MSP430™ Hardware Tools: User's Guide
MSP430™ Hardware Tools: User's Guide
MSP430™ Hardware Tools: User's Guide
User’s Guide
Table of Contents
B.17 MSP-TS430DL48...........................................................................................................................................................81
B.18 MSP-TS430PT48...........................................................................................................................................................84
B.19 MSP-TS430PT48A........................................................................................................................................................ 88
B.20 MSP-TS430RGZ48B..................................................................................................................................................... 92
B.21 MSP-TS430RGZ48C..................................................................................................................................................... 95
B.22 MSP-TS430PM64..........................................................................................................................................................98
B.23 MSP-TS430PM64A..................................................................................................................................................... 101
B.24 MSP-TS430PM64D..................................................................................................................................................... 104
B.25 MSP-TS430PM64F......................................................................................................................................................107
B.26 MSP-TS430RGC64B................................................................................................................................................... 110
B.27 MSP-TS430RGC64C................................................................................................................................................... 113
B.28 MSP-TS430RGC64USB.............................................................................................................................................. 117
B.29 MSP-TS430PN80........................................................................................................................................................ 122
B.30 MSP-TS430PN80A......................................................................................................................................................125
B.31 MSP-TS430PN80B......................................................................................................................................................128
B.32 MSP-TS430PN80C......................................................................................................................................................131
B.33 MSP-TS430PN80USB.................................................................................................................................................135
B.34 MSP-TS430PZ100.......................................................................................................................................................140
B.35 MSP-TS430PZ100A.................................................................................................................................................... 143
B.36 MSP-TS430PZ100B.................................................................................................................................................... 146
B.37 MSP-TS430PZ100C.................................................................................................................................................... 149
B.38 MSP-TS430PZ100D.................................................................................................................................................... 152
B.39 MSP-TS430PZ100E.................................................................................................................................................... 156
B.40 MSP-TS430PZ5x100...................................................................................................................................................160
B.41 MSP-TS430PZ100USB............................................................................................................................................... 163
B.42 MSP-TS430PZ100AUSB.............................................................................................................................................168
B.43 MSP-TS430PEU128....................................................................................................................................................173
B.44 EM430F5137RF900.................................................................................................................................................... 176
B.45 EM430F6137RF900.................................................................................................................................................... 180
B.46 EM430F6147RF900.................................................................................................................................................... 184
C Hardware Installation Guide..............................................................................................................................................189
Revision History.................................................................................................................................................................... 190
List of Figures
Figure 2-1. Signal Connections for 4-Wire JTAG Communication.............................................................................................21
Figure 2-2. Signal Connections for 2-Wire JTAG Communication (Spy-Bi-Wire) Used by MSP430F2xx, MSP430G2xx,
and MSP430F4xx Devices.....................................................................................................................................................22
Figure 2-3. Signal Connections for 2-Wire JTAG Communication (Spy-Bi-Wire) Used by All MSP430 SBW-Capable
Devices That are Not Part of F2xx, G2xx, F4xx Families...................................................................................................... 23
Figure B-1. MSP-TS430D8 Target Socket Module, Schematic................................................................................................. 31
Figure B-2. MSP-TS430D8 Target Socket Module, PCB...........................................................................................................32
Figure B-3. MSP-TS430PW14 Target Socket Module, Schematic............................................................................................ 34
Figure B-4. MSP-TS430PW14 Target Socket Module, PCB..................................................................................................... 35
Figure B-5. MSP-TS430L092 Target Socket Module, Schematic..............................................................................................37
Figure B-6. MSP-TS430L092 Target Socket Module, PCB....................................................................................................... 38
Figure B-7. MSP-TS430L092 Active Cable Target Socket Module, Schematic.........................................................................40
Figure B-8. MSP-TS430L092 Active Cable Target Socket Module, PCB.................................................................................. 41
Figure B-9. UART BSL Signal Select.........................................................................................................................................43
Figure B-10. MSP-TS430PW20 Target Socket Module, Schematic.......................................................................................... 44
Figure B-11. MSP-TS430PW20 Target Socket Module, PCB....................................................................................................45
Figure B-12. MSP-TS430RHL20 Target Socket Module, Schematic.........................................................................................48
Figure B-13. MSP-TS430RHL20 Target Socket Module, PCB.................................................................................................. 49
Figure B-14. MSP-TS430PW24 Target Socket Module, Schematic.......................................................................................... 51
Figure B-15. MSP-TS430PW24 Target Socket Module, PCB................................................................................................... 52
Figure B-16. MSP-TS430RGE24A Target Socket Module, Schematic......................................................................................54
Figure B-17. MSP-TS430RGE24A Target Socket Module, PCB............................................................................................... 55
Figure B-18. MSP-TS430DW28 Target Socket Module, Schematic..........................................................................................57
Figure B-19. MSP-TS430DW28 Target Socket Module, PCB................................................................................................... 58
Figure B-20. MSP-TS430PW28 Target Socket Module, Schematic.......................................................................................... 60
Figure B-21. MSP-TS430PW28 Target Socket Module, PCB................................................................................................... 61
Figure B-22. MSP-TS430PW28A Target Socket Module, Schematic........................................................................................63
List of Tables
Table 1-1. Individual Kit Contents, MSP-TS430xx..................................................................................................................... 12
Table B-1. MSP-TS430D8 Bill of Materials................................................................................................................................ 33
Table B-2. MSP-TS430PW14 Bill of Materials...........................................................................................................................36
Table B-3. MSP-TS430L092 Bill of Materials.............................................................................................................................39
Table B-4. MSP-TS430L092 JP1 Settings.................................................................................................................................41
Table B-5. MSP-TS430L092 Active Cable Bill of Materials....................................................................................................... 42
Table B-6. MSP-TS430PW20 Bill of Materials...........................................................................................................................46
Table B-7. MSP-TS430RHL20 Bill of Materials......................................................................................................................... 50
Table B-8. MSP-TS430PW24 Bill of Materials...........................................................................................................................53
Table B-9. MSP-TS430RGE24A Bill of Materials (BOM)...........................................................................................................56
Table B-10. MSP-TS430DW28 Bill of Materials.........................................................................................................................59
Table B-11. MSP-TS430PW28 Bill of Materials......................................................................................................................... 62
Table B-12. MSP-TS430PW28A Bill of Materials...................................................................................................................... 65
Table B-13. MSP-TS430RHB32A Bill of Materials.....................................................................................................................68
Table B-14. MSP-TS430DA38 Bill of Materials..........................................................................................................................71
Table B-15. MSP-TS430QFN23x0 Bill of Materials................................................................................................................... 74
Table B-16. MSP-TS430RSB40 Bill of Materials....................................................................................................................... 77
Table B-17. MSP-TS430RHA40A Bill of Materials.....................................................................................................................80
Table B-18. MSP-TS430DL48 Bill of Materials.......................................................................................................................... 83
Table B-19. MSP-TS430PT48 Bill of Materials.......................................................................................................................... 86
Table B-20. MSP-TS430PT48A Bill of Materials........................................................................................................................90
Table B-21. MSP-TS430RGZ48B Bill of Materials.....................................................................................................................94
Table B-22. MSP-TS430RGZ48C Bill of Materials.................................................................................................................... 97
Table B-23. MSP-TS430PM64 Bill of Materials....................................................................................................................... 100
Table B-24. MSP-TS430PM64A Bill of Materials.....................................................................................................................103
Table B-25. MSP-TS430PM64D Bill of Materials.....................................................................................................................106
Table B-26. MSP-TS430PM64F Bill of Materials (BOM)......................................................................................................... 109
Table B-27. MSP-TS430RGC64B Bill of Materials...................................................................................................................112
Table B-28. MSP-TS430RGC64C Bill of Materials.................................................................................................................. 116
Table B-29. MSP-TS430RGC64USB Bill of Materials............................................................................................................. 120
Table B-30. MSP-TS430PN80 Bill of Materials........................................................................................................................124
Table B-31. MSP-TS430PN80A Bill of Materials..................................................................................................................... 127
Table B-32. MSP-TS430PN80B Bill of Materials..................................................................................................................... 130
Table B-33. MSP-TS430PN80C Bill of Materials..................................................................................................................... 133
Table B-34. MSP-TS430PN80USB Bill of Materials................................................................................................................ 138
Table B-35. MSP-TS430PZ100 Bill of Materials...................................................................................................................... 142
Table B-36. MSP-TS430PZ100A Bill of Materials....................................................................................................................145
Table B-37. MSP-TS430PZ100B Bill of Materials....................................................................................................................148
Table B-38. MSP-TS430PZ100C Bill of Materials................................................................................................................... 151
Table B-39. MSP-TS430PZ100D Bill of Materials................................................................................................................... 154
Table B-40. MSP-TS430PZ100E Bill of Materials....................................................................................................................158
Table B-41. MSP-TS430PZ5x100 Bill of Materials.................................................................................................................. 162
Table B-42. MSP-TS430PZ100USB Bill of Materials...............................................................................................................166
Table B-43. MSP-TS430PZ100AUSB Bill of Materials............................................................................................................ 171
Table B-44. MSP-TS430PEU128 Bill of Materials................................................................................................................... 175
Table B-45. EM430F5137RF900 Bill of Materials....................................................................................................................178
Table B-46. EM430F6137RF900 Bill of Materials....................................................................................................................182
Table B-47. EM430F6147RF900 Bill of Materials....................................................................................................................186
Preface
Read This First
This manual describes the hardware of the TI MSP-FET430 Flash Emulation Tool (FET). The FET is the
program development tool for the MSP430™ ultra-low-power microcontrollers.
How to Use This Manual
Read and follow the instructions in Chapter 1. This section lists the contents of the FET and provides instructions
on installing the hardware and the software drivers. After you see how quick and easy it is to use the
development tools, TI recommends that you read all of this manual.
This manual describes the setup and operation of the FET but does not fully describe the MSP430
microcontrollers or the development software systems. For details of these items, see the appropriate TI
documents listed in Section 1.17.
This manual applies to the following tools:
• MSP-FET430PIF – debug interface with parallel port connection, for all MSP430 flash-based devices
• MSP-FET430UIF – debug interface with USB connection, for all MSP430 flash-based devices
• MSP-FET – successor to MSP-FET430UIF, debug interface with USB connection, for all MSP430 devices
• eZ430-F2013 – USB stick form factor interface with attached MSP430F2013 target, for all MSP430F20xx,
MSP430G2x01, MSP430G2x11, MSP430G2x21, and MSP430G2x31 devices
• eZ430-T2012 – three MSP430F2012 based target boards
• eZ430-RF2500 – USB stick form factor interface with attached MSP430F2274 and CC2500 target, for all
MSP430F20xx, MSP430F21x2, MSP430F22xx, MSP430G2x01, MSP430G2x11, MSP430G2x21, and
MSP430G2x31 devices
• eZ430-RF2500T – one MSP430F2274 and CC2500 target board including battery pack)
• eZ430-RF2500-SEH – USB stick form factor interface with attached MSP430F2274 and CC2500 target and
solar energy harvesting module
• eZ430-Chronos-xxx – USB stick form factor interface with CC430F6137 based development system
contained in a watch; includes <1 GHz RF USB access point
Stand-alone target-socket modules without debug interface are named as MSP-TS430TSxx.
Tools named as MSP-FET430Uxx contain the USB debug interface (MSP-FET430UIF) and the respective target
socket module MSP-TS430TSxx, where 'xx' is the same for both names. The following tools contain also the
USB debug interface (MSP-FET430UIF):
• FET430F5137RF900 – for CC430F513x devices in 48-pin RGZ packages (green PCB)
• FET430F6137RF900 – for CC430F612x and CC430F613x devices in 64-pin RGC packages (green PCB)
These tools contain the most up-to-date materials available at the time of packaging. For the latest materials
(data sheets, user's guides, software, application information, and so on), visit the TI MSP430 website or contact
your local TI sales office.
CAUTION
This is an example of a caution statement.
A caution statement describes a situation that could potentially damage your software or equipment.
WARNING
This is an example of a warning statement.
A warning statement describes a situation that could potentially cause harm to you.
The information in a caution or a warning is provided for your protection. Read each caution and warning
carefully.
Related Documentation From Texas Instruments
MSP430 development tools documentation:
MSP Debuggers User's Guide
Code Composer Studio IDE for MSP430 MCUs User's Guide
Code Composer Studio IDE
IAR Embedded Workbench for MSP430 User's Guide
IAR Embedded Workbench IDE
eZ430-F2013 Development Tool User's Guide
eZ430-RF2480 Demonstration Kit User's Guide
eZ430-RF2500 Development Tool User's Guide
eZ430-RF2500-SEH Development Tool User's Guide
eZ430-Chronos Development Tool User's Guide
Spectrum Analyzer (MSP-SA430-SUB1GHZ) User's Guide
MSP-EXP430F5529 Experimenter Board User's Guide
MSP-EXP430F5438 Experimenter Board User's Guide
MSP-EXP430G2 LaunchPad Development Kit User's Guide
MSP Gang Programmer (MSP-GANG) User's Guide
MSP430 Gang Programmer (MSP-GANG430) User's Guide
MSP430 device user's guides:
MSP430F1xx Family User's Guide
MSP430x2xx Family User's Guide
MSP430x3xx Family User's Guide
MSP430F4xx Family User's Guide
MSP430F5xx and MSP430F6xx Family User's Guide
CC430 Family User's Guide
MSP430FR57xx Family User's Guide
Chapter 1
Get Started Now!
This chapter lists the contents of the FET and provides instruction on installing the hardware.
See the device data sheets for device specifications. Device errata can be found in the respective device
product folder on the web provided as a PDF document. Depending on the device, errata may also be found in
the device bug database.
Note
NOTE: This part is obsolete and is not recommended to use in new design.
1.6 Kit Contents, eZ430-F2013
• One QUICK START GUIDE document
• One eZ430-F2013 development tool including one MSP430F2013 target board
1.7 Kit Contents, eZ430-T2012
• Three MSP430F2012-based target boards
Chapter 2
Design Considerations for In-Circuit Programming
This chapter presents signal requirements for in-circuit programming of the MSP430.
Important to connect
VCC
MSP430Fxxx
J1 (see Note A)
VCC/AVCC/DVCC
J2 (see Note A)
C2 C3
R1 10 µF 0.1 µF
47 kW
(see Note B)
JTAG
RST/NMI
VCC TOOL TDO/TDI TDO/TDI
2 1
VCC TARGET TDI/VPP TDI/VPP
4 3
TMS
6 5 TMS
TEST/VPP TCK
8 7 TCK
GND
10 9
RST (see Note D)
12 11
14 13
A. If a local target power supply is used, make connection J1. If power from the debug or programming adapter is used, make connection
J2.
B. The configuration of R1 and C1 for the RST/NMI pin depends on the device family. See the respective MSP430 family user's guide for
the recommended configuration.
C. The TEST pin is available only on MSP430 family members with multiplexed JTAG pins. See the device-specific data sheet to determine
if this pin is available.
D. The connection to the JTAG connector RST pin is required when programming or debugging a device that supports 2-wire JTAG
communication, even when using 4-wire JTAG communication mode on these devices. However, this connection is optional on devices
that do not support 2-wire JTAG communication.
E. When using a device that supports 2-wire JTAG communication in 4-wire JTAG mode, the upper limit for C1 should not exceed 2.2 nF.
The typical value for SBW communication is shown. The range can vary between 0.1 nF and 2.2 nF depending on SBW speed, voltage,
and board design. See the device-specific data sheet for device-specific recommendations.
F. For extra ESD protection on the TEST pin, a 500ohm to 1k ohm pull down resistor can be added
J1 (see Note A)
VCC/AVCC/DVCC
J2 (see Note A)
C2 C3
10 µF 0.1 µF
R1
47 kΩ
JTAG
TEST/SBWTCK
C1
1.1 nF VSS/AVSS/DVSS
(See Note B)
A. If a local target power supply is used, make connection J1. If power from the debug or programming adapter is used, make connection
J2.
B. The device RST/NMI/SBWTDIO pin is used in 2-wire mode for bidirectional communication with the device during JTAG access, and any
capacitance that is attached to this signal can affect the ability to establish a connection with the device. The upper limit for C1 is 2.2 nF
when using current TI tools. The typical value for SBW communication is shown. The range can vary between 0.1 nF and 2.2 nF
depending on SBW speed, voltage, and board design. See the device-specific data sheet for device-specific recommendations.
C. R2 protects the JTAG debug interface TCK signal from the JTAG security fuse blow voltage that is supplied by the TEST/VPP pin during
the fuse blow process. If fuse blow functionality is not needed, R2 is not required (populate 0 Ω) and do not connect TEST/VPP to TEST/
SBWTCK.
D. For extra ESD protection on the TEST pin, a 500ohm to 1k ohm pull down resistor can be added
Figure 2-2. Signal Connections for 2-Wire JTAG Communication (Spy-Bi-Wire) Used by MSP430F2xx,
MSP430G2xx, and MSP430F4xx Devices
J1 (see Note A)
VCC/AVCC/DVCC
J2 (see Note A)
C2 C3
R1 10 µF 0.1 µF
47 kΩ
JTAG
TEST/SBWTCK
C1
1.1 nF VSS/AVSS/DVSS
(See Note B)
A. Make connection J1 if a local target power supply is used, or make connection J2 if the target is powered from the debug or
programming adapter.
B. The device RST/NMI/SBWTDIO pin is used in 2-wire mode for bidirectional communication with the device during JTAG access, and any
capacitance that is attached to this signal can affect the ability to establish a connection with the device. The upper limit for C1 is 2.2 nF
when using current TI tools. The typical value for SBW communication is shown. The range can vary between 0.1 nF and 2.2 nF
depending on SBW speed, voltage, and board design. See the device-specific data sheet for device-specific recommendations.
C. For extra ESD protection on the TEST pin, a 500ohm to 1k ohm pull down resistor can be added
Figure 2-3. Signal Connections for 2-Wire JTAG Communication (Spy-Bi-Wire) Used by All MSP430 SBW-
Capable Devices That are Not Part of F2xx, G2xx, F4xx Families
Note
On some Spy-Bi-Wire capable MSP430 devices, TEST/SBWTCK is very sensitive to rising signal
edges that can cause the test logic to enter a state where an entry sequence (either 2‑wire or 4-wire)
is not recognized correctly and JTAG access stays disabled. Unintentional edges on SBWTCK can
occur when the JTAG connector is connected to the target device.
Appendix A
Frequently Asked Questions and Known Issues
This appendix presents solutions to frequently asked questions regarding the MSP-FET430 hardware.
12.The device current is higher then expected. The device current measurement may not be accurate with
the debugger connected to the device. For accurate measurement, disconnect the debugger. Additionally
some unused pins of the device should be terminated. See the Connection of Unused Pins table in the
device's family user's guide.
13.MSP-FETv2 – SBW may have issues with some target socket boards. Check the capacitance of the RST
(SBWTDIO) line. If there is no capacitance, you may need to add at least 100 pF to the RST signal. The
additional capacity on the RST line ensures that the timing between the SBWTDIO and SBWTCK signals is
synchronized.
14.The following ZIF sockets are used in the FET tools and target socket modules:
• 8-pin device (D package): Yamaichi IC369-0082
• 14-pin device (PW package): Enplas OTS-14-065-01
• 14-pin package for 'L092 (PW package): Yamaichi IC189-0142-146
• 24-pin package (PW package): Enplas OTS-24(28)-0.65-02
• 28-pin device (DW package): Wells-CTI 652 D028
• 28-pin device (PW package): Enplas OTS-28-0.65-01
• 38-pin device (DA package): Yamaichi IC189-0382-037
• 40-pin device (RHA package): Enplas QFN-40B-0.5-01
• 40-pin device (RSB package): Enplas QFN-40B-0.4
• 48-pin device (RGZ package): Yamaichi QFN11T048-008 A101121-001
• 48-pin device (DL package): Yamaichi IC51-0482-1163
• 64-pin device (PM package): Yamaichi IC51-0644-807
• 64-pin device (RGC package): Yamaichi QFN11T064-006
• 80-pin device (PN package): Yamaichi IC201-0804-014
• 100-pin device (PZ package): Yamaichi IC201-1004-008
• 128-pin device (PEU package): Yamaichi IC500-1284-009P
Enplas: www.enplas.com
Wells-CTI (Sensata Technologies): www.sensata.com
Yamaichi: www.yeu.com
Problem Description
If high current is detected, the ICC monitor algorithm stays in a loop of frequently switching on and off the target
power supply. This power switching puts some MSP430 devices such as the MSP430F5438 in a state that
requires a power cycle to return the device to JTAG control.
A side issue is that if the UIF firmware has entered this switch on and switch off loop, it is not possible to turn off
the power supply to the target by calling MSP430_VCC(0). A power cycle is required to remove the device from
this state.
Solution
IAR KickStart and Code Composer Essentials that have the MSP430.dll version 2.04.00.003 and higher do not
show this problem. Update the software development tool to this version or higher to update the MSP-
FET430UIF firmware.
MSP-FET430PIF
Some PCs do not supply 5 V through the parallel port
Problem Description
Device identification problems with modern PCs, because the parallel port often does not deliver 5 V as was
common with earlier hardware.
1. When connected to a laptop, the test signal is clamped to 2.5 V.
2. When the external VCC becomes less than 3 V, up to 10 mA is flowing in the adapter through pin 4 (sense).
Solution
Measure the voltage level of the parallel port. If it is too low, provide external 5 V to the VCC pads of the interface.
The jumper on a the target socket must be switched to external power.
Appendix B
Hardware
This appendix contains information relating to the FET hardware, including schematics, PCB pictorials, and bills
of materials (BOMs). All other tools, such as the eZ430 series, are described in separate product-specific user's
guides.
Topic Section
MSP-TS430D8 Appendix B.1
MSP-TS430PW14 Appendix B.2
MSP-TS430L092 Appendix B.3
MSP-TS430L092 Active Cable Appendix B.4
MSP-TS430PW20 Appendix B.5
MSP-TS430RHL20 Appendix B.6
MSP-TS430PW24 Appendix B.7
MSP-TS430RGE24A Appendix B.8
MSP-TS430DW28 Appendix B.9
MSP-TS430PW28 Appendix B.10
MSP-TS430PW28A Appendix B.11
MSP-TS430RHB32A Appendix B.12
MSP-TS430DA38 Appendix B.13
MSP-TS430QFN23x0 Appendix B.14
MSP-TS430RSB40 Appendix B.15
MSP-TS430RHA40A Appendix B.16
MSP-TS430DL48 Appendix B.17
MSP-TS430PT48 Appendix B.18
MSP-TS430PT48A Appendix B.19
MSP-TS430RGZ48B Appendix B.20
MSP-TS430RGZ48C Appendix B.21
MSP-TS430PM64 Appendix B.22
MSP-TS430PM64A Appendix B.23
MSP-TS430PM64D Appendix B.24
MSP-TS430PM64F Appendix B.25
MSP-TS430RGC64B Appendix B.26
MSP-TS430RGC64C Appendix B.27
MSP-TS430RGC64USB Appendix B.28
MSP-TS430PN80 Appendix B.29
MSP-TS430PN80A Appendix B.30
MSP-TS430PN80B Appendix B.31
MSP-TS430PN80C Appendix B.32
MSP-TS430PN80USB Appendix B.33
MSP-TS430PZ100 Appendix B.34
Topic Section
MSP-TS430PZ100A Appendix B.35
MSP-TS430PZ100B Appendix B.36
MSP-TS430PZ100C Appendix B.37
MSP-TS430PZ100D Appendix B.38
MSP-TS430PZ100E Appendix B.39
MSP-TS430PZ5x100 Appendix B.40
MSP-TS430PZ100USB Appendix B.41
MSP-TS430PZ100AUSB Appendix B.42
MSP-TS430PEU128 Appendix B.43
EM430F5137RF900 Appendix B.44
EM430F6137RF900 Appendix B.45
EM430F6147RF900 Appendix B.46
31
MSP430™ Hardware Tools
SBW
14 13 Ext_PWR
12 11
10 9
1
2
3
8 7 SBWTCK J3
6 5
4 3
2 1 RST/SBWTDIO
C7 100nF
10uF/10V
GND
FE4L FE4H
U1
1 VCC430 1 8 GND 8
DVCC DVSS
2 P1.2 2 7 TST/SBWTCK 7
P1.2/TA1/A2 TST/SBWTCK
3 P1.5 3 6 RST/SBWTDIO 6
P1.5/TA0/A5/SCLK RST/SBWTDIO
4 P1.6 4 5 P1.7 5
P1.6/TA1/A6/SDO/SCL P1.7/A7/SDI/SDA
J1 MSP-TS430D8 J2
Socket: YA MAICHI
Type: IC369-0082
R3
2
1
Jumper J5
1-2 (int): Power supply from JTAG interface
14-pin connector for debugging 2-3 (ext): External power supply
in Spy-Bi-Wire mode only
(4-Wire JTAG not available)
D1
Connector J3
LED connected to P1.2
External power connector
Jumper J5 to “ext”
Jumper J4
Open to disconnect LED
Jumper J6
Orient Pin 1 of MSP430 device Open to measure current
1
2
3
8 7 SBWTCK J3
6 5 TMS
4 3 TDI
2 1 TDO/SBWTDIO
C7 100nF
10uF/10V
1 VCC430 1 14 GND 14
2 P1.0 2 13 XIN 13
12pF C2 XOUT 3 P1.1 3 12 XOUT 12
DNP 4 P1.2 4 11 TEST/SBWTCK 11
5 P1.3 5 10 RST/SBWTDIO 10
Q1 6 P1.4/TCK 6 9 P1.7/TDO 9
DNP 7 P1.5/TMS 7 8 P1.6/TDI 8
12pF C1 XIN J1 C3 J2
DNP 100nF Socket: ENPLAS
DNP Type: OTS-14-065
R3
2
1
D1 330R
green GND
J4
GND
MSP-TS430PW14 Target Socket Board
B.2 MSP-TS430PW14
34
www.ti.com Hardware
Jumper J5
Connector JTAG 1-2 (int): Power supply from JTAG interface
For JTAG Tool 2-3 (ext): External power supply
Connector J3
External power connector
D1 Jumper J5 to "ext"
LED connected to P1.0
Jumpers J7 to J12
Jumper J4 Close 1-2 to debug in Spy-Bi-Wire mode.
Open to disconnect LED Close 2-3 to debug in 4-wire JTAG mode.
B.3 MSP-TS430L092
Connector J3
External power connector
Jumper JP1
Jumper JP3
Write enable for EPROM
Open to measure current
Orient pin 1 of
MSP430 device
Figure B-8 shows the PCB layout for the Active Cable. The following pinning is possible:
• JP1 has two jumpers (Jumper 1 and Jumper 2) that can be set as shown in Table B-4.
Table B-4. MSP-TS430L092 JP1 Settings
Jumper 1 Jumper 2 Description
Off Off The active cable has no power and does not function.
The active cable receives power from target socket. For this option, the
Off On
target socket must have its own power supply.
On Off The active cable receives power from the JTAG connector.
The JTAG connector powers the active cable and the target socket. For
On On this option, the target socket must not have its own power source, as
this would cause a not defined state.
• JP2 is for reset. For the standard MSP-TS430L092, this jumper must be set. It sets the reset pin to high and
can also control it. Without this jumper on the MSP-TS430L092, reset is set to zero.
JP2
Connector JTAG
For JTAG Tool
JP1
B.5 MSP-TS430PW20
The MSP-TS430PW20 microcontroller development board supports the MSP430FR23x and MSP430FR21x
FRAM devices in both 20-pin and 16-pin TSSOP (TI package code PW) packages. No microcontroller devices
are included in the MSP-TS430PW20 kit, but can be ordered from the TI Store.
The MSP-TS430PW20 microcontroller development board has two jumpers on header J11 that direct the UART
BSL signals, depending on which device is being used (see Figure B-9).
3
2
1
2 1 TDO/SBWTDIO Open = BSL Connector
ext 3 Closed = JTAG Connector
5 Vcc
int
2
1
VCC Ext_PWR
5
J1 GND
TEST/SBWTCK1 JP13 DNP
JP3 JP4 SW1 JP5 JP6 JP7 JP8 BSL
1
2
2 3 3 EVQ11 3 3 3 3 SPICLK/SCL P1.3 9 10
R2
0R
JTAG ->
1
2
DVCC RXD/SIMO RXD 3 4
R3
0R
47k 1.1nF JP15 TXD/SOMI/SDA1 1 2
GND P1.3
1
2
TXD/SOMI/SDA GND
JP16
P1.2 1 I2C RST/SBWTDIO
2
TDX 3 UART
JP17
JP18
2 2
4 1 1 If external supply voltage:
remove R3 and add R2 (0 Ohm)
4
R7 R15
10k 10k
DVCC
C11
100nF
JP11
GND PW20
PIN15 1 2 PIN16
TDX 3 4 RXD
PIN14 5 6 PIN15
3 SAM1029-10-ND/1-10 U1 J4 PW16 3
1 P1.1 1 P1.2/UCB0SIMO/UCB0SDA/TB0TRG/OA0-/A2/VEREF-
P1.1/UCB0CLK/ACLK/C1/A1 20 P1.2 20
DVCC
5 DVCC 5 DVCC 16
P1.6/UCA0RXD/UCA0SOMI/TB0.1/TDI/TCLK/TRI0-/A6 PIN16 16
6 DVSS 6 15 PIN15 15
SW2
DVSS P1.7/UCA0TXD/UCA0SIMO/TB2.0/TD0/TRI0+/A7/VREF+
7 XIN 7 P2.7/TB0CLK/XIN P2.0/TB1.1/CO 14 PIN14 14
8 XOUT 8 P2.6/MCLK/XOUT P2.1/TB1.2 13 13
R14DNP 9 9 IPW16
P1.3 P2.5/UCB0SOMI/UCB0SCL P2.2/UCB0STE/TB1CLK 12 12
10 10 P2.4/UCB0SIMO/UCB0SDA P2.3/UCB0CLK/TB1TRG 11 11
R1 330R IPW20
P1.0 J3 MSP430FR231XIPW20 Socket: Enplas OTS-20S-0.65-007 SAM1029-10-ND/11-20
D1
2
1
green
JP9 DNP 12p DVCC
1uF/10V
XOUT
2 DNP
R5 330R
P1.1 XIN C8 C6 C7 2
D2 DNP
2
1
R9
0R
JP2
XTLGND
R6 330R
P1.2 DNP QUARZ5
Q2
R8
0R
DNP
D3 GND
2
1
red DNP C9
DNP 12p
JP10
GND
44
www.ti.com Hardware
10 14
1 1
2 2 Jumper J1
1-2 (int): Power supply from JTAG interface
Connector J2 2-3 (ext): External power supply
External power connector
Jumper J1 to "ext"
Jumper JP1
Open to measure current JP11
Jumpers JP3 to JP8
Close 1-2 to debug in Spy-Bi-Wire mode
Close 2-3 to debug in 4-wire JTAG mode
D1 to D3
LEDs connected to P1.0 to P1.2
SW1
Close to reset
C9 DVSS DVSS
XIN_ext R8 XIN HFGND Connection by via
DNP
DNP
DVSS
IC1
1 P1.1/UCB0CLK/ACLK/A1/VREF+/CAP1.1 1 20 P1.2/UCB0SIMO/UCB0SDA/SMCLK/A2/Veref-/CAP1.2 BSLSDA 10
2 P1.0 P1.0/UCB0STE/A0/Veref+/CAP1.0 2 19 P1.3/UCB0SOMI/UCB0SCL/MCLK/A3/CAP1.3 BSLSCL 9
3 TEST/SBWTCK TEST/SBWTCK 3 18 VREG 8
4 RST/SBWTDIO RST/NMI/SBWTDIO 4 17 P1.4/UCA0TXD/UCA0SIMO/TA0.1/TCK/CAP0.0 P1.4/TCK BSLTX 7
5 DVCC DVCC 5 16 P1.5/UCA0RXD/UCA0SOMI/TA0.2/TMS/CAP0.1 P1.5/TMS BSLRX 6
6 DVSS DVSS 6 15 P1.6/UCA0CLK/TA0CLK/TDI/TCLK/CAP0.2 P1.6/TDI 5
7 XIN_ext XIN P2.1/UCA0RXD/XIN 7 14 P1.7/UCA0STE/TDO/CAP0.3 P1.7/TDO 4
C 8 XOUT_ext XOUT P2.0/UCA0TXD/XOUT 8 13 P2.2/TA1.1/SYNC/A4 P2.2 3 C
9 P2.6/UCB0SOMI/UCB0SCL 9 12 P2.3/TA1.2/UCB0STE/A5 P2.3 2
10 P2.5/UCB0SIMO/UCB0SDA/A7 10 11 P2.4/TA1CLK/UCB0CLK/A6 1
J3 J4
TP6
GND
DVCC
R10
0
SW1 R13
TP5
DNP
P2.2
EVQ-11L05R
D2
1 2 R2 P2.3
200
2
1
Blue
B.6 MSP-TS430RHL20
JP12
2
1
Green
DVSS JP11 Orderable: EVM_orderable Designed for:Public Release Mod. Date: 8/3/2017
TSW-102-07-G-S TID #: N/A Project Title: MSP-TS430RHL20
Number: Rev: 1.0 Sheet Title:
Texas Instruments and/or its licensors do not warrant curacy
the acor completeness of this specification or any tion
informa
contained therein. Texas Instruments and/or its
sors
licen
do not SVN Rev: Version control disabled Assembly Variant:[No Variations] Sheet:1 of 2
warrant that this design will meet the specifications,
be suitable
will for your application or fit for any particular
rpose, pu
or will operate in an implementation. Texas Instrume
nts and/or its Drawn By: File: MSP-TS430RHL20_V1.0.SchDoc Size: B http://www.ti.com
licensors do not warrant that the design is productiony. You
worth
should completely validate and test your design mentation
imple to confirm the system functionality for your
icatio
appl Engineer: M. Pridgen Contact: http://www.ti.com/support © Texas Instruments 2017
1 2 3 4 5 6
Hardware
48
www.ti.com Hardware
Jumper J1
1-2 (Debugger): Power supply from JTAG interface Connector JTAG For Connector BLS
2-3 (External): External power supply JTAG Tool For Bootloader Tool
Connector J2
External power connector
Jumper J1 to External BSL Interface Switches
Select which BSL interface to
connect to connector BSL
Jumper JP1
Open to measure current
LEDs D1, D2
LEDs connector to P1.0 and P2.3
B.7 MSP-TS430PW24
Connector JTAG
For JTAG Tool
Connector J5
Jumper JP1 External power connector
1-2 (int): Power supply from JTAG interface Jumper JP1 to "ext"
2-3 (ext): External power supply
D1
LED connected to P1.0
Jumper JP3
Open to disconnect LED
3
2
1
2 1 TDO/SBWTDIO Open = BSL Connector
ext 3 Closed = JTAG Connector
5 Vcc
int
2
1
VCC Ext_PWR
5
J1 GND
TEST/SBWTCK1 JP13 DNP
JP3 JP4 SW1 JP5 JP6 JP7 JP8 BSL
1
2
2 3 3 EVQ11 3 3 3 3 SPICLK/SCL SPICLK/SCL1 9 10
R2
0R
JTAG ->
1
2
DVCC RXD/SIMO P1.5/TMS 3 4
R3
0R
47k 1.1nF JP15 TXD/SOMI/SDA1 1 2
GND P1.3
1
2
TXD/SOMI/SDA P1.5
SAM1029-06-ND19-24
DVCC GND
J6
JP16
XTLGND
C9
1uF/10V
24
23
22
21
20
19
Q2 P1.4/TCK 3 UART
JP17
JP18
100nF QUARZ5 2 2
4 DNP
0R 1 1 If external supply voltage: 4
R9
DNP remove R3 and add R2 (0 Ohm)
DVCC
DVSS R7 R15
DNP
0R R13 GND C8 XIN 10k 10k
DNP
XOUT
TP1TP2
DNP DVCC
SW2
C11
DVCC
XOUT
DVSS
XIN
R14DNP 100nF
P1.3
SPICLK/SCL1
24
23
22
21
20
19
R1 330R
P1.0 IC1
D1 GND
2
1
P3.2
P2.7
DVSS
DVCC
P2.1/XIN
P2.0/XOUT
green
JP9
R5 330R
3 D2 DNP
P1.1
SAM1029-06-ND1-6 J5 3
2
1
P1.3/UCB0SOMI/UCB0SCL/MCLK/A3
P1.2/UCB0SIMO/UCB0SDA/TA0.2/A2
red DNP 6 P1.7/TDO 6 13 13
P1.7/UCA0STE/SMCLK/TDO/A7 P2.3
JP10 J3 SAM1029-06-ND13-18
GND
P1.0/UCB0STE/TA0CLK/A0
P1.1/UCB0CLK/TA0.1/A1
P2.2/ACLK
2 2
P3.0
MSP430FR2433IRGE
7
8
9
10
11
12
Socket:
B.8 MSP-TS430RGE24A
ENPLAS QFN-24B-0.5-0.1c
10 SPICLK/SCL1
SAM1029-06-ND7-12
12
11
J4
Title: MSP-TS430RGE24A
1 Target Socket Board for MSP430FR2433 device 1
File: MSP-TS430RGE24A
Date: 4/28/2015 3:52:36 PM Rev.: 1.0 Page 1/1
A3
A B C D E F G H I
Hardware
54
www.ti.com Hardware
Connector J2
External power connector Jumper J1
Jumper J1 to “ext” 1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply
57
MSP430™ Hardware Tools
J3 Ext_PWR
1
2
3
J5
JP1Q
R2
0R
1
Socket: Yamaichi
R1 Type: IC189-0282-042
C5
+
- C7 100nF SOCK28DW
FE14L FE14H
10uF/10V 1 TST/VPP TDO 28
1 28
2 VCC430 2 27 TDI 27
R1, C1, C2 GND 3 P2.5 TMS 26
3 26
not assembled C2 4 GND 4 25 TCK 25
5 XOUT 5 24 P1.3 24
BOOTST R10 -
QUARZ3
6 XIN 6 23 P1.2 23
12pF RST/NMI 7 RST/NMI P1.1 22 9 10
7 22
Q1 8 P2.0 8 21 P1.0 21 7 8
R11 0R
GND
9 P2.1 9 20 P2.4 20 5 6
C1 10 P2.2 10 19 P2.3 19 3 4 RST/NMI
11 P3.0 P3.7 18 R7 1 2
11 18
12 P3.1 12 17 P3.6 17 0R
12pF 13 P3.2 P3.5 16 ML10
JP1Q 13 16
D1 R3 2 1
14 P3.3 14 15 P3.4 15 not assembled
LED3 560R J1 U1 J2
J4
D1
LED connected to P1.0
Jumper J4 Jumper J5
Open to disconnect LED Open to measure current
Connector J3
External power connector
Remove R8 and jumper R9 Connector JTAG
For JTAG Tool
Orient Pin 1 of
MSP430 device
Connector BOOTST
For Bootloader Tool
3
2
1
4 3 TDI
2 1 TDO/SBWTDIO J5
C4 6 XIN/P2.6 6 23 P1.2 9 -
DNP XIN P1.2 BOOTST R2
10uF/10V 100nF 7 RST/SBWTDIO7 RST P1.1 22 P1.1 8
R5 R6 8 P2.0 8 P2.0 P1.0 21 P1.0 7 9 10
9 P2.1 9 P2.1 P2.4 20 P2.4 6 TEST/SBWTCK 7 8
0R 0R 10 10 19 5 5 6 R3 0R
P2.2 P2.2 P2.3 P2.3
11 P3.0 11 P3.0 P3.7 18 P3.7 4 3 4
C2 12 12 17 3 1 2
XIN/P2.6 P3.1 P3.1 P3.6 P3.6 P1.1 DNP
12pF 13 P3.2 13 P3.2 P3.5 16 P3.5 2
DNP 14 P3.3 14 15 P3.4 1 DNP
2
P3.3 P3.4
Q1 RST/SBWTDIO
GND XTLGND J1
1
C1 DNP U1
XOUT/P2.7
12pF Socket: Enplas P2.2
DNP OTS-28-0.65-01
GND
If external supply voltage:
R1 330R remove R11 and add R10 (0 Ohm)
P1.0
D1
2
1
green MSP-TS430PW28:
B.10 MSP-TS430PW28
60
www.ti.com Hardware
Jumper JP1
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply Connector J5
External power connector
Jumper JP2
Jumper JP1 to “ext”
Open to measure current
Jumper JP4 to JP9:
Orient Pin 1 of MSP430 device Close 1-2 to debug in Spy-Bi-Wire mode
Close 2-3 to debug in 4-wire JTAG mode
Jumper JP3
Open to disconnect LED
D1
LED connected to P5.1
(1) PCB 66 x 79 mm, two layers; Rubber stand off, four pieces
B.11 MSP-TS430PW28A
Jumper JP3
Open to disconnect LED
D1
LED connected to P1.0
Note
For bootloader use, the BSL connector and only one of the resistors R2 or R3 need to be populated. If
the board is supplied internally, R3 (0 Ω) must be assembled. If the board is supplied externally, R2 (0
Ω) must be assembled, and R3 must be removed.
PWR3
JTAG TCK 1 JP4 TDO 1
JP9 1 JP8 1 JP7 1 JP6 1 <- SBW
1
2
3
14 13 TEST/SBWTCK 2 RST 2 C 2 M 2 I 2 O 2
J5
12 11 RST/NMI 3 RST/NMI 3 TCK 3 TMS 3 TDI 3 TDO 3 <- JTAG
3 2 31 30
DNP 10k R9 A1.0+ A0.0- P2.6/TA0.1 P2.5
4 3 30 29
DNP 10k R10 A1.0- A1.0+ P2.5/TA0.0 P2.4
5 4 29 28
DNP 10k R11 A2.0+ A1.0- P2.4/TA1.0 P2.3
GND AVSS 6 5 28 27
JP2 DNP 10k R12 A2.0- A2.0+ P2.3/VMONIN P2.2
7 6 27 26
DNP 10k R13 A3.0+ A2.0- P2.2/TA1.2 P2.1
8 7 26 25
DNP 10k R14 A3.0- A3.0+ P2.1/TA1.1 P2.0
1
2
8 25
R3 A3.0- P2.0/TA1.0/CLKIN
P1.4 9 24
VREF VREF P1.7/UCB0SDA/UCB0SIMO/TA1CLK P1.7
330R 9 10 23 24
AVSS
D1 100nF C14 AVSS AVSS P1.6/UCB0SCL/UCB0SOMI/TA0.2 P1.6
GND 10 11 22 23
ROSC ROSC P1.5/UCB0CLK/TA0.1 P1.5
11 12 21 22
GND
20k/0.1% R2 GND DVSS P1.4/UCB0STE/TA0.0 P1.4
12 13 20 21
DVCC VCC P1.3/UCA0TXD/UCA0SIMO/TA0CLK/TDO/TDI O
13 14 19 20
VCORE VCORE P1.2/UCA0RXD/UCA0SOMI/ACLK/TDI/TCLK I
14 15 18 19
RST RST/NMI/SBWTDIO P1.1/UCA0CLK/SMCLK/TMS M
15 16 17 18
0R R4 TEST/SBWTCK TEST/SBWTCK P1.0/UCA0STE/MCLK/TCK C
16 17
MSP430I2040TRHBQFN11T032-003
SAM1029-08-ND9-16 SAM1029-08-ND17-2417-24
C9 Socket:
J2 J3
470nF Yamaichi
QFN11T032-003
GND
B.12 MSP-TS430RHB32A
66
www.ti.com Hardware
Jumper JP3
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply
Connector JTAG
For JTAG Tool
Connector J5
External power connector
14 Vcc Jumper JP3 to “ext”
GND
GND
VCC
Jumper JP1 1 ext int
JTAG
3 2 1
JP3
Open to measure current
J5
2
D1
LED connected to P1.4
Curr. Meas.
JP1
JP2
P1.4
Jumper JP4 to JP9
1
1
1
1
1
1
R3
SBW
D1
Close 1-2 to debug in Spy-Bi-Wire mode
2
2
2
2
2
2
Close 2-3 to debug in 4-wire JTAG mode JTAG C13 Jumper JP2
MSP-TS430RHB32A
3
3
3
3
3
3
C12 Open to disconnect LED
JP9
JP7
JP5
JP6
JP8
JP4
Rev.: 1.0
C14
R4 C9
R2
J2
RoHS
16 R5 9
C8 R1
17
R14
8
R13
R12
20
R11
5
R10
R9
R8
24
R6
1
1
J1
J3
U1
25 30 32
J4 Orient Pin 1 of MSP430 device
69
MSP430™ Hardware Tools
JTAG
14 13 JTAG-Mode selection: GND
12 11 RST/NMI 4-wire JTAG: Set jumpers JP4 to JP9 to position 2-3
10 9 2-wire "SpyBiWire":Set jumpers JP4 to JP9 to position 2-1
8 7 TCK/SBWTCK
6 5 TMS
4 3 TDI
3
2
1
2 1 TDO/SBWTDIO J3
C5 2 VCC430 2 37 P1.6/TDI 37
DVCC P1.6/TDI
10uF/10V 100nF 3 P2.5 3 P2.5 P1.5/TMS 36 P1.5/TMS 36
4 GND 4 DVSS P1.4/TCK 35 P1.4/TCK 35
5 P2.7/XOUT 5 P2.7 P1.3 34 P1.3 34
6 P2.6/XIN 6 P2.6 P1.2 33 P1.2 33
7 RST/SBWTDIO7 32 P1.1 32 DNP
C2 RST/SBWDAT P1.1
P2.7/XOUT 8 P2.0 8 P2.0 P1.0 31 P1.0 31 BOOTST R10 -
12pF 9 P2.1 9 P2.1 P2.4 30 P2.4 30
9 10
DNP 10 P2.2 10 29 P2.3 29
P2.2 P2.3 TEST/SBWTCK 7 8
11 P3.0 11 28 P3.7 28 R11 0R
GND Q1 DNP
12 P3.1 12
P3.0 U1 P3.7
27 P3.6 27
5 6
P3.1 P3.6 3 4
13 P3.2 13 P3.2 P3.5 26 P3.5 26
C1 14 14 25 25 P1.1 1 2 DNP
P2.6/XIN P3.3 P3.3 P3.4 P3.4
15 GND 15 24 P4.7 24
12pF 16 16
AVSS P4.7
23 23 DNP
DNP VCC430 AVCC P4.6 P4.6 RST/SBWTDIO
17 P4.0 17 P4.0 Socket: P4.5 22 P4.5 22
18 P4.1 18 P4.1 Yamaichi P4.4 21 P4.4 21
Jumper JP1
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply
Jumpers JP4 to JP9
Close 1-2 to debug in Spy-Bi-Wire mode
Close 2-3 to debug in 4-wire JTAG mode
D1
LED connected to P1.0
Jumper JP2
Open to measure current
Connector J3
External power connector
Jumper JP1 to "ext"
B.14 MSP-TS430QFN23x0
Jumper JP1
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply
Connector J5
External power connector
Jumper JP2 Jumper JP1 to "ext"
Open to measure current
Jumper JP3
Open to disconnect LED
D1
LED connected to P1.0
Note
For bootloader use, the BSL connector and only one of the resistors R2 or R3 need to be populated. If
the board is supplied internally, R3 (0 Ω) must be assembled. If the board is supplied externally, R2 (0
Ω) must be assembled, and R3 must be removed.
B.15 MSP-TS430RSB40
Jumper JP1
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply Connector J5
External power connector
Jumper JP1 to "ext"
Jumper JP3
Open to disconnect LED
D1
LED connected to P1.0
Note
For bootloader use, the BSL connector and only one of the resistors R2 or R3 need to be populated. If
the board is supplied internally, R3 (0 Ω) must be assembled. If the board is supplied externally, R2 (0
Ω) must be assembled, and R3 must be removed.
B.16 MSP-TS430RHA40A
Jumper JP1
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply
Connector J5
External power connector
Jumper JP2 Jumper JP1 to "ext"
Open to measure current
D1
LED connected to P1.0
Jumper JP3
Open to disconnect LED
81
MSP430™ Hardware Tools
J3 Ext_PWR
1
2
3
RST/NMI
100nF
JP1 J5
R12
JP1Q IC51-1387.KS-15186
0R
1
1
2
3
XOUT 7 8 10 AVSS P2.5 39 7 8
9 10 11 38 9 10 BOOTST
12pF AVCC P2.6
QUARZ3
11 12 12 VREF+ P2.7 37 11 12 9 10
13 14 13 P6.0 S5 36 13 14 7 8
GND
Q1 15 16 14 35 15 16 5 6
P6.1 P5.7
C1 17 18 15 P6.2 P5.6 34 17 18 3 4 RST/NMI
XIN 19 20 16 P6.3 P5.5 33 19 20 1 2 TCK
21 22 17 P6.4 P5.0 32 21 22
12pF 23 24 18 31 23 24 ML10
JP1Q P6.5 P5.1 BSL_TX
D1 R3 19 P6.6 LCDCAP 30
2 1 P1.0 J1 20 P6.7 LCDREF 29 J2
560R 21 28 P1.0 R7 0R
LED3 J4 BSL_RX
+
C4 10uF/10V
U1 GND
MSP-TS430DL48 Target Socket DL48
B.17 MSP-TS430DL48
TITLE: MSP-TS430DL48
Jumper JP2
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply
Jumper J5
Open to measure current
Connector J3 D1
External power connector LED connected to P1.0
Jumper JP2 to "ext"
Jumper J4
Open to disconnect LED
B.18 MSP-TS430PT48
Jumper J1
1-2 (Debugger): Power supply from JTAG interface Connector JTAGConnector BSL
2-3 (External): External power supply For JTAG tool For bootloader tool
Connector J2
External power connector
Jumper J1 to External
Jumpers JP5 to JP10 BSL Interface Switches
Close 1-2 to debug in Spy-Bi-Wire mode Select which BSL interface to
Close 2-3 to debug in 4-wire JTAG mode connect to connector BSL
1
11
2
12
10
9
8
7
6
5
4
3
2 TEST/SBWTCK 2 RST/SBWTDIO 2 P1.7/TDO 2 P1.6/TDI 2 P1.5/TMS 2 P1.4/TCK
JP1 1 1 1 1 1 1
SBW -> By default the UART BSL is connected
XOUT_ext
XIN_ext
DVCC C5
DVSS
R7 and the I2C BSL and the I2C pull-ups are disconnected
DVCC
P4.7
47k
1100pF
DVSS
XIN
XOUT
38 P3.2/UCB1SIMO/UCB1SDA
39 P3.6/UCB1SOMI/UCB1SCL
37 P3.5/UCB1CLK/TB0TRG
43 P5.0/UCA0CLK/TB0.2
42 P4.7/UCA0STE/TB0.1
B B
40 P6.1/TB0CLK
46 P2.0/XOUT
41 P6.2/TB0.0
47 P2.1/XIN
48 DVSS
Customer Note
49
Customer Note CONN1-4 and CONN5-8 are male and female headers included loose
IC1
Populate either Q1A (High Speed) or in the kit and are intended to be populated on J3-6 as needed
Q1B (Low Speed, 32.768KHz) crystal
C8 J3 J5
XIN_ext R9 XIN 1 DVCC DVCC 1 36 P2.7/UCB1STE 12
DNP DNP
0 2 RST/SBWTDIO RST/NMI/SBWTDIO 2 35 P4.2/TA3CLK 11
Q1B 12pF 3 TEST/SBWTCK TEST/SBWTCK 3 34 P4.1/TA3.0 10
2 4 BSLTX P1.4/TCK P1.4/UCA0TXD/UCA0SIMO/TA1.2/TCK/A4/VREF+ 4 33 P4.0/TA3.1 P4.0 9
DNP 1 DNP 3 5 BSLRX P1.5/TMS P1.5/UCA0RXD/UCA0SOMI/TA1.1/TMS/A5 5 32 P3.7/TA3.2 8
GND
Q1A 6 P1.6/TDI P1.6/UCA0CLK/TA1CLK/TDI/TCLK/A6 6 31 DNC 7
32.768kHz C9 DNP7 P1.7/TDO P1.7/UCA0STE/SMCLK/TDO/A7 7 30 P2.6/UCA1TXD/UCA1SIMO 6DNP
XOUT_ext R8 XOUT HFGND Connection by via 8 P4.3/UCB1SOMI/UCB1SCL/TB0.5/A8 8 29 P2.5/UCA1RXD/UCA1SOMI 5
DNP DNP
0 9 P4.4/UCB1SIMO/UCB1SDA/TB0.6/A9 9 28 P2.4/UCA1CLK 4
12pF 10 P5.3/UCB1CLK/TA3.0/A10 10 27 P3.1/UCA1STE 3
DVSS 11 P5.4/UCB1STE/TA3CLK/A11 11 26 P3.4/TA2CLK/COMP0OUT 2
Customer Note
12 P1.0 P1.0/UCB0STE/TA0CLK/A0/Veref+ 12 25 P2.3/TA2.0 1
X1 on hardware page is included loose in the kit
and is intended to be populated on Q1B as needed
C C
21
13
14
15
17
20
22
23
16
18
19
24
P1.2/UCB0SIMO/UCB0SDA/TA0.2/A2/Veref-
P1.3/UCB0SOMI/UCB0SCL/MCLK/A3
P1.1/UCB0CLK/TA0.1/COMP0.0/A1
TP6
P4.6/UCB0SIMO/UCB0SDA/TA3.1
P4.5/UCB0SOMI/UCB0SCL/TA3.2
DNP
P5.5/UCB0CLK/TA2CLK
GND
P5.6/UCB0STE/TA2.0
P5.7/TA2.1/COMP0.2
P6.0/TA2.2/COMP0.3
P2.2/ACLK/COMP0.1
DVCC
P3.0/TA2.2
P3.3/TA2.1
DNP
SW1 47k
P4.0
DVSS DVSS
D2
B.19 MSP-TS430PT48A
R2 P4.7
2 BSLSDA
3 BSLSCL
200
10
12
11
1
4
5
6
7
8
9
D JP12 DNP D
D1
R1 P1.0 J4
330
Green Orderable: MSP-TS430PT48A Designed for: Public Release Mod. Date: 9/12/2018
TID #: N/A Project Title: MSP-TS430PT48A
DVSS JP11 Number: MCU046 Rev: A Sheet Title:
Texas Instruments and/or its licensors do not warrant the accuracy or completeness of this specification or any information contained therein. Texas Instruments and/or its licensors do not SVN Rev: Version control disabled Assembly Variant: 001 Sheet: 1 of 2
warrant that this design will meet the specifications, will be suitable for your application or fit for any particular purpose, or will operate in an implementation. Texas Instruments and/or its Drawn By: File: MCU046A_Schematic.SchDoc Size: B http://www.ti.com
licensors do not warrant that the design is production worthy. You should completely validate and test your design implementation to confirm the system functionality for your application. Engineer: M Pridgen Contact: http://www.ti.com/support © Texas Instruments 2018
1 2 3 4 5 6
Hardware
88
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Jumper J1
1-2 (Debugger): Power supply from JTAG Interface Connector JTAG Connector BSL
2-3 (External): External power supply For JTAG Tool For Bootloader Tool
Connector J2
External power connector
Jumper J1 to External
Orient Pin 1 of
MSP430 device
D1, D2
LEDs connected to P1.0, P4.7
B.20 MSP-TS430RGZ48B
Jumper JP3
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply
Connector J5
Jumpers JP5 to JP10 External power connector
Close 1-2 to debug in Spy-Bi-Wire mode Jumper JP3 to "ext"
Close 2-3 to debug in 4-wire JTAG mode
Jumper JP1
Open to measure current
Jumper JP2
Open to disconnect LED
D1
LED connected to P1.0
Figure B-41. MSP-TS430RGZ48B Target Socket Module, PCB
Note
For bootloader use, the BSL connector and only one of the resistors R10 or R11 must be populated. If
the board is supplied internally, R11 (0 Ω) must be assembled. If the board is supplied externally, R10
(0 Ω) must be assembled, and R11 must be removed.
95
MSP430™ Hardware Tools
JTAG JTAG-Mode selection:
14 13 4-wire JTAG: Set jumpers JP4 to JP9 to position 2-3 GND
12 11 RST/NMI 2-wire "SpyBiWire": Set jumpers JP4 to JP9 to position 1-2
10 9
8 7 TCK/SBWTCK
6 5 TMS
3
2
1
4 3 TDI J2
2 1 TDO/SBWTDIO Ext_PWR
R8
0R
C9
SV1
QUARZ5
R9
0R
12
10
11
9
8
7
6
5
4
3
2
1
GND DNP
Q2
DNP C7 C6
DNP DNP
LFXIN HFXOUT 1uF/10V 100nF
C1 LFXOUT HFXIN DNP
37 DVCC
48 AVCC
47 AVSS
44 AVSS
41 AVSS
DNP C8
40 P2.4
39 P2.3
38 P2.7
connection by via GND
46
45
43
42
AVSS DNP
BOOTST
43_HFXOUT
46_LFXOUT
0R R12
42_HFXIN
37_DVCC
45_LFXIN
48_AVCC
47_AVSS
44_AVSS
41_AVSS
40_P2.4
39_P2.3
38_P2.7
9 10
R2
-
TEST/SBWTCK1 7 8
DNP
DVCC
DVSS P2.1 5 6
SV2 3 4
R3
0R
0R R13
DNP
22_TEST/SBWTCK
23_RST/SBWTDIO
10 P1.4 10 27 P3.4 3 GND
14_PJ.2_TMS
12 PJ.0/TDO 12 25 P2.1 1 If external supply voltage:
15_PJ.3/TCK
13_PJ.1_TDI
JP11 12_PJ.0_TDO 25_P2.1
remove R3 and add R2 (0 Ohm)
SV4
16_P4.0
17_P4.1
18_P4.2
19_P4.3
20_P2.5
21_P2.6
24_P2.0
R10DNP
P1.1
D2
2
1
yellow (DNP)
B.21 MSP-TS430RGZ48C
JP10
13
14
15
16
17
18
19
20
21
10 TEST/SBWTCK22
11 RST/SBWTDIO 23
24
R1 330R
P1.0 MSP-TS430RGZ48C
D1 Target Socket Board for MSP430FR58xx, FR59xx IRGZ
2
1
green
2 PJ.2/TMS
3 PJ.3/TCK
1 PJ.1/TDI
JP9
4 P4.0
5 P4.1
6 P4.2
7 P4.3
8 P2.5
9 P2.6
12 P2.0
1.2
SV3
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BOOTST
14 10
Jumpers JP3 to JP8
JTAG
1 1
Close 1-2 to debug in Spy-Bi-Wire mode 2 2
Close 2-3 to debug in 4-wire JTAG mode
J1 TCK TMS TDI TDO
Ext.
C5
R3
R2
ext JTAG
Pwr.
3
Jumper J1 Vcc Connector J2
Vcc
2
External power connector
123
123
123
123
123
123
1-2 (int): Power supply from JTAG interface SBW
GND
1
int Jumper J1 to "ext"
2-3 (ext): External power supply JP8 JP7 JP6 JP5 JP4 JP3 R7 GND
JP2 JP1
PWR J2
RST/SBWTDIO TEST/SBWTCK
DVCC
Jumper JP1 AVCC MSP-TS430RGZ48C
R4
Open to measure current Rev. 1.2 RoHS
20 15
TP1
Jumper JP2
25 Clamshell GND
Analog/digital power
10
LEDs connected to
P1.2
P1.1
P1.0
P1.0, P1.1, P1.2 via
R11 D3
R10 D2
R1 D1
30 JP9, JP10, JP11
(only D1 assembled)
5
JP10
JP11
35
JP9
Switch SW1 QFN11T048-008 A101121
Device reset
U1 1
40 45 Orient Pin 1 of MSP430 device
P1.3
SW2
TP2
SW1
GND
R8
R9
R5
R6
Switch SW2
R13
C6
C7
Connected to P1.3
R12
C4
C3
R14
RESET
Q1
Q2
C2
C9
C8
Note
LFOSC and HFOSC pins are swapped at SV1.
42_HFXIN (pin 42) → SV1 (pin 7)
43_HFXOUT (pin 43) → SV1 (pin 6)
45_LFXIN (pin 45) → SV1 (pin 10)
46_LFXOUT (pin 46) → SV1 (pin 9)
C8
Connections between the JTAG header and pins XOUT and XIN are no longer required and should not be made.
RST/NMI
PWR3
1
2
3
JTAG
J5
14 13
12 11
remove R8 and add R9 (0 Ohm) 10 9 VCC
If external supply voltage: 8 7 TCK
6 5 TMS
4 3 TDI
2 1 TDO
GND
ML14
R9
R8
0R
R1 0R
-
not assembled
XTCLK
12pF
FE16-1-4
2
C7
10uF/10V
100nF
J4
JP1Q
GND
+
C5
C4
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
J7
12pF
0R
1
R2
not assembled
R4
C6
enhancement
reserved for
10uF/6,3V
AVCC
DVSS
AVSS
TMS
TDO
RST
TCK
+
TDI
61
60
59
53
52
51
50
49
future
R12
J1 J3
R11 0R
R10 -
1 1 48
-
0R
0R
DVCC 48
2 2 47 47
R13
R14
not assembled 3 3 46 46
12pF BOOTST
LFXTCLK
4 4 45 45
C2 5 5 U2 44 44 9 10
6 6 43 43 7 8
7 42 5 6
Q1
7 42
8 XIN 41 41 3 4
12pF 9 40 1 2
XOUT 40
C1 10 10 MSP64PM 39 39
R3
JP1Q 11 11 38 38 ML10
2 1 12 Socket: 37
0R
0R
12 37 not assembled
560R 13 13 Yamaichi 36 36
For BSL usage add:
LED3
D1
J6 14 IC51-0644-807 35
R6
R7
14 35
Open J6 if LCD 15 15 34 34
GND 16 33 R6 R7 R13 R14
is connected 16 33 MSP430F14x : 0 0 open open
FE16-1-3 MSP430F41x : open open 0 0
FE16-1-1
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
If external supply voltage:
remove R11 and add R10 (0 Ohm)
FE16-1-2
MSP-TS430PM64 Target Socket PM64
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
B.22 MSP-TS430PM64
J2
98
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D1
LED connected to pin 12
Connector J5
External power connection
Remove R8 and jumper R9
Jumper J7
Open to measure current
Jumper J6
Open to disconnect LED
Orient Pin 1 of
MSP430 device
100 MSP430™ Hardware Tools SLAU278AG – MAY 2009 – REVISED DECEMBER 2020
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Hardware
101
MSP430™ Hardware Tools
PWR3
1
2
3
JTAG
J5
14 13 GND
12 11 RST/NMI
10 9 VCC
8 7 TCK/SBWTCK
C5 C4
C6
10uF/6.3V 100nF 100nF
AVCC P1.0
D
C
A
B
E
F
R1 0R AVSS P1.1
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
AVSS R11
R10
0R 0R
R13 R14 DNP DNP
0R 0R BOOTST
VCC430 DNP DNP 9 10
TEST/SBWTCK 7 8
J1 J3 A 5 6
DNP
1 1 48 48 3 4 RST/SBWTDIO
0R 2 2 47 47 1 2 B
DNP R7 3 3 46 46
12pF XIN 4 4 45 45
C2 5 5 44 44 DNP
ADD LCD-CAP!
2
6 6 43 43 GND
XTLGND Q1 7 7 42 42 P5.1
DNP 8 8 41 41
1
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
1
2
P5.1
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Open JP1 if LCD Document Number: REV:
GND is connected J2 1.1
Date: 3/29/2011 3:07:02 PM Sheet: 1/1
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Jumper JP3
1-2 (int): Power supply from JTAG interface
Connector JTAG 2-3 (ext): External power supply
For JTAG Tool
Connector BOOTST
Jumpers JP4 to JP9 For Bootloader Tool
Close 1-2 to debug in Spy-Bi-Wire mode
Close 2-3 to debug in 4-wire JTAG mode
Jumper JP1
Open to disconnect LED
D1
LED connected to P5.1
102 MSP430™ Hardware Tools SLAU278AG – MAY 2009 – REVISED DECEMBER 2020
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1
2
3
6 8
6
7
5
TCK
TMS
J5
6
4 3 TDI
2 1 TDO/SBWTDIO
int 1
JP1
RST/SBWTDIO
JTAG -> 3 3 SW1 3 3 3 3
2 to measure supply current 2 TEST/SBWTCK 2 EVQ11 2 P1.7/TDO 2 P1.6/TDI 2 P1.5/TMS 2 P1.4/TCK
1 1 1 DNP 1 1 1 1
JP2
SBW ->JP10 JP9 R4 JP8 JP7 JP6 JP5
VCC430
C3 JTAG-Mode selection:
1.1nF
JP4 before BSL use.
SW2 47K
5
Disconnect JP3 and
C4
100nF
EVQ11
DNP
P1.3
2-wire "SpyBiWire": Set jumpers JP4 to JP9 to position 2-1 5
10uF/10V
R1
P1.0 BSL Interface
2
1
D1 330R
BSL
TP1 TP2
P1.2
D3 DNP 330R DNP 64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
LED_Green
12pF C2 XOUT
4
QUARZ5
4
Q1
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
U1
12pF C1 XIN
P3.2/L10
P3.4/L12
P3.5/L13
P3.6/L14
P3.7/L15
P3.3/L11
P7.0/L0
P7.1/L1
P7.2/L2
P7.3/L3
P7.4/L4
P7.5/L5
P7.6/L6
P7.7/L7
P3.0/L8
P3.1/L9
100nF C6 P4.7 J3
DNP 1 P4.7 1 48 48
C7 P4.7/R13 P6.0/L16
100nF P4.6 2 P4.6 2 P4.6/R23 P6.1/L17 47 47
DNP 3 P4.5 3 46 46
C8 P4.5/R33 P6.2/L18
100nF P4.5 4 P4.4 4 P4.4/LCDC2 P6.3/L19 45 45
DNP 5 P4.3 5 44 44
C9 P4.3/LCDC1 P6.4/L20
100nF P4.4 6 DNP XOUT 6
R3 0R P4.2/XOUT P6.5/L21 43 43
DNP 7 DNP XIN 7 42 42
R2 0R P4.1/XIN P6.6/L22
P4.3 8 GND 8 DVSS P6.7/L23 41 41
3 9 VCC430
10 RST/SBWTDIO
9
10
DVCC
RST/NMI/SBWTDIO
P2.0/L24
P2.1/L25
40
39
40
39 3
11 TEST/SBWTCK 11 TEST/SBWTCK1 P2.2/L26 38 38
12 12 P4.0/TA1.1 P2.3/L27 37 37
13 13 P8.3/TA1.2 P2.4/L28 36 36
14 14 35 35
P5.2/UCB0SIMO/UCB0SDA/L34
P5.3/UCB0SOMI/UCB0SCL/L35
P8.2/TA1CLK P2.5/L29
P1.1/UCA0RXD/UCA0SOMI/A1
P1.0/UCA0TXD/UCA0SIMO/A0
15 15 P8.1/A1CLK/A9 P2.6/L30 34 34
16 16 P8.0/SMCLK/A8 P2.7/L31 33 33
P1.6/TA0.2/TDI/TCLK/A6
J1
P1.5/TA0CLK/TMS/A5
P1.4/MCLK/TCK/A4
P5.1/UCB0CLK/L33
P5.0/UCB0STE/L32
P1.7/TA0.1/TDO/A7
P1.3/UCA0STE/A3
P1.2/UCA0CLK/A2
P5.7/L39
P5.6/L38
P5.5/L37
P5.4/L36
MSP430FR413xIPM / MSP430FR203xIPM
Socket: Yamaichi IC51-0644-807
2 2
P1.7/TDO 17
P1.6/TDI 18
P1.5/TMS 19
P1.4/TCK 20
21
22
23
24
25
26
27
28
29
30
31
32
B.24 MSP-TS430PM64D
P1.3
P1.2
P1.1
P1.0
J2
Titel: MSP-TS430PM64D
1 Target Socket Board for MSP430FR413xIPM and MSP430FR203xIPM
1
File: MSP-TS430PM64D
Datum:9/3/2014 3:08:18 PM Rev.: 1.0 Seite 1/1
A3
A B C D E F G H I
Hardware
104
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BSL
JTAG
Jumpers JP5 to JP10 1 1
Close 1-2 to debug in Spy-Bi-Wire mode 2 2
MSP-TS430PM64D
RoHS
Close 2-3 to debug in 4-wire JTAG mode
R10
R11
ext Disconnect JP3 and
3
Jumper JP1
1
1
1
1
1
1
SBW-> JP4 before BSL use!
VCC
2
1-2 (int): Power supply from JTAG interface
2
2
2
2
2
2
Rev. 1.0
JP1
JTAG-> R1 D1
int JP3
1
P1.0
3
3
3
3
3
3
2-3 (ext): External power supply R5 D2
JP10
JP4
JP9
JP5
JP6
JP7
JP8
P1.1
TP1 J2 R6 D3
P1.2
GND 32 30 25 20 17
Curr. Meas.
Switch SW2
16
JP2
Connected to P1.3
33
U1
SW2
Jumper JP2
J1
Open to measure current Clamshell
35
C4
C3
P1.3
GND
GND R4 C5
10
VCC Q1 Switch SW1
J5
R2 Device reset
40
SW1
Connector J5 C1
External power connector
Jumper JP1 to "ext" C9 C2 RESET
5
R3
C8
45
C7
IC51-0644-807 C6
J3
1
48
TP2
Orient Pin 1 of
49 55 60 64
GND MSP430 device
J4
Note
For bootloader use, the BSL connector and only one of the resistors R10 or R11 must be populated. If
the board is supplied internally, R11 (0 Ω) must be assembled. If the board is supplied externally, R10
(0 Ω) must be assembled, and R11 must be removed.
SLAU278AG – MAY 2009 – REVISED DECEMBER 2020 MSP430™ Hardware Tools 105
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106 MSP430™ Hardware Tools SLAU278AG – MAY 2009 – REVISED DECEMBER 2020
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Hardware
107
MSP430™ Hardware Tools
A B C D E F G H I
JTAG
RXD/SIMO 14 13 STE Jumpers JP3 to JP8 GND
TXD/SOMI/SDA12 11 RST/NMI Close 1-2 to debug in Spy-Bi-Wire mode.
SPICLK/SCL 10 9 Close 2-3 to debug in 4-wire JTAG mode.
8 7 TCK/SBWTCK
6 6
4
5
3
TMS
TDI BSL Tool Select: J2 6
3
2
1
2 1 TDO/SBWTDIO Open = BSL Connector
ext 3 Closed = JTAG Connector
Vcc 2 VCC Ext_PWR
1
2
2 3 3 EVQ11 3 3 3 3 SPICLK/SCL SPICLK/SCL1 9 10 STE
R2
0R
1 JTAG -> 2 TEST/SBWTCK 2 RST/SBWTDIO DNP 2 PJ.0/TDO 2 PJ.1/TDI 2 PJ.2/TMS 2 PJ.3/TCK JP14 TEST/SBWTCK 7 8
JP1 1 1 1 1 1 1 5 6
SBW -> R4 C5
1
2
2 DVCC RXD/SIMO RXD/SIMO1 3 4
R3
0R
1 AVCC 47k 1.1nF JP15 TXD/SOMI/SDA1 1 2
JP2 GND P1.7
1
2
TXD/SOMI/SDA P2.1 GND
C3 C4 JP16
5 1uF/10V 100nF
P1.6 1
2
I2C RST/SBWTDIO
5
GND P2.0 3 UART
JP17
JP18
2 2
1 1
R7 R15
10k 10k If external supply voltage:
SAM1129-16-ND
DNP
0R
R8
R6
0R
J6
C7 C6 C2 C11
QUARZ5
100nF Q2 100nF
HFGND QUARZ5 DNP DNP
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
LFGND
0R
R9
R5
0R
DNP
Q1
DNP connection by via
DNP DNP
HFXIN LFXIN GND
4 GND C8 HFXOUT LFXOUT DNP 4
DNP DVCC C1
DVSS
AVCC
AVSS
AVSS
AVSS
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
U1
AVSS1
AVCC1
PJ.6/HFXIN
PJ.4/LFXIN
AVSS2
DVCC3
DVSS3
P4.7/UCB1SOMI/UCB1SCL/TA1.2/S6
PJ.0/TDO/TB0OUTH/SMCLK/SRSCG1P4.6/UCB1SIMO/UCB1SDA/TA1.1/S7
P5.7/UCA1STE/TB0CLK/S10
P4.5/UCB1CLK/TA1.0/S8
AVSS3
P4.4/UCB1STE/TA1CLK/S9
P4.2/UCA0SIMO/UCA0TXD/UCB1CLK/S5
PJ.7/HFXOUT
PJ.5/LFXOUT
J5
1 1 P4.3/UCA0SOMI/UCA0RXD/UCB1STE/S4 P9.7/A15/C15 48 48
3 2
3
2
3
P1.4/UCB0CLK/UCA0STE/TA1.0/S3
P1.5/UCB0STE/UCA0CLK/TA0.0/S2
P9.6/A14/C14
P9.5/A13/C13
47
46
47
46 3
4 P1.6 4 P1.6/UCB0SIMO/UCB0SDA/TA0.1/S1 P9.4/A12/C12 45 45
AVSS 5 SPICLK/SCL15 44 P1.0 44
SAM1129-16-ND
P1.7/UCB0SOMI/UCB0SCL/TA0.2/S0 P1.0/TA0.1/DMAE0/RTCCLK/A0/C0/VREF-/VEREF-
P2.1/UCA0SOMI/UCA0RXD/TB0.5/DMAE0/S17
6 LCDCAP 6 43 P1.1 43
SAM1129-16-ND
0R R12 R33/LCDCAP P1.1/TA0.2/TA1CLK/COUT/A1/C1/VREF+/VEREF+
7 7 P6.0/R23 P1.2/TA1.1/TA0CLK/COUT/A2/C2 42 P1.2 42
8 8 P6.1/R13/LCDREF P1.3/TA1.2/A3/C3 41 P1.3 41
DVCC
P3.5/UCA1SOMI/UCA1RXD/TB0.1/S22
DVSS 9 9 40 DVCC 40
P3.4/UCA1SIMO/UCA1TXD/TB0.0/S23
P6.2/COUT/R03 DVCC2
10 10 39 DVSS 39
P2.2/UCA0CLK/TB0.4/RTCCLK/S18
0R R13 P6.3/COM0 DVSS2
DNP
11 11 P6.4/TB0.0/COM1/S30 P7.4/SMCLK/S11 38 38
TP1TP2
PJ.1/TDI/TCLK/MCLK/SRSCG0
12 12 37 37
P2.3/UCA0STE/TB0OUTH/S19
P6.5/TB0.1/COM2/S29 P7.3/TA0.2/S12
P6.6/TB0.2/COM3/S28 P7.2/TA0.1/S13
P3.6/UCA1CLK/TB0.2/S21
P3.7/UCA1STE/TB0.3/S20
14 14 P3.0/UCB1CLK/TA3.2/S27 P7.1/TA0.0/S14 35 35
P3.3/TA1.1/TB0CLK/S24
15 15 P3.1/UCB1SIMO/UCB1SDA/TA3.3/S26 P7.0/TA0CLK/S15 34 34
R14DNP 16 16
P1.3 33 P2.0 33
RST/NMI/SBWTDIO
P3.2/UCB1SOMI/UCB1SCL/TA3.4/S25 P2.0/UCA0SIMO/UCA0TXD/TB0.6/TB0CLK/S16
J3
TEST/SBWTCK
R11 DNP
P1.2
2 D3 2
2
1
red (DNP)
DVCC1
DVSS1
JP11
R10DNP
P1.1 MSP430FR697XPM/RGC Socket:
17
18
19TEST/SBWTCK 19
20RST/SBWTDIO 20
21
22
23
24
25
26
27
28
29
30
31
32
Yamaichi C51-0644-807
B.25 MSP-TS430PM64F
D2
2
yellow (DNP) 1
32RXD/SIMO1
JP10 LCDCAP DVCC
21PJ.0/TDO
23PJ.2/TMS
24PJ.3/TCK
22PJ.1/TDI
18 DVCC
17 DVSS
R1 330R
P1.0 C15 C10
D1
2
1
green 4u7 100nF
25
26
27
28
29
30
31
JP9 DNP Title: MSP-TS430PM64F
GND
Open to measure U1
10 15
digital or analog current Clamshell
35
Switch SW2
C11
Connected to P1.3
40
5
Orient Pin 1 of MSP430 device
45
D1 R1
1 J3
HF and LF oscillators with capacitors
JP9, JP10, JP11 and resistors to connect pinheads
(only D1 assembled)
50 55 60 J6
This target board supports UART or I2C BSL configuration. To select the configuration to use, set the
jumpers as shown in the following table.
2
Jumper Configuration UART BSL Configuration I C BSL Configuration
JP17 and JP18 Open Close
JP16 Close 2-3 (UART) Close 1-2 (I2C)
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B.26 MSP-TS430RGC64B
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Jumper JP3
1-2 (int): Power supply from JTAG interface Jumper JP1
2-3 (ext): External power supply Open to measure current
Connector J5
External power connector
Jumpers JP5 to JP10 Jumper JP3 to "ext"
Close 1-2 to debug in Spy-Bi-Wire mode
Close 2-3 to debug in 4-wire JTAG mode
If the system should
be supplied from LDOI (J6),
close JP4 and set JP3 to "ext"
Orient Pin 1 of MSP430 device
D1
LED connected to P1.0
Jumper JP2
Open to disconnect LED
Note
For bootloader use, the BSL connector and only one of the resistors R11 or R12 must be populated. If
the board is supplied internally, R11 (0 Ω) must be assembled. If the board is supplied externally, R12
(0 Ω) must be assembled, and R11 must be removed.
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B.27 MSP-TS430RGC64C
The MSP-TS430RGC64C target board has been designed with the option to operate with the target device
DVIO input voltage supplied via header J6 (see Figure B-54). This development platform does not supply the
1.8-V DVIO rail on board and it MUST be provided by external power supply for proper device operation. For
correct JTAG connection, programming, and debug operation, it is important to follow this procedure:
1. Make sure that the VCC and DVIO voltage supplies are OFF and that the power rails are fully discharged to
0 V.
2. Enable the 1.8-V external DVIO power supply.
3. Enable the 1.8-V to 3.6-V VCC power supply (alternatively, this supply can be provided from the MSP-
FET430UIF JTAG debugger interface).
4. Connect the MSP-FET430UIF JTAG connector to the target board.
5. Start the debug session using IAR or CCS IDE.
For more information on debugging the MSP430F522x and MSP430F525x, see the device-specific data sheets
(MSP430F522x and MSP430F525x) and Designing with MSP430F522x and MSP430F521x Devices.
For debugging of devices (MSP430F524x and MSP430F523x) without use of the DVIO power domain, short JP4
with the jumper.
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QUARZ_4PIN
DVCC Q2
JTAG R9
0R
D3
R10 SHORTCUT2
3 0R C4
ext tbd
2
VCC J4
R12
R11
1
int C8 BSL
0R 0R
16
15
14
13
12
10
9
8
7
6
5
4
3
2
1
11
JP3
R5
CN-ML10
2.2nF 47K 9 0 1
7 8
5 6
O
C
JP1 3 4
RSTDVCC_SBWTDIO P1.2/TA0.1
1 1 2
P1.1/TA0.0
2
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
R2 BOOTST
B GND B
PINHEAD_1X2 0R P5.3/XT2OUT
RST/NMI
PJ.0/TDO
RSTDVCC/SBWTDIO
PJ.2/TMS
BSLEN
TEST/SBWTCK
PJ.3/TCK
P7.5/TB0.5
P7.4/TB0.4
P7.3/TB0.3
P7.2/TB0.2
P7.1/TB0.1
P7.0/TB0.0
P5.2/XT2IN
PJ.1/TDI/TCLK
C6 C5
100nF 10uF J1 DVCC
1 1 P6.0/CB0/A0 P4.7/PM_NONE 48 16
10uF 2 2 47 15
R1
C10 3 3
P6.1/CB1/A1
P6.2/CB2/A2 P4.5/PM_UCA1RXD
P4.6/PM_NONE
46 14 DVIO Power Circle
0R
4 4 P6.3/CB3/A3 P4.4/PM_UCA1TXD 45 13
5 5 P6.4/CB4/A4 P4.3/PM_UCB1CLK 44 12
100nF 6 6 P4.2/PM_UCB1SOMI 43 11 PINHEAD_1X3
SHC1 P6.5/CB5/A5 GND
7 7 P4.1/PM_UCB1SIMO 42 10 3 JP4
C14 P6.6/CB6/A6
8 8 P6.7/CB7/A7 U1 P4.0/PM_UCB1STE 41 9 2 1
C1 12pF 9 9 DVIO 40 8 1 2
P5.0/A8/VEREF+
10 10 MSP430F5229 DVSS 39 7 C15 C16
P5.1/A9/VEREF-
J6 PINHEAD_1X2
11 11 AVCC P3.4/UCA0RXD/UCA0SOMI 38 6
12 12 P3.3/UCA0TXD/UCA0SIMO 37 5
XTLGND R6 P5.4/XIN
Q1 13 13 P3.2/UCB0CLK/UCA0STE 36 4 100nF 4.7uF
0R R8 P5.5/XOUT
14 AVSS 14 AVSS P3.1/UCB0SOMI/UCB0SCL 35 3
0R
15 DVCC 15 34 2
P2.6/RTCCLK/DMAE0
P3.0/UCB0SIMO/UCB0SDA
P1.6/TA1CLK/CBOUT
DVCC
P2.2/TA2CLK/SMCLK
C 33 C
P1.0/TA0CLK/ACLK
C2 16 16 DVSS P2.7/UCB0STE/UCA0CLK 1
12pF GND
DVCC J3
THERMAL_1
THERMAL_2
THERMAL_3
THERMAL_4
THERMAL_5
THERMAL_6
THERMAL_7
THERMAL_8
P1.1/TA0.0
P1.2/TA0.1
P1.3/TA0.2
P1.4/TA0.3
P1.5/TA0.4
P1.7/TA1.0
P2.0/TA1.1
P2.1/TA1.2
P2.3/TA2.0
P2.4/TA2.1
P2.5/TA2.2
VCORE
C7 C13
10uF 100nF
VCORE 17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
65
66
67
68
69
70
71
72
GND GND
D1
1 2
R3
P1.1/TA0.0
P1.2/TA0.1
1
2
330R R4
GND ???
JP2
470nF 0R
C9
10
12
13
14
15
16
11
1
2
3
4
5
6
7
DVCC 8
9
D GND Tools D
J2
Comment: TI Friesing
Date: Name:
Design: 12/14/10 S.G. MSP-TS430RGC64C
Appr.: Title of Schematic
Rev.: Drawing#: Revision: 1.1
File: MSP-TS430RGC64C.sch Page: 1 of 1 Mentor Pads Logic V9 Size:
1 2 3 4 5 6
Hardware
114
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Jumper JP3
1-2 (int): Power supply from JTAG interface Jumper JP1
2-3 (ext): External power supply Open to measure current
Connector JTAG Connector BOOTST
For JTAG Tool For Bootloader Tool
Connector J6
External power connector
to supply DVIO
Jumper JP4
Jumpers JP5 to JP10 For F524x devices, close.
Close 1-2 to debug in Spy-Bi-Wire mode For F522x, F523x, and F525x devices,
Close 2-3 to debug in 4-wire JTAG mode close only if one power supply is used
for VCC and DVIO, and if VCC is not
higher then 1.98 V. Otherwise, supply
DVIO over J6.
Do not close if VCC > 1.98 V, as it may
damage the chip.
Orient Pin 1 of MSP430 device
Connector J5
External power connector for DVCC
Set jumper JP3 to "ext"
IMPORTANT NOTE:
Rev1.0 of the board does not have
connection from pin 4 of BOOTST to
pin 64 of MCU. To use BSL, these pins
D1 should be connected by a wire.
LED connected to P1.0
Jumper JP2
Open to disconnect LED
Note
For bootloader use, the BSL connector and only one of the resistors R11 or R12 must be populated. If
the board is supplied internally, R11 (0 Ω) must be assembled. If the board is supplied externally, R12
(0 Ω) must be assembled, and R11 must be removed.
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B.28 MSP-TS430RGC64USB
Due to the use of diodes in the power chain, the voltage on the MSP430F5xx device is approximately 0.3 V
lower than is set by the debugging tool. Set the voltage in the IDE to 0.3 V higher than desired; for example, to
run the MCU at 3.0 V, set it to 3.3 V.
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USB1
14
ext int
JTAG
1 3 2 1
Connector J5
GND
GND
VCC
2
JP3 J5 External power connector
JP10
JP6
JP7
JP8
JP9
JP5
SBW -> JP4 Jumper JP3 to "ext"
R36
JP1
1
1
1
1
1
1
Jumpers JP5 to JP10
R7
D3
2
2
2
2
2
2
D2
R2
R5
Close 1-2 to debug in Spy-Bi-Wire mode C39
3
3
3
3
3
3
S3
JTAG ->
C40
IC7
Close 2-3 to debug in 4-wire JTAG mode
R10
64 J4 49
R12
C4
C3
C36 D4
C38 R35
R9
R34
R11
Orient Pin 1 of MSP430 device
48
1 J1
C8
C35
C33
R33
1
Q2
U1
C6
QFN11T064-006
R1 +
C14 Q1
R6
C2
C1
R8
D1 C9
R4
C7 +
Jumper JP2
Clamshell
C10
Open to disconnect LED
C11
J3 33
C13
C12
JP2
16
3 2 1 17 J2 32
R15
R16
LED
R13
MSP-TS430RGC64USB
S1
S2
LED3
LED2
LED1
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B.29 MSP-TS430PN80
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For use of BSL: connect pin 1 of BOOST to pin 58 of U1 and pin 3 of BOOST to pin 57 of U1.
Jumper JP2
Open to measure current
Connector BOOTST
Connector JTAG For Bootloader Tool
For JTAG Tool
Jumper JP1
1-2 (int): Power supply from JTAG interface
D1 2-3 (ext): External power supply
LED connected to pin 12
Connector J5
External power connector
Jumper J6
Jumper JP1 to "ext"
Open to disconnect LED
Orient Pin 1 of
MSP430 device
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B.30 MSP-TS430PN80A
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Jumper JP3
1-2 (int): Power supply from JTAG interface Jumper JP1
2-3 (ext): External power supply Open to measure current
Connector J5
Jumpers JP5 to JP10 External power connector
Close 1-2 to debug in Spy-Bi-Wire mode Jumper JP3 to "ext"
Close 2-3 to debug in 4-wire JTAG mode
Connector J6
If the system is supplied from LDOI,
close JP4 and set JP3 to external
Orient Pin 1 of
MSP430 device
Jumper JP2
Open to disconnect LED
D1
LED connected to P1.0
Note
For bootloader use, the BSL connector and only one of the resistors R10 or R11 must be populated. If
the board is supplied internally, R11 (0 Ω) must be assembled. If the board is supplied externally, R10
(0 Ω) must be assembled, and R11 must be removed.
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3
2
1
2 1 TDO/SBWTDIO Open = BSL Connector
ext 3 Closed = JTAG Connector
Vcc 2 VCC Ext_PWR
int 1
1
2
2 3 3 EVQ11 3 3 3 3 SPICLK/SCL SPICLK/SCL1 9 10 STE
R2
0R
1 JTAG -> 2 TEST/SBWTCK 2 RST/SBWTDIO DNP 2 PJ.0/TDO 2 PJ.1/TDI 2 PJ.2/TMS 2 PJ.3/TCK JP14 TEST/SBWTCK 7 8
JP1 1 1 1 1 1 1 5 6
SBW -> R4 C5
1
2
2 DVCC RXD/SIMO RXD/SIMO1 3 4
R3
0R
1 AVCC 47k 1.1nF JP15 TXD/SOMI/SDA1 1 2
JP2 GND P1.7
1
2
1uF/10V
JP17
JP18
2 2
GND DVCC DVCC 1 1
DNP C9
1uF/10V
SAM1029-20-ND DNP R7 R15
0R
R6
R8
0R
J6
C11 C2 C6 C7
10k 10k If external supply voltage:
R9
0R
connection by via DNP
DNP DNP DNP
GND LFXIN HFXIN C8 GND
DNP LFXOUT HFXOUT
C1
HFXOUT
DNP
LFXOUT
HFXIN
LFXIN
DVCC
AVCC
AVSS
AVSS
AVSS
4 4
80
79
PJ.5/LFXOUT 78
PJ.4/LFXIN 77
76
PJ.7/HFXOUT 75
PJ.6/HFXIN 74
73
P6.7/UCB3STE 72
P6.6/UCB3CLK 71
P6.5/UCB3SOMI/UCB3SCL 70
P6.4/UCB3SIMO/UCB3SDA 69
P5.7/UCA2STE/TA4.1/MCLK 68
P5.6/UCA2CLK/TA4.0/SMCLK 67
P5.5/UCA2RXD/UCA2SOMI/ACLK 66
P5.4/UCA2TXD/UCA2SIMO/TB0OUTH65
P2.4/TA1.0/UCA1CLK/A7/C11 64
P2.3/TA0.0/UCA1STE/A6/C10 63
62
61
U1
DVCC
AVCC
AVSS
AVSS
AVSS
P2.7
J5
1 P1.0 1 P1.0/TA0.1/DMAE0/RTCCLK/A0/C0/VREF-/VEREF- DVSS 60 DVSS 60
2 P1.1 2 P1.1/TA0.2/TA1CLK/COUT/A1/C1/VREF+/VEREF+ P4.6 59 59
3 P1.2 3 P1.2/TA1.1/TA0CLK/COUT/A2/C2 P4.5 58 58
4 4 P3.0/A12/C12 P4.4/TB0.5 57 57
5 5 P3.1/A13/C13 P5.3/UCB1STE 56 56
6 6 P3.2/A14/C14 P5.2/UCB1CLK/TA4CLK 55 55
SAM1029-20-ND
3 7
8
7
8
P3.3/A15/C15 P5.1/UCB1SOMI/UCB1SCL 54
P5.0/UCB1SIMO/UCB1SDA 53
54
53 3
SAM1029-20-ND
P6.0/UCA3TXD/UCA3SIMO
9 9 P6.1/UCA3RXD/UCA3SOMI P1.7/TB0.4/UCB0SOMI/UCB0SCL/TA1.052 SPICLK/SCL1 52
AVSS 10 10 P6.2/UCA3CLK P1.6/TB0.3/UCB0SIMO/UCB0SDA/TA0.051 P1.6 51
0R R12 11 11 P6.3/UCA3STE P3.7/TB0.6 50 50
12 12 P4.7 P3.6/TB0.5 49 49
PJ.0/TDO/TB0OUTH/SMCLK/SRSCG1/C6
13 13 P7.0/UCB2SIMO/UCB2SDA P3.5/TB0.4/COUT 48 48
DVCC
PJ.1/TDI/TCLK/MCLK/SRSCG0/C7
DNP
16 P1.3 16 45 45
P2.6/TB0.1/UCA1RXD/UCA1SOMI
P2.5/TB0.0/UCA1TXD/UCA1SIMO
P1.3/TA1.2/UCB0STE/A3/C3 P8.2
TP1TP2
PJ.2/TMS/ACLK/SROSCOFF/C8
17 17 P1.4/TB0.1/UCA0STE/A4/C4 P8.1 44 44
18 18 P2.2/TB0.2/UCB0CLK 43 43
SW2
P1.5/TB0.2/UCA0CLK/A5/C5
19 DVSS 19 DVSS P2.1/TB0.0/UCA0RXD/UCA0SOMI 42 RXD/SIMO1 42
PJ.3/TCK/SRCPUOFF/C9
20 DVCC 20 DVCC P2.0/TB0.6/UCA0TXD/UCA0SIMO/TB0CLK/ACLK 41 P2.0 41
R14DNP
P1.3
P7.3/UCB2STE/TA4.1
J3
RST/NMI/SBWTDIO
R11 DNP
P1.2
TEST/SBWTCK
2
P7.4/TA4.0/A16
P7.2/UCB2CLK
D3 2
2
1
red (DNP)
P7.5/A17
P7.6/A18
P7.7/A19
P4.2/A10
P4.3/A11
P4.0/A8
P4.1/A9
JP11
DVCC
DVSS
DNP
R10DNP Socket:
B.31 MSP-TS430PN80B
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37TEST/SBWTCK37
38RST/SBWTDIO38
39
40
JP10 DVCC
21PJ.0/TDO
23PJ.2/TMS
24PJ.3/TCK
22PJ.1/TDI
D1 100nF
2
1
40DVCC
39DVSS
green
JP9 Title: MSP-TS430PN80B
GND
25
26
27
28
29
30
31
32
33
34
35
36
GND Target socket board for MSP430FR5994IPN device
1 1
J4
SAM1029-20-ND
File: MSP-TS430PN80B
Date: 10/5/2015 2:54:53 PM Rev.: 1.0 Page 1/1
A3
A B C D E F G H I
Hardware
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Jumper J1
Connector BSL Connector JTAG
1-2 (int): Power supply from JTAG interface
For Bootloader Tool For JTAG Tool
2-3 (ext): External power supply
10
1
14
1
Jumpers JP3 through JP8
2 2 Close 1-2 to debug in Spy-Bi-Wire mode
Close 2-3 to debug in 4-wire JTAG mode
Connector J2
External power connector
Jumper JP3 to "ext"
Orient Pin 1 of
MSP device
Jumpers JP9 through JP11
Open to disconnect LEDs
D1 through D3
LEDs connected to
P1.0 through P1.2
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130 MSP430™ Hardware Tools SLAU278AG – MAY 2009 – REVISED DECEMBER 2020
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131
MSP430™ Hardware Tools
1 2 3 4 5 6
Ext_PWR
VCC BSL If external supply voltage:
BSL_SCL 9 10 remove R3 and add R4 (0 ohm) I2C BSL Connection
3
2
1
AVSS 20
USSXTOUT_ext 19
18
AVSS 17
16
15
Ch0IN 14
CH0_OUT13
PVSS 12
PVCC 10
PVSS 9
CH1_OUT 8
Ch1IN 7
6
5
4
3
2
LCDCAP1
PVCC 11
JP9 JP10 JP5 JP6 JP7 JP8 R17 BSLSDA
3 3 3 3 3 3 DVCC 1 2
USSXTIN_ext
JTAG -> SW2 4.7k
2 TEST/SBWTCK 2 RST/SBWTDIO 2 PJ.0/TDO 2 PJ.1/TDI 2 PJ.2/TMS 2 PJ.3/TCK 3 4
75 P3.6/UCB1SIMO/UCB1SDA/TB0.6/USSXT_BOUT/LCDS35
1 1 1 1 1 1 R16 BSLSCL
VCC Current SBW ->
SW3
76 P3.7/UCB1SOMI/UCB1SCL/TB0.2/TB0OUTH/LCDS36
Measurement 4.7k
C5
JP1 DVCC R7
2 47k TP7 TP8
VCC_Meas
1 1100pF
DVSS Ch0OUT R23 DNP DNPR24 Ch1OUT
DNP DNP
Populate either Q1 or Q1A if a crystal is needed 200 200
65 P3.4/SMCLK/COM6/DMAE0/LCDS27
DNPC17 C18 DNP
AVCC C1 JP14 1000pF 1000pF JP13
66 P3.5/ACLK/COM3/COUT/LCDS26
64 P3.3/MCLK/TB0.3/XPB1/LCDS25
LFXOUT R5
63 P3.2/TA1.1/COM5/LCDS28
62 P6.7/TA0.1/COM4/LCDS29
Power Rail 0.1μF Q1 DNPQ1A
Connections
Connection by via PVSS
JP2 C2
61 R33/LCDCAP
12pF
79 USSXTOUT
78 USSXTIN
73 Ch0OUT
68 Ch1OUT
74 CH0_IN
67 CH1_IN
80 AVSS1
77 AVSS4
71 PVCC
70 PVCC
72 PVSS
69 PVSS
Populate either Q2 or Q2A if a crystal is needed
81
JP3 IC1 J5
2 C8 J3 60 P6.3/COM7/R23 20
1 AVCC HFXOUT_ext R9 HFXOUT 1 AVCC AVCC1 1 59 DVCC3 DVCC 19
DNP DNP
0 2 P2.2/COUT/UCA0CLK/A14/C14 2 58 DVSS3 DVSS 18
C3 22pF 3 P2.3/TA0.0/UCA0STE/A15/C15 3 57 P6.2/TB0CLK/R13/LCDREF/LCDS32 17
1uF DNP DNP 4 P1.0 P1.0/UCA1CLK/TA1.0/A0/C0/VREF-/VeREF- 4 56 P6.1/RTCCLK/R03/LCDS33 16
Q2 Q2A 5 P1.1 P1.1/UCA1STE/TA4.0/A1/C1/VREF+/VeREF+ 5 55 P7.0/TA1.0/TA1.2/XPB0/LCDS30 15
C9 6 AVSS AVSS2 6 54 P6.6/ACLK/COM2/LCDS31 14
JP4 AVSS HFXIN_ext R8 HFXIN HFGND Connection by via 7 LFXIN_ext PJ.4/LFXIN LFXIN 7 53 P6.5/SMCLK/COM1/LCDS34 13
DNP DNP
2 0 8 LFXOUT_ext PJ.5/LFXOUT LFXOUT 8 52 P6.4/MCLK/COM0 12
1 PVCC 22pF 9 AVSS AVSS3 9 51 P6.0/TA0CLK/COUT/LCDS0 11
AVSS 10 HFXIN_ext PJ.6/HFXIN/USSXT_BOUT HFXIN 10 50 P5.7/TA0.2/UCB1STE/LCDS1 10
C16 C13 11 HFXOUT_ext PJ.7/HFXOUT HFXOUT 11 49 P5.6/TB0OUTH/UCB1SOMI/UCB1SCL/LCDS2 9
47μF 1000pF 12 P2.4/TA0CLK/TB0CLK/TA1CLK/LCDS24 12 48 P5.5/TA4.1/UCB1SIMO/UCB1SDA/LCDS3 8
13 P2.6/UCA0SIMO/UCA0TXD/TA1.2/TA1.2C/LCDS23 13 47 P5.4/TA0.0/UCB1CLK/TA4.0/LCDS4 7
C14 14 P2.7/UCA0SOMI/UCA0RXD/TA4.1/TA4.1C/LCDS22 14 46 P5.3/TB0.3/UCA2STE/LCDS5 6
PVSS USSXTIN R14 USSXTIN_ext 15 TEST/SBWTCK TEST/SBWTCK 15 45 P5.2/TB0.2/UCA2CLK/LCDS6 5
DNP
0 16 RST/SBWTDIO RST/NMI/SBWTDIO 16 44 P5.1/TB0.1/UCA2SOMI/UCA2RXD/LCDS7 4
27pF 17 PJ.0/TDO PJ.0/UCA2CLK/SRSCG1/DMAE0/C10/TDO 17 43 P5.0/TB0.0/UCA2SIMO/UCA2TXD/LCDS8 3
Connection by via 18 PJ.1/TDI PJ.1/UCA2STE/SRSCG0/TA4CLK/C11/TDI/TCLK 18 42 P4.7/DMAE0/LCDS9 2
Q3 19 PJ.2/TMS PJ.2/UCA2SIMO/UCA2TXD/SROSCOFF/TB0OUTH/C12/TMS 19 41 DVSS2 DVSS 1
C15 20 PJ.3/TCK PJ.3/UCA2SOMI/UCA2RXD/SRCPUOFF/TB0.6/C13/TCK 20
C TP6 AVSS USSXT_OUT R22 USSXTOUT R15 USSXTOUT_ext C
DNP
22
23
24
25
26
27
28
29
P1.7/USSTRG/UCA3CLK/UCB0SOMI/UCB0SCL/LCDS1630
31
32
33
34
P4.1/UCA0CLK/TB0.4/UCA3SOMI/UCA3RXD/LCDS15 35
P4.2/UCA0STE/TB0.5/UCA3SIMO/UCA3TXD/LCDS14 36
37
38
39
40
21
22 0 IC357-0804-096P-1
DNP R11 27pF
0
PVSS
P2.1/UCA1STE/UCA3SOMI/UCA3RXD/LCDS18
P1.6/UCA3STE/UCB0SIMO/UCB0SDA/LCDS17
P2.0/UCA1CLK/UCA3SIMO/UCA3TXD/LCDS19
P1.3/UCA1SOMI/UCA1RXD/TA1.1/A9/C9
P1.2/UCA1SIMO/UCA1TXD/TA1.0/A8/C8
0
P4.4/UCA0SOMI/UCA0RXD/LCDS12
P4.3/UCA0SIMO/UCA0TXD/LCDS13
P4.0/RTCCLK/TA4.1/MTIF_PIN_EN
P3.1/TA1CLK/TB0.1/MTIF_OUT_IN
GND AVSS
DVCC
R10
P4.6/TB0CLK/TA4CLK/LCDS10
P4.5/TA0CLK/TA1CLK/LCDS11
0
P1.4/TB0.4/UCB0STE/A2/C2
P1.5/TB0.5/UCB0CLK/A3/C3
R18 C12 LCDCAP
P2.5/TA0.2/TA4.0/LCDS21
DNP R13
TP5 DNP Use LCD_C Module DNP 4.7uF
SW1 47k R18 DNPC12
P3.0/TB0.0/LCDS20
P1.3 0 4.7uF
No LCD_C Module 0 ohm DNP
DVCC
C7 C6
B.32 MSP-TS430PN80C
DVCC1
DVSS1
1 2 P1.1
200
2
1 DVSS
Blue DVCC
9 BSLSDA
10 BSLSCL
8 BSLRX
7 BSLTX
2 DVCC
1 DVSS
JP12 C4
6 P1.3
D D
0.1μF
D1
12
13
14
15
16
17
18
19
20
11
3
4
5
2 1 R1 P1.0
2
1
Green J4 Orderable: MSP-TS430PN80C Designed for: Public Release Mod. Date: 2/16/2018
TID #: N/A Project Title: MSP-TS430PN80C
DVSS JP11 Number: MCU022 Rev: A Sheet Title:
Texas Instruments and/or its licensors do not warrant the accuracy or completeness of this specification or any information contained therein. Texas Instruments and/or its licensors do not SVN Rev: Version control disabled Assembly Variant: 001 Sheet: 1 of 2
warrant that this design will meet the specifications, will be suitable for your application or fit for any particular purpose, or will operate in an implementation. Texas Instruments and/or its Drawn By: File: MCU022A_MSP-TS430PN80C_Schematic.SchDoc Size: B http://www.ti.com
licensors do not warrant that the design is production worthy. You should completely validate and test your design implementation to confirm the system functionality for your application. Engineer: Mike Pridgen Contact: http://www.ti.com/support © Texas Instruments 2017
1 2 3 4 5 6
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Jumper J1
1-2 (Debugger): Power supply from JTAG Interface Connector JTAG Connector BSL
2-3 (External): External power supply For JTAG Tool For Bootloader Tool
Connector J2
External power connector
Jumper J1 to External
D1, D2
LEDs connected to P1.0, P1.1
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B.33 MSP-TS430PN80USB
Due to the use of diodes in the power chain, the voltage on the MSP430F5xx device is approximately 0.3 V
lower than is set by the debugging tool. Set the voltage in the IDE to 0.3 V higher than desired; for example, to
run the MCU at 3.0 V, set it to 3.3 V.
SLAU278AG – MAY 2009 – REVISED DECEMBER 2020 MSP430™ Hardware Tools 135
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Jumper JP3
1-2 (int): Power supply from JTAG debug interface
2-3 (ext): External power supply
Connector JTAG
For JTAG Tool USB Connector
Jumper JP1
Connector J5
Open to measure current
External power connector
Jumper JP3 to "ext"
D1
LED connected to P1.0
Jumper JP2
Open to disconnect LED
SLAU278AG – MAY 2009 – REVISED DECEMBER 2020 MSP430™ Hardware Tools 137
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B.34 MSP-TS430PZ100
A. Connections between the JTAG header and pins XOUT and XIN are no longer required and should not be made.
Jumper J6
Open to disconnect LED Jumper J7
Connector JTAG
Open to measure current
For JTAG Tool
D1 Connector BOOTST
LED connected to pin 12 For Bootloader Tool
Connector J5
External power connection
Remove R8 and jumper R9
SLAU278AG – MAY 2009 – REVISED DECEMBER 2020 MSP430™ Hardware Tools 141
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B.35 MSP-TS430PZ100A
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Jumper JP3
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply
Jumper JP1
Connector JTAG Open to measure current
For JTAG Tool
Connector BOOTST
For Bootloader Tool
Jumper JP2
Connector J5 Open to disconnect LED
External power connector
Jumper JP3 to "ext" D1
LED connected to P5.1
Orient Pin 1 of
MSP430 Device
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B.36 MSP-TS430PZ100B
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Jumper JP3
1-2 (int): Power supply from JTAG interface
2-3 (ext): External power supply
Connector JTAG Connector BOOTST
For JTAG Tool For Bootloader Tool
Connector J5
External power connector
Jumper JP3 to "ext"
Jumper JP1
Open to measure current
Note
For bootloader use, the BSL connector and only one of the resistors R10 or R11 must be populated. If
the board is supplied internally, R11 (0 Ω) must be assembled. If the board is supplied externally, R10
(0 Ω) must be assembled, and R11 must be removed.
SLAU278AG – MAY 2009 – REVISED DECEMBER 2020 MSP430™ Hardware Tools 147
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149
MSP430™ Hardware Tools
BSL Interface LDOI/LDOO Interface
VCC
VCC
9 10 R10 0R
TEST/SBWTCK 7 8
D4
C15
C20
100nF
DNP
C21
220nF
RST
GND
GND
GND
PWR3
8 7 TCK 100nF DNP DNP
1
2
3
C3
C16
6 5 TMS R9 0R
J5
4 3 TDI C19
XTLGND2
HCTC_XTL_4
HCTC_XTL_4
JP3
VBAT
47pF
3
Q2G$1
Q2G$2
2 1 TDO 100nF XT2OUT
ext 3 GND 4.7n
Vcc
2 TEST/SBWTCK R12 0R C4
4
D3 47pF GND
1 XT2IN
int DVCC1 DNP
J4
LL103A DNP
R5
99
98
97
96
C 95
M 94
93
O 92
91
GND 90
DVCC1 89
88
VBAT 87
VBAK 86
85
84
AVSS 83
82
LDOO 81
LDOI 80
79
78
77
GND 76
100
C8 47K GND
RST
GND 4 GND
PU.1
PU.0
I
2.2nF
GND 3
10uF/6.3V
C5 R1
1 JP1 2 VBAT
0R
C7
2 1 DVCC1
100nF
+
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
100
JP11
J3
AVSS
DVCC1 1 75
1 75
2 74
2 74
3 73
3 73
10uF/6.3V
R2
C14
4 72
0R 4 72
5 71
5 71
C6
C17 6 70
6 70
+
U1
100nF
7 69
7 69 DNP
100nF 8 68 C10 100nF
DNP 8 68
9 67
9 67
DNP
AVCC
10
11
12
10
11
12
QFP100PZ 66
65
64
66
65
64 DVCC1
C11 100nF
C2 XIN R6 0R 13 63
13 63
HCTC_XTL_4
HCTC_XTL_4
14 62
XTLGND1
LFXTCLK
14 62
2
12pF
Q1G$2
R8 0R 15 61
16
16 60 P8.2 60
17 P8.1 59 GND
12pF
1
GND 17 59
XOUT 18 Socket: P8.0 58
18 58
C1 DNP 19 Yamaichi 57
DNP 19 57
20 IC201-1004-008 56
20 56
21 55
21 55
22 54
22 54
23 53
23 53
24 52
24 52
25 51
25 51
J1
B.37 MSP-TS430PZ100C
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
DVCC1
35 P1.1
36 P1.2
40 P1.6
41 P1.7
26
27
28
29
30
31
32
33
34
37
38
39
42
43
44
45
46
47
48
49
50
DNP MSP430: Ta rget-Socket MSP-TS430PZ100C
J2
C13 C12
100nF 100nF
2
1
R3
JP2
GND GND
P516TR-ND
0R R4 C9 GND
1.1
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JTAG
3 2 1
GND
DVCC
VBAT
2 2
Connector J5
D3 JP5
ext
int
BOOTST
R7
External power connector
JP10
R10
R11
J5
Jumpers JP5 to JP10
JP8
JP6
JP9
Jumper JP3 to "ext"
GND
GND
VCC
SBW JTAG
Close 1-2 to debug in Spy-Bi-Wire mode
JP4
123
123
123
123
123
1 2 3
JP1
R2
R5 C8
D4
+
Close 2-3 to debug in 4-wire JTAG mode LDOI/LDOO
If the system should
C21
J6
C5 C7
C15
J4 JP7 C20 1 2 3
be supplied from LDOI (J6),
75
1
100 95 90 85 80 76 close JP4 and set JP3 to external
C4
C3
R12
R9
C10
Q2
5
0
C11
Orient Pin 1 of MSP430 device
70
C16
1
11
Q1
5
C19
C18
R8
65
2
C1
C2
J3
R6
0
R1
C6
60
+
C17
C14
C12
C13
U1
55
C9
R4
26 30 3540 45 50
25
51
D1
J2
J1
Jumper JP2
Open to disconnect LED
Note
For bootloader use, the BSL connector and only one of the resistors R10 or R11 must be populated. If
the board is supplied internally, R11 (0 Ω) must be assembled. If the board is supplied externally, R10
(0 Ω) must be assembled, and R11 must be removed.
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3
2
1
2 1 TDO/SBWTDIO
ext 3
2 Ext_PWR
R2
-
1 JTAG -> 2 TEST/SBWTCK 2 RST/SBWTDIO DNP 2 PJ.0/TDO 2 PJ.1/TDI 2 PJ.2/TMS 2 PJ.3/TCK TEST/SBWTCK 7 8
1 1 1 1 1 1 BSLRX 5 6 DNP
JP1 SBW -> R4 C5
2 DVCC 3 4
R3
0R
1 AVCC 47k 1.1nF BSLTX 1 2
JP2 GND
DNP
C3 C4
5 1uF/10V 100nF
RST/SBWTDIO
5
GND
GND
FE25-1A4
J6
DNP
0R
R6
R8
0R
C11 C9
QUARZ5
100
Q1
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
100nF DNP DNP DVCC
LFGND QUARZ5 HFGND
0R
R5
R9
0R
DNP
Q2
connection by via DNP C7 C6
DNP DNP
LFXIN HFXIN 1uF/10V 100nF
4 GND C1 LFXOUT HFXOUT DNP 4
ESICOM
ESIVSS
DNP C8
DVCC
DVSS
AVCC
AVSS
AVSS
AVSS
GND
R7
0R
GND
P4.2/UCA0SIMO/UCA0TXD/UCB1CLK 100
99
98
P4.1/UCB1SOMI/UCB1SCL/ACLK/S2 97
P4.0/UCB1SIMO/UCB1SDA/MCLK/S3 96
P10.0/SMCLK/S4 95
P4.7/UCB1SOMI/UCB1SCL/TA1.2/S5 94
P4.6/UCB1SIMO/UCB1SDA/TA1.1/S6 93
P4.5/UCB1CLK/TA1.0/S7 92
P4.4/UCB1STE/TA1CLK/S8 91
P5.7/UCA1STE/TB0CLK/S9 90
P5.6/UCA1CLK/S10 89
P5.5/UCA1SOMI/UCA1RXD/S11 88
P5.4/UCA1SIMO/UCA1TXD/S12 87
86
PJ.5/LFXOUT 85
PJ.4/LFXIN 84
83
PJ.6/HFXIN 82
PJ.7/HFXOUT 81
80
79
78
77
76
IC1
DVCC 1 JP12
ESICOM
ESIVSS
DVCC3
AVCC1
DVSS3
AVSS2
AVSS1
AVSS3
ESICI
ESIVCC 2 DNP
FE25-1A1 J5
1 1 P4.3/UCA0SOMI/UCA0RXD/UCB1STE ESIVCC 75 ESIVCC 75 C13
2 2 C12
P1.4/UCB0CLK/UCA0STE/TA1.0/S1 P9.7/ESICI3/A15/C15 74 74
3 3 P1.5/UCB0STE/UCA0CLK/TA0.0/S0 P9.6/ESICI2/A14/C14 73 73
1uF/10V 100nF
4 4 P1.6/UCB0SIMO/USB0SDA/TA0.1 P9.5/ESICI1/A13/C13 72 72
5 5 DNP DNP
P1.7/UCB0SOMI/UCB0SCL/TA0.2 P9.4/ESICI0/A12/C12 71 71
6 LCDCAP 6 R33/LCDCAP P9.3/ESICH3/ESITEST3/A11/C11 70 70
3 7
8
7
8
P6.0/R23
P6.1/R13/LCDREF
P9.2/ESICH2/ESITEST2/A10/C10 69
P9.1/ESICH1/ESITEST1/A9/C9 68
69
68
GND
3
9 9 P6.2/COUT/R03 P9.0/ESICH0/ESITEST0/A8/C8 67 67
AVSS 10 10 P6.3/COM0 P1.0/TA0.1/DMAE0/RTCCLK/A0/C0/VREF-/VEREF66 P1.0 66 ESICOM
P2.1/UCA0SOMI/UCA0RXD/TB0.5/DMAE0
11 11 C14
0R R12 P6.4/TB0.0/COM1 P1.1/TA0.2/TA1CLK/COUT/A1/C1/VREF+/VEREF+65 P1.1 65
12 12 P1.2/TA1.1/TA0CLK/COUT/A2/C2 64 P1.2 64
P3.5/UCA1SOMI/UCA1RXD/TB0.1/S24
P3.4/UCA1SIMO/UCA1TXD/TB0.0/S25
470nF
PJ.0/TDO/TB0OUTH/SMCLK/SRSCG1
P6.5/TB0.1/COM2
13 13 P6.6/TB0.2/COM3 P1.3/ESITEST4/TA1.2/A3/C3 63 P1.3 63
DVCC
PJ.1/TDI/TCLK/MCLK/SRSCG0
P2.2/UCA0CLK/TB0.4/RTCCLK
DNP
16 16 P2.6/TB0.5/COM6/S41 P8.5/A6/C6 60 60
PJ.3/TCK/COUT/SRCPUOFF
PJ.2/TMS/ACLK/SROSCOFF
TP1TP2
P3.6/UCA1CLK/TB0.2/S23
P3.7/UCA1STE/TB0.3/S22
P7.7/TA1.2/TB0OUTH/S27
P2.3/UCA0STE/TB0OUTH
18 18 58 DVCC 58
SW2
P10.2/TA1.0/SMCLK/S39 DVCC2
P3.3/TA1.1/TB0CLK/S26
19 19 P5.0/TA1.1/MCLK/S38 DVSS2 57 DVSS 57
XRST/NMI/SBWTDIO
20 20 P5.1/TA1.2/S37 P7.4/SMCLK/S13 56 56
R14DNP 21 21
P8.0/RTCCLK/S21
P1.3 P7.3/TA0.2/S14 55 55
P6.7/TA0CLK/S31
P5.2/TA1.0/TA1CLK/ACLK/S36
P8.1/DMAE0/S20
P10.1/TA0.0/S28
22 22 P7.2/TA0.1/S15 54 54
P8.3/MCLK/S18
TEST/SBWTCK
P7.5/TA0.2/S30
P7.6/TA0.1/S29
P5.3/UCB1STE/S35
23 23 P3.0/UCB1CLK/S34 P7.1/TA0.0/S16 53 53
R11 DNP 24 24
P1.2 P7.0/TA0CLK/S17 52 52
2 25 25
P3.1/UCB1SIMO/UCB1SDA/S33
P2.0/UCA0SIMO/UCA0TXD/TB0.6/TB0CLK51 BSLTX51 2
P8.2/S19
D3 P3.2/UCB1SOMI/UCB1SCL/S32
2
1
DVCC1
DVSS1
red (DNP)
JP11 J3 FE25-1A3
R10DNP
B.38 MSP-TS430PZ100D
26
27
28 TEST/SBWTCK28
29 RST/SBWTDIO29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
D2 Yamaichi IC201-1004-008
2
1
yellow (DNP)
JP10 LCDCAP DVCC
30 PJ.0/TDO
32 PJ.2/TMS
33 PJ.3/TCK
50 BSLRX
R1 330R
P1.0 C15 C10
FE25-1A2
D1
2
1
green 4u7 100nF
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
JP9 DNP Titel: MSP-TS430PZ100D Bearb.:Petersen
GND
J4
Target Socket Board for MSP430FR698xPZ, FR688xPZ
Dok: 1099/1/001/01.1
1 GND GND
1
File: MSP-TS430PZ100D
Datum:7/9/2013 5:23:25 PM Rev.: 1.2 Seite 1/1
A3
A B C D E F G H I
Hardware
152
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Jumper J1
Connector BSL Connector JTAG 1-2 (int): Power supply from JTAG interface
For Bootloader Tool For JTAG Tool 2-3 (ext): External power supply
RST/SBWTDIO
10 14
TMS
TDO
TCK
TDI
1 1
TEST/SBWTCK
2 2 JTAG
Jumper JP3 to JP8
BSL JTAG Close 1-2 to debug in Spy-Bi-Wire mode
PWR J1
Ext. 1 SBW
Close 2-3 to debug in 4-wire JTAG mode
JP8 1
JP7 1
JP6 1
JP5 1
JP4 1
JP3 1
int
Pwr.
ext
R3
R2
Vcc
C10
Vcc
R13
Connector J2 GND
External power connector GND 50 45 40 35 30 J4 26
R4
Jumper J1 to “ext” J2 C5
SW1
Switch SW1
J5 51
25
TP2
Device reset
GND
RESET
Jumper JP1
55
RoHS
20
DVCC C6
MSP-TS430PZ100D
JP1
C7
Switch SW2 P1.3
60
Connected to P1.3
SW2
15
Rev. 1.2
IC1
C13
C12
R14
LEDs connected to
65
JP10
JP11
10
C15
JP9, JP10, JP11
(only D1 assembled) 1
R12
D3 R11
D2 R10
D1 R1
70
C14 Q2 Q1 C11
HF and LF oscillators with
C3
C4
5
capacitors and resistors
P1.2
P1.1
P1.0
R5
C1
R9
C2
R6
C9
C8
75
JP12 1 GND
R7
JP2
AVCC 76 J6 80 85 90 95 100
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B.39 MSP-TS430PZ100E
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Jumper J1
1-2 (Debugger): Power supply from JTAG interface Connector JTAG Connector BSL
2-3 (External): External power supply For JTAG Tool For Bootloader Tool
Connector J2
External power connector
Jumper J1 to External
D1, D2
LEDs connected to P1.0, P1.1
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B.40 MSP-TS430PZ5x100
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Jumper JP3
Connector JTAG 1-2 (int): Power supply from JTAG interface
For JTAG Tool 2-3 (ext): External power supply
Connector BOOTST
For Bootloader Tool
Connector J5
External power connector
Jumper JP3 to "ext"
Jumper JP1
Open to measure current
Jumper JP2
Open to disconnect LED
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B.41 MSP-TS430PZ100USB
Due to the use of diodes in the power chain, the voltage on the MSP430F5xx device is approximately 0.3 V
lower than is set by the debugging tool. Set the voltage in the IDE to 0.3 V higher than desired; for example, to
run the MCU at 3.0 V, set it to 3.3 V.
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Connector J5
External power connector
Jumper JP3 to "ext"
Jumpers JP5 to JP10
Close 1-2 to debug in Spy-Bi-Wire mode
Close 2-3 to debug in 4-wire JTAG mode
Jumper JP2
Open to disconnect LED
D1
LED connected to P1.0
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B.42 MSP-TS430PZ100AUSB
The development board MSP-TS430PZ100AUSB supports the MSP430FG662x and MSP430FG642x flash
devices in the 100-pin QFP package. MSP430FG6626IPZ devices are not included in the MSP-
TS430PZ100AUSB kit. Free samples can be ordered from www.ti.com/product/MSP430FG6626/samplebuy.
168 MSP430™ Hardware Tools SLAU278AG – MAY 2009 – REVISED DECEMBER 2020
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169
MSP430™ Hardware Tools
USB1
VBUS
R33 R35 27R
LL103A
D2
1
VBUS
P8.0 P8.1 P8.2
DNP
D- 2
VCC
1k4 D-
PUR LED-1 1 LED-2 3 LED-3 5
R34 27R
PU.0/DP D+ 3 D+ 2 4 6
PU.1/DM C38
GND 4 1 JP4
6
GND
470R
R15
470R
R16
470R
R13
C39 2
IO4
IO3
4u7 D4
TPD4E004
C40
100R
2
SHIELD1 GND
GND
R11
0.1u
1M
IO1
IO2
S1
S2
LED1
LED2
LED3
10p 10p
IC7
C33
1
PU.1/DM
PU.0/DP
R36
2
33k
220n
VUSB
VBUS
1
3
S3
GND
PUR
V18
1
PWR3
8 7 DNP DVCC1
TCK 100nF C18
1
2
3
6 5 TMS VBAK
J5
C3
ext 3 GND R9 0R
Q2G$1
Q2G$2
HCTC_XTL_4
HCTC_XTL_4
47pF GND
int JP3 DVCC1
J4
GND
2.2nF C8 R5
100
99
98
97
96
95
94
93
92
91
90
89 DVCC1 89
88
87 VBAT 87
86 VBAK 86
85
84
83 AVSS 83
82
81 VUSB 81
80 VBUS 80
79 PU.1/DM 79
78
77 PU.0/DP 77
76
76 GND
82 V18
C5 3
94 M
92 O
95 C
C7
10uF/6,3V
R1
1 JP1
93 I
2 VBAT
0R
100
99
98
97
96
91
88
85
84
2 100nF 1 DVCC1
+
U1 JP11
P6.3/CB3/A3/OA1IP0
P6.2/CB2/A2/OA0IP0
PJ.3/TCK
PJ.2/TMS
TEST/SBWTCK
P7.3/XT2OUT
P6.1/CB1/A1
P6.0/CB0/A0
PJ.1/TDI/TCLK
PJ.0/TDO
DVSS3
DVCC3
P5.7/DMAE0/RTCCLK
VBAK
V18
PU.1/DM
RST/NMI/SBWTDIO
VBAT
P7.2/XT2IN
AVSS2
VUSB
VBUS
PUR
VSSU
PU.0/DP
DVCC1 0R NR
R14
R2
0R 10uF/6,3V
AVSS
+
C17 C6
TP2
AVCC
C14 100nF J3
100nF
1 1 75 75
P6.4/CB4/AD0+/OA0O P9.7/S0
TP1
2 2 74 74
P6.5/CB5/AD0-/OA0N P9.6/S1
3 3 73 73
P6.6/CB6/AD1+/GSW0A P9.5/S2
4 4 72 72
P6.7/CB7/AD1-/GSW0B P9.4/S3
5 5 MSP430FG6626IPZ 71 71
P7.4/CB8/AD2+/OA1O P9.3/S4
6 6 70 70
P7.5/CB9/AD2-/OA1N P9.2/S5
7 7 69 69
P7.6/CB10/AD3+/GSW1A P9.1/S6 DNP
DNP 8 8 68 68 C10 100nF
P7.7/CB11/AD3-/GSW1B P9.0/S7
12pF 9 9 67 67
P5.0/VREF+/VEREF+ P8.7/S8
C2 10 10 66 66
Q3 P5.1//A4/DAC0 P8.6/UCB1SOMI/UCB1SCL/S9
11 11 65 65 C11 100nF
GND QUARZ5 P5.6/A5/DAC1 P8.5/UCB1SIMO/UCB1SDA/S10 DVCC1
12 NR 12 64 64
XTLGND1
NR DVCC2
DNP 13 AVSS 13 63 63
XOUT R6 0R AVSS1 DVSS2
14 XOUT 14 62 62
XIN XOUT P8.4/UCB1CLK/UCA1STE/S11
15 XIN 15 61 61
XIN P8.3/UCA1RXD/UCA1SOMI/S12
12pF
P3.0/TA1CLK/CBOUT/S31
P3.4/TA2CLK/SMCLK/S27
23 23 53 53
P2.5/P2MAP5 P4.3/TB0.3/S20
P1.0/TA0CLK/ACLK/S39
24 24 52 52
P2.6/P2MAP6/LCDREF/R13 P4.2/TB0.2/S21
25 25 51 51
P2.7/P2MAP7/R23 P4.1/TB0.1/S22
P5.3/COM1/S42
P5.4/COM2/S41
P5.5/COM3/S40
P4.0/TB0.0/S23
P1.1/TA0.0/S38
P1.2/TA0.1/S37
P1.3/TA0.2/S36
P1.4/TA0.3/S35
P1.5/TA0.4/S34
P1.6/TA0.1/S33
P1.7/TA0.2/S32
P3.1/TA1.0/S30
P3.2/TA1.1/S29
P3.3/TA1.2/S28
P3.5/TA2.0/S26
P3.6/TA2.1/S25
P3.7/TA2.2/S24
J1
LCDCAP/R33
AVSS 22nF
C15
VCORE
DVCC1
DVSS1
COM0
Socket:
Yamaichi
IC357-1004-053N
26
27
28
29
30
31
32
33
34 P1.0 34
35
36
37
38
39
40 P1.6 40
41 P1.7 41
42
43
44
45
46
47
48
49
50
DVCC1
Target socket board MSP-TS430PZ100AUSB
DNP
C13 C12
330R D1 for MSP430FG6626IPZ device
26
27
28
29
30
31
32
33
35
36
37
38
39
42
43
44
45
46
47
48
49
50
2
1
R3
JP2
J2
GND GND
470nF
0R R4 C9 GND
1.1
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GND
GND
VCC
2 Connector J5
External power connector
Jumper JP3 to "ext"
Jumpers JP5 to JP10 +
1
1
1
1
1
1
Close 1-2 to debug in Spy-Bi-Wire mode
2
2
2
2
2
2
Close 2-3 to debug in 4-wire JTAG mode
3
3
3
3
3
3
75
1
100 95 90 85 80 76
70
Orient Pin 1 of MSP430 device
+
10
65
U1
15
60
Jumper JP2
20
55
D1
26 30 35 40 45 50
LED connected to P1.0
25
51
J1
J2
1 2 3
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MSP430™ Hardware Tools
A B C D E F G H I
JTAG
VCC 14 13 JP10
6 Vcc 12 11 RST/NMI
TCK
R7 330R 1 JP5 TDO 1
JP6 1 JP7 1 JP8 1 JP9 1 <- SBW 6
GND
JP3 10 9
DVDSYS 2 RST 2 PJ.3 2 PJ.2 2 PJ.1 2 PJ.0 2
4 8 7 TCK
ext TEST/SBWTCK 3 RST/NMI 3 TCK 3 TMS 3 TDI 3 TDO 3 <- JTAG
3 6 5 TMS
C17
C16
2
C4
VCC1
100nF
R5
VREF
100nF
4.7uF
100nF
4.7uF
47K
RST VCC1
JP11 1
C7
GND
PWR3
DNP 2 GND
AUXVCC1
1
2
3
5 3
5
J5
J4
109
108
107
106
105
104
103
VCC
119
118
117
116
115
114
113
112
110
111
GND 4.7uF
TP1 TP2
GND
0R
VCC1 GND
JP12 1
2 AUXVCC2 470nF
AUXVCC1
AUXVCC2
VASYS1/2
VASYS1/2
DVDSYS
VCC1 JP4 DVCC AVCC 3 C18 C10 GND GND
VCORE
SD6N0
SD5N0
SD4N0
SD3N0
SD2N0
SD1N0
SD0N0
SD6P0
SD5P0
SD4P0
SD3P0
SD2P0
SD1P0
SD0P0
DVCC
4 GND
VREF
AVCC
AVSS
AVSS
GND
R2 0R
1
2
4.7uF
GND
C5 C11 C8 C13 128
127
126
125
124
123
122
121
120
109
108
107
106
105
104
103
119
118
117
116
115
114
113
112
110
111
100nF DNP GND
10uF/6,3V 12pF XIN
100nF 4.7uF
C2
VCORE
DVSS1
AUXVCC1
AUXVCC2
VASYS1
AVSS1
DVCC
VDSYS
SD6N0
SD6P0
SD5N0
SD5P0
SD4N0
SD4P0
VREF
AVSS2
VASYS2
SD3N0
SD3P0
SD2N0
SD2P0
SD1N0
SD1P0
SD0N0
SD0P0
AVCC
R1 0R
4 DNP
4
Q1
QUARZ5
GND J3 VCC
AVSS
102 RST 102
LFXTCLK ~RST/NMI/SBWTDIO
GND 1 R6 0R 1 101 PJ.3 101
DNP
XIN PJ.3/TCK
12pFDNP 2 R8 0R 2 100 PJ.2 100 DNP
XOUT PJ.2/TMS R11
3 AUXVCC33 99 PJ.1 99 R10
C1 XOUT AUXVCC3 PJ.1/TDI/TCLK BOOTST 0R
VCC1 4 4 98 PJ.0 98 0R
JP13 1 RTCCAP1 PJ.0/TDO DNP
5 5 97 TEST/SBWTCK 97 9 10
RTCCAP0 TEST/SBWTCK
2 AUXVCC3 6 6 96 96 TEST/SBWTCK 7 8
P1.5/SMCLK/CB0/A5 P2.3/PM_TA1.0
3 7 7 95 95 5 6
P1.4/MCLK/SDCLK/CB1/A4 P2.2/PM_TA0.2
4 8 8 94 P2.1 94 P2.1 3 4 RST
P1.3/ADC10CLK/TACLK/RTCCLK/A3 P2.1/PM_TA0.1
470nF
C26
9 9 93 P2.0 93 P2.0 1 2
P1.2/ACLK/TA3.1/A2 P2.0/PM_TA0.0
GND VEREF+ 10 VEREF+ 10 92 92
P1.1/TA2.1/VEREF+/A1 P11.5/TACLK/RTCCLK
2 P1.0 11 P1.0 11 91 91
P1.0/TA1.1/TA0.0/VEREF-/A0 P11.4/CBOUT DNP
1 10uF/6,3V 12 12 90 90 GND
DNP P2.4/PM_TA2.0 P11.3/TA2.1
JP2 GND 13 13 89 89
P2.5/PM_UCB0SOMI/PM_UCB0SCL P11.2/TA1.1
C12 14 14 88 88
P2.6/PM_USB0SIMO/PM_UCB0SDA P11.1/TA3.1/CB3
3 15 15
P2.7/PM_UCB0CLK P11.0/S0
87 87
3
330R
16 16 86 86
P3.0/PM_UCA0RXD/PM_UCA0SOMI P10.7/S1
R3
AVSS 17 17 IC1 85 85
P3.1/PM_UCA0TXD/PM_UCA0SIMO P10.6/S2
18 18 84 84
P3.2/PM_UCA0CLK P10.5/S3
19 19 83 83
P3.3/PM_UCA1CLK P10.4/S4
D1
20 20 MSP430F677XIPEU# 82 82
P3.4/PM_UCA1RXD/PM_UCA1SOMI P10.3/S5
21 21 81 81
P3.5/PM_UCA1TXD/PM_UCA1SIMO P10.2/S6
22 22 80 80
COM0 P10.1/S7
23 23 79 79
COM1 P10.0/S8
GND 24 24 78 78
P1.6/COM2 P9.7/S9
25 25 77 77
P4.1/PM_UCA3RXD/PM_UCA3SOMI
P4.5/PM_UCB1SIMO/PM_UCB1SDA
P4.2/PM_UCA3TXD/PM_UCA3SIMO
P4.4/PM_UCB1SOMI/PM_UCB1SCL
29 29 73 73
P5.3/COM7 P9.2/S14
30 LCDCAP 30 72 72
LCDCAP LCDCAP/R33 P9.1/S15
31 31 71 71
P5.4/SDCLK/R23 P9.0/S16
32 32 70 GND 70
2 C29 33
34
33
34
P5.5/SD0DIO/LCDREF/R13
P5.6/SD1DIO/R03
DVSS2
DVSYS
69
68
DVDSYS 69
68
DVDSYS
100nF 4.7uF 100nF
2
4.7uF P5.7/SD2DIO/CB2 P8.7/S17
35 35 67 67
P4.3/PM_UCA3CLK
P4.6/PM_UCB1CLK
P6.0/SD3DIO P8.6/S18
36 36 C6 C14 C9
P6.1/SD4DIO/S39
P6.2/SD5DIO/S38
P6.3/SD6DIO/S37
66 66
P3.6/PM_UCA2RXD/PM_UCA2SOMI P8.5/S19
P4.7/PM_TA3.0
37 37 65 65
P8.4/S20
B.43 MSP-TS430PEU128
GND P3.7/PM_UCA2TXD/PM_UCA2SIMO
38 38
P4.0/PM_UCA2CLK DNP
GND
P6.4/S36
P6.5/S35
P6.6/S34
P6.7/S33
P7.0/S32
P7.1/S31
P7.2/S30
P7.3/S29
P7.4/S28
P7.5/S27
P7.6/S26
P7.7/S25
P8.0/S24
P8.1/S23
P8.2/S22
P8.3/S21
J1
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
Titel: MSP430: Target-Socket Bearb.: Petersen
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
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64
File: MSP-TS430PEU128
J2
Datum: 22.05.2012 09:37:33 Rev.: 1.1 Seite 1/1
A3
A B C D E F G H I
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JP4
JP1
TP1
R1
R2
Connector J5
GND
GND
VCC
GND
J5 External power connector
J4
R5
J1 128 125 120 115 110 105 C3 3 2 1 Jumper JP3 to "ext"
R4
RST/NMI
AUXVCC3
AUXVCC2
AUXVCC1
3 2 1 JP6
C12
TCK 3 2 1 JP7
100
JP13
JP12
JP11
TMS
JP10 R7
3 2 1 JP8
GND
TDI 3 2 1 JP9 Jumpers JP5 to JP10
4
D1 TDO
5 3 2 1
Close 1-2 to debug in Spy-Bi-Wire mode
3
TEST/SBWTCK JP5
LED connected to P1.0 P1.0 AUXVCC Close 2-3 to debug in 4-wire JTAG mode
2
1234
1234
JTAG
SBW
JP2 R3 D1
C9
C6
1
DVCC
95
Jumper JP2
C26
C10
C15
C17
C18
C19
C13
C16
C11
C7
C8
C4
C5
Open to disconnect LED
10
1 Connector JTAG
IC1
R8
For JTAG Tool
90
C1
14
Orient Pin 1 of
15
C2
MSP430 device R6
JTAG
2
1
85
20
Connector BOOTST
R11 R10
80
C14
For Bootloader Tool
10
25
C29
2
1
75
BOOTST
Jumper JP3
30
1
int
1-2 (int): Power supply from JTAG interface
MSP-TS430PEU128 70
ext 2-3 (ext): External power supply
Rev. 1.1 RoHS DVDSYS
JP3
35
65
TP2
40 45 50 55 60 64 J3
GND
J2
Note
For bootloader use, the BSL connector and only one of the resistors R10 or R11 must be populated. If
the board is supplied internally, R11 (0 Ω) must be assembled. If the board is supplied externally, R10
(0 Ω) must be assembled, and R11 must be removed.
Note
The MSP-TS430PEU128 Rev 1.1 ships with the following modifications:
• R7 value is changed to 0 Ω instead of 330 Ω.
• JTAG pin 8 is connected only to JP5 pin 3, and not to pin 2.
• JP5 pin 2 is connected to IC1 pin 97.
• BOOTST pin 7 is connected to IC1 pin 97.
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B.44 EM430F5137RF900
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Q3
Footprint for 32-kHz crystal
Button S1
Reset
X1
RF - Signal SMA
The battery pack that is included with the EM430F5137RF900 kit may be connected to CON12. Ensure correct
battery insertion regarding the polarity as indicated in battery holder.
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B.45 EM430F6137RF900
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Q2/Q3
Footprint for 32-kHz crystal
R541 and R551
Use 0-W resistor to make P5.0 and P5.1
available on connector Port 5
Crystal Q1
RF - 26 MHz Button S1
Reset
X1
RF - Signal SMA
C392
L451
C422
The battery pack that is included with the EM430F6137RF900 kit may be connected to CON12. Ensure correct
battery insertion regarding the polarity as indicated in battery holder.
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B.46 EM430F6147RF900
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TPS62730
Jumper JP3
Open to measure current
CON12 Jumper JP2
External poser connector Close INT: Power supply from JTAG interface
Jumper JP2 to "EXT" Close EXT: External power supply
D2
LED (red) connected
to P3.6 through JP10
Button S2
D1
Connected to P1.7
LED (green) connected
to P1.0 through JP5
Orient pin 1 of MSP430 device
32-kHz crystal
SMA1 Button S1
RF - Signal SMA Reset
The battery pack which comes with the EM430F6147RF900 kit may be connected to CON12. Ensure correct
battery insertion regarding the polarity as indicated in battery holder.
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Appendix C
Hardware Installation Guide
For instructions on how to install the following USB debug interfaces on a PC, see the MSP Debuggers User’s
Guide.
• MSP-FET430UIF
• eZ430-F2013
• eZ430-RF2500
• eZ430-Chronos
• eZ430-RF2780
• eZ430-RF2560
• MSP-WDSxx "Metawatch"
• MSP-EXP430G2 LaunchPad development kit
• MSP-EXP430FR5739
• MSP-EXP430F5529
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Revision History
NOTE: Page numbers for previous revisions may differ from page numbers in the current version.
Changes from February 8, 2020 to December 1, 2020 Page
• Added note: "For extra ESD protection on the TEST pin, a 500ohm..." to Figure 2-1 Figure 2-2 Figure 2-3 .. 20
• Added recommendation for pull down resistor on TEST pin to Figure 2-1 Figure 2-2 Figure 2-3 ................... 20
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