with Current Mirror 400 µA SOIC-8
LM134 3-Terminal Adjustable 1 μA to 10 mA 3 33 — — — –55 to +125 1 μA to N TO-3 5.10
Current Source 10 mA
LM234 3-Terminal Adjustable 1 μA to 10 mA 3 33 — — — –25 to +100 1 μA to N TO-3, 0.45
Current Source 10 mA SOIC-8
LM334 3-Terminal Adjustable 1 μA to 10 mA 6 33 — — — 0 to +70 1 μA to N SOIC-8 0.27
Current Source 10 mA

Clocks and Timing
Clock Distribution (Fanout Buffers, Zero-Delay Buffers)
Differential Clock Buffer with Dividers

CDCUN1208LP
The CDCUN1208LP is a 2:8 fan-out buffer featuring a wide operating supply range, Key Features
two universal differential/single-ended inputs, and universal outputs (HCSL, LVDS, or • Low power consumption and power
LVCMOS) with edge rate control. The state of certain pins determines device configu- management features including 1.8 V
ration at power up. Alternately, the CDCUN1208LP provides a SPI/I2C port with which operation and output enable control
a host processor controls device settings. The output section includes four dedi- • Integrated voltage regulators improve
cated supply pins enabling the operation of output ports from different power supply PSNR
domains. This provides the ability to clock devices switching at different LVCMOS • Supports PCIE gen1, gen2, gen3
levels without the need for external logic level translation circuitry. • Built-in divider
The CDCUN1208LP delivers excellent additive jitter performance and low power • Excellent additive jitter performance
consumption; it is offered in a 32-pin QFN package reducing the solution footprint, is 200 fs RMS (10 kHz-20 MHz),
flexible and easy to use. LVDS at 100 MHz
• Maximum operating frequency:
Differential mode: up to 400 MHz
LVCMOS mode: up to 250 MHz
V DD INSEL V DD INSEL
LVDS P
• ESD protection exceeds 2 kV HBM,
LVCMOS HCSL P LVCMOS
NC
HCSL ITTP
LVDS
HCSL N
HCSL P
NC ITTP LVDS N
LVDS P
500 V CDM
IN1P
IN1P
IN1N
HCSL N
IN1N
LVDS N
• Industrial temperature range
INMUX
LVDS P
INMUX
HCSL P
IN2P
IN2N
/1,/2,/4,/8
HCSL N IN2P
IN2N
/1,/2,/4,/8
LVDS N
LVDS P
(–40°C to 85°C)
HCSL P
DIVIDE
HCSL N DIVIDE
LVDS N
• Wide supply range
HCSL P LVDS P
HCSL N
MODE
LVDS N
LVDS P
(1.8 V, 2.5 V, or 3.3 V)
NC
MODE HCSL P NC
HCSL N LVDS N
VDD HCSL P V DD
HCSL
LVDS P
LVDS N
Applications
LVCMOS HCSL OTTP HCSL N LVCMOS OTTP
NC
LVDS HCSL P LVDS
LVDS P
LVDS N
• Communications systems
HCSL N
OE OE
(Ethernet, PCI Express®)
CDCUN1208LP ERC CDCUN1208LP ERC
• Computing systems
(Ethernet, PCIe, USB)
• Consumer (set top boxes,
CDCUN1208LP functional block diagrams
video equipment)
• Office automation
Get more information: www.ti.com/product/CDCUN1208LP

Clocks and Timing
3.1-GHz Differential Clock Buffer/Level Translator

LMK00304
The LMK00304 is a 3-GHz four-output differential fanout buffer intended for high- Key Features
frequency, low-jitter clock/data distribution and level translation. The input clock can • 3:1 input multiplexer
be selected from two universal inputs or one crystal input. The selected input clock • Two banks with two differential
is distributed to two banks of two differential outputs and one LVCMOS output. The outputs each
differential output banks can be mutually configured as LVPECL, LVDS, or HCSL • High PSRR: –65 / –76 dBc
drivers, or disabled. The LVCMOS output has a synchronous enable input for runt- (LVPECL/LVDS) at 156.25 MHz
pulse-free operation when enabled or disabled. The LMK00304 operates from a 3.3 V • LVCMOS output with synchronous
core supply and three independent 3.3 V/2.5 V output supplies. enable input
• Pin-controlled configuration
The LMK00304 provides high performance, versatility, and power efficiency, making
• VCC core supply: 3.3 V ± 5%
it ideal for replacing fixed-output buffer devices while increasing timing margin in the
• Three independent VCCO output
system.
supplies: 3.3 V/2.5 V ± 5%
V CC V CCOA V CCOB V CCOC • Industrial temperature range:
–40°C to +85°C
2
CLKout_TYPE[1:0] • Package: 32-pin LLP
CLKin_SEL[1:0]
2
V CCOA
(5.0 x 5.0 x 0.8 mm)
CLKoutA0
Applications
CLKoutA0* Output Bank A • High-speed data acquisition and
CLKin0 (LVPECL, LVDS,
Universal Inputs
CLKoutA1
HCSL, or Hi-Z)
generation
CLKin0* CLKoutA1*
(Differential/ • Medical equipment
Single-Ended) CLKin1
MUX V CCOB • Optical networking
CLKin1*
• Telecom base band unit
OSCin CLKoutB0
Crystal Output Bank B • Video communications
OSCout CLKoutB0*
(LVPECL, LVDS,
CLKoutB1 HCSL, or Hi-Z)
CLKout_TYPE[1:0] CLKoutB1*
V CCOC
REFout_EN
REFout (LVCMOS)
SYNC
GND
LMK00304 functional block diagrams
Get more information: www.ti.com/product/LMK00304

Clocks and Timing
Fanout Buffers
Output Frequency VCC Propagation Output Skew Char. HiRel
Device Description Input Level Level (MHz) (V) Delay (max) (ps) Temp. (ºC) Avail. Package Price*
Differential
CDCLVP1102 Low-Jitter 1:2 Universal-to- LVPECL/LVDS/LVCMOS LVPECL 0 to 2 GHz 2.5/3.3 450 ps (max) 10 ps –40 to 85 N QFN-16 2.50
LVPECL Buffer
CDCLVP1204 Low-Jitter, 2-Input Selectable LVPECL/LVDS/LVCMOS LVPECL 0 to 2 GHz 2.5/3.3 450 ps (max) 15 ps –40 to 85 N QFN-16 3.30
1:4 Universal-to-LVPECL Buffer
CDCLVP2102 Low-Jitter, Dual 1:2 LVPECL/LVDS/LVCMOS LVPECL 0 to 2 GHz 2.5/3.3 450 ps (max) 10 ps –40 to 85 N QFN-16 3.30
Universal-to-LVPECL Buffer (Within Bank)
CDCLVD1204 Low-Jitter, 2-Input Selectable LVPECL/LVDS/LVCMOS LVDS 0 to 800 2.5 1.5 ns (typ) 20 ps –40 to 85 N QFN-16 2.85
1:4 Universal-to-LVDS Buffer
CDCLVD2102 Low-Jitter, Dual 1:2 LVPECL/LVDS/LVCMOS LVDS 0 to 800 2.5 1.5 ns (typ) 20 ps –40 to 85 N QFN-16 3.00
Universal-to-LVDS Buffer (Within Bank)
CDCLVD1213 Low-Jitter, 1:4 Universal-to-LVDS LVPECL/LVDS/CML LVDS 0 to 800 2.5 1.5 ns (typ) 20 ps –40 to 85 N QFN-16 4.00
Buffer with Selectable Output Divider
CDCP1803 1:3 LVPECL Clock Buffer with LVPECL/LVDS LVPECL 0 to 800 3.3 320 to 600 ps 30 ps –40 to 85 Y QFN-24 3.15
Programmable Divider
CDCLVP215 Dual 1:5 High-Speed LVPECL LVPECL LVPECL DC to 2.5/3.3 230 to 370 ps 30 ps –40 to 85 N LQFP-32 5.55
Clock Buffer 3.5 GHz
CDCLVP110 2-Input Selectable 1:10 LVPECL LVPECL/HSTL LVPECL 0 to 3.5 GHz 2.5/3.3 230 to 370 ps 30 ps –40 to 85 N LQFP-32 5.50
Clock Buffer
CDCLVP111 2-Input Selectable 1:10 LVPECL LVPECL LVPECL DC to 2.5/3.3 230 to 370 ps 30 ps –40 to 85 N LQFP- 5.55
Clock Buffer 3.5 GHz QFN-32-32
CDCLVD110A 2-Input Selectable Programmable LVDS LVDS 0 to 900 2.5 3ns 30 ps (typ) –40 to 85 N TQFP-32 5.50
1:10 LVDS Clock Buffer
CDCL1810 1:10 LVDS-to-CML Clock Buffer LVDS CML 0 to 650 1.8 3ns 64 ps –40 to 85 N QFN-48 6.45
CDCUN1208LP Ultra-Low-Power, 2:8 Fan-out Buffer HCSL, LVDS, LVCMOS HCSL, 0 to 400 3.3/2.5/ 3.8 ns 50 ps (max) –40 to 85 N QFN-32 5.00
with Universal Inputs and Outputs LVDS, 1.8 (max)
LVCMOS
SN65EL11 1:2 ECL/PECL Buffer ECL/PECL ECL/ >2.5 GHz 5 265 ps (typ) 15 –40 to 85 N SOIC-8/ 1.35
PECL MSOP-8
SN65EL16 1:1 ECL/PECL Buffer ECL/PECL ECL/ >2.5 GHz 5 250 ps (typ) 20 –40 to 85 N SOIC-8/ 1.35
PECL MSOP-8
SN65ELT20 1:1 TTL-to-PECL Buffer TTL PECL 400 (Typ) 5 1250 ps (max) — –40 to 85 N SOIC-8/ 1.45
MSOP-8
SN65ELT21 1:1 PECL-to-TTL Buffer TTL PECL 0 to 400 5 3000 ps (typ) — –40 to 85 N SOIC-8/ 1.40
MSOP-8
SN65ELT22 2:2 TTL-to-PECL Buffer TTL PECL 0 to 1 GHz 5 1100 ps (max) 90 –40 to 85 N SOIC-8/ 1.45
MSOP-8
SN65ELT23 2:2 PECL-to-TTL Buffer PECL TTL 0 to 500 5 3500 ps (typ) —
–40 to 85 N SOIC-8/ 1.40
MSOP-8

Clocks and Timing
Clocks Distribution (Fanout Buffers, Zero-Delay Buffers)
Fanout Buffers (continued)

Char. Hi-
Frequency VCC Propagation Output Skew Temp. Rel
Device Description Input Level Output Level (MHz) (V) Delay (max) (ps) (ºC) Avail. Package Price*
Differential (continued)
SN65EPT21 1:1 LVTTL-to-LVPECL Buffer LVTTL LVPECL 0 to 600 3.3 1900 ps (max) 250 –40 to 85 N SOIC-8/MSOP-8 1.80
SN65EPT22 2:2 LVTTL-to-LVPECL Buffer LVTTL LVPECL 0 to 4 GHz 3.3 420 ps (typ) 50 –40 to 85 N SOIC-8/MSOP-8 1.80
SN65EPT23 2:2 LVPECL-to-LVTTL Buffer LVPECL LVTTL >300 3.3 1900 ps (max) 110 –40 to 85 N SOIC-8/MSOP-8 1.80
SN65EPT21 1:1 LVTTL-to-LVPECL Buffer LVTTL LVPECL 0 to 600 3.3 1900 ps (max) 250 –40 to 85 N SOIC-8/MSOP-8 1.80
SN65EPT22 2:2 LVTTL-to-LVPECL Buffer LVTTL LVPECL 0 to 4 GHz 3.3 420 ps (typ) 50 –40 to 85 N SOIC-8/MSOP-8 1.80
SN65EPT23 2:2 LVPECL-to-LVTTL Buffer LVPECL LVTTL >300 3.3 1900 ps (max) 110 –40 to 85 N SOIC-8/MSOP-8 1.80
SN65LVEL11 1:2 ECL/PECL Buffer ECL/PECL ECL/PECL 0 to 1.5 GHz 3.3 265 ps (typ) 18 –40 to 85 N SOIC-8/MSOP-8 1.45
SN65LVELT22 2:2 LVTTL-to-LVPECL Buffer LVTTL LVPECL 0 to 3.5 GHz 3.3 450 ps (typ) 50 –40 to 85 N SOIC-8/MSOP-8 1.45
SN65LVELT23 2:2 LVPECL-to-LVTTL Buffer LVPECL LVTTL >180 3.3 2200 ps (max) 150 –40 to 85 N SOIC-8/MSOP-8 2.30
SN65LVEP11 1:2 ECL/PECL Buffer ECL/PECL ECL/PECL 0 to 3 GHz 2.5/3.3 240 ps (typ) 15 –40 to 85 N SOIC-8/MSOP-8 2.20
LMK01000 1.6 GHz High Performance Clock LVPECL/LVDS/LVCMOS LVPECL/LVDS 1 to 1.6 GHz 3.3 — ±30 –40 to 85 N LLP-48 7.25
Buffer, Divider and Distributor
LMK00301 3-GHz, 10-Output Differential LVPECL/LVDS/CML/ LVPECL/LVDS/ 0 to 3.1 GHz 3.3 (Vcc), 360 to 590 ps 50 ps –40 to 85 N LLP-48 5.25
Fanout + 1 CMOS Buffer Single-Ended/Crystal HCSL/LVCMOS 3.3/2.5 (Vcco) (typ)
LMK00304 3-GHz 4-Output Differential LVPECL/LVDS/CML/ LVPECL/LVDS/ 0 to 3.1 GHz 3.3 (Vcc), 360 to 590 ps 50 ps –40 to 85 N LLP-32 3.35
LMK01801 14-Output Universal Fanout LVPECL/LVDS/LVCMOS LVPECL/LVDS/ 1 kHz to 3.1 3.3 — 32 ps (typ, DIFF-to- –40 to 85 N LLP-48 6.75
Buffer with Divider and Delay LVCMOS GHz DIFF), 830 ps (typ,
DIFF-to-CMOS)
Single-Ended
LMK00101 10-Output CMOS Fanout LVPECL/LVDS/HCSL/ LVCMOS 0 to 200 2.5/3.3 (VDD), 1 ns (typ) 6 ps (typ) –40 to 85 N QFN-32 2.20
Buffer / Level Translator SSTL/Single-Ended/ (1.5/1.8/2.5/3.3 V) 1.5 to VDD VDD=3.3 V
Crystal (Vddo)
LMK00105 5-Output CMOS Fanout LVPECL/LVDS/HCSL/ LVCMOS 0 to 200 2.5/3.3 (VDD), 1 ns (typ) 6 ps (typ) –40 to 85 N QFN-24 1.50
Buffer / Level Translator SSTL/Single-Ended/ (1.5/1.8/2.5/3.3 V) 1.5 to VDD VDD=3.3 V
Crystal (VDDO)
CDCLVC1310 10-Output CMOS Fanout LVPECL/LVDS/HCSL/ LVCMOS 0 to 200 2.5/3.3 (VDD), 2ns (typ) 50 ps (max) –40 to 85 N QFN-32 2.20
Buffer / Level Translator SSTL/Single-Ended/ (1.5/1.8/2.5/3.3 V) 1.5 to VDD
Crystal (VDDO)
CDCLVC1102 Low-Jitter, 1:2 LVCMOS LVCMOS LVCMOS 0 to 250 2.5/3.3 0.8 to 2 ns 50 ps –40 to 85 N TSSOP-8 0.90
Fan-Out Clock Buffer
CDC318A 1:18 LVTTL Clock Buffer with LVTTL LVTTL 0 to 100 3.3 1.2 to 4.5 ns 250 ps 0 to 70 N SSOP-48 2.10
I2C Control
CDC319 1:10 LVTTL Clock Buffer with LVTTL LVTTL 0 to 140 3.3 1.2 to 3.6 ns 250 ps 0 to 70 N SSOP-28 1.75
I2C Control
CDCV304 1:4 PCI-X® Compliant LVTTL LVTTL LVCMOS 0 to 200 2.5/3.3 1.8 to 3.0 ns 100 ps –40 to 85 N TSSOP-8 1.20
Clock Buffer
CDCVF310 1:10 LVTTL Clock Buffer LVTTL/LVCMOS LVTTL/LVCMOS 0 to 200 2.5/3.3 1.0 to 2.8 ns 150 ps at –40 to 85 N TSSOP-24 2.05
(2 Banks of 5 Outputs) (VDD = 3. V), 3.3 V, 230 ps at
1.3 to 4.0 ns 2.5 V
(VDD = 2.5 V)
CDCVF2310 1:10 LVTTL Clock Buffer LVTTL/LVCMOS LVTTL/LVCMOS 0 to 170 2.5/3.3 1.3 to 2.8 ns 100 ps at –40 to 85 N TSSOP-24 2.05
(2 Banks of 5 Outputs) with (VDD = 2.5 V), (VDD = 3.3 V), 3.3 V, 170 ps at
25 Ω input resistors 0 to 200 1.5 to 3.5 ns 2.5 V
(VDD = 3.3 V) (VDD = 2.5 V)
CDC3RL02 1:2 Square/Sine-to-Square SQUARE/SINE SQUARE 10 to 52 1.8 12 ns (typ) 500 ps –40 to 85 N DSBGA-8 .90
Wave Buffer with LDO
CDC3S04 1:4 Sine-to-Sine Wave SINE SINE .01 to 52 1.8 3 ns (max) 50 ps –30 to 85 N DSBGA-20 1.80
Buffer with LDO
LMH2180 75 MHz Dual Clock Buffer SQUARE/SINE Analog 75 2.4 to 5 — — –40 to 85 N LLP-8/uSMD-8 1.10
LMH2190 Quad Channel 27 MHz Clock Buffer with LDO CMOS 0.032 to 27 2.5 to 5.5 11 ns (max) 8.5 ns (max) –40 to 85 N µSMD-16 1.40
Tree Driver with I2C Interface
LMH2191 Dual Channel 52 MHz Clock SQUARE/SINE CMOS 10 to 52 2.5 to 5.5 10.5 ns (max) 3.1 ns –40 to 85 N µSMD-8 0.90
Tree Driver
LMV112 40 MHz Dual Clock Buffer SQUARE/SINE Analog 40 2.4 to 5 — — –40 to 85 N LLP-8 0.42
*Suggested resale price in U.S. dollars in quantities of 1,000. New devices are listed in bold red.

Clocks and Timing
Clocks Distribution (Fanout Buffers, Zero-Delay Buffers)
Fanout Buffers (continued)

Char.
Frequency VCC Propagation Output Skew Temp. Hi-Rel
Device Description Input Level Output Level (MHz) (V) Delay (max) (ps) (ºC) Avail. Package Price*
Dividers
CDCM1804 1:3 LVPECL + 1:1 LVCMOS LVPECL LVPECL/LVCMOS 800 3.3 600 ps 30 ps (LVPECL), –40 to 85 N QFN-24 5.90
Buffer with Dividers (LVPECL), 2.6 1.6 ns (LVCMOS)
ns (LVCMOS)
CDCM1802 1:1 LVCMOS + 1:1 LVPECL LVPECL LVPECL/LVCMOS 800 3.3 600 ps 1.6 ns (typ) –40 to 85 N QFN-16 4.70
Buffer with Dividers (LVPECL), 2.6
ns (LVCMOS)
CDCP1803 1:3 LVPECL Clock Buffer with LVPECL/LVDS LVPECL 0 to 800 3.3 320 to 600 ps) 30 ps –40 to 85 Y QFN-24 3.15
Programmable Divider
CDCE18005 3:5 LVPECL/LVDS/LVCMOS LVPECL/LVDS/ LVPECL/LVDS/ DC to 3.3 4 ns 75 ps –40 to 85 N QFN-48 6.00
Buffer with Dividers LVCMOS LVCMOS 1.5 GHz
CDCUN1208LP Ultra-Low-Power, 2:8 Fan-out HCSL, LVDS, LVCMOS HCSL, LVDS, 0 to 400 3.3/2.5/1.8 3.8 ns 50ps –40 to 85 N QFN-32 5.00
Buffer with Universal Inputs LVCMOS
and Outputs
LMK01801 14-Output Universal Fanout LVPECL/LVDS/LVCMOS LVPECL/LVDS/ 1 kHz to 3.1 3.3 — 32 ps (typ, DIFF-to- –40 to 85 N LLP-48 6.75
Buffer with Divider and Delay LVCMOS GHz DIFF), 830 ps (typ,
DIFF-to-CMOS)
Zero-Delay Buffers
Output Frequency VCC Jitter (Peak-to-Peak [P-P] Char. Temp. HiRel
Device Description Input Level Level (MHz) (V) or Cycle-to-Cycle [C-C]) Phase Error (ºC) Avail. Package Price*
Differential-Ended
CDCV850 1:10 Differential Clock Driver SSTL_2/ SSTL_2 60 to 140 2.5 C-C: ±30 ps –80/150 ps –40 to 85 N TSSOP-48 2.20
Universal (100 to 133 MHz ) (133 MHz )
CDCV855 1:4 Differential Clock Driver SSTL_2/LVTTL SSTL_2 60 to 180 2.5 C-C: ±50 ps ±100 ps –40 to 85 N TSSOP-28 1.15
(100 to 180 MHz ) (100 to
180 MHz )
CDCV857 1:10 PLL Differential Clock Driver SSTL_2/LVTTL SSTL_2 60 to 200 2.5 C-C: ±75 ps –150/50 ps 0 to 85 N TSSOP-48 4.20
for DDR 200/266/333, SSC (100 to 200 MHz ) (200 MHz )
CDCV857A 1:10 PLL Differential Clock Driver SSTL_2/LVTTL SSTL_2 60 to 180 2.5 C-C: ±50 ps ±100 ps 0 to 85 N TSSOP-48, 2.90
for DDR 200/266/333, SSC (100 to 180 MHz ) (100 to µBGA-56
180 MHz )
CDCV857B 1:10 PLL Differential Clock Driver SSTL_2/LVTTL SSTL_2 60 to 200 2.5 C-C: ±50 ps ±50 ps (min/max) 0 to 70 N TSSOP-48, 3.65
200 MHz )
CDCV857BI 1:10 PLL Differential Clock Driver SSTL_2/LVTTL SSTL_2 60 to 200 2.5 C-C: ±50 ps ±50 ps (min/max) –40 to 85 N TSSOP-48, 3.35
200 MHz )
CDCVF857 1:10 PLL Differential Clock Driver SSTL_2/LVTTL SSTL_2 60 to 220 2.5 C-C: ±35 ps ±50 ps (min/max) –40 to 85 N TSSOP-48, 3.60
for DDR 200/266/333/400, SSC (133 to 200 MHz ) (100 to QFN-48,
200 MHz ) µBGA-56
CDCU877 1:10 PLL Differential Clock Driver SSTL_18 SSTL_18 10 to 400 1.8 C-C: ±30 ps ±50 ps –40 to 85 N µBGA-52, 3.05
for DDR2 Applications, SSC (190 to 340 MHz ) QFN-40
CDCU877A 1:10 PLL Differential Clock Driver SSTL_18 SSTL_18 10 to 400 1.8 C-C: ±30 ps ±50 ps –40 to 85 N µBGA-52, 3.05
for DDR2 Applications, SSC (190 to 340 MHz ) QFN-40
CDCU877B 1:10 PLL Differential Clock Driver SSTL_18 SSTL_18 10 to 340 1.8 C-C: ±30 ps ±50 ps –40 to 85 N µBGA-52 3.05
for DDR2 400/533, SSC (190 to 340 MHz )
CDCUA877 1:10 PLL Differential Clock SSTL_18 SSTL_18 125 to 410 1.8 C-C: ±40 ps ±50 ps –40 to 85 N µBGA-52 3.35
Driver for DDR2 400~800, SSC, (200 to 333 MHz )
8-mA Output
CDCU2A877 1:10 PLL Differential Clock SSTL_18 SSTL_18 125 to 410 1.8 C-C: ±40 ps ±50 ps 0 to 70 N µBGA-52 3.05
Driver for DDR2 400~800, SSC, (160 to 410 MHz )
16-mA Output
Single-Ended
CDCVF2505 1:5 PLL Clock Driver for SDR/ LVTTL LVTTL 24 to 200 3.3 C-C: |70| ps (typ) ±150 ps –40 to 85 Y TSSOP-8, 0.95
PC133+, SSC (66 to 200 MHz ) (66 to 166 MHz ) SOIC-8
CDCVF2509A 1:9 PLL Clock Driver for SDR/ LVTTL LVTTL 50 to 175 3.3 C-C: |65| ps (typ) ±125 ps 0 to 85 N TSSOP-24 3.90
PC133+, SSC (100 to 166 MHz ) (66 to 166 MHz )
CDCVF2510A 1:10 PLL Clock Driver for SDR/ LVTTL LVTTL 50 to 175 3.3 C-C: |65| ps (typ) ±125 ps 0 to 85 N TSSOP-24 2.60
PC133+, SSC (100 to 166 MHz ) (66 to 166 MHz )

Clocks and Timing
Clock Generation (Crystal Oscillator Replacements, Jitter Cleaners)
Clock Generator/Jitter Cleaner with Internal VCO Output

CDCM6208
The CDCM6208 is a highly versatile, low jitter low power frequency synthesizer which Key Features
can generate eight low jitter clock outputs, selectable from one of two inputs that • Superior performance with low power
can feature a low frequency crystal or CML, LVPECL, LVDS, or LVCMOS signals for • Flexible frequency planning
a variety of wireless infrastructure baseband, wireline data communication, comput- • Two differential inputs, XTAL support,
ing, low power medical imaging and portable test and measurement applications. The ability for smart switching
CDCM6208 also features a fractional divider architecture for four of its outputs that can • SPI, I2C, and pin programmable
generate any frequency with better than one ppm frequency accuracy. The CDCM6208 • Professional user GUI for quick design
can be easily configured through I2C or SPI programming interface and in the absence turnaround
of serial interface, pin mode is also available that can set the device in 1 of 32 distinct • 7 × 7 mm 48-QFN package (RGZ)
pre-programmed configurations using control pins. • –40°C to 85°C temperature range
REF_SEL ELF
Applications
Fractional Div
20-b
Y4 LVDS/
LVCMOS/
• Base band clocking
Fractional Div
Y5
HCSL
(Wireless Infrastructure)
• Networking and data communications
20-b
Y0
Differential/ R PreScaler PS_A Integer Div
LVCMOS PRI _REF
Smat MUX
• KeystoneTM C66x multicore DSP

4-b ÷4, ÷5, ÷6 8-b
M Y1 LVPECL/
Differential 14-b
0 CML/
LVCMOS/XTAL SEC _ REF LVDS
N
8-b,10-b
VCO:
V1: (2.39-2.55) GHz
PreScaler PS_B
÷4, ÷5, ÷6
Integer Div
8-b
Y2
clocking
Y3
and V2 : ( 2.94-3.13) GHz
Fractional Div
• Storage server; portable test
Y6 LVDS/
equipment
Input PLL 20-b
LVCMOS/
Fractional Div HCSL
Y7
Control 20-b
Host Status/ Power • Medical imaging; high end A/V

Interface Monitoring Conditioning
Output
CDCM6208
CDCM6208 functional block diagram
Get more information: www.ti.com/product/CDCM6208
Ultra-Low Jitter Synthesizer and Jitter Cleaner

LMK04828
The LMK04820 family is the industry’s highest performance clock conditioner with Key Features
JEDEC JESD204B support. The dual loop PLLatinumTM architecture enables sub-100 • JEDEC JESD204B support
fs RMS jitter (10 kHz to 20 MHz) using a low noise VCXO module. Seven device clocks and up to seven
The dual loop architecture consists of two high-performance phase-locked loops (PLL), a SYSREF clocks
low-noise crystal oscillator circuit, and a high-performance voltage controlled oscillator (VCO). Up to 14 differential device clocks
LVPECL, LVDS, or HSDS program-
The LMK04828 provides ultra-low-jitter and phase noise and generates the JESD204B mable outputs
system timing reference signal (SYSREF) required for multi-device synchronization. • Ultra-low RMS jitter performance
PLL1 PLL2 • Dual loop PLLatinum PLL architecture
External
External VCXO
or Tunable
OSCout
OSCout *
Loop Filter
• Two redundant input clocks with LOS
CPout 1
OSC in
CLKinX Crystal
CLKinX*
R
Phase
External
CPout 2 Internal 6 blocks
6 Device
Clocks
• Multi-mode: Dual PLL, single PLL, and
2 inputs Detector
clock distribution
Loop Filter R VCO Device Clock DCLKoutX
PLL1 Phase Partially
N Divider DCLKoutX*
Input Detector Integrated Digital Delay
Buffer
N
PLL2 Loop Filter Analog Delay • Industrial temperature range: –40 to 85 °C
6 SYSREF
SYSREF
or Device
Clocks
• 3.15 V to 3.45 V operation
Digital Delay
Analog Delay
SDCLKoutY
SDCLKoutY * • Package: 64-pin LLP
LMK04828 1 Global SYSREF Divider
(9.0 × 9.0 × 0.8 mm)
LMK04828 functional block diagram
Applications
Get more information:
• JEDEC JESD204B • Networking, SONET/SDH, DSLAM
www.ti.com/product/LMK04828
• Wireless infrastructure • Medical / video / military / aerospace
• Data converter clocking • Test and measurement

Clocks and Timing
Clock Generation
Char.
Frequency VCC RMS or Period Phase Output Skew Temp. HiRel
Device Description Input Level Output Level (MHz) (V) (pk-pk) Jitter Error (max) (ps) (ºC) Avail. Package Price*
Clock Generators - Ultra Low Jitter <300fs RMS
LMK03806 Ultra Low Jitter Clock LVPECL/LVDS/ LVPECL/ LVDS/ 2.27 to 2600 3.3 <0.15 ps rms (typ, — 30 (LVPECL/ –40 to 85 N LLP-64 7.95
Generator with 14 LVCMOS/ Crystal LVCMOS XO mode) LVDS)
Programmable Outputs
CDCM6208 2:8 Ultra Low Power, Low LVPECL/LVDS/ LVPECL/LVDS/ up to 800 MHz 3.3V/ 265fs rms (typ) — 40 ps (max for –40 to 85 N QFN-48 5.20
Jitter Clock Generator CML/LVCMOS/ CML/HCSL/ 2.5V/ one bank)
Crystal LVCMOS 1.8V
LMK03002C Precision Clock Conditioner LVPECL/LVDS/ LVPECL/ LVDS 0.39 to 785 3.3 0.2 ps rms (typ, — ±30 –40 to 85 N LLP-48 11.00
with Integrated VCO LVCMOS/ SINE generator mode)
Clock Generators - Low Jitter <1ps RMS
CDCE62002 2:2 Low-Jitter, Integrated VCO Crystal/ LVCMOS/ LVPECL/ LVDS/2- 4.25 to 1175 3.3 <1 ps rms — 75 –40 to 85 N QFN-32 6.60
Clock Generator Differential LVCMOS
CDCE62005 3:5 Low-Jitter, Integrated VCO Crystal/ LVCMOS/ LVPECL/ LVDS/2- 4.25 to 1175 3.3 <1 ps rms — 75 –40 to 85 N QFN-48 7.50
Clock Generator Differential LVCMOS
CDCM61001 1:1 Low-Jitter, Integrated VCO Crystal/ LVCMOS LVPECL/ LVDS/2- 43.75 to 683.28; 3.3 <1 ps rms — — –40 to 85 N QFN-32 4.20
Clock Generator LVCMOS LVCMOS up to
250 MHz
CDCM61002 1:2 Low-Jitter, Integrated VCO Crystal/ LVCMOS LVPECL/ LVDS/2- 43.75 to 683.28; 3.3 <1 ps rms — 50 –40 to 85 N QFN-32 5.00
Clock Generator LVCMOS LVCMOS up to
250 MHz
CDCM61004 1:4 Low-Jitter, Integrated VCO Crystal/ LVCMOS LVPECL/ LVDS/2- 43.75 to 683.28; 3.3 <1 ps rms — 60 –40 to 85 N QFN-32 6.50
Clock Generato LVCMOS LVCMOS up to
250 MHz
CDCL6010 1:10 LVDS-to-CML Jitter LVDS CML 15 to 1250 1.8 <1 ps rms — 64 –40 to 85 N QFN-48 8.05
Cleaner and Distributor
LMK03000 Precision Clock Conditioner LVPECL/LVDS/ LVPECL/ LVDS 0.32 to 648 3.3 0.4, 0.8, 1.2 ps — ±30 –40 to 85 N LLP-48 8.00
with Integrated VCO LVCMOS/ SINE rms (typ, 3 grades)
LMK03002 Precision Clock Conditioner LVPECL/LVDS/ LVPECL/ LVDS 0.39 to 785 3.3 0.4, 0.8 ps rms — ±30 –40 to 85 N LLP-48 11.00
with Integrated VCO LVCMOS/ SINE (typ, 2 grades)
LMK03200 Precision 0-Delay Clock LVPECL/LVDS/ LVPECL/ LVDS 0.32 to 648 3.3 0.8 ps rms ±300 ±30 –40 to 85 N LLP-48 11.00
Conditioner with Integrated LVCMOS/ SINE (typ) (0-delay
VCO mode)
CDCE421A Flexible Low-Jitter Clock Crystal/ LVCMOS LVDS/LVPECL 11 to 1100 3.3 <1 ps rms — — –40 to 85 N QFN-24 7.00
Generator, 10 MHz to 1.1 GHz
CDC421A100 Low-Jitter 100 MHz Clock Crystal/ LVCMOS LVPECL 100 3.3 <1 ps rms — — –40 to 85 N QFN-24 7.00
Generator for PCI Express
CDC421A106 Low-Jitter 106.25 MHz Clock Crystal/ LVCMOS LVPECL 106.25 3.3 <1 ps rms — — –40 to 85 N QFN-24 7.00
Generator for Fibre Channel
Generator for Ethernet
Generator for 10 G Ethernet
Generator for Fibre Channel
Generator for PCI Express
Generator for 10 G Ethernet
Clock Generators - General Purpose
CDCE913 1.8 V Programmable 1-PLL, Crystal/ LVCMOS 2.5/3.3 V 0 to 230 1.8/3.3 60 ps (typ) — 150 –40 to 85 N TSSOP-14 1.60
3 Output Clock Synthesizer LVCMOS
with 2.5/3.3 V Outputs
CDCEL913 1.8 V Programmable 1-PLL, Crystal/ LVCMOS 1.8 V LVCMOS 0 to 230 1.8/3.3 60 ps (typ) — 150 –40 to 85 Y TSSOP-14 1.60
3 Output Clock Synthesizer
with 1.8 V Outputs
CDCE925 1.8 V Programmable 2-PLL, Crystal/ LVCMOS 2.5/3.3 V 0 to 230 1.8/3.3 60 ps (typ) — 150 –40 to 85 N TSSOP-16 1.95
CDCEL925 1.8 V Programmable 2-PLL, Crystal/ LVCMOS 1.8 V LVCMOS 0 to 230 1.8/3.3 60 ps (typ) — 150 –40 to 85 N TSSOP-16 1.80
5 Output Clock Synthesizer
with 1.8 V Outputs
CDCE937 1.8 V Programmable 3-PLL, Crystal/ LVCMOS 2.5/3.3 V 0 to 230 1.8/3.3 60 ps (typ) — 150 –40 to 85 Y TSSOP-20 2.15

Clocks and Timing
Clock Generation (continued)

Frequency VCC RMS or Period Phase Output Skew Char. Temp. HiRel
Device Description Input Level Output Level (MHz) (V) (pk-pk) Jitter Error (max) (ps) (ºC) Avail. Package Price*
Clock Generators - General Purpose (Continued)
CDCEL937 1.8 V Programmable Crystal/ 1.8 V 0 to 230 1.8/3.3 60 ps (typ) — 150 –40 to 85 Y TSSOP-20 2.15
3-PLL, 7 Output Clock LVCMOS LVCMOS
Synthesizer with 1.8 V
Outputs
CDCE949 1.8 V Programmable Crystal/ 2.5/3.3 V 0 to 230 1.8/3.3 60 ps (typ) — 150 –40 to 85 Y TSSOP-24 2.35
Synthesizer with 2.5/3.3
V Outputs
CDCEL949 1.8 V Programmable Crystal/ 1.8 V 0 to 230 1.8/3.3 60 ps (typ) — 150 –40 to 85 N TSSOP-24 2.35
Synthesizer with 1.8 V
Outputs
CDCE706 3.3 V Programmable Crystal/ 2.5/3.3 V 0 to 300 3.3 60 ps (typ) — 200 –40 to 85 N TSSOP-20 3.85
3-PLL, 6 Output Clock LVCMOS/ LVCMOS
Synthesizer Differential
CDCE906 3.3 V Programmable Crystal/ 2.5/3.3 V 0 to 167 3.3 60 ps (typ) — 200 0 to 70 N TSSOP-20 2.20
3-PLL, 6 Output LVCMOS/ LVCMOS
Clock Synthesizer Differential
Spread-Spectrum Clocks
CDCS501 1:1 Spread Spectrum LVCMOS 3.3 V LVCMOS 40 to 108 3.3 110 ps (typ) — — –40 to 85 N TSSOP-8 0.45
Clock Generator
CDCS502 1:1 Clock Generator Crystal 3.3 V LVCMOS 8 to 108 3.3 100 ps (typ) — — –40 to 85 N TSSOP-8 0.95
with Optional SSC
CDCS503 1:1 Clock Buffer/Multiplier LVCMOS 3.3 V LVCMOS 8 to 108 3.3 110 ps (typ) — — –40 to 85 N TSSOP-8 0.50
with Optional SSC
Jitter Cleaners – Internal VCO
LMK04000 Low-Noise Clock Jitter LVPECL/LVDS/ LVPECL/ 0.32 to 648 3.3 <0.15 ps rms — 40 (LVPECL), –40 to 85 N LLP-64 14.50
Cleaner with Cascaded LVCMOS/ SINE LVCMOS (typ, XO mode) 100 (LVCMOS)
PLLs
PLLs
PLLs
LMK04010 Low-Noise Clock Jitter LVPECL/LVDS/ LVPECL 0.32 to 648 3.3 <0.15 ps rms — 40 ps –40 to 85 N LLP-64 14.50
Cleaner with Cascaded LVCMOS/ SINE (typ, XO mode)
PLLs
Cleaner with Cascaded LVCMOS/ SINE (typ, XO mode)
PLLs
LMK04031 Low-Noise Clock Jitter LVPECL/LVDS/ LVPECL/ LVDS/ 0.39 to 785 3.3 <0.15 ps rms — 40 (LVPECL), –40 to 85 N LLP-64 14.50
Cleaner with Cascaded LVCMOS/ SINE LVCMOS (typ, XO mode) 30 (LVDS),
PLLs 100 (LVCMOS)
LMK04033 Low-Noise Clock Jitter LVPECL/LVDS/ LVPECL/ LVDS 0.53 to 1080 3.3 <0.15 ps rms — 40 (LVPECL), –40 to 85 N LLP-64 14.50
Cleaner with Cascaded LVCMOS/ SINE (typ, XO mode) 30 (LVDS)
PLLs
LMK04100 Precision Clock LVPECL/LVDS/ LVPECL/ 0.32 to 648 3.3 <0.15 ps rms — 40 (LVPECL), –40 to 85 N LLP-64 6.00
Conditioners Clock Jitter LVCMOS/ SINE LVCMOS (typ, XO mode) 100 (LVCMOS)
Cleaner w/Cascaded PLLs
LMK04803 Precision Clock LVPECL/LVDS/ LVPECL/ LVDS/ 0.25 to 1015 3.3 0.11 ps rms 0 ps (typ, 30 (LVPECL/ –40 to 85 N LLP-64 9.15
Conditioners Low-Noise LVCMOS/ SINE LVCMOS (typ, XO mode) 0-delay LVDS), 100
Clock Jitter Cleaner with mode) (LVCMOS)
Dual Loop PLLs
Dual Loop PLLs
Dual Loop PLLs
Dual Loop PLLs
LMK04816 Clock Jitter Cleaner with LVPECL/LVDS/ LVPECL/ LVDS/ 0.32 to 1300 3.3 0.11 ps rms 0 ps (typ, 30 (LVPECL/ –40 to 85 N LLP-64 8.70
14 Outputs and 3 Inputs LVCMOS/ SINE LVCMOS (typ, XO mode) 0-delay LVDS), 100
mode) (LVCMOS)
LMK04906 Clock Jitter Cleaner with LVPECL/LVDS/ LVPECL/LVDS/ 0.32 to 1300 3.3 0.11 ps rms 0 ps (typ, 30 (LVPECL/ –40 to 85 N LLP-64 6.49
7 Outputs and 3 Inputs LVCMOS/SINE LVCMOS (typ, XO mode) 0-delay LVDS), 100
mode) (LVCMOS)

Clocks and Timing
Clock Generation (continued)

Output
RMS or Skew Char.
Output Frequency VCC Period (pk- Phase (max) Temp. HiRel
Device Description Input Level Level (MHz) (V) pk) Jitter Error (ps) (ºC) Avail. Package Price*
Jitter Cleaners – External VCXO
CDCM7005 2:5 Ultra-Low-Jitter Clock LVCMOS/ LVCMOS/ 0 to 1500 3.3 <1 ps rms –200/ 50 –40 to 85 Y BGA-64/ 9.50
Synchronizer and Jitter LVPECL LVPECL +100 ps QFN-48
Cleaner
CDCE72010 2:10 Ultra-Low-Jitter Clock LVPECL/LVDS/ LVPECL/ 0 to 1500 3.3 <1 ps rms — 50 –40 to 85 N QFN-64 10.95
Synchronizer and Jitter LVCMOS LVDS/
Cleaner LVCMOS
LMK02000 Precision Clock Distributor LVPECL/LVDS/ LVPECL/ 1 to 800 3.3 0.02 ps rms — ±30 –40 to 85 N LLP-48 7.80
with Integrated PLL LVCMOS/SINE LVDS additive (typ)
LMK02002 Precision Clock Distributor LVPECL/LVDS/ LVPECL 1 to 800 3.3 0.02 ps rms — ±30 –40 to 85 N LLP-48 6.65
with Integrated PLL LVCMOS/SINE additive (typ)
Cleaner with Cascaded PLLs LVCMOS/SINE LVCMOS (typ, XO mode) 100 (LVCMOS)
Cleaner with Cascaded PLLs LVCMOS/SINE (typ, XO mode)
Cleaner with Cascaded PLLs LVCMOS/SINE LVDS/ (typ, XO mode) 30 (LVDS), 100
LVCMOS (LVCMOS)
Cleaner with Cascaded PLLs LVCMOS/SINE LVDS/ (typ, XO mode) 30 (LVDS)
LVCMOS
LMK04100 Precision Clock Conditioners LVPECL/LVDS/ LVPECL/ 0.32 to 648 3.3 <0.15 ps rms — 40 (LVPECL), –40 to 85 N LLP-64 6.00
Clock Jitter Cleaner with LVCMOS/SINE LVCMOS (typ, XO mode) 100 (LVCMOS)
Cascaded PLLs
LMK04101 Low-Noise Clock Jitter LVPECL/LVDS/ LVPECL/ 0.39 to 785 3.3 <0.15 ps rms — 40 (LVPECL), –40 to 85 N LLP-64 Web
LMK04110 Low-Noise Clock Jitter LVPECL/LVDS/ LVPECL 0.32 to 648 3.3 <0.15 ps rms — 40 ps –40 to 85 N LLP-64 Web
LMK04111 Low-Noise Clock Jitter LVPECL/LVDS/ LVPECL 0.39 to 785 3.3 <0.15 ps rms — 40 ps –40 to 85 N LLP-64 Web
Cleaner with Cascaded PLLs LVCMOS/SINE LVDS/ (typ, XO mode) 30 (LVDS), 100
LVCMOS (LVCMOS)
Cleaner with Cascaded PLLs LVCMOS/SINE LVDS/ (typ, XO mode) 30 (LVDS)
LVCMOS
LMK04803 Precision Clock Conditioners LVPECL/LVDS/ LVPECL/ 0.25 to 1015 3.3 0.11 ps rms 0 ps (typ, 30 (LVPECL/ –40 to 85 N LLP-64 8.70
Low-Noise Clock Jitter LVCMOS/SINE LVDS/ (typ, XO mode) 0-delay LVDS), 100
Cleaner with Dual Loop PLLs LVCMOS mode) (LVCMOS)
LMK04816 Clock Jitter Cleaner with 14 LVPECL/LVDS/ LVPECL/ 0.32 to 1300 3.3 0.11 ps rms 0 ps (typ, 30 (LVPECL/ –40 to 85 N LLP-64 8.70
Outputs and 3 Inputs LVCMOS/SINE LVDS/ (typ, XO mode) 0-delay LVDS), 100
LVCMOS mode) (LVCMOS)
LMK04906 Clock Jitter Cleaner with 7 LVPECL/LVDS/ LVPECL/ 0.32 to 1300 3.3 0.11 ps rms 0 ps (typ, 30 (LVPECL/ –40 to 85 N LLP-64 6.49
Outputs and 3 Inputs LVCMOS/SINE LVDS/ (typ, XO mode) 0-delay LVDS), 100
LVCMOS mode) (LVCMOS)
LMK04826 Ultra Low Jitter Synthesizer LVPECL/LVDS/ LVCMOS/ 0.21 to 2505 3.3 0.08 ps rms 0 ps (typ, 25 –40 to 85 N QFN-64 11.20
and Jitter Cleaner for LVCMOS LVPECL/ (typ, XO 0-delay
JESD204B Interface LVDS/NSDS mode) mode)
LMK04828 Ultra Low Jitter Synthesizer LVPECL/LVDS/ LVCMOS/ 0.29 to 3005 3.3 0.08 ps rms 0 ps (typ, 25 –40 to 85 N QFN-64 11.20
and Jitter Cleaner for LVCMOS LVPECL/ (typ, XO 0-delay
JESD204B Interface LVDS/NSDS mode) mode)

Interface
As transmission rates increase from We offer:

1 Gbps to 10 Gbps to 100 Gbps, signal • Industry standard footprint of high- • Industry’s broadest discrete SerDes
integrity requirements become more speed data buffers supporting multiple supporting multiple standards & coding
stringent for interconnects in chip-to- signaling technologies up to 3.8 GHz schemes providing the highest signal
chip, chip-to-module, and backplane • Industry leading signal conditioners integrity
(repeaters/equalizers, retimers with • Best-in-class optical ICs for
applications in datacom and telecom
CDRs and DFEs) and crosspoint switch/ transceivers
applications. TI has a comprehensive
mux enabling effective management of
porfolio of Interface products to cater to • Bandwidth: 18 GHz, typical
signal integrity issues across different
the needs of Communications segment. • Per-Lane P/N
media and channels
Signal Conditioners: Repeaters, Equalizers and Retimers

9.8 to 12.5 Gbps Quad Channel Retimer
DS125DF410
The DS125DF410 is a four-channel multi-rate retimer with integrated signal condition- Key Features
ing. The device includes an input Continuous-Time Linear Equalizer (CTLE) and a five- • Typical power dissipation (EQ+CDR+DE):
tap Decision Feedback Equalizer (DFE) on each channel. 150 mW / channel
Each channel of DS125DF410 independently locks to serial data at data rates from 9.8 • Typical power dissipation
to 12.5 Gbps or to any supported submultiple of these data rates. A reference clock is (EQ+DFE+CDR+DE): 180 mW / channel
not required, which simplifies system design and lowers overall cost. The device also • Locks to 1/2, 1/4, 1/8 legacy data rates
supports half-rate, quarter-rate and one-eighth-rate for backward compatibility. A proto- • Fast lock operation based on protocol
col select mode is available to speed up lock time. select mode
• Adaptive equalization up to 34 dB boost
at 5 GHz
Line Card
• Adjustable transmit VOD: 600 to 1300
Switch Fabric
mVp-p
DS125RT410 Optical Modules
• Adjustable transmit de-emphasis to –15 dB
x4 • Programmable output polarity inversion
• Input signal detection, CDR lock
DS125DF410
x4
10GE
detection/indicator
ASIC ASIC
CPRI
Interlaken
SFP+ (SFF8431
QSFP (SFF8436)
• On-chip eye monitor (EOM), PRBS
DS125DF410
Connector
Others
generator
x4
• Single 2.5 V ±5% power supply
• SMBus/EEPROM configuration modes
x4
Back
Applications
DS125DF410 Passive Copper
Plane / • Host-side front-port and backplane
Mid
interface, SFF-8431, SFF-8436
Plane • Ethernet: 10 GbE, 1 GbE
• CPRI: Line bit rate options 3–7
Clean Signal Noisy Signal
• Interlaken: All lane bit rates
DS125DF410 typical application
Get more information: www.ti.com/product/DS125DF410

Interface
Signal Conditioners: Repeaters, Equalizers and Retimers
Signal Conditioners: Repeaters, Equalizers, Retimers

Device Channels Function Max Data (Gbps) Input SigCon (dB) Output SigCon (dB) Power/Chn (mW) Package
DS125DF410 4 Retimer with DFE 9.8 to 12.52 36 –12 175 QFN-48
DS110DF410 4 Retimer with DFE 8.5 to 11.32 36 –12 175 QFN-48
DS100DF410 4 Retimer with DFE 1.25 and 10.3 36 –12 175 QFN-48
DS125RT410 4 Retimer 9.8 to 12.52 36 –12 145 QFN-48
DS110RT410 4 Retimer 8.5 to 11.32 36 –12 145 QFN-48
DS100RT410 4 Retimer 1.25 and 10.3 36 –12 145 QFN-48
SN65LVCP1414 4 Repeater/Redriver/Equalizer 14.2 17 Linear 80 QFN-38
SN65LVCP1412 2 Repeater/Redriver/Equalizer 14.2 17 Linear 75 QFN-24
DS125BR401 81 Repeater/Redriver/Equalizer 12.5 32 –12 65 QFN-54
TLK1102E 2 Repeater/Redriver/Equalizer 11.3 30 –7 — VQFN-24
TLK1101E 1 Repeater/Redriver/Equalizer 11.3 30 –7 — QFN-20
TLK6201EA 1 Repeater/Redriver/Equalizer 6.25 13 –12 — QFN-16
SN75LVCP601 2 Repeater/Redriver/Equalizer 6 14 –7 110 QFN-20
SN75LVCP600S 1 Repeater/Redriver/Equalizer 6 15 –1.5 106 QFN-10
DS25BR440 4 Repeater/Redriver/Equalizer 3.125 5 6 134 QFN-40
DS25BR100 1 Repeater/Redriver/Equalizer 3.125 8 6 115 QFN-8
1Bi-directional support 2Includes Support for Divide by 2/4/8
Retimers
Input
Data Rate SigCon Output Power/Ch HiRel
Device Channels Protocol (Gbps) DFE (dB) SigCon (dB) (mW) Avail. Package(s) Price*
DS125DF410 4 Multi-protocol 9.8 to 12.51 5-tap 36 –12 175 N QFN-48 Web
DS125RT410 4 Multi-protocol 9.8 to 12.51 — 36 –12 145 N QFN-48 Web
DS110DF410 4 Multi-protocol 8.5 to 11.31 5-tap 36 –12 175 N QFN-48 Web
DS110RT410 4 Multi-protocol 8.5 to 11.31 — 36 –12 145 N QFN-48 Web
DS100DF410 4 Multi-protocol 1.25 and 10.3 5-tap 36 –12 175 N QFN-48 12.40
DS100RT410 4 Multi-protocol 1.25 and 10.3 — 36 –12 145 N QFN-48 Web
*Suggested resale price in U.S. dollars in quantities of 1,000. See www.ti.com/hirel for HiRel options. 1Legacy rates (divide-by-2/4/8) supported New devices are listed in bold red.
Repeaters/Redrivers
Max Data Input Output SigCon Power/Ch HiRel
Device Channels Protocol (Gbps) SigCon (dB) (dB) (mW) Avail. Package(s) Price*
DS100KR401 81 Multi-protocol3 10.3 36 –12 65 N QFN-54 9.95
DS100KR800 8 Multi-protocol3 10.3 36 –12 65 N QFN-54 9.95
DS100BR410 4 Multi-protocol2 10.3 36 –9 55 N QFN-48 12.00
DS100BR111 21 Multi-protocol 2, 3 10.3 36 –12 65 N QFN-24 5.50
DS100BR210 2 Multi-protocol2, 3 10.3 36 –12 65 N QFN-24 5.50
DS80PCI402 81 PCIe Gen-1/2/3 8 36 –12 65 N QFN-54 Web
DS80PCI800 8 PCIe Gen-1/2/3 8 36 –12 65 N QFN-54 6.95
DS80PCI102 21 PCIe Gen-1/2/3 8 36 –12 65 N QFN-24 Web
DS64BR111 21 Multi-protocol 1 6.4 33 –12 65 N QFN-24 4.95
DS64BR401 81 Multi-protocol1 6.4 33 –12 95 N QFN-54 7.95
DS50PCI402 81 PCIe Gen-1/2 5 26 –12 95 N QFN-54 5.75
DS42BR400 81 Multi-protocol 4.2 5 –9 163 N QFN-60 5.15
DS25BR440 4 Multi-protocol 3.125 5 6 134 N QFN-40 3.75
DS25BR100 1 Multi-protocol 3.125 8 6 115 N QFN-8 2.25
DS25BR400 81 Multi-protocol 2.5 5 –9 163 N QFN-60 3.45
DS15EA101 1 0.8 V Diff. IN 1.5 35 — 210 N QFN-16 5.50
DS15BA101 1 LVDS/LVPECL/CML 1.5 — — 150 N QFN-8 2.25
1Bidirectional channel 2Includes SAS/SATA OOB support 3Includes support for 10G-KR link training support

Interface
Crosspoint and Redundancy MUX
14.2 Gbps Quad Mux, Linear-Redriver with Signal Conditioning

SN65LVCP114
The SN65LVCP114 is an asynchronous, protocol-agnostic, low-latency quad mux, Key Features
linear-redriver optimized for use in systems operating at up to 14.2 Gbps. The device • Quad 2:1 mux/1:2 demux
linearly compensates for channel loss in backplane and active-cable applications. • Multi-rate operation up to 14.2
The architecture of SN65LVCP114 is designed to work effectively with ASIC or FPGA Gbps serial data rate
products implementing digital equalization using decision feedback equalizer (DFE) • Linear receiver equalization which
technology. This device preserves the integrity (composition) of the received signal, increases margin at system level of
ensuring optimum DFE and system performance and provides a low-power mux-demux, decision feedback equalizer
linear-redriver solution while extending the effectiveness of DFE. • Bandwidth: 18 GHz, typical
• Per-Lane P/N pair inversion
• Port or single lane switching
• Low power: 150 mW/channel, typical
SN65LVCP114
Linear Receive
• Loopback mode on all three ports
• I2C control in addition to GPIO
Equalization
AINP [3:0] Linear Driver
AINN [3:0] COUTP [3:0] • DIAG mode that outputs data of line
2X 1
BINP [3:0] COUTN [3:0] side port to both fabric side ports
BINN [3:0] • 2.5-V/3.3-V single power supply
Linear Driver
Linear Receive
Applications
AOUTP [3:0]
Equalization
• High-speed redundancy switch in
AOUTN [3:0]
1X 2
CINP [3:0] telecom and data communication
BOUTP [3:0] CINN [3:0] • Backplane interconnect for 10G-KR,
BOUTN [3:0] 16 GFC
EQA 0
4
LN _[x]_EN Get more information:
www.ti.com/product/SN65LVCP114
4
SEL [x]
EQB 0 3
LP [x]
EQC 0 DIAG
Digital Control PWD #
3
GAIN _[x]
3
VOD _[x]
3
DIS _AGC [x]
I 2 C _SEL
FST _SW
ADD 0/EQA 1 SCL

I 2 C Logic SDA
ADD 1/EQB 1
CS
ADD 2/EQC 1
SN65LVCP114 functional block diagram

Interface

Switch/ Max Data Input SigCon Output SigCon Total Power
Device Protocol Mux (Gbps) (dB) (dB) (mW) Package
SN65LVCP114 Multi-protocol x4 (2:1/1:2) 14.2 EQ Linear/De-E 350/channel NFBGA-167
DS100MB203 Multi-protocol x2 (2:1/1:2) 10.3 EQ De-E 390 QFN-54
DS64MB201 Multi-protocol x2 (2:1/1:2) 6.4 EQ De-E 800 QFN-54
DS42MB200 Multi-protocol x2 (2:1/1:2) 4.25 EQ Pre-E 1000 QFN-48
DS42MB100 Multi-protocol x1 (2:1/1:2) 4.25 EQ Pre-E 450 QFN-36
SN65LVCP408 Multi-protocol 8x8 4.25 EQ Pre-E 864 HTQFP-64
SN65LVCP404 Multi-protocol 4x4 4.25 EQ Pre-E 560 VQFN-48
DS25CP104A Multi-protocol 4x4 3.125 EQ Pre-E 518 QFN-40
DS25CP102 Multi-protocol 2x2 3.125 EQ Pre-E 254 QFN-16
SN65LVDS250 Multi-protocol 4x4 2 NA NA 356 TSSOP-38
SN65LVDS122 Multi-protocol 2x2 1.5 NA NA 340 SOIC-16, TSSOP-16
SN65LVCP23/22 Multi-protocol 2x2 1.3/1 NA NA 165/200 SOIC-16, TSSOP-16
Communications – Data Buffers and Translators (LVDS, M-LVDS, PECL/ECL)
PECL/ECL 1:2 Fanout Buffer

SN65LVEP11
The SN65LVEP11 is a differential 1:2 PECL/ECL fanout buffer. The device includes Key Features
circuitry to maintain known logic levels when the inputs are in an open condition. • 1:2 PECL/ECL fanout buffer
Single-ended clock input operation is limited to VCC ≥3 V in PECL mode, or VEE ≤3 V in • Support for clock frequencies
NECL mode. The device is housed in an industry-standard SOIC-8 package and is also >3.0 GHz
available in a TSSOP-8 package option. • 240 ps typical propagation delay
• Q output will default low when input
is open or at VEE
+
• Drop-in compatible to
Q0 1 8 VCC
MC10LVEP11, MC100LVEP11
• LVDS input compatible
Q0 2 7 D
Applications
• Clock/data buffering
+
• Clock fanout
• Level translation
Q1 3 6 D
• High-speed network routing in
wireless base stations
Q1 4 5 VEE
SN65LVEP11 functional block diagram
Get more information: www.ti.com/product/SN65LVEP11

Interface
LVDS
Part-
to-Part Tx Rx
No. No. Skew tpd tpd ICC ESD Supply
of of Input Output Signaling Max Typ. Typ. Max HBM Voltage HiRel
Device Description Tx Rx Signal Signal Rate (Mbps) (ps) (ns) (ns) (mA) (kV) (V) Avail. Package Price*
Single Family
SN65LVDS1 Driver 1 — LVTTL LVDS 630 — 1.7 — 8 15 3.3 N SOIC-8, SOP-5 0.47
SN65LVDS2 Receiver — 1 LVDS LVTTL 400 — 1.7 2.6 7 15 3.3 N SOIC-8, SOP-5 0.47
SN65LVDS179 Full-Duplex Transceiver, 1 1 LVDS, LVTTL, 400Tx/150Rx — 1.7 3.7 12 12 3.3 Y SOIC-8, 1.35
No Enables LVTTL LVDS VSSOP-8
SN65LVDS180 Full-Duplex Transceiver, 1 1 LVDS, LVTTL, 400Tx/150Rx — 1.7 3.7 12 12 3.3 Y SOIC-14, 1.35
with Enables LVTTL LVDS TSSOP-14
DS90LV001 LVDS Buffer 1 1 LVDS LVDS 800 60 1.4 1.4 70 2.5 3,3 N WSON-8 Web
SOIC-8
DS90LV011A Driver 1 — LVTTL/ LVDS 400 1.2 1.1 — 8 9 3.3 N SOT23-5 0.43
LVCMOS
DS90LT012A Reveiver w/ — 1 LVDS LVCMOS 400 2.5 — 1.8 9 2 2.7 to N SOT23-5 0.49
Termination 3.6
DS90LV012A Receiver — 1 LVDS LVCMOS 400 2.5 — 1.8 9 2 2.7 to N SOT23-5 0.35
3.6
DS90LV017A Driver 1 — LVTTL/ LVDS 600 1.2 1.1 — 8 8 3.3 N SOIC-8 0.57
LVCMOS
DS90LV018A Receiver — 1 LVDS LVCMOS 400 1.5 — 1.7 9 7 3.3 N SOIC-8 0.62
DS90LV019 Driver / Receiver 1 1 LVCMOS LVDS / 100 — 5.6 5.8 20 2 3.3 or 5 N SOIC-14, 1.00
/ LVDS LVCMOS TSSOP-14
Dual Family
SN65LVDS9638 Driver 2 — LVTTL LVDS 400 800 1.7 — 13 8 3.3 N HTSSOP-8, 1.15
SOIC-8,
VSSOP-8
SN65LVDS9637 Receiver — 2 LVDS LVTTL 400Tx/150Rx 1000 — 2.1 10 8 3.3 N HTSSOP-8, 1.15
SOIC-8,
VSSOP-8
SN65LVDS049 Transceiver, Driver and 2 2 LVDS, LVTTL, 400 100 1.3 1.9 35 10 3.3 N TSSOP-16 1.00
Receiver Enable LVTTL LVDS
SN65LVDS050 Transceiver, Driver and 2 2 LVDS, LVDS, 400Tx/150Rx — 1.7 3.7 20 12 3.3 N SOIC-16, 2.00
Receiver Enable LVTTL LVTTL TSSOP-16
SN65LVDS051 Transceiver, Driver 2 2 LVDS, LVDS, 400Tx/150Rx — 1.7 3.7 20 12 3.3 Y SOIC-16, 2.00
Enable Only LVTTL LVTTL TSSOP-16
SN65LVDS1050 Transceiver with 2.7 V 2 2 LVDS, LVTTL, 400Tx/150Rx — 1.7 3.7 20 12 2.7 N TSSOP-16 2.00
Supply LVTTL LVDS
SN65LVDS22 Multiplexed LVDS 2 2 LVDS LVDS 250 — 4 4 20 12 3.3 N SOIC-16, 2.80
Repeater TSSOP-16
DS90LV027A Dual Driver 2 — LVCMOS LVDS 600 1.2 1.1 — 14 8 3.3 N SOIC-8 0.76
DS90LV028A Dual Receiver — 2 LVDS LVCMOS 400 1.5 — 1.7 9 7 3.3 N LLP-8, SOIC-8 0.88
DS90LV049 Dual Driver / Receiver 2 2 LVCMOS LVDS / 400 — 0.7 2 35 7 3.3 N TSSOP-16 1.05
w/ Ganged Enable / LVDS LVCMOS
Quad Family
SN65LVDS047 Driver with Flow- 4 — LVTTL LVDS 400 1000 1.8 — 26 8 3.3 N SOIC-16, 1.30
Through Pinout TSSOP-16
SN65LVDS31 Driver, AM26LS31 4 — LVTTL LVDS 400 800 1.7 — 35 8 3.3 Y SOIC-16, 1.50
Footprint TSSOP-16,
SOP-16
SN65LVDS3487 Driver, MC34987 4 — LVTTL LVDS 400 800 1.7 — 35 8 3.3 N SOIC-16 1.50
Footprint

Interface
(continued)
LVDS
Part-
to-Part Tx Rx
No. No. Skew tpd tpd ICC ESD Supply
of of Input Output Signaling Max Typ. Typ. Max HBM Voltage HiRel
Device Description Tx Rx Signal Signal Rate (Mbps) (ps) (ns) (ns) (mA) (kV) (V) Avail. Package Price*
Quad Family (continued)
SN65LVDS391 Driver with Flow- 4 — LVTTL LVDS 630 1500 1.7 — 26 15 3.3 N SOIC-16, 1.50
SN65LVDS048A Receiver with Flow- — 4 LVDS LVTTL 400 1000 — 2.4 15 10 3.3 N SOIC-16, 1.30
SN65LVDS32 Receiver, AM26LS32 — 4 LVDS LVTTL 400Tx/150Rx 1000 — 2.1 18 8 3.3 Y SOIC-16, 1.50
Footprint TSSOP-16
SOP-16
SN65LVDS3486 Receiver, MC3486 — 4 LVDS LVTTL 400Tx/150Rx 1000 — 2.1 18 8 3.3 N SOIC-16 1.50
Footprint
SN65LVDS390 Receiver with Flow- — 4 LVDS LVTTL 630 1000 — 2.5 18 15 3.3 N SOIC-16, 1.50
SN65LVDS348 High-Speed Receiver — 4 CMOS, LVTTL 560 1000 4 — 20 15 3.3 N SOIC-16, 1.65
with Flow-Through ECL, TSSOP-16
Pinout LVCMOS,
LVDS,
LVECL,
LVPECL,
PECL
DS90C031B Differential Line Driver 4 — TTL LVDS 155.5 4500 2 25 3.5 5 N SOIC-16 1.22
DS90C032B Differential Line Driver — 4 LVDS TTL 155.5 5000 3.4 10 5 5 N SOIC-16 1.22
DS90LV047A Differential Line Driver 4 — LVTTL LVDS 400 1200 0.9 30 10 3.3 N SOIC-16 1.09
DS90LV048A Differential Line Driver — 4 LVDS LVTTL 400 1500 2 15 10 3.3 N SOIC-16 1.09
8-Channel Family
SN65LVDS389 Driver 8 — LVTTL LVDS 630 1500 1.7 — 70 15 3.3 N TSSOP-38 2.90
SN65LVDS388A1 Receiver — 8 LVDS LVTTL 630 1000 — 2.5 40 15 3.3 N TSSOP-38 2.90
16-Channel Family
SN65LVDS387 Driver 16 — LVTTL LVDS 630 1500 1.7 — 95 15 3.3 N TSSOP-64 5.55
SN65LVDS386 Receiver — 16 LVDS LVTTL 630 1000 — 2.5 70 15 3.3 N TSSOP-64 5.55
M-LVDS
Part- Tx Rx TIA/
No. No. Half/ Signaling to-Part tpd tpd ICC ESD EIA-899
of of Rx Full Input Output Rate Skew Typ. Typ. Max HBM Standard HiRel
Device Tx Rx Type Duplex Signal Signal (Mbps) Max (ps) (ns) (ns) (mA) (kV) Compliance Avail. Package Price*
SN65MLVD2 — 1 1 — M-LVDS LVTTL 200 1000 — — 25 9 Yes N SON-8 1.95
SN65MLVD3 — 1 2 — M-LVDS LVTTL 200 1000 — — 25 9 Yes N SON-8 1.95
SN65MLVD200A 1 1 1 Half LVTTL, LVTTL, 100 1000 2.5 3.6 24 8 Yes N SOIC-8 1.55
M-LVDS M-LVDS
SN65MLVD201 1 1 1 Half LVTTL, LVTTL, 200 1000 1.5 4 24 8 Yes N SOIC-8 1.85
M-LVDS M-LVDS
SN65MLVD202A 1 1 1 Full LVTTL, LVTTL, 100 1000 2.5 3.6 24 8 Yes N SOIC-14 1.55
M-LVDS M-LVDS
SN65MLVD203 1 1 1 Full LVTTL, LVTTL, 200 1000 1.5 4 24 8 Yes N SOIC-14 1.85
M-LVDS M-LVDS
SN65MLVD204A 1 1 2 Half LVTTL, LVTTL, 100 1000 2.5 3.6 24 8 Yes N SOIC-8 1.55
M-LVDS M-LVDS
SN65MLVD205A 1 1 2 Full LVTTL, LVTTL, 100 1000 2.5 3.6 24 8 Yes N SOIC-14 1.55
M-LVDS M-LVDS

Interface
M-LVDS (continued)

Part- Tx Rx TIA/
No. No. Half/ Signaling to-Part tpd tpd ICC ESD EIA-899
of of Rx Full Input Output Rate Skew Typ. Typ. Max HBM Standard HiRel
Device Tx Rx Type Duplex Signal Signal (Mbps) Max (ps) (ns) (ns) (mA) (kV) Compliance Avail. Package Price*
SN65MLVD206 1 1 2 Half LVTTL, LVTTL, 200 1000 1.5 4 24 8 Yes N SOIC-8 1.85
M-LVDS M-LVDS
SN65MLVD207 1 1 2 Full LVTTL, LVTTL, 200 1000 1.5 4 24 8 Yes N SOIC-14 1.85
M-LVDS M-LVDS
SN65MLVD047 4 0 — — LVTTL M-LVDS 200 1000 1.5 — 60 12 Yes N SOIC-16, 1.45
TSSOP-16
SN65MLVD048 0 4 1, 2 — M-LVDS LVTTL 250 1000 — 6 25 8 Yes N VQFN-48 3.00
SN65MLVD128 8 1 — — LVTTL M-LVDS 200 800 1.5 1.5 140 8 Yes N TSSOP-48 3.80
SN65MLVD129 8 2 — — LVTTL M-LVDS 200 800 1.5 1.5 140 8 Yes N TSSOP-48 3.80
SN65MLVD040 4 4 1, 2 Half LVTTL, LVTTL, 250 600 2.4 6 90 8 Yes N VQFN-48 3.60
M-LVDS M-LVDS
SN65MLVD080 8 8 1 Half LVTTL, LVTTL, 250 1000 2.4 6 180 8 Yes N TSSOP-64 4.75
LVDS M-LVDS
SN65MLVD082 8 8 2 Half LVTTL, LVTTL, 250 1000 2.4 6 180 8 Yes N TSSOP-64 4.75
LVDS M-LVDS
SN65LVDM179 1 1 — Full LVTTL, LVTTL, 500 1000 1.7 3.7 15 12 — N SOIC-8, 1.70
LVDM LVDM VSSOP-8
SN65LVDM0502 2 2 — Full LVTTL, LVTTL, 500 1000 1.7 3.7 27 12 — Y SOIC-16, 2.20
LVDM LVDM TSSOP-16
SN65LVDM22 2 2 — — LVDM LVDM 250 — 4 4 27 12 — N SOIC-16, 2.50
TSSOP-16
SN65LVDM31 4 0 — — LVCMOS LVDM 150 1000 2.3 — 40 12 — N SOIC-16 1.55
SN65LVDM1676 16 16 — Half LVTTL, LVTTL, 630 1000 2.5 3 175 15 — N TSSOP-64 7.75
LVDM LVDM
DS91C176 1 1 2 Full M-LVDS M-LVDS 200 1300 3.1 5.3 29.5 8 Yes N SOIC-8 1.41
DS91D176 1 1 1 Full M-LVDS M-LVDS 200 1300 3.1 5.3 29.5 8 Yes N SOIC-8 1.40
DS91C180 1 1 2 Half M-LVDS M-LVDS 200 1900 3.1 5.3 29.5 8 Yes N SOIC-8 1.60
DS91D180 1 1 1 Half M-LVDS M-LVDS 200 1900 3.1 5.3 29.5 8 Yes N SOIC-8 1.45
DS91M124 4 1 — — LVCMOS M-LVDS 250 4700 3.9 24 8 Yes N SOIC_N-16 2.20
DS91M125 4 1 — — LVDS, M-LVDS 250 5500 5.5 78 8 Yes N SOIC_N-16 2.20
M0LVDS
DS91M047 4 0 — — LVCMOS M-LVDS 250 3500 3.1 75 8 Yes N SOIC-16 2.67
DS91M040 4 4 1, 2 — LVDS, LVCMOS- 250 4000 3.3 3.1 75 8 Yes N WQFN-32 3.60
M0LVDS M-LVDS

Interface
PECL/ECL
No. No. Tpd ICC ESD Supply
of of Input Output typ Max HBM Voltage HiRel
Device Tx Rx Signal Signal Frequency (pS) (mA) (kV) (V) Avail. Package Pinout Price*
SN65EL11 2 1 ECL/PECL ECL/PECL 1.25 GHz 265 32 3 5 N SOIC-8, TSSOP-8 MC10EL11, MC100EL11 Web
SN65EL16 1 1 ECL TTL 2 GHz 250 23 3 5 N SOIC-8, TSSOP-8 MC10EL16, MC100EL16 Web
SN65ELT20 1 1 TTL PECL 500 Hz 820 16 3 5 N SOIC-8, TSSOP-8 MC10ELT20, MC100ELT20 Web
SN65ELT23 2 2 PECL TTL 150 Hz 3500 27 3 5 N SOIC-8, TSSOP-8 MC10ELT23, MC100ELT23 Web
SN65EPT21 1 1 LVTTL LVPECL 1.25 GHz 420 26 3 3.3 N SOIC-8, TSSOP-8 MC10EPT21, MC100EPT21 Web
SN65EPT22 2 2 LVTTL LVPECL 1.25 GHz 420 50 3 3.3 N SOIC-8, TSSOP-8 MC10EPT22, MC100EPT22 Web
SN65EPT23 2 2 LVPECL LVTTL 1.25 GHz 420 25 3 3.3 N SOIC-8, TSSOP-8 MC10EPT23, MC100EPT23 Web
SN65LVEL11 2 1 ECL ECL 1.5 GHz 265 26 3 2.5 to 3.3 N SOIC-8, TSSOP-8 MC10LVEL11, MC100LVEL11 Web
SN65LVELT22 2 2 LVTTL LVPECL 400 Hz 350 33 3 3.3 N SOIC-8, TSSOP-8 MC10LVEL22, MC100LVEL22 Web
SN65LVELT23 2 2 LVPECL LVTTL 100 Hz 3500 27 3 3.3 N SOIC-8, TSSOP-8 MC10LVELT23, MC100LVELT23 Web
SN65LVEP11 2 1 ECL/PECL ECL/PECL 3 GHz 240 45 3 2.5 to 3.3 N SOIC-8, TSSOP-8 MC10LVEP11, MC100LVEP11 Web
Optical Module ICs

Max DJ Bias Tf/Tr Operating
Data (Typ) Imod-max Current (Typ) VCC Temperature
Device Function (Gbps) (ps) (Max)(mA) Max (mA) (ps) (V) Features Range (ºC) Package
ONET1151M Modulator Driver (with Waveform Shaping) 11.35 5 1.5 Vpp SE None 26 3.3 Digital control –40 to 100 QFN-16
ONET1141L Modulator Driver 11.3 5 2 Vpp SE 160 28 3.3 Digital Control, APC Loop –40 to 100 VQFN-24
ONET1101L Laser Diode Driver 11.3 5 85 100 25 3.3 Digital Control, APC Loop –25 to 100 VQFN-24
ONET8501V VCSEL Driver (with Waveform Shaping) 11.3 4 24 20 24 3.3 Digital Control, APC Loop –40 to 85 QFN-20
ONET1191V VCSEL Driver 11.3 4 45 20 25 3.3 Digital Control, APC Loop –40 to 85 QFN-20
ONET4201LD Laser Diode Driver (w/Active Back Termination) 4.25 13 85 100 55 3.3 APC Loop –40 to 85 VQFN-24
ONET4211LD Laser Diode Driver 4.25 13 85 100 35 3.3 APC Loop –40 to 85 VQFN-24
ONET4291VA VCSEL Driver 4.25 7 14 8.5 35 3.3 Digital Control, APC Loop –40 to 85 QFN-20
Max ICC VIN Operating

Data DJ (Typ) (Nom) tf/tr (Typ) VCC Min(Nom) Temperature
Device Function (Gbps) (ps) (mA) (ps) (V) (mV p-p) Features Range (ºC) Package
ONET8501PB Limiting Amplifier (Rate Selectable) 11.3 3 50 28 3.3 5 LOS, Bandwith Select, –40 to 100 QFN-16
Output Voltage Select
ONET8501P Limiting Amplifier (Rate Selectable) 11.3 4 48 25 3.3 5 LOS, Bandwith Select, –40 to 100 QFN-16
ONET1191P Limiting Amplifier 11.3 4 33 25 3.3 2.5 LOS, Output Voltage –40 to 85 QFN-16
Select
ONET4201PA Limiting Amplifier (with LOS and RSSI) 4.25 3 27 45 3.3 5 LOS –40 to 85 QFN-16
ONET4291PA Limiting Amplifier (Rate-Selectable) 4.25 5 36 45 3.3 2.5 LOS, Bandwith Select, –40 to 85 VQFN-16
ONET4251PA Limiting Amplifier (with LOS and RSSI) 4.25 6 27 35 3.3 50 LOS –40 to 85 QFN-16
Max BW DJ ICC Iin,ovl Operating

Data (Typ) Z (Typ) (Typ) (Nom) (Min) In-rms VCC Temperature
Device Function (Gbps) (GHz) (Ω) (ps) (mA) (mA) (Typ) (nA) (V) Range (ºC)
ONET8521T Transimpedance Amplifier with RSSI (2.4 Kohms) 11.3 9 2400 6 27 2.5 950 3.3 –40 to 100
ONET8531T Limiting Transimpedance Amplifier with RSSI (5 Kohm) 11.3 10 4500 6 28 2.5 900 3.3 –40 to 100
ONET8541T Transimpedance Amplifier with RSSI 11.3 9 4000 6 27 2.5 950 3.3 –40 to 100
ONET8511T Linear Transimpedance Amplifier with RSSI 11.3 8 5500 8 46 2 1000 3.3 –25 to 85
ONET8501T Limiting Transimpedance Amplifier with RSSI 11.3 10 7000 6 28 2.5 900 3.3 –40 to 100
ONET4291TA Transimpedance Amplifier with AGC and RSSI 4.25 2.8 3200 10 17 2 465 3.3 –40 to 85
ONET4291T Transimpedance Amplifier with AGC and RSSI 4.25 2.8 3200 10 17 2 465 3.3 –40 to 85
ONET2591TA Transimpedance Amplifier with AGC and RSSI 2.5 1.8 2600 8.5 14 2 275 3.3 –40 to 85

Interface
SerDes (Serial Gigabit Transceivers)
Quad-Channel XAUI/10 GBASE-KR Transceiver

TLK10034
The TLK10034 is a quad-channel multi-rate transceiver intended for use in high-speed Key Features
bi-directional point-to-point data transmission systems. This device supports three • Dual-channel 470 Mbps to 6.25 Gbps
primary modes. It can be used as a XAUI to 10 GBASE-KR transceiver, as a general- continuous/multi-rate transceiver
purpose 8b/10b multi-rate 4:1, 2:1, or 1:1 serializer/deserializer, or can be used in 1 • Supports all CPRI and OBSAI data
G-KX mode. The four TLK10034 channels are fully independent. They can be operated rates
with different reference clocks, at different data rates, and with different serialization/ • Differential CML I/Os on both high
deserialization ratios. speed and low speed sides
• Interface to backplanes, passive and
active copper cables, or SFP+ optical
modules
XAUI
CHANNEL A • Selectable reference clock per channel
10 GBASE-KR
with multiple output clock options
XGXS
CHANNEL A • Loopback capability on both high
speed and low speed sides
• Two power supplies: 1.0 V, and 1.5 or
XAUI
CHANNEL B 1.8 V nominal
10 GBASE-KR
XGXS CHANNEL B • 65 nm advanced CMOS technology
• Industrial ambient operating tempera-
BACKPLANE
TLK10034
MAC
ture (–40°C to 85°C)

• Power consumption: 825 mW per
XGXS 10 GBASE-KR
XAUI CHANNEL C channel (nominal)
CHANNEL C • Package: 19 mm x 19 mm, 324-pin
PBGA, 1-mm ball-pitch
XGXS 10 GBASE-KR Applications

CHANNEL D
• 10 GBASE-KR compliant backplane
XAUI links
MDC MDIO
CHANNEL D
• 10 gigabit ethernet switch, router, and
network interface cards
TLK10034 functional block diagram • 10 gigabit ethernet blade servers
• Proprietary cable/backplane links
• High-speed point-to-point
transmission systems
Get more information: www.ti.com/product/TLK10034

Interface

HiRel
Device Description Data Rate Serial I/F1 Parallel I/F Power Special Features Avail. Price*
TLK10002 10 Gbps Dual-Channel 0.5 to 10.3125 2-CML 4-CML 1600 mW — N 38.00
Multi-Rate Transceiver Gbps
TLK10034 Quad-Channel 0.5 to 10.3125 4-CML 4-CML 900 mW / — N 45.00
XAUI/10GBASE-KR Gbps channel
Transceiver
TLK10232 Dual-Channel 0.5 to 10.3125 4-CML 4-CML 900 mW/ — N Web
XAUI/10GBASE-KR Gbps channel
Transceiver with
Crosspoint
TLK1221 Single-Ch. 10:1 Gigabit 0.6 to 1.3 Gbps 1-LVPECL 10-LVTTL 235 mW Fast Relock for PON N Web
Ethernet SerDes
TLK1501 Single-Ch. 16:1 SerDes 0.6 to 1.5 Gbps 1-CML 16-LVTTL 200 mW Built-In Testability N 8.40
TLK2501 Single-Ch. 16:1 SerDes 1.6 to 2.5 Gbps 1-CML 16-LVTTL 300 mW Built-In Testability N 12.60
TLK2701 Single-Ch. 16:1 SerDes 1.6 to 2.5 Gbps 1-CML 16-LVTTL 300 mW Built-In Testability and K Character Control N 12.60
TLK2711 Single-Ch. 16:1 SerDes 1.6 to 2.5 Gbps 1-VML 16-LVTTL 350 mW MicroStar Junior™ BGA Packaging Y 10.50
TLK3101 Single-Ch. 16:1 SerDes 2.5 to 3.125 Gbps 1-VML 16-LVTTL 350 mW Built-In Testability N 16.85
TLK2521 Single-Ch. 18:1 SerDes 1.0 to 2.5 Gbps 1-VML 18-LVTTL <550 mW Low Power and Built-In Equalization N 12.60
TLK1521 Single-Ch. 18:1 SerDes 0.6 to 1.3 Gbps 1-VML 18-LVTTL <350 mW Low Power and Built-In Equalization N 10.50
TLK4120 Four-Ch. 18:1 SerDes 0.5 to 1.3 Gbps 4-VML 18-LVTTL <350 mW Four-Channel Version of TLK1521 N 24.00
TLK4250 Four-Ch. 18:1 SerDes 1.0 to 2.5 Gbps 4-VML 18-LVTTL <550 mW Four-Channel Version of TLK2521 N 32.00
TLK4015 Four-Ch. of 16:1 Xcvr 0.6 to 1.5 Gbps/ 4x-CML 16-LVTTL/Ch. 1W Four-Channel Version of TLK1501 N 29.40
Ch.
TLK1211 Single-Ch. 10:1 Gigabit 0.6 to 1.3 Gbps 1-LVPECL 10-LVTTL 200 mW Fast Relock for PON N Web
Ethernet
TLK2541 Single-Ch. 20:1 Txcr 1.0 to 2.6 Gbps 1-LVPECL 20-LVTTL 625 mW Supports Independent 1 and 2.5Gbps Tx/ N Web
Rx EPON OLT Channels
TLK2201BI Single-Ch. 10:1 Gigabit 1.2 to 1.6 Gbps 1-LVPECL 10-LVTTL 200 mW JTAG; 5-Bit DDR Mode, Industrial N 4.65
Ethernet Xcvr Temperature Qualified
TLK2201AJR Single-Ch.10:1 Gigabit 1.0 to 1.6 Gbps 1-LVPECL 10-LVTTL 200 mW MicroStar Junior™ 5mm x 5mm LGA N 4.25
Ethernet Xcvr
TLK2208B Eight-Ch. of 10:1 1.0 to 1.3 Gbps 8-VML 4/5-Bit/Ch. (Nibble DDR Mode), 1W JTAG, MDIO Supported N 31.50
Gigabit Ethernet Xcvr 8/10-Bit/Ch. (Multiplex Ch.
Mode)
TLK2226 Ch. 16:1 Gigabit Six-1.0 to 1.3 6-VML 4/5-Bit RTBI or RGMII <1.5 W MDIO Supported 100-FX Mode Support N 19.65
Ethernet Xcvr Gbps
TLK3118 Four-Ch. 10/8:1 2.5 to 3.125 4x 3.125 8/10-HSTLx4 (XGMII) <2 W Full Redundancy for Four Channels (XAUI) N 80.00
Xcvr with (XAUI) Full Gbps/Ch. Gbps LVPECL
Redundancy (XAUI)
TLK3134 Four-Ch. Multi-Rate 0.6 to 3.75 Gbps 4x 3.125 8/10-HSTLx4 (XGMII) 400 mW/ Built-In Ref. Clock Jitter Cleaner N 35.00
Xcvr Gbps CML Ch.
(XAUI)
TLK3132 Two-Ch. Multi-Rate 0.6 to 3.75 Gbps 2x 3.125 8/10-HSTLx2 400 mW/ Built-In Ref. Clock Jitter Cleaner N Web
Xcvr CML Ch.
TLK3131 Single-Ch. Multi-Rate 0.6 to 3.75 Gbps 1x 3.125 8/10-HSTLx2 400 mW/ Built-In Ref. Clock Jitter Cleaner N Web
Xcvr CML Ch.
TLK6002 Dual-Ch Multi-Rate 0.47 to 6.25 Gbps 2x 6.25 20-HSTL 500 mW/ Integrated Latency Measurement Function N Web
Xcvr Gbps CML Ch. for CPRI/OBSAI
DS32EL0421 FPGA-Link Serializer 1.25 to 3.125 Gbps 1-CML 5D+C, DDR, LVDS 500 mW Transmit De-Emphasis, 8b/10b Encoder, BIST N 8.95
DS32EL0124 FPGA-Link Deserializer 1.25 to 3.125 Gbps 1-CML 5D+C, DDR, LVDS 520 mW Receive Equalization, 8b/10b Decoder, BIST N 8.95
DS32ELX0421 FPGA-Link Serializer w/ 1.25 to 3.125 Gbps 1 + 1-CML 5D+C, DDR, LVDS 500 mW Transmit De-Emphasis, 8b/10b Encoder, N 10.60
Redundant Output BIST, Redundant Output
DS32ELX0124 FPGA-Link Deserializer 1.25 to 3.125 Gbps 1-CML 5D+C, DDR, LVDS 520 mW Receive Equalization, 8b/10b Decoder, N 10.60
w/ Loop Through BIST, Loop Through Driver

Interface
Consumer/Computing – USB
SuperSpeed USB Transceiver with PIPE3 and ULPI Interfaces

TUSB1310
The TUSB1310 is a single-port, 5.0 Gbps USB 3.0 physical layer transceiver operating Key Features
off of a single crystal or an external reference clock. The TUSB1310 provides a clock to • SuperSpeed USB (USB 3.0) compliant
USB link layer controllers. The single reference clock allows the TUSB1310 to provide a One 5.0 Gbps SuperSpeed connection
cost-effective USB 3.0 solution with few external components and a minimum imple- One 480 Mbps HS/FS/LS connection
mentation cost. • Receiver sensitivity of less than
50mV differential peak-to-peak is twice
Crystal as good as required by the specifica-
tion, allowing for simpler board layout
PIPE and longer cable usage to ensure
Link Controller
CPU/FPGA
(16-bit 250MHz)
TUSB1310 SSTX P/N broader compatibility
5.0 Gbps SSRX P/N
• Digital interface
ULPI
(8-bit 60MHz)
DP/DM PIPE3 for SuperSpeed signal path
ULPI for high-speed, full-speed
and low-speed signal path
CLKOUT Applications
TUSB1310 functional block diagram • Surveillance cameras
• High-speed data acquisition systems
Get more information: www.ti.com/product/TUSB1310
SP3T Switch with Impedance Detection Micro-USB Switch to Support USB, UART, Audio and Charger
TSU5511
The TSU5511 is designed to interface cell phone UART, USB and audio chips with Key Features
external peripherals via a micro-USB connector. The switch features impedance • Compatible accessories
detection for identification of various accessories that are attached through DP and USB data cable
DM of the micro-USB port. When an accessory is plugged into the micro-USB port, UART cable
the switch uses a detection mechanism to identify the accessory. It will then switch to Charger (dedicated or host/hub)
the appropriate channel: data, audio or UART. Stereo headset with mic
V SUPPLY
• Integrated LDOs for VREF and mic bias
• USB path supports USB 2.0 high speed
UART_TX
Supply
• Audio path provides negative rail
UART
UART_ RX
Switch 0.6 V
Detect
V BUS
support and click/pop reduction
USB_DM
_
Matrix 3.5 V
DM
• 1.8 V compatible I2C interface
Micro
USB
USB_DP DP USB • ESD performance tested per JESD 22
ID 2000 V human body model
AUDIO_L
AUDIO_R
Negative
Rail and
75µA
200 kΩ 680Ω
2.21 kΩ
(A114-B, Class II)
AUDIO
MIC
Click/Pop
Free
1000 V charged-device model (C101)
• ESD perf. DP/D</ID/VBUS to GND
INT
DP/ DM
LDO
2.3, 2.6 V ±8 kV contact discharge
Logic
Comparators
(IEC 61000-4-2)
...
Processor SDA 10 nF
& I2C
SCL ADC
Noise Filter Cap
±15 kV air gap discharge
(IEC 61000-4-2)
GND ISET DSS = pin on MUIC1
Applications
• Cellular telephones
TSU5511 functional block diagram
Get more information: www.ti.com/product/TSU5511

Interface
SuperSpeed USB-to-SATA bridge

TUSB9261
The TUSB9261 is a SuperSpeed USB function controller with integrated USB-compliant Key Features
transceivers. It is intended as a USB-to-SATA bridge for storage devices using the SATA • Interface supports interoperability with
interface. The TUSB9261 is designed to use both the fast performance of the state all host platforms and the latest high-
machine and the programmability and flexibility of the embedded microcontroller (MCU) performance storage drives to enable
and firmware. With the elaborate balance between the MCU and the state machine, ultra-fast, sync-and-go user experience
it provides a bridge solution to meet both performance and flexibility requirements of SATA revision 2.6-compliant
next-generation external storage devices. USB 2.0 HS/FS and USB 3.0 SS
USB Port Attached SCSI protocol
HS/FS Signals SS Signals
(480Mbps) (5Gbps) Mass storage class bulk-only
transport
USB 2
PHY
USB SS
PHY
HID class
Firmware update support
Applications
USB Controller Interface • Receiver sensitivity of less than 50 mV
• External storage:
differential peak-to-peak is twice as
SSDs
ARM® Memory good as required by the specification,
Cortex®-M3 Subsytem HDDs
allowing for simpler board layout and
Optical drives
SATA II Controller longer cable usage to ensure broader
compatibility
SATA II
PHY
SATA Port
(1.5 or 3.0 Gbps)
TUSB9261 functional block diagram
Get more information: www.ti.com/product/TUSB9261
SuperSpeed USB Host Controllers

TUSB7320/40
The TUSB7320/40 are USB 3.0 xHCI-compliant host controllers that support up to four Key Features
downstream ports. Both parts are available in a pin-compatible 100-pin RKM package. • USB 3.0-compliant xHCI host
The TUSB7320/40 interface to the host system via a PCIe x1 Gen 2 interface and controller
provide SuperSpeed, high-speed, full-speed or low-speed connections on the down- • Downstream ports support
stream USB ports. SS USB Device SuperSpeed, high-speed,
or full-speed/low-speed connections
HS/FS/LS USB
Device • Each downstream port
May be independently enabled or
SS USB Device disabled
or
Applications TUSB7340 HS/FS/LS USB Has adjustments for transmit swing,
PCIe Device
• PCIe host add-in cards de-emphasis and equalization
PC To
• Desktop PCs USB 3.0 settings
Host Controller SS USB Device
• Notebook PCs or May be marked as removable/
HS/FS/LS USB non-removable
Device
Has independent power control and
SS USB Device overcurrent detection
or
HS/FS/LS USB • Best-in-class adaptive receiver
TUSB7320/40 functional block diagram Device equalizer design
Get more information: www.ti.com/product/TUSB7320, www.ti.com/product/TUSB7340

Interface
USB
Max
USB Application Processor HiRel
Device Description Speed Interface ESD HBM (kV) Avail. Package Price*
USB Transcivers (PHYs)
TUSB1105 Advanced USB Full-Speed Transceiver Full Single or Differential ±15 N QFN-16 0.55
TUSB1106 Advanced USB Full-Speed Transceiver Full Differential ±15 N QFN-16, 0.55
TSSOP-16
TUSB1210 USB 2.0 ULPI Transceiver High ULPI ±2 N QFN-32 Call
TUSB1211 USB 2.0 ULPI Transceiver with USB Charger High ULPI ±2 N BGA-36 Call
Detection
TUSB1310 SuperSpeed USB Transceiver SuperSpeed ULPI and PIPE3 ±0.5 N BGA-167 6.00
TUSB2551A Advanced USB Full-Speed Transceiver Full Single ±15 N QFN-16 0.55
USB Peripherals (Functions)

Max Out In
USB Integrated End- End- MCU Code HiRel
Device Description Speed MCU Points Points Space (kB) Avail. Package Price*
TUSB3210 General-Purpose Function Controller Full 8052 3 3 8 N LQFP-64 1.15
TUSB3410 USB-to-Serial Bridge Full 8052 3 3 16 Y LQFP,-32, QFN-32 1.20
TUSB6250 USB-to-IDE (ATA/ATAPI) Bridge High 8051 WARP 4 4 32 N TQFP-80 1.95
TUSB9260 USB-to-SATA Bridge SuperSpeed Cortex®-M3 5 5 64 N HTQFP-64 3.00
TUSB9261 USB-to-SATA Bridge SuperSpeed Cortex-M3 5 5 64 N HTQFP-64 3.00
USB Hubs and Compound Devices

Max
USB Integrated Downstream HiRel
Device Description Speed MCU Ports Avail. Package Price*
TUSB2036 2/3-Port USB Full-Speed Capable Hub Full — 3 N LQFP-32 1.15
TUSB2046B 4-Port USB Full-Speed Capable Hub Full — 4 Y LQFP-32, 1.20
QFN-32
TUSB2077A 7-Port USB Full-Speed Capable Hub Full — 7 N LQFP-48 1.95
TUSB2136 2-Port USB Full-Speed Capable Hub with Integrated 8052 MCU Full 8052 2 N LQGP-64 4.10
TUSB8040A 4-Port USB SuperSpeed Hub SuperSpeed — 4 N WQFN-100 Call
USB Host and On-the-Go (OTG)

Max Max No. HiRel
Device Description USB Speed Local Bus Host Ports Avail. Package Price*
TUSB6020 USB 2.0 High-Speed On-the-Go Local Bus Interface Bridge Controller High VLYNQ 1 Y BGA-80, 6.00
TQFP-80
TUSB7320 PCI Express® to SuperSpeed USB xHCI with 2 USB 3.0 Ports SuperSpeed PCIe Gen2 2 N mRQFN-100 Call
TUSB7340 PCI Express to SuperSpeed USB xHCI with 4 USB 3.0 Ports SuperSpeed PCIe Gen2 4 Y mRQFN-100 Call

Interface
USB 2.0 Signal Switches

VCC (VDD)
rON Off
(min) (max) (typ) Bandwidth Crosstalk Isolation ICC (IDD)
Device Description Configuration (V) (V) (W) (MHz) (dB) (dB) (typ)(µA) Packages
TS3USB221 High-Speed USB 2.0 (480 Mbps) 1:2 Mux/ 2-Channel SPDT 2.3 3.6 6 1100 –40 –41 30 SON-10,
Demux Switch with Single Enable QFN-10
TS3USB221A High-Speed USB 2.0 (480 Mbps) 1:2 Mux/ 2-Channel SPDT 2.3 3.6 3 900 –39 –40 30 QFN-10
Demux Switch with Single Enable with
12 kV HBM ESD Protection
TS3USB31 High-Speed USB 2.0 (480 Mbps) 1:1 Switch 2-Channel SPST 3 4.3 6 1220 –53 –30 1 µQFN-8
TS3USB31E High-Speed USB 2.0 (480 Mbps) 1:1 Switch 2-Channel SPST 2.25 4.3 6.4 1100 –53 –30 1 µQFN-8
with 15 kV HBM ESD Protection
TS5USBA224 USB 2.0 High-Speed (480 Mbps) and Audio 2-Channel SPDT 2.7 5.5 4 650 –31 –22 6 µQFN-10
Switches with Negative Signal Capability and
1.8-V Logic Compatibility
TS3USB30 High-Speed USB 2.0 (480 Mbps) 1:2 Mux/ 2-Channel SPDT 3 4.3 6 955 –56 –39 1 µQFN-10
Demux Switch with Single Enable
TS3USB30E High-Speed USB 2.0 (480 Mbps) 1:2 Mux/ 2-Channel SPDT 3 4.3 6 900 –54 –40 1 VSSOP-10,
Demux Switch with Single Enable with 15 kV TQFN-10
HBM ESD Protection
TS3DS10224 High-Speed 2:4 Differential Multiplexer / 2-Channel 3 3.6 10 1200 –30 –30 50 QFN-20
Demultiplexer 2:4 MUX
TS3USBA225 USB 2.0 High-Speed (480 Mbps) and Audio 2-Channel 2.7 4.3 6.5 1900 –45 –35 25 µQFN-12
Switches with Negative Signal Capability SP3T
and 1.8-V Logic Compatibility and Power-
Down Mode
TS3USB3200 DPDT USB 2.0 HIigh-Speed (480Mbps) and 3-Channel 2.7 4.3 5.7 6000 –83 –83 30 QFN-16
Mobile High-Definition Link (MHL) Switch SPDT
with ID Select and Flexible Power Control
Smart Switches
ICC
Vcc (Vdd)
rON Off (IDD)
Compati- (min) (max) (max) Bandwidth Crosstalk Isolation Max
Device Description Configuration bility nCH (V) (V) (W) (MHz) (dB) (dB) (µA) Packages
TSU5511 Micro-USB Connector to UART Dual SP3T + Audio 2 –1.3 1.3 6 788 –120 –100 70 WCSP-20
and Audio Switches with ID SPST Mic 1 0 2.3 12 573 –125 –37
Detection and Charger Detection USB 2 0 3.6 10 830 –42 –20
UART 2 0 4.4 61 295 –98 –100
TSU6111/A Micro-USB Connector to UART Dual SP2T USB 2 0 4.4 18 950 –32 –26 — QFN-16
and USB Switches with ID
Detection and Charger Detection UART 2 0 4.4 18 950 –32 –26
TSU6712/A Micro-USB Connector to UART, Dual SP3T + Audio 2 –0.8 0.8 5.5 100 –100 –100 150 WCSP-25
USB, Audio and Video Switches Dual SPST Mic 1 0 2.3 70 40 –100 –95
with ID Detection and Charger USB 2 –0.5 2 18 400 –78 –58
Detection
UART 2 0 4.4 15 480 –40 –24
TSU5611 DP3T Switch with Impedence Dual SP3T + Audio 2 –1.3 1.3 3.8 900 –100 –100 60 WLBGA-20
Detection Micro-USB Switch SPST Mic 1 0 2.3 9 573 –100 –55
To Support USB, UART, Audio, USB 2 0 3.6 4.5 920 –40 –29
and Charger Detection
UART 2 0 3.6 4.5 920 –40 –29
TSU8111 Single-Cell Charger and USB Dual SPDT + USB 2 0 3.6 8 920 –32 –26 100 BGA-20
SP2T Switch Supports USB & Charger
UART UART 2 0 3.6 8 920 –32 –26
BQ24392 Charger Detection Device with Dual SPST USB 2 0 3.6 8 920 –32 –26 250 QFN-10
High Speed USB Switch Battery + Charger
Charger Specification v1.2 Detection
TSU6721 MCPC Compatible USB Port Dual SP3T + USB 2 0 3.6 8 920 –32 –26 TBD BGA-25
Multimedia Switch Supports SPDT +SPST UART 2 0 3.6 8 920 –32 –26
USB, UART, Audio, ID, MIC, and Audio 2 –1.5 +1.5 2 450 –85 –100
Load Switch Mic 1 0 2.3 40 40 –85 –95
Load 1 4.0 6.5 0.15 — — —
Switch

Interface
Consumer/Computing – 1394
IEEE P1394b Three-Port Cable Transceiver Arbiter

TSB81BA3E
The TSB81BA3E provides the digital and analog transceiver functions needed to imple- Key Features
ment a three-port node in a cable-based IEEE 1394 network.The transceivers include • Fully supports provisions of IEEE
circuitry to monitor the line conditions as needed for determining connection status, for P1394b revision 1.33+ at 1Gb
initialization and arbitration, and for packet reception and transmission. signaling rates
• Fully supports provisions of IEEE
R0
1394a-2000 and 1394-1995 standard
CPS Bias Voltage R1 for high-performance serial bus
LPS Received Data and
CNA Decoder/Retimer TPBIAS0 • Fully interoperable with FireWire®,
Current TPBIAS1
PINT
PCLK
Generator
TPBIAS2 i.LINK®, and SB1394™,
LCLK implementation of IEEE Std 1394
LREQ
CTL0 Link • Provides three fully backward-
CTL1 Interface TPA0+
I/O TPA0− compatible, (1394a-2000 fully
D0
D1 compliant) bilingual P1394b cable
D2
D3 ports at up to 800 Mbps
D4 Bilingual • Provides three 1394a-2000 fully
D5 Cable Port 0
D6 TPB0+ compliant cable ports at 100/200/400
D7 TPB0−
Arbitration Mbps
RESETz and Control
LKON/DS2 State Machine • Power-down features to conserve
BMODE Logic energy in battery-powered applications
PD TPA1+
PC0 Bilingual TPA1− • Low-power sleep mode
PC1 Cable Port 1
PC2 TPB1+ • Data interface to link-layer controller
SE TPB1−
pin-selectable from 1394a-2000 mode
SM TPA2+
DS0 Bilingual TPA2− (2/4/8 parallel bits at 49.152 MHz) or
DS1
TESTM Cable Port 2 TPB2+ 1394b mode (8 parallel bits at
TESTW TPB2− 98.304 MHz)
Crystal Oscillator, Applications

PLL System,
XI • Storage devices
and Transmit
Clock Generator
• Consumer electronics
Voltage Transmit • Desktop PCs
Regulator Data
Encoder
TSB81BA3E functional block diagram
Get more information: www.ti.com/product/TSB81BA3E

Interface
Consumer/Computing – 1394
1394 PHY
Voltage Data Rate HiRel
Device Description Ports (V) (Mbps) Avail. Package Price*
TSB41AB1 IEEE 1394a One-Port Cable Transceiver/Arbiter 1 3.3 Up to 400 N HTQFP-48/64, 1.50
BGA-64/80 MicroStar Junior™
TSB41AB2 IEEE 1394a Two-Port Cable Transceiver/Arbiter 2 3.3 Up to 400 N HTQFP-64 1.85
TSB41AB3 IEEE 1394a Three-Port Cable Transceiver/Arbiter 3 3.3 Up to 400 Y HTQFP-80 3.00
TSB41BA3D S400-Capable 1394b Physical Layer (PHY) 3 3.3 Up to 400 N HTQFP-80 6.40
TSB81BA3E IEEE P1394b Three-Port Cable Transceiver Arbiter 3 1.8, 3.3 Up to 800 Y BGA-168, 5.40
HTQFP-80
1394 Link Layer

Device Description FIFO (V) (Mbps) Avail. Package Price*
TSB12LV32 General-Purpose Link Layer Controller (GP2Lynx) 4 3.3 Up to 400 Y LQFP-100 6.05
TSB42AC3 High-Performance 1394-1995 Link Layer for Industrial and 10 3.3 Up to 400 N TQFP-100 9.50
Bridge Applications
TSB82AA2B 1394b OHCI-Lynx Controller 11 3.3 Up to 800 Y LQFP-144 2.65
1394 Integrated Devices

Device Description FIFO Ports (V) (Mbps) Avail. Package Price*
TSB43AB21A OHCI 1.1, 1394a Link Layer Controller Integrated with 1394a, 9 1 3.3 Up to 400 Y TQFP-128 4.45
400 Mbps, 1-Port PHY
TSB43AB22A OHCI 1.1, 1394a Link Layer Controller Integrated with 1394a, 9 2 3.3 Up to 400 N TQFP-128 3.80
TSB43AB23 OHCI 1.1, 1394a Link Layer Controller Integrated with 1394a, 9 3 3.3 Up to 400 Y TQFP-128, LQFP-144 4.25
TSB43EB42 IEEE Std 1394a-2000 Consumer Electronics Solution — 2 1.5, 3.3 Up to 400 N BGA-144 7.95
MicroStar Junior
TSB83AA22C IEEE Std 1394b-2002 PHY and OHCI Link Device 11 2 1.95, 3.3 Up to 800 N BGA-168 8.50
TSB83AA23 Integrated IEEE-1394.B OHCI Link and 3-Port S800 PHY 11 3 1.95, 3.3 Up to 800 N NFBGA-167 9.00
XIO2213B x1 PCIe-to-1394b OHCI Host Controller and 3-Port S800 PHY 8 3 1.5, 1.95, 3.3 Up to 800 N NFBGA-167, BGA-168 5.75
XIO2221 x1 PCIe-to-1394b OHCI Host Controller and 1-Port S800 PHY 8 1 1.5, 3.3 Up to 800 N NFBGA-167 4.90

Interface
Consumer/Computing – DisplayPort Switch/Redriver
DisplayPort 1:2 Switch with Integrated TMDS Translator

SN75DP122A
The SN75DP122A is a one dual-mode DisplayPort input to one dual-mode DisplayPort Key Features
output or one TMDS output. The TMDS output has a built-in level translator compliant • One input port to one of two
with Digital Video Interface (DVI) 1.0 and High Definition Multimedia Interface (HDMI) output ports
1.3b. The DisplayPort output follows the input signal in a manner that provides the • Integrated TMDS level translator with
highest level of signal integrity while supporting the EMI benefits of spread-spectrum receiver equalization
clocking. Through the SN75DP122A, data rates of up to 2.7 Gbps through each link • DP port supports data rates up to
for a total throughput of up to 10.8 Gbps can be realized. The SN75DP122A supports 2.7 Gbps
Display Port Spec 1.1a. In addition to the switching of the DisplayPort high-speed • DP port supports dual-mode
signal lines, the SN75DP122A also supports the switching of the bidirectional auxiliary DisplayPort
(AUX), Hot Plug Detect (HPD) and Cable Adapter Detect (CAD) channels. • DP port output waveform mimics
input waveform characteristics
• TMDS port supports data rates up
DisplayPort to 2.5 Gbps
Enabled
Monitor or HDTV • Integrated I2C logic block for DVI/
HDMI connector recognition
DP++
Applications
GPU DP++ SN75DP122A
• Personal computer market
TMDS
HDMI/DVI
Desktop PC
Computer/Notebook/Docking Station Monitor or HDTV Notebook PC
Docking station
Standalone video card
SN75DP122A functional block diagram
Get more information: www.ti.com/product/SN75DP122A
Display Port Switch/Redriver

No. of No. of
DisplayPort No. of DisplayPort
Dual Mode TMDS Dual Mode HiRel
Device Description Inputs Outputs Outputs Avail. Package Price*
SN75DP118 DisplayPort 1:1 Repeater 1 — 1 N VQFN-36 1.20
SN75DP119 Embedded DisplayPort (eDP) Repeater 1 — 1 N VQFN-14, VQFN-36 0.80
SN75DP120 DisplayPort 1:1 Dual-Mode Repeater 1 — 1 N VQFN-36 1.50
SN75DP121 2-Lane Embedded DisplayPort (eDP) 2:1 Signal Conditioner 1 — 2 N QFN-32 Call
SN75DP122A DisplayPort 1:2 Switch with Integrated TMDS Translator 1 1 1 N QFN-56 1.90
SN75DP128A DisplayPort 1:2 Switch 1 — 2 N QFN-56 1.65
SN75DP129 DisplayPort to TMDS Translator 1 1 — N VQFN-36 1.30
SN75DP130 5.4 Gbps DisplayPort Redriver 1 — 1 N QFN-48 Call
SN75DP139 DisplayPort to TMDS Translator 1 1 — N VQFN-48 1.05
SN75DP219 2-Lane Embedded 5.4 Gbps DisplayPort (eDP) Signal Conditioner 1 — 1 N QFN-14 Call
DS32EV400 1/2/4 Lane DisplayPort Equalizer — — — N LLP-48 4.50
DS34RT148 Display Port to HDMI Translator with Retimer 1 — — N — Call

Interface
Consumer/Computing – Flatlink™/FPD-LINK
High Definition Image Sensor Receiver

SN65LVDS324
The SN65LVDS324 is a SubLVDS deserializer that recovers words, detects sync codes, Key Features
multiplies the input DDR clock by a ratio, and outputs parallel CMOS 1.8 V data on • Bridges the interface between video
the rising clock edge. It bridges the video stream interface between HD image sensors image sensors and processors
made by leading manufacturers, to a format that common processors can accept. The • Outputs 1.8 V CMOS with 10-/12-/14-
supported pixel frequency is 18.5 MHz to 162 MHz — suitable for resolutions from VGA /16-bits at 18.5 MHz to 162 MHz
to 1080p60. With integrated differential input termination, and a footprint of 4.5 × 7 mm, • SubLVDS inputs support up to 648
the SN65LVDS324 provides a differentiated solution with optimized form, function, and Mbps
cost. It operates through an ambient temperature range of –40°C to 85°C. • Integrated 100 Ω differential input
termination
10 to 16-bit data • Test image generation feature
HD SN65LVDS324
SubLVDS data • De-serialize • Compatible with TI OMAP™ and
Vsync/Hsync
Image • Recover words Video DaVinci™ Including DM385, DM8127,
SubLVDS clock Clock
Sensor • Decode syncs
Processor DM36x, and DMVA
• Multiply clock
• Low power 1.8 V CMOS process
I2C or SPI I2C • Configurable output conventions
• Packaged in 4.5 × 7 mm BGA
SN65LVDS324 functional block diagram
Applications
• IP network cameras
Get more information: www.ti.com/product/SN65LVDS324 • Machine vision
• Video conferencing
• Gesture recognition
FlatLink™/FPD-LINK LVDS Receivers and Transmitters

Parallel Data PLL Supply
Inputs or Serial Throughput Frequency Voltage HiRel
Device Description Outputs Chs. (Mbps) (MHz) (V) Avail. Package Price*
FlatLink LVDS Receiver
SN65LVDS324 High Definition Image Sensor Receiver 18 12 324 18 to 162 1.8 N 59BGA MicroStar Junior™ 2.65
SN75LVDS86A FlatLink Receiver 21 3 1428 32 to 68 3.3 N TSSOP-48 2.40
SN75LVDS82 FlatLink Receiver 28 4 1904 31 to 68 3.3 N TSSOP-56 2.45
DS90CF386 FPD-Link (FlatLink) Receiver 28 4 2380 20 to 85 3.3 N TSSOP-56 3.26
DS90CF388 Dual FPD-Link (FlatLink) Receiver 51 8 5712 40 to 112 3.3 N TQFP-100 4.91
DS90C3202 Dual FPD-Link (FlatLink) Receiver 70 10 9450 8 to 135 3.3 N TQFP-128 3.80
DS90CR216A Rising Edge Data Strobe Channel Link 21 3 1386 20 to 66 3.3 N TSSOP-48 2.48
DS90CR286A Rising Edge Data Strobe Channel Link 28 4 1848 20 to 66 3.3 Y TSSOP-56 3.32
DS90CR484A Rising Edge Data Strobe Channel Link 48 8 5376 33 to 112 3.3 N TQFP-100 8.06
DS90CR486 Rising Edge Data Strobe Channel Link 48 8 6384 66 to 133 3.3 N TQFP-100 9.28

Interface
Consumer/Computing – Flatlink™/FPD-LINK
FlatLink™/FPD-LINK LVDS Receivers and Transmitters (continued)

Parallel Data PLL Supply
Inputs or Serial Throughput Frequency Voltage HiRel
Device Description Outputs Chs. (Mbps) (MHz) (V) Avail. Package Price*
FlatLink LVDS Transmitter
SN75LVDS84A FlatLink Transmitter 21 3 1575 31 to 75 3.3 N TSSOP-48 2.35
SN75LVDS83B FlatLink 10-135 MHz Transmitter 28 4 3780 10 to 135 3.3 N BGA-56 MicroStar 2.60
Junior™, TSSOP-56
SN75LVDS83A/C FlatLink 10-135 MHz Transmitter 28 4 2380 10 to 135 3.3 N BGA-56 MicroStar 2.80
Junior
DS90C385A FPD-Link (FlatLink) Transmitter 28 4 2380 20 to 85 3.3 N TSSOP-56 2.00
DS90C187 Low Power 1.8 V Dual Pixel FPD-Link 53 8 5565 29 to 105 1.8 N LFA92A 3.95
(LVDS) Serializer (185)
DS90C185 Low Power 1.8 V FPD-Link (LVDS) 28 4 2940 25 to 105 1.8 N LLP-48 2.50
Serializer
DS90C387 Dual FPD-Link (FlatLink) Transmitter 51 8 5712 32.5 to 112 3.3 N TQFP-100 4.91
DS90C3201 Dual FPD-Link (FlatLink) Transmitter 70 10 9450 8 TO 135 3.3 N TQFP-128 3.80
DS90CR215 Rising Edge Data Strobe Channel Link 21 3 1386 20 to 66 3.3 N TSSOP-48 2.48
DS90CR483A Rising Edge Data Strobe Channel Link 48 8 5376 33 to 112 3.3 N TQFP-100 8.40
DS90CR485 Rising Edge Data Strobe Channel Link 48 8 6384 66 to 133 3.3 N TQFP-100 9.28
FlatLink 3G Receiver
SN65LVDS302 Programmable 27-Bit Display Serial 27 3 1755 4 to 65 1.8 N BGA-80 MicroStar Junior 2.25
Interface Receiver
SN65LVDS304 QVGA-VGA 27-Bit Display Serial 27 2 810 4 to 30 1.8 N BGA-80 MicroStar Junior 2.05
Interface Receiver
SN65LVDS306 QVGA-HVGA 27-Bit Display Serial 27 1 405 4 to 15 1.8 N BGA-80 MicroStar Junior 1.85
Interface Receiver
Interface Receiver
Interface Receiver
FlatLink 3G Transmitter
SN65LVDS301 Programmable 27-Bit Display Serial 27 3 1755 4 to 65 1.8 N BGA-80 MicroStar Junior 2.25
Interface Transmitter
SN65LVDS311 Programmable 27-Bit Display Serial 27 3 1755 4 to 65 1.8 N DSBGA-49 2.10
Panelbus™ (DVI) Transmitters and Receivers

Data
Voltage Receiver/Transceiver Parallel Speed ICC HiRel
Device Description (V) Channels Outputs (Mbps) (mA) Avail. Package Price*
TFP401A DVI Receiver, 165 MHz , HSYNC Jitter Immunity 3.3 3 48 495 400 Y HTQFP-100 4.00
TFP403 DVI Receiver 3.3 3 48 495 400 N HTQFP-100 5.45
TFP410 DVI Transmitter, 165 MHz 3.3 3 6 495 250 Y HTQFP-64 3.00

Interface
SerDes – Automotive
24-Bit Color FPD-Link III Deserializers with Bidirectional Control Channel

DS90UB925Q-Q1, DS90UB926Q-Q1
The DS90UB926Q deserializer, in conjunction with the DS90UB925Q serializer, provides Key Features
a complete digital interface for concurrent transmission of high-speed video, audio, and • Bidirectional control interface channel
control data for automotive display and image sensing applications. interface with I2C
• compatible serial control bus
This chipset translates a parallel
• Supports high definition (720p) digital
RGB video interface into a single Regulator SSCG video format
pair high-speed serialized interface.
CMF
• RGB888 + VS, HS, DE and synchro-
The serial bus scheme, FPD-Link III, 24 nized I2S audio supported
DC Balance Decoder
Serializer to Parallel
ROUT [23:0]
supports full duplex of high speed
• 5 to 85 MHz PCLK supported
Output Latch
RIN+ HS
forward data transmission and low VS
RIN- DE • Single 3.3 V operation with 1.8 V or
speed backchannel communica-
4 I2S_CLK 3.3 V compatible LVCMOS I/O interface
tion over a single differential link. CMLOUTP I2S_WC
CMLOUTN I2S_DA • AC-coupled STP Interconnect up to
Consolidation of video data and MCLK 10 meters
control over a single differential pair Error
BISTEN
Detector
PASS • Parallel LVCMOS video outputs
reduces the interconnect size and BISTC
PDB • Low power modes minimize power
weight, while also eliminating skew SCL Timing and Clock and PCLK
SCA Control Data dissipation
issues and simplifying IDx Recovery LOCK
MODE_SEL • Automotive grade product: AEC-Q100
system design.
Grade 2 qualified
DS90UB926Q Deserializer
Applications
DS90UB925/6 functional block diagram • Automotive display for navigation
• Rear seat entertainment systems
Get more information: www.ti.com/product/DS90UB925Q-Q1 • Automotive drive assistance
www.ti.com/product/DS90UB926Q-Q1 • Automotive megapixel camera systems
Automotive SerDes
Pixel Clock Signal Signal
Device - Device - Color Range External Conditioning Conditioning Special
Serializer Deserializer Depth (MHz) Interface EMI Mitigation - SER - DES Diagnostics Features Package Price*
FPD-Link III (AECQ)
HDCP, I2S
DS90UH925Q DS90UH926Q 24 bpp 5-85 LVCMOS Coding, SSCG De-E Adapt. EQ BIST, TPG LLP-48/LLP-60 TBD
Audio
DS90UB925Q DS90UB926Q 24 bpp 5-85 LVCMOS Coding, SSCG De-E Adapt. EQ BIST, TPG Dithering LLP-48/LLP-60 TBD
DS90UB913Q DS90UB914Q 10/12 bpp 10-100 LVCMOS Coding, SSCG — Adapt. EQ BIST Jitter Tolerant LLP-32/LLP-48 TBD
DS90UB903Q DS90UB904Q 18 bpp 10-43 LVCMOS Coding, SSCG — EQ BIST — LLP-40/LLP-48 5.85
DS90UB901Q DS90UB902Q 14 bpp 10-43 LVCMOS Coding, SSCG — EQ BIST CRC LLP-32/LLP-40 5.61
FPD-Link II (AECQ)
PTO, SSCG,
DS90UR907Q DS90UR908Q 24 bpp 5-65 LVDS De-E EQ BIST — LLP-36/LLP-48 8.25
LVDS
PTO, SSCG,
DS90UR905Q DS90UR906Q 24 bpp 5-65 LVCMOS De-E EQ BIST — LLP-48/LLP-60 7.50
Slew
DS90UR903Q DS90UR904Q 18 bpp 10-43 LVCMOS Coding, SSCG — EQ BIST — LLP-40/LLP-48 TBD
DS99R421Q DS99R124Q 18 bpp 5-43 LVCMOS LVDS — — BIST — LLP-36/LLP-48 6.15
DS90UR241Q DS90UR124Q 18 bpp 5-43 LVCMOS PTO, Slew Pre-E — BIST — TQFP-48/TQFP-64 5.30
DS90C241Q DS90C124Q 18 bpp 5-35 LVCMOS PTO, Slew Pre-E — — — TQFP-48/TQFP-48 5.20
Device - Device - Color Pixel Clock External CLK Serial

Serializer Deserializer Depth Range (MHz) Interface Edge Description Channels Package Price*
FlatLinkTM/FPD-Link I (AECQ)
DS90CF384AQ — 24 bpp 20-65 LVCMOS Falling 28 Bit Des Supports 24 bpp + 4 control 4D+C TSSOP-56 2.57
DS90CR286AQ — 24 bpp 20-66 LVCMOS Rising 28 Bit Des Supports 24 bpp + 3 control + 1 GP 4D+C TSSOP-56 4.76
SN65LVDS86A-Q1 — 18 bpp 32-68 LVCMOS Falling 21 Bit Des Supports 18 bpp + 3 control 3D+C TSSOP-48 2.80
SN65LVDS84AQ-Q1 — 18 bpp 31-75 LVCMOS Falling 21 Bit Ser Supports 18 bpp + 3 control 3D+C TSSOP-48 2.75
*Suggested resale price in U.S. dollars in quantities of 1,000. New products are listed in bold red.

Interface
SerDes – Video and Imaging
3 Gbps HD/SD SDI Low Power Reclocker with Eye Monitor

LMH0366
The LMH0366 3 Gbps HD/SD SDI Low Power Reclocker with Integrated Eye Monitor Key Features
retimes serial digital video data conforming to the SMPTE ST 424, SMPTE ST 292, and • SMPTE ST 424, SMPTE ST 292, and
SMPTE ST 259-C standards. SMPTE ST 259-C compliant
• Supports 125 Mbps, 270 Mbps, 1.4835
The LMH0366 automatically detects the incoming data rate and retimes the data to
Gbps, 1.485 Gbps, 2.967 Gbps, and 2.97
suppress accumulated jitter. The reclocker recovers the serial data-rate clock and
• Gbps serial data rate operation
optionally provides it as an output. The LMH0366 has two differential serial data outputs
• Supports DVB-ASI at 270 Mbps and
and offers flexibility in selecting the output signals between the reclocked data, recov-
MADI at 125 Mbps
ered clock, or bypassed data. The output drivers offer programmable de-emphasis for
• 100 mW typical power consumption
up to 40” of FR4 trace losses, in addition to programmable common mode voltage and
(145 mW with both output drivers
swing for flexible interfacing.
enabled)
SPI Interface • Input equalization (0–60 & Prime FR4)
Control Eye
Control Pins
Logic Monitor and input signal detection
• Two differential, reclocked outputs with
Bypassed Data option of recovered clock
• Output de-emphasis to compensate
SDO1
Output SDO1 for up to 40” of FR4 trace losses
Recovered Clock
Select
• 64 × 64 point eye opening monitor
• 27 MHz external reference or refer-
Clock and enceless operation
SDI FR4 EQ Data
Reclocked Data
Recovery
SDO0
Output SDO0
Applications
Bypassed Data Select
• SMPTE ST 424, SMPTE ST 292, and
ST SMPTE 259 serial digital interfaces
LMH0366 functional block diagram • Broadcast video routers, switchers,
and distribution amplifiers
Broadcast and Professional Video – Serial Digital Interface

Max Data Power Supply Temp. Power
Rate Consumption Voltage In/Out ESD HB Range Down Control
Device Description (Mbps) (mW) (V) Count (kV) (ºC) Mode Interface Package Price*
LMH0394 3 Gbps HD/SD SDI Low Power Extended Reach 2970 115 2.5 1/1 6 –40 to 85 Y Pin/SPI LLP-16 18.95
Adaptive Cable Equalizer
LMH0395 3 Gbps HD/SD SDI Dual Output Low Power 2970 140 2.5 1/2 6 –40 to 85 Y Pin/SPI LLP-24 19.90
Extended Reach Adaptive Cable Equalizer
LMH0384 3 Gbps HD/SD SDI Extended Reach and 2970 230 3.3 1/1 6.5 –40 to 85 Y Pin/SPI LLP-16 16.20
Configurable Adaptive Cable Equalizer
LMH0344 3 Gbps HD/SD SDI Adaptive Cable Equalizer 2970 280 3.3 1/1 8 –40 to 85 N Pin LLP-16, 13.50
u-Array-25
LMH0044 SMPTE 292M/259M Adaptive Cable Equalizer 1485 210 3.3 1/1 8 0 to 85 N Pin LLP-16 12.40
LMH0024 SMPTE 259M/344M Adaptive Cable Equalizer 540 200 3.3 1/1 8 –40 to 85 N Pin LLP-16 8.36
LMH0034 SMPTE 292M/259M Adaptive Cable Equalizer 1485 210 3.3 1/1 8 0 to 85 N Pin LLP-16 12.40
LMH0074 SMPTE 259M/344M Adaptive Cable Equalizer 540 210 3.3 1/1 8 –40 to 85 N Pin LLP-24 8.36
LMH0387 3 Gbps HD/SD SDI Configurable I/O Adaptive Cable 2970 235 3.3 1/1 6 –40 to 85 Y Pin/SPI eTSSOP-20 13.00
Equalizer/Cable Driver
LMH0376 3 Gbps HD/SD SDI Low Power Reclocker with Eye 2970 100 2.5 4/2 6 –40 to 85 Y Pin/SPI LLP-48 WEB
Monitor and 4:1 Input Mux
LMH0366 3 Gbps HD/SD SDI Low Power Reclocker with Eye 2970 100 2.5 1/2 6 –40 to 85 Y Pin/SPI LLP-24 WEB
Monitor
LMH0356 3 Gbps HD/SD SDI Reclocker with 4:1 Input Mux 2970 430 3.3 4/2 8 –40 to 85 Y Pin/ LLP-48, 22.50
and FR4 EQs SMBus LLP-40

Interface
Broadcast and Professional Video – Serial Digital Interface (continued)

Max Data Power Supply Temp. Power
Rate Consumption Voltage In/Out ESD HB Range Down Control
Device Description (Mbps) (mW) (V) Count (kV) (ºC) Mode Interface Package Price*
LMH0346 3 Gbps HD/SD SDI Reclocker with Dual Differential 2970 365 3.3 1/2 8 –40 to 85 N Pin/ eTSSOP-20, 21.00
Outputs SMBus LLP-24
LMH0056 HD/SD SDI Reclocker with 4:1 Input Multiplexer 1485 360 3.3 4/2 8 –40 to 85 N Pin LLP-48 18.50
LMH0046 HD/SD SDI Reclocker with Dual Diff Outputs 1485 330 3.3 1/2 7 –40 to 85 N Pin eTSSOP-20 17.00
LMH0036 SD SDI Reclocker with 4:1 Input Multiplexer 270 360 3.3 4/2 8 –40 to 85 N Pin LLP-48 13.00
LMH0026 SD SDI Reclocker with Dual Differential Outputs 270 330 3.3 1/2 7 –40 to 85 N Pin eTSSOP-20 12.10
LMH0307 3 Gbps HD/SD SDI Dual Output Cable Driver with 2970 275 3.3 1/2 8 –40 to 85 Y Pin/ LLP-16, 6.20
Cable Detect SMBus u-Array-25
LMH0303 3 Gbps HD/SD SDI Cable Driver with Cable Detect 2970 155 3.3 1/1 8 –40 to 85 Y Pin/ LLP-16 5.45
SMBus
LMH0302 3 Gbps HD/SD SDI Cable Driver 2970 165 3.3 1/1 4.5 –40 to 85 Y Pin LLP-16 4.95
LMH0202 SMPTE 292M/259M Serial Digital Cable Driver 1485 300 3.3 2/2 5 0 to 70 N Pin TSSOP-16 6.84
LMH0002 SMPTE 292M/259M Serial Digital Cable Driver 1485 150 3.3 1/1 5 –40 to 85 N Pin SOIC-8, 3.75
LLP-16
LMH0001 SMPTE 259M/344M Serial Digital Cable Driver 540 125 3.3 1/1 5 –40 to 85 N Pin LLP-16 2.75
CLC001 Serial Digital Cable Driver with Adjustable Outputs 622 230 3.3 1/1 7 –40 to 85 N Pin SOIC-8 2.00
CLC007 Serial Digital Cable Driver with Dual 400 195 5 1/2 1 –40 to 85 N Pin SOIC-8 3.90
Complementary Outputs
CLC006 Serial Digital Cable Driver with Adjustable Outputs 400 185 5 1/1 1 –40 to 85 N Pin SOIC-8 4.95
Broadcast and Professional Video – SerDes

Max Data Power Supply Temp.
Rate Consumption Voltage Range Special
Device Description (Mbps) (mW) (V) Inout Output (ºC) Feature Package Price*
CLC020 SMPTE 259M Serializer with Integrated Cable Driver 400 235 5 8/10 bit 1 diff 0 to 70 Cable Driver PLCC-28 20.00
CLC021 SMPTE 259M Serializer with EDH Generation/Insertion 400 110/235 3.3 or 5 8/10 bit 1 diff 0 to 70 Cable Driver PQFP-44 26.00
LMH0030 SMPTE 292M/259M Serializer with Video and Ancillary Data 1485 430 3.3/2.5 10/20 1 diff 0 to 70 Cable Driver TQFP-64 23.90
FIFOs and Cable Driver bit
LMH0031 SMPTE 292M/259M Deserializer / Descrambler with Video and 1485 705 3.3/2.5 1 diff 10/20 bit 0 to 70 — TQFP-64 23.90
Ancillary Data FIFOs
LMH0040 HD, SD, DVB-ASI SDI Serializer and Driver with LVDS Interface 1485 440 3.3/2.5 LVDS 1 diff –40 to 85 Cable Driver LLP-48 17.90
LMH0041 HD, SD, DVB-ASI SDI Deserializer with Loopthrough and LVDS 1485 480 3.3/2.5 2 diff LVDS –40 to 85 Loop Through LLP-48 18.60
Interface
LMH0050 HD, SD, DVB-ASI SDI Serializer with LVDS Interface 1485 460 3.3/2.5 LVDS 1 diff –40 to 85 CML Driver LLP-48 17.50
LMH0051 HD, SD, DVB-ASI SDI Deserializer with LVDS Interface 1485 480 3.3/2.5 2 diff LVDS –40 to 85 Loop Through LLP-48 17.50
LMH0070 SD, DVB-ASI SDI Serializer and Driver with LVDS Interface 270 400 3.3/2.5 LVDS 1 diff –40 to 85 Cable Driver LLP-48 12.80
LMH0071 SD, DVB-ASI SDI Deserializer with Loopthrough and LVDS 270 450 3.3/2.5 2 diff LVDS –40 to 85 Loop Through LLP-48 13.40
Interface
LMH0340 3 Gbps, HD, SD, DVB-ASI SDI Serializer and Driver with LVDS 2970 475 3.3/2.5 LVDS 1 diff –40 to 85 Cable Driver LLP-48 21.40
Interface
LMH0341 3 Gbps, HD, SD, DVB-ASI SDI Deserializer with Loopthrough and 2970 520 3.3/2.5 2 diff LVDS –40 to 85 Loop Through LLP-48 22.10
LVDS Interface
Broadcast and Professional Video – Video Timing

Device Description Supply Voltage (V) Temp. Range (ºC) Package Price*
LM1881 Video Sync Separator 5, 5 to 12 –40 to 85 MDIP-8, SOIC-8 1.24
LMH1980 Auto-Detecting SD/HD/PC Video Sync Separator 3.3, 3.3 to 5 –40 to 85 VSSOP-10 1.95
LMH1981 Multi-Format Video Sync Separator 3.3, 3.3 to 5 –40 to 85 TSSOP-14 5.15
LMH1982 Multi-Rate Video Clock Generator with Genlock 3.3, 3.3 to 5 –40 to 85 LLP-32 16.50
LMH1983 3 Gbps/HD/SD Video Clock Generator with Audio Clock 3.3 –40 to 85 LLP-40 16.00

Interface
10 to 50 MHz DC-Balanced Channel Link III Bidirectional Control Serializer

DS92LX1621/2
The DS92LX1621 / DS92LX1622 chipset offers a Channel Link III interface with a high- Key Features
speed forward channel and a full-duplex back channel for data transmission over a • Configurable data throughput
single differential pair. The Serializer/Deserializer pair is targeted for direct connections • 12–bit (min) up to 600 Mbits/sec
between automotive camera systems and Host Controller/Electronic Control Unit (ECU). • 18–bit (max) up to 900 Mbits/sec
Using embedded clock technology allows transparent full-duplex communication over • 10 MHz to 50 MHz input clock support
a single differential pair, carrying asymmetrical bi-directional control information without • Embedded clock with DC balanced
the dependency of video blanking intervals. This single serial stream simplifies trans- coding to support AC-coupled
ferring a wide data bus over PCB traces and cable by eliminating the skew problems interconnects
between parallel data and clock paths. This significantly saves system cost by narrow- • Capable to drive up to 10 meters
ing data paths that in turn reduce PCB layers, cable width, and connector size and pins. shielded twisted-pair
• Bi-directional control interface channel
Parallel
Channel Link III
Parallel with I2C support
Data In Data Out
16 16 • 1.8 V or 3.3 V compatible parallel bus
Image
interface
Sensor 2 2 • Single power supply at 1.8 V
DS92LX1621 DS92LX1622 Microcontroller/
Bi-
Bi-directional
Bi-direction directional
ECU Applications
Back Ch.
Back Ch.
Cntl Bus Back Channel Cntl Bus • Military radar/sonar
• Patient monitoring
Serializer Deserializer • Oscilloscopes
DS92LX1621/2 applications diagram
Get more information: www.ti.com/product/DS92LX1621,

www.ti.com/product/DS92LX1622
Video & Imaging

Max CLK Signal Signal
Device - Device - Parallel Parallel Min CLK Freq Freq Conditioning Conditioning Serial Data HiRel
Serializer Deserializer Width Width (MHz) (MHz) - SER - DES Channels Avail. Package Price*
Channel Link III
LLP-32,
DS92LX1621 DS92LX1622 16 LVCMOS 10 50 — EQ 1 N 5.10
LLP-40
LLP-40,
DS92LX2121 DS92LX2122 21 LVCMOS 10 50 — EQ 1 N 5.30
LLP-48
Channel Link II
LLP-48,
DS92LV2421 DS92LV2422 24 LVCMOS 10 75 VOD, De-E EQ 1 N 5.95
LLP-60
LLP-48,
DS92LV2411 DS92LV2412 24 LVCMOS 5 50 VOD, De-E EQ 1 N 4.95
LLP-60
LLP-36,
DS92LV0421 DS92LV0422 4 LVDS 10 75 VOD, De-E EQ 1 N 6.25
LLP-48
LLP-36,
DS92LV0411 DS92LV0412 4 LVDS 5 50 VOD, De-E EQ 1 N 4.95
LLP-48
LLP-48,
DS99R103 DS99R104 24 LVCMOS 3 40 Pre-E — 1 N 4.80
LLP-60
DS92LV3241 DS92LV3242 32 LVCMOS 20 85 Pre-E — 4 N TQFP-64 6.95
DS92LV3221 DS92LV3222 32 LVCMOS 20 50 Pre-E — 2 N TQFP-64 5.50
Channel Link I
DS90CR217 DS90CR218A 21 LVCMOS 20/12 85 — — 3D+C N TSSOP-48 3.42
DS90CR287 DS90CR288A 28 LVCMOS 20 85 — — 4D+C N TSSOP-56 5.55
DS90CR483A DS90CR484A 48 LVCMOS 33 112 Pre-E — 8D+C N TQFP-100 10.50
DS90CR485 DS90CR486 24/48 LVCMOS 66 133 Pre-E — 8D+C N TQFP-100 12.90

Interface
Consumer/Computing – PCI
x1 PCI Express to PCI Bus Translation Bridger

XIO2001
The XIO2001 is a single-function PCI Express® to PCI translation bridge that is fully Key Features
compliant to the PCI Express to PCI/PCI-X bridge specification, revision 1.0. For • Full ×1 PCI express throughput
downstream traffic, the bridge simultaneously supports up to eight posted and four • Fully compliant with PCI Express
non-posted transactions. For upstream traffic, up to six posted and four non-posted to PCI/PCI-X bridge specification,
transactions are simultaneously supported. revision 1.0
The PCI Express interface supports a ×1 link operating at full 250 MBP/s packet • Fully compliant with PCI Express
throughput in each direction simultaneously. Also, the bridge supports advanced base specification, revision 2.0
error reporting including extended CRC (ECRC) as defined in the PCI Express base • Fully compliant with PCI local
specification. bus specification, revision 2.3
• PCI Express advanced error
reporting capability including
ECRC support
• Support for D1, D2, D3hot and
PCI Express PCI Express
Transmitter Receiver D3cold
• Utilizes 100 MHz differential PCI
Express common reference
Power
GPIO clock or 125 MHz
Mgmt
• Single-ended reference clock
(optional spread-spectrum
Clock Configuration and Serial
Generator Memory Register EEPROM reference clock is supported)
• Robust pipeline architecture to
Reset Serial
minimize transaction latency
Controller IRQ • Full PCI local bus 66 MHz/32-bit
throughput support for six
PCI Bus Interface subordinate PCI bus masters
with internal configurable 2-level
prioritization scheme
XIO2001 functional block diagram
Applications
• Notebooks, desktops, docking
Get more information: www.ti.com/product/XIO2001 stations, servers and workstations
PCI Express
Supply Speed
Voltage Parallel Bus (max) HiRel
Device Description (V) PCIe Width (Mbps) Avail. Package Price*
PCI Express PHY
XIO1100 x1 PCI Express PHY, Compliant with the PCI Express 3.3, 1.8, x1 8, 16 2500 N BGA-100 7.00
Base Specification Revision 1.1 1.5
Supply
Voltage PCI Bus Wake/ HiRel
Device Description (V) PCIe Masters Beacon Support Avail. Package Price*
PCI Express Bridge
XIO2001 x1 PCI Express to PCI Bus Translation Bridge 3.3, 1.5 x1 6 Yes N BGA-144, BGA-169 5.50
MicroStar Junior™
Supply Wake/
Voltage Downstream Beacon HiRel
Device Description (V) PCIe PCIe Ports Support Avail. Package Price*
PCI Express Packet Switch
XIO3130 x1 PCI Express 4-Port Fanout Packet Switch 3.3, 1.5 x1 3 Yes N BGA-196 10.95

Interface
Consumer/Computing – PCI
PCI Express® (continued)

Supply rON tpd
Voltage (typ) (typ) HiRel
Device Description Range (V) Architecture (Ω) (ns) Avail. Package Price*
PCI Express Signal Switches
TS2PCIE2212 2-Channel PCIe 2:1 Multiplexer/Demultiplexer Passive FET Switch 1.7 to 1.9 2:1 10 0.25 N BGA-48 1.65
TS2PCIE412 4-Channel PCIe 2:1 Multiplexer/Demultiplexer Passive FET Switch 1.5 to 2.1 2:1 12.5 0.25 N QFN-42 0.95
Max Sleep Mode Active Mode

Speed No. of Power Power HiRel
Device Description Protocol (Gbps) Chs (mW) (mW/ch) Avail. Package Price*
PCI Express Repeaters (Redrivers)
DS80PCI800 Octal Channel (x4, half x8) PCI Express PCIe Gen-1/2/3 8 8 10 65 N QFN-54 6.95
Gen-1/2/3 Redriver/Equalizer
DS80PCI402 Octal Channel x4 PCI Express Gen-1/2/3 PCIe Gen-1/2/3 8 8 10 65 N QFN-54 5.95
Redriver/Equalizer
DS80PCI102 Dual Channel x1 PCI Express Gen-1/2/3 PCIe Gen-1/2/3 8 2 5 65 N QFN-24 3.95
Redriver/Equalizer
Speed Expansion Hot Voltage HiRel

Device Description (MHz) Interface (Bits) Swap (V) Avail. Package Price*
PCI Bridges
PCI2050B 32-Bit, 66 MHz, 9-Master PCI-to-PCI Bridge 66 32 Yes 3.3, 5 N QFP-208, QFP-208, BGA-257 9.50
PCI2250 32-Bit, 33 MHz PCI-to-PCI Bridge, Compact PCI 33 32 Friendly 3.3, 5 N LQFP-176, QFP-160 6.10
Hot-Swap Friendly, 4-Master
PCI2060 32-Bit, 66 MHz, 9-Master, Asynchronous 66 32 Yes 3.3, 5 N BGA-257 9.50
PCI-to-PCI Bridge
Consumer/Computing – HDMI
TMDS
Max Data Intra-Pair Inter-Pair ESD
No. of No. of Rate per Ch Skew Skew ICC HBM HiRel
Device Description Inputs Outputs (Gbps) (max) (ps) (max) (ps) (max) (kV) Avail. Package Price*
TMDS141 HDMI Hider 1 1 2.25 50 100 150 5 N QFN-40 1.75
TMDS361B 3-to-1 DVI/HDMI Active Switch 3 1 3 40 100 215 12 N TQFP-64 1.50
TMDS261B 2-to-1 DVI/HDMI Active Switch 2 1 3 40 100 215 12 N TQFP-64 1.35
TMDS442 4-to-2 DVI/HDMI Active Switch 4 2 2.25 50 100 550 5 N TQFP-128 3.45
TSSOP-48,
TS3DV416 2-to-1 Analog FET Switch for HDMI/DVI 2 1 1.65 — — 0.6 2 N 0.90
TVSOP-48
TS3DV520E 2-to-1 Analog FET Switch for HDMI/DVI 2 1 1.65 — — 0.6 14 N QFN-56, QFN-42 1.00
Video Equalizer (3D+C) for DVI, HDMI
DS16EV5110 1 1 2.25 — — 195 10 N LLP-48 4.80
Sink-Side Apps
Video Equalizer (3D+C) for DVI, HDMI
DS16EV5110A 1 1 2.25 — — 195 6 N LLP-48 3.95
Source/Repeater/Sink Apps
DVI, HDMI Extended Reach Equalizer with
DS22EV5110 1 1 2.25 — — 332 8 N LLP-48 6.50
Retimer and Output De-Emphasis
DVI, HDMI Retimer with Input Equalization
DS34RT5110 1 1 3.4 — — 361 8 N LLP-48 8.95
and Output De-Emphasis
HDMI Switches
No of No of Max Data Rate Intra pair Inter pair HiRel
Device Description Inputs outputs per channel skew skew ICC ESD HBM Avail Package Price
TS3DV621 2 to 1 HDMI Passive Switch 12 24 2.2 Gbps N/A 30 ps 400 µA 2 kV N QFN-42 Web
TS3DV642 2 to 1 HDMI Passive Switch 12 24 5.4 Gbps N/A Not Charred Yet Not Charred Yet 2 kV N QFN-42 Web

Interface
Industrial – CAN Transceivers
Industrial CAN Transceivers

SN65HVD255/6/7
These CAN transceivers meet the ISO1189-2 High Speed CAN (Controller Area Key Features
Network) Physical Layer standard. They are designed for data rates in excess of 1 • Meets the requirements of ISO11898-2
megabit per second (Mbps) in short networks or CAN FD applications, and enhanced • ‘Turbo CAN’: Short propagation delay
timing margin and higher data rates in long and highly-loaded networks. These devices times and fast loop times; higher data
provide many protection features to enhance device and CAN-network robustness. The rates in network; enhances system
SN65HVD257 adds additional features, allowing easy design of redundant and multi- timing margins
topology networks with fault indication for higher levels of functional safety in the CAN • CAN FD ready
system. • I/O voltage range supports 3.3 V
NC / V RXD / FAULT (See Note A) V CC and 5 V MCUs
5 3
Fault Logic • Ideal passive behavior when
MUX (See Note A) V CC
unpowered
Over
V CC Temperature • Characterized for –40°C to 125°C
1 Dominant
7
CANH operation
TXD
Time Out 6
CANL
Applications
• Backplane communication and control
8
S Mode Select • Industrial automation, control,
Under
sensors and drive systems
Voltage • Building and climate control
V CC or V RXD (See Note B) automation
RXD 4 Logic
Output
Dominant
Time Out
• Security systems
(See Note B)
• Telecom base station status
2
GND and control
SN65HVD257 functional block diagram

(SN65HVD255, SN65HVD256, SN65HVD257)
CAN Transceivers
I/O and VCC Short-Circuit HBM ESD Suppy Current, Standby/Sleep
Device Levels (V) Protection (V) Protection (kV) Typical (mA) Current, Typical (µA) Features Package Price*
SN65HVD230 3.3 –4 to +16 16 10 370 Standby (Low Power) SOIC-8 0.80
SN65HVD231 3.3 –4 to +16 16 10 0.04 Sleep (Ultra Low Power) SOIC-8 0.80
SN65HVD232 3.3 –4 to +16 16 10 N/A Economical SOIC-8 0.70
SN65HVD233 3.3 –36 to +36 16 6 200 Standby (Low Power), Diagnostic Loop-Back SOIC-8 1.00
SN65HVD234 3.3 –36 to +36 16 6 200/0.05 Standby (Low Power), Sleep (Ultra Low Power) SOIC-8 0.95
SN65HVD235 3.3 –36 to +36 16 6 200 Standby (Low Power), Autobaud Loop-Back SOIC-8 1.00
SN65HVD251 5 –36 to +36 14 14 <275 Standby (Low Power) SOIC-8, PDIP-8 0.90
SN55HVD251 5 –36 to +36 14 14 <275 Small Package, High Tempertaure Range (–55ºC to 125ºC) SON-8 0.95
SN65HVD1040 5 –27 to +40 12 6 5 Standby (Ultra Low Power with Bus Wake-Up), TXD SOIC-8 0.50
Dominant Time Out
SN65HVD1050 5 –27 to +40 8 6 NA Listen Only Mode, TXD Dominant Time Out SOIC-8 0.40
SN65HVD252 5 –27 to +40 12 13 NA DeviceNetTM CAN, with VREF SOIC-8 0.80
SN65HVD253 5 –27 to +40 12 13 NA DeviceNet CAN, Loopback SOIC-8 0.80
SN65HVD255 5 –27 to +40 12 10 NA "Turbo" CAN, "Ideal Passive", TXD Dominant Time Out SOIC-8 0.50
(<10 kbps)
SN65HVD256 3.3/5 –27 to +40 12 10 NA "Turbo" CAN, "Ideal Passive", TXD Dominant Time Out SOIC-8 0.50
(<10 kbps), VRXD Level Shift
SN65HVD257 5 –27 to +40 12 10 NA "Turbo" CAN, "Ideal Passive", TXD Dominant Time Out SOIC-8 0.60
(<10 kbps), RXD Dominant Time Out, Fault Output
ISO1050 5 –27 to +40 4 10.3 NA Isolated CAN (2.5kVRMS and 5KVRMS) SOP-8, SOIC-16 1.55
*Suggested resale price in U.S. dollars in quantities of 1,000. New products are listed in bold red.

Interface
Industrial – Digital Isolators
Low-Power, Bidirectional I2C Isolators

ISO1540/1
The ISO1540 and ISO1541 are low-power, bidirectional isolators that are compatible Key Features
with I2C interfaces. These devices have their logic input and output buffers separated • Isolated bidirectional, I2C compatible,
by TI’s Capacitive Isolation technology using a silicon dioxide (SiO2) barrier. When used communications
in conjunction with isolated power supplies, these devices block high voltages, isolate • Supports up to 1 MHz operation
grounds, and prevent noise currents from entering the local ground and interfering with • 3-V to 5.5-V supply range
or damaging sensitive circuitry. • Open drain outputs with 3.5-mA side
1 and 35-mA side 2 sink current
1 8 capability
VCC1 VCC2
• –40°C to 125°C operating temperature
RPU1a RPU2a • ±50 kV/µs transient immunity (typical)
SDA1
2 7 • HBM ESD protection of 4 kV
SDA2
on all pins; 8 kV on bus pins
Applications
RPU1b VREF RPU2b • Isolated I2C Bus®
• SMBus and PMBus interfaces
• Open-drain networks
3 6
SCL1 SCL2 • Motor control systems
• Battery management
4 5
GND1 GND2 • I2C level shifting
VREF
ISO1540 functional block diagram
Get more information: www.ti.com/product/ISO1540,

www.ti.com/product/ISO1541
Transformer Driver for Isolated Power Supplies

SN6501
The SN6501 is a monolithic oscillator/power-driver, specifically designed for small form Key Features
factor, isolated power supplies in isolated interface applications. It drives a low-profile, • Push-pull driver for small transformers
center-tapped transformer primary from a 3.3 V or 5 V DC power supply. The secondary • Single 3.3 V or 5 V supply
can be wound to provide any isolated voltage based on transformer turns ratio. High primary-side current drive:
The SN6501 consists of an oscillator followed by a gate drive circuit that provides the 5 V supply: 350 mA (max)
complementary output signals to drive the ground referenced N-channel power switches. 3.3 V supply: 150 mA (max)
The internal logic ensures break-before-make action between the two switches. • Low ripple on rectified output permits
small output capacitors
• Small 5-pin SOT23 package
SN6501
D1 Applications
Q • PLC/DCS I/O modules: analog input/
V CC
Gate output, digital input
OSC Drive • Programmable logic controller
D2
• Solar micro- and power inverters
Q
GND GND
SN6501 functional block diagram
Get more information: www.ti.com/product/SN6501

Interface
Digital Isolators
Isolation Max Data Min Transient Supply
Rating Channel Rate Immunity Voltage HiRel
Device Description (Vrms) Direction (Mbps) (kV/µs) (V) Avail. Package Price*
ISO721/M Single Channel 2500 1/0 100/150 25 3.3, 5 Y SOIC-8 1.20/1.30
ISO722/M Single Channel with Output Enable 2500 1/0 100/150 25 3.3, 5 N SOIC-8 1.20/1.30
ISO150 Dual Channel Configurable 2400 Config 80 1.6 5 N SOP-12 8.10
ISO7220A/B/C/M Dual Channel 2500 2/0 1/5/25/150 25 3.3, 5 N SOIC-8 0.85/0.95/1.05/1.20
ISO7221A/B/C/M Dual Channel 2500 1/1 1/5/25/150 25 3.3, 5 Y SOIC-8 0.85/0.95/1.05/1.20
ISO7420/E/FE Gen II Dual Channel (F=Failsafe Low) 2500 2/0 1/50/50 25 3.3, 5 N SOIC-8 0.85/1.05/1.05
ISO7421/E/FE Gen II Dual Channel (F=Failsafe Low) 2500 1/1 1/50/50 25 3.3, 5 N SOIC-8 0.85/1.05/1.05
ISO7420FCC Gen II Dual Channel with Input Filter 3000 2/0 50 25 3.3, 5 N SOIC-8 TBD
(F=Default Output Low)
ISO7520C/1C Dual Channel 4243 2/0 and 1/1 1 25 3.3, 5 N SOIC-16 1.00/1.00
ISO7230C/M Triple Channel 2500 3/0 25/150 25 3.3, 5 N SOIC-16 1.40/1.75
ISO7231C/M Triple Channel 2500 2/1 25/150 25 3.3, 5 N SOIC-16 1.40/1.75
ISO7631FC/FM Gen II Triple Channel (F=Default Output Low) 2500 2/1 25/150 25 3.3, 5 N SOIC-16 1.40/1.75
ISO7131CC Gen II Triple Channel Small-Footprint 2500 2/1 50 25 2.7, 3.3, 5 N QSOP-16 TBD
ISO7240C/M Quad Channel 2500 4/0 25/150 25 3.3, 5 N SOIC-16 1.80/2.20
ISO7641FC Gen II Quad Channel 2500 3/1 25 25 3.3, 5 N SOIC-16 1.80
ISO7140CC/FCC Gen II Triple Channel Small-Footprint 2500 3/1 50 25 2.7, N QSOP-16 TBD
(F=Default Output Low) 3.3, 5
ISO7141CC/FCC Gen II Triple Channel Small-Footprint 2500 3/1 50 25 2.7, N QSOP-16 TBD
(F=Default Output Low) 3.3, 5
ISO7142CC Gen II Triple Channel Small-Footprint 2500 2/2 50 25 2.7, N QSOP-16 TBD
3.3, 5
ISO7640FM/41FM Gen II Quad Channel 4243 4/0 & 3/1 150 25 3.3, 5 N SOIC-16 2.50/2.50
Isolated RS-485
ISO3082/ISO3088 Isolated Half Duplex 5 V RS-485 2500 N/A 0.2/20 25 5 N SOIC-16 2.60/3.00
ISO3080/ISO3086 Isolated Full Duplex 5 V RS-485 2500 N/A 0.2/20 25 5 N SOIC-16 2.60/3.00
ISO3086T Isolated 5 V RS485 with Transformer 2500 N/A 20 25 3.3 N SOIC-16 3.30
Driver
ISO15 Isolated Half Duplex 3.3 V RS-485 2500 N/A 1 25 3.3 N SOIC-16 3.00
ISO35 Isolated Full Duplex 3.3 V RS-485 2500 N/A 1 25 5 N SOIC-16 3.00
ISO35T Isolated 3.3 V RS485 with Transformer 2500 N/A 1 25 3.3 N SOIC-16 3.25
Driver
Isolated Profibus
ISO1176 Isolated PROFIBUS RS-485 2500 N/A 40 25 5 N SOIC-16 3.00
ISO1176T Isolated PROFIBUS with Transformer Driver 2500 N/A 40 25 5 N SOIC-16 3.30
Isolated CAN
ISO1050DUB Isolated CAN Transceiver 2500 N/A 1 25 5 N SOP-8 1.55
ISO1050DW Isolated CAN Transceiver 4243 N/A 1 25 5 N SOIC-16 1.95
Isolated I2C
ISO1540 Bidirectional I2C Isolators 2500 Bidirectional 1 25 3.3, 5 N SOIC-8 2.00
Data,
Bidirectional
Clock
ISO1541 Bidirectional I2C Isolators 2500 Bidirectional 1 25 3.3, 5 N SOIC-8 1.80
Data,
Unidirectional
Clock
Isolated Gate Driver
ISO5500 2.5 A Isolated IGBT/MOSFET Gate Driver 4243 N/A 1.04 25 3.3, 5 & N SOIC-16 3.00
15-30
Transformer Driver
SN6501 Transformer Driver for Isolated Power — — — — 3.3, 5 N SOT23-5 0.99
Supplies

Interface
Analog Isolators
Input Isolation Min Transient Supply
Voltage Rating Immunity Voltage Hirel
Device Description Range (mV) (Vpeak) (kV/µS) (V) Avail. Package Price*
Isolated Delta-Sigma Modulator
AMC1204 Isolated 20 MHz DS Modulator ±280 4000 15 3.3, 5 N SOIC-16 3.45
AMC1204B Isolated 20 MHz DS Modulator ±280 4250 15 3.3, 5 N SOIC-16 3.45
AMC1203 Isolated 10 MHz DS Modulator ±280 4000 15 5 N SOP-8, SOIC-16 3.35
Isolated Amplifier
AMC1200 Isolated Amplifier with G=8 ±250 4000 10 3.3, 5 N SOP-8 2.20
AMC1200B Isolated Amplifier with G=8 ±250 4250 10 3.3, 5 N SOP-8 2.20
AMC1100 Isolated Amplifier with G=8 ±250 4250 2.5 3.3, 5 N SOP-8 1.80

Interface
Industrial – Ethernet PHY
Industrial Temp, Single Port 10/100 Mbs Ethernet PHY

TLK105/6
The TLK10x is a single-port Ethernet PHY for 10 Base-T and 100 Base TX signal- Key Features
ing, integrating all the physical-layer functions needed to transmit and receive data on • Low power consumption:
standard twisted-pair cables. The device supports the standard Media Independent < 205 mW PHY and 275 mW with
Interface (MII) and Reduced Media Independent Interface (RMII) for direct connection to center tap (typical)
a Media Access Controller (MAC). • Cable diagnostics (TLK106)
The device is designed for power-supply flexibility, and can operate with a single • Programmable fast link down modes,
3.3 V power supply or with combinations of 3.3 V and 1.55 V power supplies for < 10 µs reaction time
reduced power operation. The TLK10x not only meets the requirements of IEEE 802.3, • Fixed TX clock to XI, with
but maintains high margins in terms of cross-talk and alien noise. programmable phase shift
• 3.3 V MAC interface
• Auto-MDIX for 10/100 Mbs
MII Option RMII Option • Energy detection mode
• MII and RMII interfaces
RX_DV(optional)
CRS/CRS_DV
Serial Serial
• Serial management interface
CRS/RX_DV
Management Management
RXD[1:01]
RXD[3:0]
TXD[1:0]
TXD[3:0]
RX_CLK
TX_CLK
RX_DV
RX_ER
RX_ER
TX_EN
TX_EN
MDIO Applications
MDIO
MDC
MDC
COL
• Industrial networks and factory

automation
MII/RMII Interface
• Motor and motion control
• General embedded applications
TX_DATA TX_CLK RX_CLK RX_DATA
MII
Registers
10BASE-T 10BASE-T
and and
100BASE-TX 100BASE-TX
Auto-Negotiation
State Machine
Transmit Clock Receive

Block Generation Block
DAC ADC
BIST
Cable LED
Auto-MDIX Diagnostics
(TLK106 only)
Driver
TD± RD± Reference Clock LED
TLK105/6 functional block diagram
Get more information: www.ti.com/product/TLK105,

www.ti.com/product/TLK106

Interface
Industrial – Ethernet PHY
Mini LS Commercial Temperature Single Port 10/100 Mb/s Ethernet Transceiver

DP83848J/M
The DP83848J/M addresses the quality, reliability and small form factor required for Key Features
space sensitive applications in embedded systems. • Low-power 3.3 V, 0.18 mm CMOS
The DP83848J/M offers performance far exceeding the IEEE specifications, with superi- technology
or interoperability and industry leading performance beyond 137 m of Cat-V cable. They • Auto-MDIX for 10/100 Mb/s
also offer Auto-MDIX to remove cabling complications. DP83848J/M has superior ESD • Energy detection mode
protection, greater than 4 KV human body model, providing extremely high reliability 3.3 V MAC interface
and robust operation, ensuring a high level performance in all applications. RMII Rev. 1.2 interface (configurable)
• MII Interface
• MII serial management interface (MDC
and MDIO)
Media Access Controller
• IEEE 802.3u auto-negotiation and

parallel detection
DP83848J
Magnetics 10 Base-T or • IEEE 802.3u ENDEC, 10BASE-T
RJ-45
MPU/CPU 10/100 Ethernet 100 Base-TX transceivers and filters
MII/RMII Transceiver
• IEEE 802.3u PCS, 100BASE-TX
transceivers and filters
• Integrated ANSI X3.263 compliant
Clock Status TP-PMD physical sublayer with adap-
Source LED/s tive equalization and baseline wander
compensation
• Error-free operation beyond 137 meters
DP83848J/M functional block diagram • ESD protection: greater than 4 KV
human body model
• Configurable LED for link and activity
Get more information: www.ti.com/product/DP83848J, • Single register access for complete
www.ti.com/product/DP83848M PHY status
• 10/100 Mb/s packet BIST
(Built-in Self Test)
Applications
• Peripheral devices
• Mobile devices
• Factory and building automation
• Base stations

Interface
Industrial – Ethernet
Single-Port Industrial 10/100 Ethernet PHY

Cable Length No. Cable FX IEEE1588 HW 25 MHz Supply Temp Range
Device Interface (m) LED JTAG Diagnostics Support Support Clock Out Voltage (V) (ºC) Package
TLK105 MII, RMII 150 1 3.3 –40 to 85 QFN-32
TLK106 MII, RMII 150 1 3 3.3 –40 to 105 QFN-32
TLK105L MII, RMII 150 2 3 3.3 –40 to 85 QFN-32
TLK106L MII, RMII 150 2 3 3 3.3 –40 to 105 QFN-32
DP83848J MII, RMII 137 2 3.3 0 to 70 QFN-40
DP83848M MII, RMII 137 1 3 3.3 0 to 70 QFN-40
DP83848K MII, RMII 137 2 3.3 –40 to 85 QFN-40
DP83848T MII, RMII 137 1 3 3.3 –40 to 85 QFN-40
DP83848QX MII, RMII 150 1 3 3.3 –40 to 105 QFN-40
DP83848H MII, RMII 137 1 3 3.3 –40 to 125 QFN-40
DP83848C MII, RMII, SNI 137 3 3 3.3 0 to 70 QFP-48
TLK100 MII 200 3 3 3 3.3 –40 to 85 QFP-48
DP83848I MII, RMII, SNI 150 3 3 3 3.3 –40 to 85 QFP-48
TLK110 MII, RMII 150 3 3 3 3 3.3 –40 to 85 QFP-48
DP83620 MII, RMII 150 3 3 3 3 3 3.3 –40 to 85 QFN-48
DP83630 MII, RMII 150 3 3 3 3 3 3 3.3 –40 to 85 QFN-48
DP83640 MII, RMII 150 3 3 3 3 3 3 3.3 –40 to 85 QFP-48
DP83848VYB MII, RMII, SNI 150 3 3 3 3.3 –40 to 105 QFP-48
DP83848YB MII, RMII, SNI 150 3 3 3 3.3 –40 to 125 QFP-48
Dual-Port Industrial 10/100 Ethernet PHY

Cable Length No. Cable FX IEEE1588 Flex Supply Temp
Device Interface (m) LED JTAG Diagnostics Support HW Support Port Voltage (V) Range (ºC) Package
DP83849C MII, RMII, SNI 137 6 3 3.3 0 to 70 TQFP-80
DP83849I MII, RMII, SNI 137 6 3 3 3 3.3 –40 to 85 TQFP-80
DP83849ID MII, RMII, SNI 137 6 3 3 3 3.3 –40 to 85 TQFP-80
DP83849IF MII, RMII, SNI 137 6 3 3 3 3 3.3 –40 to 85 TQFP-80
Gigibit Industrial 10/100/1000 Ethernet PHY

Cable Length I/O Supply Temp
Device Interface (m) No. LED JTAG Voltage (V) Voltage (V) Range (ºC) Package
DP83865 MII, GMII, RGMII 130 5 3 1.8 to 3.3 1.8 0 to 70 QFP-128
10/100 Ethernet MAC and PHY

Supply Temp
Device Interface Cable Length (m) No. LED I/O Voltage (V) Voltage (V) Range (ºC) Package
DP83816 PCI (33 MHz) 100 3 5 3.3 0 to 70 LQFP-144
DP83816EX PCI (33 MHz) 100 3 5 3.3 0 to 85 LQFP-144

Interface
Industrial – RS-485/RS-422
3.3 V-Supply RS-485 with IEC ESD Protection

SN65HVD72/75/78
These devices have robust 3.3 V drivers and receivers in a small package for demand- Key Features
ing industrial applications. The bus pins are robust to ESD events, with high levels of • Small-size MSOP packages save
protection to Human-Body Model and IEC Contact Discharge specifications. board space, or SOIC for drop-in
These devices each combine a differential driver and a differential receiver, which compatibility
operate from a single 3.3-V power supply. The driver differential outputs and the receiv- • Bus I/O protection
er differential inputs are connected internally to form a bus port suitable for half-duplex • Extended industrial temperature range:
(two-wire bus) communication. These devices all feature a wide common-mode voltage –40°C to 125°C
range making the devices suitable for multi-point applications over long cable runs. • Large receiver hysteresis (80 mV) for
These devices are characterized from –40°C to 125°C. noise rejection
• Low unit-loading allows over 200
connected nodes
1 • Low power consumption
R
6 A • 5 V-tolerant logic inputs compatible
RE 2
3 7 with 3.3-V or 5-V controllers
DE B
• Signaling rate options optimized for:
D 4 250 kbps, 20 Mbps, 50 Mbps
• Available in SOIC (D), MSOP (DGK) and
SON (DRB) packages
Logic diagram
Applications
Get more information: www.ti.com/product/Part Number • Factory automation
(SN65HVD72, SN65HVD75, SN65HVD78) • Telecomm infrastructure
• Motion control
RS-485
DR/ Supply Signaling ESD Receiver HiRel
Device RX Duplex (V) Features Isolated Rate (Mbps) (kV) Fail-Safe Nodes Package Avail. Price*
SN65HVD10/11/12 1/1 Half 3.3 High/Mid/Low Speed No 32, 10, 1 16 Short, Open, Idle 256 PDIP-8, SOIC-8 Y 1.50/1.40/1.40
SOIC-8, MSOP-8,
SN65HVD72/75/78 1/1 Half 3.3 IEC ESD Protection No 0.25, 20, 50 15 Short, Open, Idle >200 SON-8 N 0.70/0.85/1.00
Flexible I/O Supply (1.8-3.

SN65HVD01 1/1 Half 3.3 No 0.25 or 20 16 Short, Open, Idle 256 QFN-10 N TBD
3 V) and Selectable Speed
SN65HVD30/31/32 1/1 Full 3.3 No Enables No 26, 5, 1 16 Short, Open, Idle 256 SOIC-8 Y 1.60/1.50/1.45
SOIC-14,
SN65HVD33/34/35 1/1 Full 3.3 With Enables No 26, 5, 1 16 Short, Open, Idle 256 Y 1.60/1.50/1.45
QFN-20
High Signaling Rate, Low
SN65HVD37 1/1 Full 3.3 No 20 16 Short, Open, Idle 256 SOIC-14 N 1.75
Power, High Hysteresis
Isolated 3.3 V Half-Duplex
ISO15 1/1 Half 3.3 Yes 1 16 Short, Open, Idle 256 SOIC-16 N 3.00
Transceiver
Isolated 3.3 V Full-Duplex
ISO35 1/1 Full 3.3 Yes 1 16 Short, Open, Idle 256 SOIC-16 N 3.00
Transceiver
Isolated 3.3 V Transceiver
ISO35T 1/1 Full 3.3 Yes 1 16 Short, Open, Idle 256 SOIC-16 N 3.25
with Transformer Driver
Wide Supply Range: 3 V to
SN65HVD08 1/1 Half 3 to 5.5 No 10 16 Short, Open, Idle 256 PDIP-8, SOIC-8 N 1.65
5.5 V
3.3 to 5 Up to ±70 V Protected, Wide

SN65HVD1780/1/2 1/1 Half No 0.115, 1, 10 16 Short, Open, Idle 320 PDIP-8, SOIC-8 N 1.85/1.85/2.00
Supply Range: 3.3 V to 5 V
Low-Power RS-485/RS-422
DS485 1/1 Half 5 No 2.5 2 Short, Open, Idle 32 PDIP-8, SOIC-8 N 0.79
Multipoint Transceiver

Interface
RS-485 (continued)
Multipoint RS-485/RS-422
DS75176B 1/1 Half 5 No 10 0.5 Short, Open, Idle 32 PDIP-8, SOIC-8 N 0.47
Transceivers
RS-485 Extended Contact for
DS16F95A 1/1 Half 5 Temperature Differential Bus No 10 5 Short, Open, Idle 32 CDIP-8 Y pricing
Transceiver
PDIP-8, SOIC-8,
SN65HVD485E 1/1 Half 5 Half-Duplex Transceiver No 10 15 Open 64 N 0.75
MSOP-8
Ultra-Low Power, Optimized PDIP-8, SOIC-8,
SN65HVD3082E/5E/8E 1/1 Half 5 for Low, Medium & High No 0.2, 1, 20 15 Short, Open, Idle 256 N 0.90/1.00/1.10
MSOP-8
Speeds
ESD Protection HBM, IEC 4-2
SN65LBC182 1/1 Half 5 No 0.25 15 Open 128 PDIP-8, SOIC-8 N 1.05
Air and Contact
IEC ESD Protection, Low
SN65HVD82 1/1 Half 5 No 0.25 16 Short, Open, Idle 256 SOIC-8 N 1.00
Power
Cross wire immunity, IEC
SN65HVD888 1/1 Half 5 No 0.25 16 Short, Open, Idle 256 SOIC-8 N TBD
ESD Protection, Low Power
ESD Protection IEC 4-2 Air,
SN65LBC184 1/1 Half 5 No 0.25 15 Open 128 PDIP-8, SOIC-8 N 1.30
Contact & IEC 4-5 Surge
±27 V Protected and –20 V
SN65HVD20/21/22 1/1 Half 5 No 25, 5, 0.5 16 Short, Open, Idle 256 PDIP-8, SOIC-8 Y 1.40/1.40/1.40
to +25 V Common Mode
Receiver Equalization and
SN65HVD23/24 1/1 Half 5 –20 V to +25 V Common No 25, 3 16 Short, Open, Idle 256 PDIP-8, SOIC-8 N 1.93/1.93
Mode
±70 V Protected, Wide –20V
SN65HVD1785/6/7 1/1 Half 5 No 0.115, 1, 10 16 Short, Open, Idle 256 PDIP-8, SOIC-8 N 1.85/1.85/2.00
±70 V Protected, Bus-Pin
SN65HVD1794 1/1 Half 5 No 0.115 16 Short, Open, Idle 256 PDIP-8, SOIC-8 N 1.95
Invert, Wide Common Mode
SN65LBC176A 1/1 Half 5 Fast Signaling No 30 12 Open 32 PDIP-8, SOIC-8 Y 2.65
±4 kVpk Isolated Optimized
ISO3082/8 1/1 Half 5 Yes 0.2, 20 12 Short, Open, Idle 256 SOIC-16 N 2.60/3.00
for Low & High Speeds
Ultra-Low Power, Optimized SOIC-14,
SN65HVD3080E/3E/6E 1/1 Full 5 for Low, Medium & High No 0.2, 1, 20 16 Short, Open, Idle 256 N 1.2/1.2/1.35
MSOP-10
Speeds
±70 V Protected, Wide –20 V
SN65HVD1791/2/3 1/1 Full 5 No 0.115, 1, 10 16 Short, Open, Idle 256 SOIC-14 N 1.90/1.90/2.10
±4 kVpk Isolated, Optimized
ISO3080/6 1/1 Full 5 Yes 0.2, 20 12 Short, Open, Idle 256 SOIC-16 N 2.60/3.00
for Low & High Speeds
Isolated 5 V Transceiver with
ISO3086T 1/1 Full 5 Yes 20 11 Short, Open, Idle 256 SOIC-16 N 3.30
Transformer Driver
High Signaling Rate, w/ PDIP-14,
SN65LBC180A 1/1 Full 5 No 30 15 Open 32 N 1.50
Enables SOIC-14
Differential Driver and
SN75ALS181 1/1 Half 5 No 10 2 Open 32 PDIP-14, SO-14 N 1.30
Receiver
Dual Differential Drivers and
SN751178 2/2 Full 5 No 10 2 Open 32 PDIP-16, SO-16 N 1.60
Receivers
Dual Differential Drivers and
SN75ALS1178 2/2 Full 5 No 10 2 Open 32 PDIP-16, SO-16 N 2.55
Receivers, Low Power
Quad Drivers, High Signaling PDIP-16, SOIC-16,
SN65LBC172A/174A 4/0 NA 5 No 30 12 — 32 Y 2.65/2.75
Rate SOIC-20
Quad Receivers, High PDIP-16,
SN65LBC173A/175A 0/4 NA 5 No 50 6 Short, Open, Idle 32 N 1.65/1.55
Signaling Rate, Low Power SOIC-16
9-Channel Parallel Bus
SN65HVD09 9/9 Half 5 No 20 12 — 32 TSSOP-56 Y 3.50
Transceivers

Interface
RS-485 (continued)
PROFIBUS Transceivers
ProfiBus (EN 50170)
SN65HVD1176 1/1 Half 5 No 40 10 Short, Open, Idle 160 SOIC-8 N 1.55
Transceiver
ISO1176 1/1 Half 5 Isolated ProfiBus Transceiver Yes 40 16 Short, Open, Idle 160 SOIC-16 N 3.00
Isolated ProfiBus Transceiver
ISO1176T 1/1 Half 5 Yes 40 10 Short, Open, Idle 160 SOIC-16 N 3.30
with Transformer Driver
ControlNet Transcievers
SN65HVD61 1/1 Half 5 ControlNet Transceiver No 10 16 Short 64 SOIC-14 N 5.10
Sympol Transceivers
SN65HVD96 1/1 Half 5 SymPol Transceiver No 5 12 Short, Open, Idle 32 SOIC-8 N 1.20
RS-422
Quad Drivers, High Signaling SO-16, SOIC-16,
AM26LV31E 4/0 — 3.3 No 32 15 — — Y 0.90
Rate, IEC ESD TSSOP-16, QFN-16
Quad Receivers, High SO-16, SOIC-16,
AM26LV32E 0/4 — 3.3 No 32 15 Open 32 Y 1.05
Signaling Rate, IEC ESD TSSOP-16, QFN-16
SO-16, SOIC-16,
AM26C31 4/0 — 5 Quad RS-422 Drivers No 10 2 — — Y 0.60
TSSOP-16, PDIP-16
SO-16, SOIC-16,
AM26C32 0/4 — 5 Quad RS-422 Receivers No 10 2 Open 32 Y 0.60
TSSOP-16, PDIP-16
3 V Enhanced CMOS Quad
DS26LV32AT 0/4 Half 3.3 No 30 8 Open — SOIC-16 N 0.63
Differential Line Receiver
3.3 V RS-422 Quad Line
DS26LV31T 4/0 Half 3.3 No 30 7 Short, Open, Idle — SOIC N-16 N 0.48
Driver
DS75176BT 1/1 Half 5 No 10 0.5 — 32 PDIP-8, SOIC-8 N 0.47
Transceivers
DS75176B 1/1 Half 5 No 10 0.5 — 32 PDIP-8, SOIC-8 N 0.47
Transceivers

Interface
Other Line Circuit
AISG On-Off Keying Coax Modem Transceiver

SN65HVD62
This transceiver modulates and demodulates signals between the logic (baseband) Key Features
and a frequency suitable for long coaxial media and is designed to be compliant with • Supply ranging from 3 V to 5.5 V
Antenna Interface Standards Group v2.0 specification. • Independent logic supply of 1.6 V to
The HVD62 receiver integrates an active bandpass filter to enable demodulation of 5.5 V
signals even in the presence of spurious frequency components. The filter has a 2.176 • Wide input dynamic range of –15 dBm
MHz center frequency. to +5 dBm for receiver
• Power delivered by the driver to the
The transmitter supports adjustable output power levels varying from +0 dBm to coax can be adjusted from 0 dBm to
+6 dBm delivered to the 50 Ω coax cable. The HVD62 transmitter is compliant with the +6 dBm
spectrum emission requirement provided by the AISG standard. • AISG compliant output emission profile
A direction control output is provided which facilitates bus arbitration for an RS-485 • Low-power standby mode
interface. These devices integrate an oscillator input for a crystal, and also accept • Direction control output for RS-485
standard clock inputs to the oscillator. bus arbitration
• Supports up to 115 kbps signaling
• Integrated active bandpass filter with
VL Vcc
3 13 1 center frequency at 2.176 MHz
SYNCOUT
• 3mm × 3mm 16-Pin QFN Package
9
RES
14 FILTER Applications
XTAL1
XTAL OOK
PREAMP
OUTPUT 12
TXOUT
• AISG – interface for antenna line
15 Buffer MOD STAGE
XTAL2 2.176 devices
2
• Tower mounted amplifiers (TMA)
TXIN
• General modem interfaces
7
DIRSET1
6
DIRSET2 Control
Logic
5 FILTER
DIR OOK 11
DEMOD Buffer RXIN
2.176
4
RXOUT Buffer COMP
RECEIVER
THRESHOLD
SN65HVS885 functional
16 block
8 diagram
10
GND GND BIAS
SN65HVD62 functional block diagram
Get more information: www.ti.com/product/SN65HVD62
AISG Modem Transceiver

Supply Carrier Max Supply Low Power Auto
Voltage Independent Frequency Datarate Current Standby Direction HiRel
Device Description Standard (V) Logic Supply (V) (MHz) (kbps) (mA) Mode Output Avail. Package Price*
On-Off Keying Coax
SN65HVD62 AISG 3 to 5.5 1.6 to 5.5 2.176 115 33 Yes Yes N QFN-16 2.00
Modem Transceiver

Interface
Other Line Circuit
IO-LINK PHY for Device Nodes

SN65HVD101/2
The SN65HVD101/2 IO-LINK PHYs implement the IO-LINK interface for industrial Key Features
point-to-point communication. When the device is connected to an IO-Link master • Configurable CQ output: push-pull,
through a 3-wire interface, the master can initiate communication and exchange data high-side, or low-side for SIO mode
with the remote node while the SN65HVD10X acts as a complete physical layer for the • Remote wake-up indicator
communication. • Current limit indicator
The IO-LINK driver output (CQ) can be used in push-pull, high-side, or low-side config- • Power-good indicator
urations using the EN and TX input pins. The PHY receiver converts the 24-V IO-LINK • Over-temperature protection
signal on the CQ pin to standard logic levels on the RX pin. A simple parallel interface • Reverse polarity protection
is used to receive and transmit data and status information between the PHY and the • Configurable current limits
local controller. • 9-V to 36-V supply range
• Tolerant to 50-V peak line voltage
• 3.3-V/5-V configurable integrated LDO
V CC V CC V CC
OUT IN SET L+ (SN65HVD101 ONLY)
• 20-pin QFN package, 4 mm × 3.5 mm
Applications
SUPPLY VOLTAGE • Suitable for IO-Link device nodes
CONTROL
PWR_OK
RX CQ
TX Voltage Voltage
Timers Detectors
EN L-
Control Over Current Over Current
Logic Timers Detectors
WAKE
TEMPERATURE
CUR_OK SENSE
TEMP_OK
ILIM_ADJ GND L-
SN65HVD101/2 functional block diagram
Get more information: www.ti.com/product/SN65HVD101,

www.ti.com/product/SN65HVD102
IO-LINK PHY
Logic Logic
Supply Supply Fault
Voltage Voltage Signaling Protection
Integrated Number Line (3.3 V (5 V Adjustable Rate Range Thermal HiRel
Device Description LDO of Ports Voltage Nominal) Nominal) I/O (kbps) (Transient) Warning Avail. Package Price*
IO-LINK PHY for Yes (3.3 V 9 V to
SN65HVD101 1 3 V to 3.6 V 4.5 V to 5.5 V Yes 250 –50 to 50 V Yes N QFN-20 2.50
Device Nodes or 5 V) 30 V
IO-LINK PHY for 9 V to
SN65HVD102 No 1 3 V to 3.6 V 4.5 V to 5.5 V Yes 250 –50 to 50 V Yes N QFN-20 2.23
Device Nodes 30 V

Interface
SerDes – Industrial
Eight-Channel, 0-34 V Digital-Input Serializer with 5 V Vcc for Industrial Digital Inputs
SN65HVS885
The SN65HVS885 is an eight-channel, digital-input serializer for high-channel density Key Features
digital input modules in industrial and building automation. Operating from a 5 V supply, • Eight digital sensor inputs
the device accepts field input voltages of up to 34 V. In combination with galvanic isola- • High-input voltage up to 34 V
tors, the device completes the interface between the high voltage signals on the field • Selectable debounce filters
side and the low-voltage signals on the controller side. Input signals are current limited from 0 ms to 3 ms
and then validated by internal debounce filters. • Flexible current-limited inputs
With the addition of few external components, the input switching characteristic can be –0.2 mA to 5.2 mA
configured in accordance with IEC61131-2 for Type 1, 2 and 3 sensor switches. • Field inputs protected to 15 kV ESD
• Single 5 V supply
Upon the application of load and clock signals, input data is latched in parallel into the • Output drivers for external
shift register and afterwards clocked out serially. status LEDs
• Cascadable for more inputs in
multiples of eight
• SPI-compatible interface
Vcc HOT
• Overtemperature indicator
Adj.Current Thermal Debounce DB0
RLIM Applications
Thresholds Protection Select DB1
• Industrial PCs
SIP • Digital I/O cards
RE0 Current
Sense
• High-channel-count digital
IP0
& Debounce input modules
Filter LD • Decentralized I/O modules
Voltage
CE
Sense Channel0 CLK
Serializer
GND
RE7
Channel 7
IP7
SOP
SN65HVS885 functional block diagram
Get more information: www.ti.com/product/SN65HVS885
Industrial Serializers
I/O
Supply Voltage Input Data Temperature Low Voltage HiRel
Device Description Voltage (V) (V) Parity Rate (Mbps) Range Detector Avail. Package Price*
Industrial Eight-Channel Digital Serializers
SN65HVS880 Nominal 24 V Digital-Input Serializer 18 to 30 0 to 30 No 1 –40 to 85 Yes: 15 V N HTSSOP-28 1.90
SN65HVS881 0-34 V Digital-Input Serializer with 10 to 34 0 to 34 Yes 1 –40 to 125 Yes: 15 V N HTSSOP-28 2.00
Parity
SN65HVS882 0-34 V Digital-Input Serializer 10 to 34 0 to 34 No 1 –40 to 125 No N HTSSOP-28 2.00
SN65HVS885 0-34 V Digital-Input Serializer for 4.5 to 5.5 0 to 34 No 1 –40 to 125 No N HTSSOP-28 1.80
5 V Systems

Interface
General – UARTs
Dual UART with 64-Byte FIFO

TL16C752C
The TL16C752C is a dual universal asynchronous receiver/transmitter (UART) with Key Features
64-byte FIFOs, automatic hardware/software flow control and data rates up to 3 Mbps. • ST16C654/654D pin-compatible with
It incorporates the functionality of two UARTs, each UART having its own register set additional enhancements
and FIFOs. The two UARTs share only the data bus interface and clock source; other- (PFB package only)
wise they operate independently. Another name for the UART function is asynchronous • Supports up to 24-MHz crystal
communications element (ACE), and these terms are used interchangeably. It has a input clock (1.5 Mbps)
transmission control register (TCR) that stores received FIFO threshold levels to start/ • Supports up to 48-MHz oscillator
stop transmission during hardware and software flow control. input clock (3 Mbps) for 5 V-operation
• Supports up to 32 MHz oscillator input
clock (2 Mbps) for 3.3-V operation
• Supports up to 24-MHz input clock
A2-A0
D7-D0 UART Channel A
(1.5 Mbps) for 2.5-V operation
CSA
TXA • Supports up to 16 MHz input clock
16-Byte TX FIFO TX
CSB
CTSA (1 Mbps) for 1.8-V operation
OPA, DTRA
IOR
• Programmable receive FIFO trigger
UART Regs DSRA, RIA, CDA
IOW BAUD levels for software/hardware flow
RTSA
Rate
INTA Data Bus
Gen 16-Byte RX FIFO RX RXA
control
Interface
INTB • Software/hardware flow control
TXRDYA Programmable Xon/Xoff characters
TXRDYB UART Channel B
Programmable auto-RTS and
RXRDYA TXB auto-CTS
16-Byte TX FIFO TX
RXRDYB CTSB • Characterized for operation
OPB, DTRB
RESET from –40°C to +85°C, available
DSRB, RIB, CDB
BAUD
UART Regs in commercial and industrial
RTSB
Rate
Gen 16-Byte RX FIFO RX RXB
temperature grades
Crystal
XTAL1 OSC
Buffer
XTAL2 VCC
GND
TL16C752C functional block diagram
Get more information: www.ti.com/product/TL16C752C

Interface
General – UARTs
UARTs
Characterized HiRel
Device Description Channel(s) FIFOs Voltage (V) Temp. (°C) Avail. Package Price*
TL16C2550 Dual UART with Programmable 2 16-Byte 1.8/2.5/3.3/5 –40 to 85 N QFN-32, TQFP-48 2.20
Auto-RTS and Auto-CTS
TL16C2552 Dual UART with Programmable 2 16-Byte 1.8/2.5/3.3/5 –40 to 85 N PLCC-44 2.90
Auto-RTS and Auto-CTS
TL16C2752 Dual UART with Customizable 2 64-Byte 1.8/2.5/3.3/5 –40 to 85 N PLCC-44 3.50
Trigger Levels
TL16C450 Single UART 1 None 5 0 to 70 N PLCC-44 1.50
TL16C451 Single UART with Parallel Port 1 None 5 0 to 70 N PLCC-68 3.10
TL16C452 Dual UART with Parallel Port 2 None 5 0 to 70 N PLCC-68 2.55
TL16C550C Single UART with Hardware 1 16-Byte 3.3/5 –40 to 85 N PLCC-44, LQFP-48, 1.65
Autoflow Control TQFP-48
TL16C550D Single UART with Hardware 1 16-Byte 2.5/3.3/5 –40 to 85 N QFN-32, LQFP-48, 1.30
Autoflow Control TQFP-48, BGA-24
TL16C552A Dual UART with Parallel Port 2 16-Byte 5 –40 to 85 Y PLCC-68, LQFP-80 3.60
TL16C554A Quad UART with 16-Byte FIFO 4 16-Byte 3.3/5 –40 to 85 N PLCC-68, LQFP-80, 5.50
LQFP-64
TL16C750 Single UART with Hardware Autoflow 1 64-Byte 3.3/5 –40 to 85 N PLCC-44, LQFP-64 3.90
Control, Low-Power Modes
TL16C752B Dual UART with Hardware Autoflow 2 64-Byte 3.3 –40 to 85 Y LQFP-48 2.60
TL16C754B Quad UART with Hardware Autoflow 4 64-Byte 3.3/5 –40 to 85 N PLCC-68, LQFP-80 7.10
TL16C752C Dual UART with Hardware Autoflow 2 64-Byte 1.8/2.5/3.3/5 –40 to 85 N QFN-32, TQFP-48 2.40
TL16C754C Quad UART with Hardware Autoflow 4 64-Byte 1.8/2.5/3.3/5 –40 to 85 N LQFP-64 6.00
TL16PC564B/BLV Single UART with PCMCIA Interface 1 64-Byte 3.3/5 0 to 70 N LQFP-100 7.35
TL16PIR552 Dual UART with Dual IrDA and 1284 2 16-Byte 5 0 to 70 N QFP-80 7.65
Parallel Port
TL28L92 Dual UART with X86 or 68K Interface 2 16-Byte 3.3/5 –40 to 85 N QFP-44 6.00
NS16C2552 Dual UART with 16-BYTE FIFO 2 16-Byte 3.3/5 –40 to 85 N TQFP-48, PLCC-44 4.69
NS16C2752 Dual UART with 64-BYTE FIFO 2 64-Byte 3.3/5 –40 to 85 N TQFP-48, PLCC-44 4.94
PC16550D Universal Asynchronous Receiver/ 1 16-Byte 5 0 to 70 N MDIP-40, PLCC-44 3.38
Transmitter with FIFOs
PC16552D Dual Universal Asynchronous 2 16-Byte 5 0 to 70 N PLCC-44 4.10
Receiver/Transmitter with FIFOs
Related Device
TIR1000 Standalone IrDA Encoder and — — 2.7 to 5.5 –40 to 85 N SO-8, TSSOP-8 1.15
Decoder

Interface
General – ESD/EMI
HDMI Companion Chip with Step-Up DC/DC, I2C Level Shifter and High-Speed ESD Clamps
TPD12S015
The TPD12S015 is an integrated HDMI ESD solution. The device pin mapping matches Key Features
the HDMI type C/D connector with four differential pairs. This device offers eight low- • HDMI 1.3 data rate
capacitance ESD clamps, allowing HDMI 1.3 data rates. The integrated ESD clamps • HDMI high-speed differential signals –
and resistors provide good matching between each differential signal pair, which allows 3 dB bandwidth exceeds 6.4 Gbps
an advantage over discrete ESD clamp solutions where variations between ESD clamps • Excellent matching capacitance
degrade the differential signal quality. (0.05 pF) in each differential signal pair
• Internal boost converter to generate
5 V from a 2.3- to 5.5-V battery voltage
• Directionless level shifting in the
2.3 V-5.5 V 5 V, 55 mA CEC, SDA, SCL and HPD paths
DC/DC • Seamless type C connector routing
Converter • with flow-through pin mapping
Interface • IEC 61000-4-2 (Level 4) system-
TPD12S015 level ESD
8 Channel • Industrial temperature range:
ESD –40°C to +85°C
(Single Terminal
Applications
ESD IOs)
• Smart phones
• Multimedia phones
1.65 V-3.6 V 4 Channel 3.3 V or 5 V
• Digital camcorders
+ Level Shift
+ Edge-Rate • Digital still cameras
Control Circuit • Portable game consoles
TPD12S015 illustration
Get more information: www.ti.com/product/TPD12S015

Interface
General – ESD/EMI
ESD/EMI
I/O
Number of Capacitance VBR (min) HiRel
Device Description Channels (pF) (V) Avail. Package Price*
ESD Devices
SN65220 USB 2.0 FS 2 35 7 Y DSBGA-4, SOT23-6 0.26
SN65240 USB 2.0 FS 4 35 7 N PDIP-8, TSSOP-8 0.24
SN75240 USB 2.0 FS 4 35 7 N PDIP-8, TSSOP-8 0.42
TPD4E002 USB 2.0 HS 4 11 6 N SOT-5 0.14
TPD2E001 USB 2.0 HS 2 1.5 11 N SOT-5, SON-6 0.15
TPD2E007 Audio, RS-232, RS-485, CAN 2 10 ±14 N DCK-3, DSLGA-4 0.20
TPD2E009 USB 2.0 FS, Ethernet, FireWire®, eSATA 2 0.7 7 N SOT23-3, SOT-3, SON-6 0.15
TPD2EUSB30 USB 3.0 SS, LVDS, eSATA 2 0.7 7 N SOT-3 0.15
TPD2S017 USB 2.0 HS, FireWire, LVDS 2 1 11 N SOT-6 0.14
TPD3E001 USB 2.0 HS, USB 2.0 OTG 3 1.5 11 N SOT-5, SON-6 0.15
TPD4E001 USB 2.0 HS, Ethernet, FireWire, eSATA 4 1.5 11 N SOT-6, SON-6 0.17
TPD4E002 Transient Overvoltage Protection 4 11 6.1 N SOT-5 0.14
TPD4E004 USB 2.0 HS, Ethernet, FireWire, eSATA 4 1.6 6 N SOT-6, SON-6 0.22
TPD4S009 eSATA, LVDS Signaling 4 0.8 9 N SOT23-6, SC70-6, SON-6 0.26
TPD4S010 eSATA, LVDS Signaling 4 0.8 9 N SON-10 0.21
TPD4S012 USB 2.0 HS, Ethernet, FireWire, eSATA 4 0.8 6 N SON-6 0.21
TPD4S1394 FireWire Live Insertion Protection 4 1.5 4.2 N X2SON-8 0.23
TPD6E001 USB 2.0 HS, Ethernet, FireWire, eSATA 6 1.5 11 N QFN-10, QFN-12 0.20
TPD6E004 USB 2.0 HS, Ethernet, FireWire, eSATA 6 1.6 6 N QFN-8 0.27
TPD7S019 VGA, DVI-I 7 2.5 9 N SSOP/QSOP-16 0.19
TPD8E003 LCD Display, Keypad, Memory 8 9 6 N WSON-8 0.18
TPD8S009 HDMI, DisplayPort 8 0.9 9 N SON-15 0.55
TPD12S520 HDMI 12 0.9 9 N TSSOP-38 0.44
TPD12S521 HDMI 12 0.9 9 N TSSOP-38 0.47
TPD12S015 HDMI 12 1.3 9 N DSBGA-28 0.80
EMI Devices
TPD2F702 Audio EMI Filter 2 1.2 ±14 N DSBGA-5 0.15
TPD4F003 LCD Display, Keypad, Memory 4 200 6 N WSON-8 0.18
TPD4F202 LCD Display, Keypad, Memory 4 108 6 N DSBGA-10 0.17
TPD6F002 LCD Display, Keypad, Memory 6 100 6 N SON-12 0.21
TPD6F003 LCD Display, Keypad, Memory 6 200 6 N WSON-12 0.21
TPD6F202 LCD Display, Keypad, Memory 6 108 6 N DSBGA-15 0.21
TPD8F003 LCD Display, Keypad, Memory 8 200 6 N SON-15 0.25
TPD8F303 SIM Card EMI Filter 3 20 6 N WSON-8, SON-8 TBD

Interface
General – I2C
Enhanced I2C Controlled Keypad Scan IC

TCA8418E
The TCA8418E is an enhanced keypad scan device. It can operate from 1.65 V to Key Features
3.6 V and has 18 general-purpose inputs/outputs (GPIO) that can be used to support • Operating power-supply voltage range
up to 80 keys via the I2C interface [serial clock [SCL], serial data [SDA]). of 1.65 V to 3.6 V
The key controller includes an oscillator that debounces at 50 ms and maintains a • Supports QWERTY keypad operation
10 byte FIFO of key-press and release events that can store up to 10 keys with overflow plus GPIO expansion
wrap capability. An interrupt (INT) output can be configured to alert key presses and • 18 GPIOs can be configured into eight
releases either as they occur or at maximum rate. Also, for the YFP package, a inputs and ten outputs to support an
CAD_INT pin is included to indicate the detection of CTRL-ALT-DEL (i.e., 1, 11, 21) 8- to 10- keypad array (80 buttons)
key-press action. • 15-kV human body model ESD
VCC protection on GPIO lines
• Low standby (idle) current
consumption: 3 mA
CPU/MCU SDA
P0
P1 • Polling current drain 70 mA for
P2
12C Master SCL P3 one key pressed
P4
P5 • 10-byte FIFO to store 10 key
IRQ P6
P7 presses and releases
• Very small package: WCSP (YFP):
RESET P8 2 mm x 2 mm; 0.4 mm pitch
P9 Applications
• Smart phones
P10
• PDAs
P11 • GPS devices
• MP3 players
P12
• Digital cameras
P13
General Purpose
I/O for Hot Key
Inputs
TCA8418E functional block diagram
Get more information: www.ti.com/product/TCA8418E

Interface
General – I2C
I2C
fSCLK
No. of (max) HiRel
Device Description Outputs (kHz) Avail. Package Price*
Buffer/Repeaters
P82B715 I2C Bus® Extender 2 400 N PDIP-8, SOIC-8 1.60
P82B96 Dual Bidirectional Bus Buffer 2 400 N MSOP-8, PDIP-8, SOIC-8, TSSOP-8 1.60
PCA9515A Dual Bidirectional I2C Bus and SMBus Repeater 2 400 N MSOP-8, PDIP-8, SOIC-8, SON-8, TSSOP-8 0.95
PCA9517 Level-Translating I2C Bus Repeater 2 400 N MSOP-8, SOIC-8 1.05
PCA9518 Expandable Five-Channel I2C Hub 5 400 N SOIC-20, SSOP-20, SSOP-20/QSOP, TSSOP-20 0.85
TCA4311 Hot Swappable 2-Wire Bus Buffers 2 400 N MSOP-8, SOIC-8 1.45
I/O Expanders
fSCLK
(max) HiRel
Device Description I/O Bits (kHz) Avail. Package Price*
PCA6107 Remote 8-Bit I2C and SMBus Low-Power I/O Expander with Interrupt 8 400 N SOIC-8 1.05
Output, Reset and Configuration Registers
PCA9534A Remote 8-Bit I2C and Low-Power I/O Expander with Interrupt Output 8 400 N QFN-16, SOIC-16, SSOP-16, SSOP-16, QSOP,-16 0.75
and Configuration Registers TSSOP-16, TVSOP-16
PCA9536 Remote 4-Bit I2C and SMBus I/O Expander with Configuration Registers 4 400 N DSBGA-8, MSOP-8, SOIC-8 0.60
PCA9538 Remote 8-Bit I2C and SMBus Low-Power I/O Expander with Interrupt 8 400 N SOIC-16, SSOP-16, TSSOP-16, TVSOP-16 1.00
PCA9554A Remote 8-Bit I2C and SMBus I/O Expander with Interrupt Output and 8 400 N QFN-16, SOIC-16, SSOP-16, SSOP-16, QSOP-16, 0.85
Configuration Registers TSSOP-16, TVSOP-16
PCA9557 Remote 8-Bit I2C and SMBus Low-Power I/O Expander with Reset and 8 400 N QFN-16, SOIC-16, SSOP-16, TSSOP-16, TVSOP-16 0.90
Configuration Registers
PCF8574A Remote 8-Bit I/O Expander for I2C Bus 8 400 N PDIP-16, SOIC-16, QFN-20, TSSOP-20, TVSOP-20 1.00
PCF8575 Remote 16-Bit I2C and SMBus I/O Expander with Interrupt Output 16 400 N QFN-24, SOIC-24, SSOP-24, SSOP-24, QSOP-16, 1.45
TSSOP-24, TVSOP-24, VQFN-24
PCF8575C Remote 16-Bit I2C and SMBus I/O Expander with Interrupt Output 16 400 N SOIC-24, SSOP-24, SSOP-24/QSOP, TSSOP-24, 1.45
TVSOP-24, VQFN-24
TCA6408A Low-Voltage 8-Bit I2C and SMBus I/O Expander with Interrupt Output, 8 400 N QFN-16, TSSOP-16, BGA-20 MicroStar Junior™ 0.75
Reset and Configuration Register
TCA6416A Low-Voltage 16-Bit I2C and SMBus I/O Expander with Interrupt Output, 16 400 N 24-BGA MicroStar Junior, QFN-24, TSSOP-24 0.85
Reset and Configuration Registers
TCA6424A Low-Voltage 24-Bit I2C and SMBus I/O Expander with Interrupt Output, 24 400 N QFN-32 0.95
Reset and Configuration Registers
TCA6507 Low-Voltage 7-Bit I2C and SMBus LED Driver with Intensity Control and 7 400 N BGA-12 MicroStar Junior, QFN-12, TSSOP-14 0.75
Shutdown
TCA9535 Remote 16-Bit I2C and SMBus, Low-Power I/O Expander with Interrupt 16 400 N QFN-24, TSSOP-24 1.00
Output and Configuration Registers
TCA9539 Remote 16-Bit I2C And SMBus, Low-Power I/O Expander with Interrupt 16 400 N QFN-24, TSSOP-24 1.10
TCA9555 Remote 16-Bit I2C And SMBus I/O Expander with Interrupt Output and 16 400 N QFN-24, TSSOP-24 1.20
Configuration Registers
TCA8418 I2C Controlled Keypad Scan IC 18 400 N QFN-24 1.20
TCA8418E I2C Controlled Keypad Scan IC with Integrated ESD 18 400 N DSBGA-25 1.20
Switches/Multiplexers
tpd fSCLK
(max) (max) HiRel
Device Description (ns) (kHz) Avail. Package Price*
PCA9543A I2C
Two-Channel Bus Switch with Interrupt Logic and Reset 0.3, 1 400 N SOIC-14, TSSOP-14 0.80
PCA9544A 4-Channel I2C and SMBus Multiplexer with Interrupt Logic 0.3, 1 400 N BGA-20 MicroStar Junior, QFN-20, SOIC-20, 0.95
TSSOP-20, TVSOP-20
PCA9545A 4-Channel I2C and SMBus Multiplexer with Interrupt Logic and Reset 0.3, 1 400 N BGA-20 MicroStar Junior, QFN-20, SOIC-20, 0.95
Functions TSSOP-20, TVSOP-20
PCA9546A 4-Channel I2C and SMBus Multiplexer with Reset Functions 0.3, 1 400 N QFN-16, SOIC-16, TSSOP-16, TVSOP-16, BGA-20 0.85
Microstar Junior, TVSOP-20
PCA9548A 8-Channel I2C Switch with Reset 0.3, 1 400 N SOIC-24, SSOP-24, TSSOP-24, TVSOP-24, VQFN-24 1.15
Translator
PCA9306 Dual Bidirectional I2C Bus and SMBus Voltage-Level Translator 1.5 400 Y SM8-8, US8-8 0.26
TCA9406 Dual Bidirectional I2C Bus and SMBus Voltage-Level Translator 1.1 1,000 N SSOP-8, USSOP-8, WCSP-8 TBD

Interface
General – RS-232
RS-232
Main Logic Driver
Data Supply Voltage Supply HiRel/
Rate Voltage (Min) Voltage ICC AEC-Q100
Device (kbps) Drivers Receivers (NOM) (V) (V) (NOM) (V) (max) (mA) ESD HBM (kV) Avail. Package Price*
DS14C88 20 4 0 ±9 5 — 0.5/0.0.6 — N/N PDIP-14, SOIC-14 0.57
DS14C89A 20 0 4 5 5 — 0.9 — N/N PDIP-14, SOIC-14 0.60
DS14C232 20 2 2 5 5 — 3 — N/N PDIP-16, SOIC-16 1.14
SN75LBC241 100 4 5 5 5 — 10 — N/N SOIC-28 2.60
MAX202 120 2 2 5 5 — 15 ±15 N/N SOIC-16, TSSOP-16 0.48
MAX207 120 5 3 5 5 — 20 ±15 N/N SOIC-24, SSOP-24 1.00
MAX208 120 4 4 5 5 — 20 ±15 N/N SOIC-24, SSOP-24 1.10
MAX211 120 4 5 5 5 — 20 ±15 N/N SOIC-28, SSOP-28 1.00
MAX213 120 4 5 5 5 — 20 15 N/N SOIC-28, SSOP-28 0.96
SN75196 120 5 3 5 5 ±9 20//25/–25 10 N/N PDIP-20, SOIC-20 0.49
SN75C1406 120 3 3 5 5 ±12 0.45/0.25/–0.25 2 N/N PDIP-16, SOIC-16, SO-16 0.86
SN75C185 120 3 5 5 5 ±5 or ±12 0.75/0.2/–0.2 2 N/N PDIP-20, SOIC-20 1.10
GD65232 120 3 5 5 5 ±9 38/15/–15 — N/N SOIC-20, TSSOP-20 0.34
GD75232 120 3 5 5 5 ±9 30/15/–15 — N/N PDIP-20, SOIC-20, SSOP-20, TSSOP-20 0.34
GD75323 120 5 3 5 5 ±9 20/25/–25 — N/N SOIC-20 0.41
LT1030 120 4 0 ±5 or ±12 5 — 1/–1 — N/N PDIP-14, SOIC-14 1.60
SN65C1406 120 3 3 5 5 ±12 0.45/0.25/–0.25 — N/N SOIC-16 2.20
DS14C238 120 4 4 5 5 — 10 2 N/N SOIC-24 3.69
SN75185 120 3 5 5 5 ±9 30/15/–15 10 N/N PDIP-20, SOIC-20, SSOP-20, TSSOP-20 0.33
SN75LBC187 120 3 5 5 5 — 30 — N/N SSOP-28 4.35
TL145406 120 3 3 5 5 ±9 20/15/–15 2 N/N PDIP-16, SOIC-16 1.05
UA9636A 120 2 0 ±12 5 — 18/–18 — N/N PDIP-8, SOIC-8 0.40
UC5170C 120 8 0 ±12 5 — 42/–42 — N/N PLCC-28 3.80
UC5180C 120 0 8 5 5 — 35 — N/N PLCC-28 3.60
UC5181C 120 0 8 5 5 — 35 — N/N PLCC-28 3.80
SN75LV4737A 128 3 5 3.3 or 5 3.3 — 20.7 4 N/N SSOP-28 3.20
DS14C335 128 3 5 3.3 3.3 — 20 2 N/N SSOP-EIAJ-28 3.75
DS14C535 128 3 5 5 5 — 12 3 N/N SSOP-EIAJ-28 3.38
DS14185 200 3 5 5 5 ±12 22/30/–28 1.5 N/N SOIC-20 0.64
MAX222 200 2 2 5 5 — 10 ±15 N/N PDIP-18, SOIC-18 1.12
MAX232E 250 2 2 5 5 — 10 IEC61000-4-2 N/N PDIP-16, SOIC-16, TSSOP-16 0.61
MAX3386E 250 3 2 3.3 or 5 2.5 — 1 IEC61000-4-2 N/N SOIC-20, TSSOP-20 1.92
TRSF23243 250 6 10 3.3 or 5 3.3 — 2 ±15 N/N SSOP-48, TSSOP-48 3.04
MAX3221E 250 1 1 3.3 or 5 3.3 — 1 IEC61000-4-2 N/N SSOP-16, TSSOP-16 0.90
MAX3232E 250 2 2 3.3 or 5 3.3 — 1 IEC61000-4-2 N/Y SOIC-16, SSOP-16, TSSOP-16 0.96
SN75C23243 250 6 10 3.3 or 5 3.3 — 2 15 N/N SSOP-48, TSSOP-48 4.14
SN75LP1185 256 3 5 5 5 ±12 1/0.8/–0.625 15 N/N PDIP-20, SOIC-20, SSOP-20 1.78
SN75LP196 256 5 3 5 5 ±12 1/0.8/–0.8 15 N/N PDIP-20, SOIC-20, TSSOP-20 2.85
SN75LPE185 256 3 5 5 5 ±12 1/0.8/–0.625 15 N/N PDIP-24, SOIC-24, TSSOP-24 2.30
SN751701 300 1 1 ±5 or ±12 5 — 6.4/9.1 — N/N SOIC-8 0.95
SN75188 300 4 0 ±9 5 — 20/–17 2 N/N PDIP-14, SOIC-14, SO-14 0.16
SN75C188 300 4 0 ±12 5 — 0.16/–0.16 2 N/N PDIP-14, SOIC-14, SSOP-14, SO-14 0.34
MAX3238E 400 5 3 3.3 or 5 3.3 — 2 IEC61000-4-2 N/Y SOIC-28, SSOP-28, TSSOP-28 1.20
SN75155 400 1 1 ±12 5 — 14/–6.1 2 N/N PDIP-8, SOIC-8 0.57
MAX3318E 460 2 2 2.5 2.5 — 2 IEC61000-4-2 N/N SSOP-20, TSSOP-20 1.17
MAX3243E 500 3 5 3.3 or 5 3.3 — 1 IEC61000-4-2 Y/N SOIC-28, SSOP-28, TSSOP-28, QFN-32 0.88
MAX3222E 500 2 2 3.3 or 5 3.3 — 1 IEC61000-4-2 N/N SOIC-20, SSOP-20, TSSOP-20 1.30
MAX3223E 500 2 2 3.3 or 5 3.3 — 1 IEC61000-4-2 Y/N SOIC-20, SSOP-20, TSSOP-20 1.15
MAX3227E 1000 1 1 3.3 or 5 3.3 — 2 IEC61000-4-2 N/N SSOP-16 1.36
MAX3237E 1000 5 3 3.3 or 5 3.3 — 2 IEC61000-4-2 N/N SOIC-28, SSOP-28, TSSOP-28 1.35
TRSF3221E 1000 1 1 3.3 or 5 3.3 — 1 IEC61000-4-2 N/N SSOP-16, TSSOP-16 0.98
TRSF3222E 1000 2 2 3.3 or 5 3.3 — 1 IEC61000-4-2 N/N SOIC-20, SSOP-20, TSSOP-20 1.28
TRSF3223E 1000 2 2 3.3 or 5 3.3 — 1 IEC61000-4-2 N/N SOIC-20, SSOP-20, TSSOP-20, VQFN-20 1.28
TRSF3232E 1000 2 2 3.3 or 5 3.3 — 1 IEC61000-4-2 N/N SOIC-16, SSOP-16, TSSOP-16 1.13

Interface
General – Voltage-Level Translators
RS-232 (continued)
Main Logic Driver
Data Supply Voltage Supply HiRel/
Rate Voltage (Min) Voltage ICC AEC-Q100
Device (kbps) Drivers Receivers (NOM) (V) (V) (NOM) (V) (max) (mA) ESD HBM (kV) Avail. Package Price*
TRSF3238E 1000 5 3 3.3 or 5 3.3 — 2 IEC61000-4-2 N/N SOIC-28, SSOP-28 1.43
TRSF3243 1000 3 5 3.3 or 5 3.3 — 1 ±15 N/N SSOP-28, TSSOP-28 1.44
TRS3253E 1000 3 3.3 or 5 1.8 — 1 IEC61000-4-2 N/N VQFN-32 1.50
SN75154 1000 4 4 5 5 12 35/40 — N/N PDIP-16, SOIC-16, SO-16 0.52
SN75189A 1000 0 4 5 5 — 26 — N/N PDIP-14, SOIC-14, SO-14 0.22
SN75C189A 1000 0 4 5 5 — 0.7 — N PDIP-14, SOIC-14, SSOP-14, SO-14 0.34
Voltage-Level Translators
Single-Supply Translators
tpd (max) HiRel
Device Bits Trans Low (V) Trans High (V) VCC (V) DIR Pins Bus Hold OE Pins (ns) Avail. Price*
SN74AUP1T57 3 2.5 3.3 2.3 to 3.6 No No No 6.2 N 0.24
Dual-Supply Translators
Trans Trans tpd (max) HiRel
Device Bits Low (V) High (V) VCCA (V) VCCB (V) DIR Pins Bus Hold OE Pins (ns) Avail. Price*
TXB0101 1 1.2 5 1.2 to 3.6 1.65 to 5.5 Auto No 1 4.5 N 0.44
TXB0102 2 1.2 5 1.2 to 3.6 1.65 to 5.5 Auto No 1 4.5 N 0.39
TXB0104 4 1.2 5 1.2 to 3.6 1.65 to 5.5 Auto No 1 4 Y 0.55
TXB0104-Q1 4 1.2 5 1.2 to 3.6 1.65 to 5.5 Auto No 1 7 N 0.65
TXB0106 6 1.2 5 1.2 to 3.6 1.65 to 5.5 Auto No 1 4 Y 0.70
TXB0108 8 1.2 5 1.2 to 3.6 1.65 to 5.5 Auto No 1 4 N 0.80
TXS0101 1 1.8 5 1.65 to 3.6 2.3 to 5.5 Auto No 1 7.5 N 0.44
TXS0102 2 1.8 5 1.65 to 3.6 2.3 to 5.5 Auto No 1 4.6 N 0.33
TXS0104E 4 1.8 5 1.65 to 3.6 2.3 to 5.5 Auto No 1 4.6 N 0.65
TXS0108E 8 1.2 5 1.2 to 3.6 1.65 to 5.5 Auto No 1 4.8 N 0.80
SN74AVC1T45 1 1.2 3.3 1.2 to 3.6 1.2 to 3.6 1 No No 2.8 N 0.31
SN74AVC2T45 2 1.2 3.3 1.2 to 3.6 1.2 to 3.6 1 No No 2.4 Y 0.42
SN74AVCH1T45 1 1.2 3.3 1.2 to 3.6 1.2 to 3.6 1 Yes No 2.8 N 0.31
SN74AVCH2T45 2 1.2 3.3 1.2 to 3.6 1.2 to 3.6 1 Yes No 2.4 N 0.40
SN74AVC2T245 2 1.2 3.3 1.2 to 3.6 1.2 to 3.6 2 No 1 2.4 N 0.46
SN74AVC4T245 4 1.2 3.3 1.2 to 3.6 1.2 to 3.6 2 No 2 2.9 Y 0.65
SN74AVC8T245 8 1.2 3.3 1.2 to 3.6 1.2 to 3.6 1 No 1 2.5 Y 0.55
SN74AVC16T245 16 1.2 3.3 1.2 to 3.6 1.2 to 3.6 2 No 2 2.7 Y 1.50
SN74AVC20T245 20 1.2 3.3 1.2 to 3.6 1.2 to 3.6 2 No 2 2.9 N 1.60
SN74AVC24T245 24 1.2 3.3 1.2 to 3.6 1.2 to 3.6 6 No 6 2.7 N 1.75
SN74AVC32T245 32 1.2 3.3 1.2 to 3.6 1.2 to 3.6 4 No 4 2.7 N 1.80
SN74AVCH4T245 4 1.2 3.3 1.2 to 3.6 1.2 to 3.6 2 Yes 2 2.9 Y 0.70
SN74AVCH8T245 8 1.2 3.3 1.2 to 3.6 1.2 to 3.6 1 Yes 1 2.5 N 1.10
SN74AVC4T774 4 1.2 3.3 1.2 to 3.6 1.2 to 3.6 4 No 1 2.4 N 0.70
SN74LVC1T45 1 1.8 5 1.65 to 5.5 1.65 to 5.5 1 No No 3.9 N 0.29
SN74LVC2T45 2 1.8 5 1.65 to 5.5 1.65 to 5.5 1 No No 3.9 N 0.40
SN74LVC8T245 8 1.8 5 1.65 to 5.5 1.65 to 5.5 1 No 1 4.2 N 0.80
SN74LVCH8T245 8 1.8 5 1.65 to 5.5 1.65 to 5.5 1 Yes 1 4.2 N 0.80
SN74LVC16T245 16 1.8 5 1.65 to 5.5 1.65 to 5.5 2 No 2 4.2 N 1.65
SN74LVCH16T245 16 1.8 5 1.65 to 5.5 1.65 to 5.5 2 Yes 2 4.2 N 1.65

Radio Frequency
Broadband RF
Wideband Frequency Synthesizer with Integrated VCO

LMX2581
The LMX2581 is an ultra-low noise wideband frequency synthesizer which integrates a Key Features
delta-sigma fractional N PLL, a VCO with fully integrated tank circuit, and an optional • Low voltage logic compatibility
frequency divider. • Digital lock detect
The LMX2581 integrates several low-noise, high-precision LDOs to provide superior • 32-pin QFN package
supply noise immunity and more consistent performance. When combined with a high • High performance PLL
quality reference oscillator, the LMX2581 generates a very stable, ultra-low noise signal. • Broadband multi-core VCO
The internal VCO can be bypassed so that an external VCO can be used. • Low noise VCO divider
Applications
Vtune • Femto and TETRA base stations
Low Multiple • Software defined radio
Noise Core VCO
LDO
FLout
• Vector signal analyzer and generator
• Wireless communications, data access
Fin MUX
card, LAN card and repeater
Charge CPout
Comp Pump
Output N Divider
RFoutA MUX Divider
BUFEN LD
MUXout
RFoutB MUX
2X DATA
OSCin MUX R CLK
Divider Serial Interface
Control LE
CE
LMX2581 functional block diagram
Get more information: www.ti.com/product/LMX2581
High-Linearity Direct-Conversion Quadrature Demodulator

TRF371125
The TRF371125 is a highly linear and integrated direct-conversion quadrature demodu- Key Features
lator optimized for 3G/4G wireless infrastructure equipment. The TRF371125 integrates • Frequency range: 0.7 to 4.0 GHz
balanced I and Q mixers, LO buffers and phase splitters to convert an RF signal directly • Noise figure of 13.5 dB (gain = 40 dB)
to I and Q baseband. The on-chip programmable gain amplifiers (PGAs) allow adjust- • IIP3 of 24 dBm (gain = 40 dB)
ment of the output signal level without the need for external variable gain (attenua- • IIP2 of 60 dBm (gain = 40 dB)
tor) devices. The TRF371125 integrates programmable baseband low-pass filters that • Baseband PGA with 24 dB of gain
attenuate nearby interference, eliminating the need for an external baseband filter. range in 1 dB steps
Housed in a 7 mm x 7 mm QFN package, the TRF371125 provides the smallest and • Software-programmable baseband
most integrated receiver solution available for high-performance equipment. filter (1 dB corner)
GC5016 ADS5232 LNA • Receives RF signal bandwidths from
GC5316 ADS62P42 RF 1.4 MHz to 30 MHz
GC5018 ADS5282 Antenna
• Integrated ADC driver
ADC
• DC offset correction capability
DSP SerDes DDC Applications
ADC
• Cellular basestation receivers
TCI6xxx TLK2501 AFE8406 TRF371125 0
TLK3134 • Software-defined radios (SDRs)
Quadrature Demodulator 90
• Test equipment
• Wireless local loops
PLL VCO LO2
• High-linearity direct down-conversion
TRF3761
TRF371125 functional block diagram receivers
Get more information: www.ti.com/product/TRF371125

Radio Frequency
Broadband RF
High-Performance Quadrature Modulators

Frequency Frequency OIP3 P1dB Noise Floor I/Q Common-Mode HiRel
Device (min) (MHz) (max) (MHz) (dBm) (dBm) (dBm/Hz) Voltage (typ) (V) Available Price*
TRF370315 350 4000 23 9.5 –160 1.5 N 4.95
TRF3705 300 4000 30 13 –160 0.25 N 5.10
TRF370317 400 4000 26.5 12 –163 1.7 N 5.35
TRF370333 350 4000 21 9.5 –160 3.3 N 4.95
TRF370417 50 6000 26.5 12 –163 1.7 N 5.35
Integrated Quadrature Modulator
Frequency Frequency OIP3 P1dB Noise Floor LO Phase Noise I/Q Common-Mode HiRel
Device (min) (MHz) (max) (MHz) (dBm) (dBm) (dBm/Hz) (1MHz Offset, 2.3GHz ) (dBc/Hz) Voltage (typ) (V) Available Price*
TRF372017 300 4800 26 12 –163 –132 1.7 N 5.50
Integrated Quadrature Demodulators
Frequency Range BB Filter Bandwidth BB Filter Bandwidth IIP2 IIP3 HiRel
Device (Optimized) (GHz) (min) (MHz) (max) (MHz) (typ) (dBm) (typ) (dBm) Available Price*
TRF3710 1.7 to 2.0 0.615 1.92 60 21 N 10.45
TRF371109 0.7 to 1.0 0.700 15.0 60 24 N 11.15
TRF371125 1.7 to 2.7 0.700 15.0 60 24 N 11.15
TRF371135 3.3 to 3.8 0.700 15.0 60 24 N 11.15
High-Performance IF Transceiver
Tx LO Tx LO Tx Output Rx LO Rx LO Rx Noise Rx Input Rx BB Filter Rx BB Filter Rx BB Max
Frequency Frequency Noise Floor Tx Output Frequency Frequency Figure IP3 Cutoff Cutoff Passband HiRel
Device (min) (MHz) (max) (MHz) (dB) IP3 (dBm) (min) (MHz) (max) (MHz) (dB) (dBm) (min) (MHz) (max) (MHz) (typ) (MHz) Avail. Price*
TRF2443 165 350 –166 29.5 140 330 4.3 9.5 2 11 30 N 24.00
High-Performance Frequency Synthesizers
Divide by 1 Divide by 2 Divide by 4 HiRel
Device Fstart Fstop Fstart Fstop Fstart Fstop Available Price*
TRF3761-A 1499 1608 749.5 804 374.75 402 N 5.45
TRF3761-B 1595 1711 797.5 855.5 398.75 427.75 N 5.45
TRF3761-C 1660 1790 830 895 415 447.5 N 5.45
TRF3761-D 1740 1866 870 933 435 466.5 N 5.45
TRF3761-E 1805 1936 902.5 968 451.25 484 N 5.45
TRF3761-F 1850 1984 925 992 462.5 496 N 5.45
TRF3761-G 1920 2059 960 1029.5 480 514.75 N 5.45
TRF3761-H 2028 2175 1014 1087.5 507 543.75 N 5.45
TRF3761-J 2140 2295 1070 1147.5 535 573.75 N 5.45
LMX2430 250 (RF PLL), 100 (IF PLL) 3000 (RF PLL), 800 (IF PLL) — — — — N 1.52
LMX2485Q1 500 (RF PLL), 75 (IF PLL) 3100 (RF PLL), 800 (IF PLL) — — — — N 3.25
LMX2485E 50 (RF PLL), 75 (IF PLL) 3000 (RF PLL), 800 (IF PLL) — — — — N 2.47
LMX2487E 3000 (RF PLL), 250 (IF PLL) 7500 (RF PLL), 3000 (IF PLL) — — — — N 2.95
LMX2581 1880 3760 940 1880 470 940 N 7.00
1106 (1143E) 1184 (1143E) 553 (1143E) 592 (1143E)
LMX2531 — — N 5.50
2910 (3010E) 3132 (3010E) 1455 (3010E) 1566 (3010E)
1990 (2060E) 2240 (2060E) 995 (2060E) 1120 (2060E) 497.5 (2060E) 560 (2060E)
LMX2541 N 6.50
3480 (3740E) 4000 (3740E) 1740 (3740E) 2000 (3740E) 870 (3740E) 1000 (3740E)
*Suggested resale price in U.S. dollars in quantities of 1,000. See www.ti.com/hirel for HiRel options. 1Automotive Grade New products are listed in bold red.

Radio Frequency
Single-Mode Bluetooth® Low Energy System-on-Chip

CC2541
The CC2541 is a power-optimized system-on-chip (SoC) for both low energy and Key Features
proprietary 2.4-GHz applications. It enables robust network nodes to be built with • True one-chip single mode Bluetooth®
low total bill-of-material costs. The CC2541 combines the excellent performance of low energy solution
a leading RF transceiver with an industry-standard enhanced 8051 MCU, in-system • Optimized RF performance including
programmable Flash, 8-KB RAM, and many other powerful supporting features and Tx/Rx power and selectivity
peripherals. The CC2541 is highly suited for systems where ultra-low power consump- • Extensive peripheral set including I2C,
tion is required. Transition times between operating modes further enable low power DMA, GPIO, USARTs, ADC, timers
consumption. The CC2541 is pin-compatible with the CC2540 in the 6-mm × 6-mm • Flexible low power modes to maximize
QFN40 package, if the USB is not used on the CC2540 and the I2C/extra I/O is not system lifetime when battery powered
used on the CC2541. Applications
• Mobile/laptop accessories
32-kHz Crystal
(1)
• Sports and fitness
• Consumer health and medical
C331
2-V to 3.6-V Power Supply
C401
• Proximity
X TAL2
C321
AVDD6 31
P2_4/XO SC 32K_Q 1 32
P2_3/XO SC 32K_Q 2 33
P2_2 34
P2_0 36
P2_1 35
DVDD1 39
P1_6 38
P1_7 37
DC O U PL 40
R301
RBIAS 30
1 GND
AVDD4 29 Antenna
2 SCL
(50 )
AVDD1 28
3 SDA
AVDD2 27
4 NC
RF_N 26
5 P1_5 CC2541
RF_P 25
6 P1_4
DIE ATTACH PAD AVDD3 24
7 P1_3
XOSC_Q2 23
8 P1_2
XOSC_Q1 22
9 P1_1
AVDD5 21
20 RE SE T_N
10 DVDD2
1 1 P1_0
12 P0_7
13 P0_6
14 P0_5
15 P0_4
18 P0_1
19 P0_0
16 P0_3
17 P0_2
XTAL1
C221 C231
CC2541 application circuit
Get more information: www.ti.com/product/CC2541

Radio Frequency
High Performance RF Transceiver for Narrowband Systems

CC1120
The CC1120 is a fully integrated single-chip radio transceiver designed for high performance at Key Features
low power and low voltage operation in cost effective wireless systems. All filters are integrated, • Industry leading RF blocking and
removing the need for costly external SAW and IF filters. The device is mainly intended selectivity
for the ISM (Industrial, Scientific and Medical) and SRD (Short Range Device) frequency • 65 dB adjacent channel rejection
bands at 164-192 MHz, 410-480 MHz and 820-960 MHz. at 12.5 kHz offset
• 90 dB blocking
The CC1120 provides extensive hardware support for packet handling, data buffering,
• High output power (up to +16 dBm)
burst transmissions, clear channel assessment, link quality indication and Wake-On-Radio. and excellent sensitivity (up to 145 db
The CC1120 main operating parameters can be controlled via an SPI interface. In a typical link budget)
system, the CC1120 will be used together with a microcontroller and only few external passive • WaveMatch; advanced DSP sync
components. detector with high sensitivity and
strong noise and fast setting
Optional • Advanced RX sniff mode with low
32 MHz
power without sacrificing performance
crystal
XOSC/ Applications
TCXO
vdd
vdd
vdd
• Smart metering
• Alarm and security systems
• Industrial automation
E X T _X O S C 32
X O S C _Q 2 31
X O S C _Q 1 30
D C P L _X O S C 29
A V D D _X O S C 28
A V D D _S Y N T H 2 27
D C P L _P F D _C H P 26
25
(optional control pin

A V D D _P F D _C H P
from CC1120)
1 L P F 1 24
vdd V D D _G U A R D
2 R E S E T _N L P F 0 23
3 G P IO 3 A V D D _S Y N T H 1 22 vdd
4 G P IO 2 D C P L _V C O 21
vdd 5 DVDD
CC1120 L N A _N 20
6 DCPL 19
L N A _P
7 SI T R X _S W 18
8 SCLK P A 17
9 S O (G P IO 1)
A V D D _R F
13 A V D D _IF
14 R B IA S
10 G P IO 0
12 D V D D
CSn
N .C .
11
15
16
vdd
MCU connection
SPI interface and
vdd
vdd
vdd
optional gpio pins
CC1120-PAN1325 system block diagram
Get more information: www.ti.com/product/CC1120

Radio Frequency
Wi-Fi®/IEEE 802.11
SimpleLink™ Wi-Fi Module

CC3000, CC3000-TiWi-SL, CC3000-TypeVK
The CC3000 is a self-contained wireless solution that simplifies the process of imple- Key Features
menting Internet connectivity. SimpleLink™ Wi-Fi minimizes host microcontroller (MCU) • Embedded Wi-Fi and networking
software requirements making it the ideal solution for embedded applications using any software including drivers, stack and
low-cost/low-power MCU. The CC3000 is provided as a module by TI, LS Research supplicant
and Murata to reduce development time, lower manufacturing costs, save board space, • Best-in-class link budget:
ease certification and minimize RF expertise required. Additionally, it is provided as a Typical WLAN transmit power
complete platform solution including software drivers, sample applications, API guide, (varies by module):
user documentation and a world-class support community. 18 to 19.5 dBm, 11 Mbps, CCK (b)
Typical WLAN sensitivity:
–85 to –89 dBm, 8% PER,11 Mbps
SimpleLink™ Wi-Fi ® CC3000 Module • Compact code size (as low as 2 KB
flash and 250 B RAM) required for host
microcontroller
Vbat
• FCC/IC and ETSI-tested, production
Power Enable
CC3000 ready module
2 4GHz • U.FL with dipole antenna or chip
IRQ Front-End Antenna
Wi-Fi and
Module BPF antenna FCC/IC certified, ETSI-tested
SPI Networking reference designs available
4 Software in • Assorted levels of integration includ-
26MHZ ROM
ing power management and clocking
I2 C
32.768KHZ
EEPROM options
• Small form factor module
• Proven Wi-Fi interoperability
• Complete platform solution including
API guide, sample applications,
CC3000 Wi-Fi system diagram support community, user and porting
guides are provided by TI
Get more information: www.ti.com/wifi Benefits

• Embedded Wi-Fi software including all
drivers, TCP/IP stack, and supplicant
Development Tools and Software • Credible, proven solution with best-in-
• EM board and Booster Pack for CC3000 TI module class link budget
• Integrated Development Kit – CC3000FRAMEMK-L and CC3000FRAMEMK-M • Complete platform solution and
available today with MSP-EXP430FR5739 included certified modules
• EM board only available through distribution such as Arrow, Avnet, Digikey Applications
and Mouser • Automation
• Sample applications available - www.ti.com/tool/cc3000-platform • Home security/surveillance
• Network appliance
• Fitness/health/medical
Module Solutions
Partner TI LSR Murata
Device CC3000 CC3000-TiWi-SL CC3000-TypeVK
Size 16.3mm x 13.5mm x 2mm 21mm x 14mm x 2.3mm 16.5mm x 11.5mm x 2.2mm
Temperature –40° to 85°C –40° to 85°C –30° to 70°C

Radio Frequency
Data
Rate TX RX
(Max) Power Current Sensitivity Wakeup Time Flash RAM
Frequency Device (max) (max) (Lowest) (Best) (PD-->RX/TX) Size Size
Device Description Range Type (kbps) (dBm) (mA) (dBm) (µS) (KB) (KB) Package Price*
CC1120 High Performance RF Transceiver 164 to 192 MHz Transceiver 200 45 mA at 17 mA / –127 400 µs PD to NA NA QFN-32, 2.20
for Narrowband Systems 410 to 480 MHz kbps 14 dBm 2 mA Idle, 166 µs Idle 5x5
820 to 960 MHz sniff to RX/TX
mode
CC1121 High Performance Low Power RF 164 to 192 MHz Transceiver 200 45 mA at 17 mA / –120 400 µs PD to NA NA QFN-32, 1.95
Transceiver 410 to 480 MHz kbps 12 dBm 2 mA Idle, 166 µs Idle 5x5
mode
CC1125 Ultra-High Performance RF 164 to 192 MHz Transceiver 200 45 mA at 17 mA / –129 400 µs PD to NA NA QFN-32, 5.95
Narrowband Transceiver 274 to 320 MHz kbps 12 dBm 2 mA Idle, 166 µs Idle 5x5
820 to 960 MHz mode
CC1175 High Performance RF Transmitter 164 to 192 MHz Transceiver 200 45 mA at 17 mA / n/a 400 µs PD to NA NA QFN-32, 1.50
for Narrowband Systems 410 to 480 MHz kbps 12 dBm 2 mA Idle, 166 µs Idle 5x5
mode
CC1200 Low Power, High Performance RF 164 to 192 MHz Transceiver 1 45 mA at 17 mA / –127 300 µs PD to NA NA QFN-32, —
Transceiver 410 to 480 MHz Mbps 14 dBm 2 mA Idle, 133 µs Idle 5x5
mode
CC257x Single Channel ANT® RF Network 2.4 GHz Network 1 4 dBm 23.7 –86 dBm 620 N/A N/A QFN-40 2.60
Processor Processor Mbps 6x6 mm
CC2543/4/5 Low-Cost 2.4 GHz System-on- 2.4 GHz System-on- 2 4 dBm 22.5 mA –98 dBm 630 32 1/2 QFN 1.75
Chips Chip Mbps
CC2538 Powerful SoC for 2.4 GHz IEEE 2.4 GHz System-on- 250 0 dBm 20 mA –97 dBm — 128/ 32 8.8 QFN56 —
802.15.4-2006 and ZigBee® Chip kbps 24 ma at 256/
Applications PER<1% 512 K
CC2530/31 Second Generation SoC for 2.4 2.4 GHz System-on- 250 29 mA 24 mA –97 dBm — 32/64/ 8-kB QFN-40 —
GHz IEEE 802.15.4 / RF4CE / Chip kbps at 128 SRAM 6.6 mm
ZigBee PER<1% 256-kB
Flash
CC2541 2.4-GHz Bluetooth® Low Energy 2.4 GHz System-on- 2 0 dBm 17.9 mA –94 dBm 620 128/ 8 kB VQFN-40, 2.00
System-on-Chip Chip Mbps 18.2 mA at 1 Mbit 256 kB RAM 6x6
FLASH
CC430 2.4 GHz System-on-Chip with 300 to 348 MHz System-on- 500 15 mA 15 mA –111 — 8/16/ 8 kB VQFN-48/ —
RF Core 387 to 464 MHz Chip kbps 32-kB RAM VQFN-64
779 to 92 MHz Flash

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Use these high-level, expert support tools
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WEBENCH Design Center Features

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complete schematic of your designs; simulate the
dynamic behavior and thermal performance of your
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TI University Program offers universities the
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Processing portfolio via discounted tools,
free products, and lab donations. From teaching
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fuel the passions of students and educators in
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Add TI to your curriculum, contact:

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TI Worldwide Technical Support
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TI Semiconductor Product Information Center
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The platform bar, C2000, DaVinci, E2E, e-trim, FlatLink, KeyStone, LinCMOS, MicroStar Junior,
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TINA-TI, Tiva and TruTherm are trademarks and WEBENCH is a registered trademark of
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ANT is a registered trademark of Dynastream Innovations, Inc. Cortex is a trademark and ARM
is a registered trademark of ARM Limited. The Bluetooth word mark and logos are owned by the
Bluetooth SIG, Inc., and any use of such marks by Texas Instruments is under license. DeviceNet
is a trademark of Open DeviceNet Vendor Association, Inc. FireWire is a registered trademark of
Apple Computer Incorporated. HART is a registered trademark of HART Communication Foundation
Corporation. I2C Bus is a registered trademark of NXP B.V. Corporation. i.LINK is a registered
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© 2013 Texas Instruments Incorporated

Printed in U.S.A. SLYB174B
IMPORTANT NOTICE
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Analog

Signal Chain Guide

Amplifiers and Comparators Signal Conditioners:

Clocks and Timing Resources

2 | Signal Chain Guide 2013 Texas Instruments

Speed Power Embedded

Texas Instruments Signal Chain Guide 2013 | 3

Two Op Amp Instrumentation Amplifier with Improved

Get more information: www.ti.com/product/OPA320

4 | Signal Chain Guide 2013 Texas Instruments

23 MHz CMOS EMI Hardened Op Amp with 1.8 V Shutdown Logic

LMV881 functional diagram

Get more information: www.ti.com/product/LMV881

Texas Instruments Signal Chain Guide 2013 | 5

10-MHz, Low-Noise, RRO, 36 V Operational Amplifier in MicroPackages

Per Channel Isolated Analog Input Module

System block diagram

Get more information: www.ti.com/product/OPA172

6 | Signal Chain Guide 2013 Texas Instruments

Texas Instruments Signal Chain Guide 2013 | 7

Low-Power Operational Amplifiers (IQ <1000 µA) (sorted by IQ)

8 | Signal Chain Guide 2013 Texas Instruments

Low-Power Operational Amplifiers (IQ <1000 µA) (sorted by IQ) (continued)

Texas Instruments Signal Chain Guide 2013 | 9

Low-Noise Operational Amplifiers (VN ≤10 nV/√Hz) (sorted by VN)

10 | Signal Chain Guide 2013 Texas Instruments

Low-Noise Operational Amplifiers (VN ≤10 nV/√Hz) (sorted by VN) (continued)

Texas Instruments Signal Chain Guide 2013 | 11

12 | Signal Chain Guide 2013 Texas Instruments

Wide-Bandwidth Precision Operational Amplifiers (GBW >5 MHz) (sorted by GBW)

Texas Instruments Signal Chain Guide 2013 | 13

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2.4 GHz Programmable Differential Amplifier with Gain Control

LMH6881 functional block diagram

Get more information: www.ti.com/product/LMH6881

Very Low Power, Rail-to-Rail Operational Amplifiers

OPA835/6, OPA2835/6 functional block diagram

Get more information: www.ti.com/product/Part Number

Ultra-Low-Power, Fully-Differential Operational Amplifier

Get more information: www.ti.com/product/THS4531

2.8 GHz Ultra-Linear Fully Differential Amplifier

Get more information: www.ti.com/product/LMH6554

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OPA847 1 Y ±5 12 600 — 3800, G ≥ 50 950 10 –105, G = 20 –105,

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High-Speed Amplifiers (continued)

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High-Speed Amplifiers (continued)

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High-Speed Amplifiers (continued)

Video Amplifiers (Sorted by Ascending G = +2 Bandwidth)

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Video Amplifiers (Sorted by Ascending G = +2 Bandwidth) (continued)

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Voltage-Controlled Amplifiers (continued)

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Low Noise Instrumentation Amplifiers for Industrial Applications

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