INOMAX ACS 580 880 Catalog
INOMAX ACS 580 880 Catalog
INOMAX ACS 580 880 Catalog
CATALOG
If there is one thing that inomax is recognized for, it’s leading with technology.
Innovation has been in our DNA since we were founded.
Our people make the difference. Their expertise is why customers come to us
with their biggest challenges. Together, we push the boundaries of technology to
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that benefit our customers, partners and society.
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lead by example by embedding sustainability in everything we do. Our solutions
reduce harmful emissions and preserve natural resources. We champion ethical
and humane behavior to contribute to better lives for people across the globe.
At Inomax technology, we have pursued the answer to this question through constant innovation and evolution.
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Photos
Direct torque control (DTC) : A motor control technique for all seasons
Excellent magnetic flux optimization technology Magnetic flux optimization technology(induction
is adopted to realize industry leading energy motor):Always adjust the magnetic flux at its
saving effect. best to minimize motor losses for higher energy
savings while reducing motor noise.
Servo motor
PMSM motor
Ie2 induction motor loss Ie4 synchronous motor Magnetic Levitation Motor
Excellent Performance
Better optimize the production process control, improve the production quality, quality
consistency and production efficiency of industrial equipment.
Built-in design of brake chopper, reduce wiring and save space.<=22/30kw standard with built-in brake unit, 30-
250KW optional with built-in brake unit,C3 specifications and above models standard with built-in DC reactor and
most drive integrated common filter on ouput, effectively suppress harmonics.
Speed feedback Standard built-in C3 (EN 61800-3 2 Adopt medium and small
interfaces for precise class environment C3) EMC filter. power for tower type long
process control strip, medium and large
C3 and above products built-in DC power for book blade
Can be connected to copper reactor to improve the power structure, to save space and
various feedback devices, factor, reduce harmonic distortion. reduce the cost of electric
such as cabinet in order to
TTL pulse encoder ~Ip21 enclosure design effectively maximize convenient for
SinCos absolute reduce the influence of harsh system electrical design,
Resolver, TTL pulse environments, especially applied in complete set of cabinet,
HTL pulse encoder cables, machine tools, textiles, installation and debugging,
ceramics where the site environments equipment maintenance
is dusty or humid. and repair.
Inverter
Brake
chopper
Resistor MOTOR
The system is fully functional designed to better meet the different needs of AC drives in various industries.
With large-size Chinese / English multi-language LCD interfaces, it helps you to identify transmission
information and control drives more intuitively, conveniently, quickly and comprehensively.
We always put reliability and safety in first in product design and manufacturing.
Comprehensive Design of Heat Dissipation
The IGBT junction temperature real-time monitoring technology(which is first in China) is used to accurately
measure IGBT junction temperature and more effectively protect IGBT module.
High efficiency and accurate thermal simulation software and the most stringent industry limit test standard are
adopted to effectively guarantee the thermal reliability of the whole machine.
Complete seal machine design and independent cooling air duct to reduce the
influence of harsh environments on the electronic devices
In the system design of this series of products, many of the features and functions are built-in standard.
Ease of your design and selection, these extensive options can optimize and enhance your drive to meet different application
needs. To choose the right driver for your specific application, please
Referring to the product overview, technical data, model list, optional parts list and other chapters in this catalog, the selected
driver has a unique model identification, structural shape, power and voltage range and other information. Or contact our sales
office or representative in your location to let them know more about your needs.
Dynamic accuracy
Response time <=5ms (10-100% sudden load, input voltage fluctuation within ±5%)
Feedback Feature (AFE) Note: The upper limit of the output voltage depends on the input voltage value
Input voltage DC760V, DC1100V, depends on the DC voltage and hardware)
Response characteristics <=within 5ms (-100% to +100% sudden switching)
Feedback power Support full-scale full power feedback (related to the selected hardware power size)
Feedback THD 0-3% (depending on local grid capacity)
Feedback THD <=3% (100% power feedback & suitable grid capacity)
safety features Note: Associated with selected hardware voltage system class C = chemically active substance
S = mechanically active substance
Insulation resistance >=20MΩ (reinforced insulation)
1. For higher working output frequency, please contact the sales representative.
Withstand voltage characteristics 2000VDC test 60S, no arcing, breakdown
Ground resistance <=100mΩ
B2-CON
Note): ASMX series high-performance servo drives and other products have stronger technical and application expertise, their related
technologies, models and other information will be explained separately on the basis of this booklet.
1) Optional built-in brake chopper, B=with optional built-in brake chopper function, this model should be marked with a suffix of -3 or -3B
when ordering
UN = 690 V (range 525 to 750 V). The power ratings are valid at nominal voltage 690 V
B2
PN:Typical motor power in Nominal load use. In:Rated current aviailable continuously without overload at 40 ° C.
Imax:Max.current , Available for 10 seconds at start,then as long as allowed by drive temperature .
B8 ILD:Continuous current allowing110% ILD for 1 minute every 5 minutes at 40 ° C,for typical motor power in light-overload use.
IHD:Continuous current allowing150% IHD for 1 minute every 5 minutes at 40 ° C,for typical motor power in heavy-duty use.
The ratings apply at 40 ° C ambient temperature.At higher temperatures(Up to 55 ° C) the derating is 1%/1° C. 1).125% overload.
This B series drives is integrated variety of I/O interfaces, high-speed fieldbus, the following figure is an example for application.
Please refer to the manual for more information or contact our
representative to further clarify your needs. 1 BUS+
XD2D:Drive to Drive link to communication or linkage control
2 BUS- Logic and protection controls
3 GND
Xmodbus Ports
4 B+ Modbus ports :EIA-485
Frame 5 A-
High speed fieldbus,Protocol configuration reference manual
The wiring should with GND wire, A / B twisted pair, and
6 GND shielded to enhance electromagnetic anti-interference
XCANopen Ports
B 6
7
8
9
CANH
CANL
GND
CANopen ports:EIA-CAN Terminal R ON/OFF by parameter
Protocol configuration refer to manual The wiring should with
GND wire, A / B twisted pair, and shielded to enhance
electromagnetic anti-interference
XPWOut port as power output from Drive
ACS880 10 GND Signal ground
11 +24V Only external low-power sensors,+24V DC Max.400mA
ACSM3
12 +10V Analog reference power supply,R=1k~10kohm
etc.
13 GND Signal ground
XPT Ports for temperature sensor in from motor / choke or others
14 PT+ Sensor as KTY84、PT100、PT1000、PTC etc, configuration
15 PT- parameter and cable with twisted&Shield&Strong insulation
XAO Ports Analog outputs
BCU Control Unit
Bus+ 1 AO1
X891
16
Panel
Bus- 2 17 AO2 It is used to configure the speed, torque, current and other .
GND 3 18 GND Easily interfered ,be with twisted pair, shielding, grounding, etc.
1. Enhanced
XAI Ports Analog inputs
Direct Torque B+ 4
XModbus
2.High dynamic
选配端口
CANL 8 22 GND
response, high GND 9 XD24V Ports Auxiliary voltage output, digital input interlock
position accuracy
Shield+Double twisted wire
GND 23 +24VD DI reference supply ,+24V DC 0-200mA,or for external sensors
10
X852
+24V 11
OUT
and precise XDI Digital and high-speed pulse input , with rich and flexible functions
+10V 12
torque GND 13 25 DI1 (As default) = D I1:Stop (0)/Start (1), DI2
PT+ 14 26 DI2 : Forward (0)/Reverse (1)or for other function by parameters.
XPT
DI3
LAN
NC2
X839
2 AO-
3 BO+
37 Faulted,or others by parameters
NCS/DCS/PLC
11 CW+
12 CW-
41 CM3 RO3 250V AC / 30V DC
DI4 28 3A
3 relay outputs
13 CCW+
14 CCW- 42 NO3
15 +5V DI5 29 XD24V External power supply input
Port X831/X832
30
1
DI6
7.External 24V NO. Absolute SinCos TTL
1 A+/COS+ A+ /
+24VI 43 +24VI External input: DC24V 1A-2A
Encoder
XDO
J14
TTL/SinCos/Abs.
12 +8V / /
switching, 13 DATA+ /
14 DATA- /
B+
B-
CM1 35 51 COM Safe torque off. Both circuits must be closed for the drive to start.
Umax 250VAC 30VDC Imax 3A Relay output
NC2 37 53 S1
X832
and Grounding K
Refor to manual
for more Infor.
CM2 38 54 S+
2
XPOW
4 COS+
43
DC24V 1A
+24VI
5 0V
65 X852 EhterNET/IP,etc. shall be optional
6 EXC+
and electronic GND 44 X839 Three-row DB15 pin male seat, to PLC / CNC for speed or pulses
7
8
SIN+
COS- 66
9 PT-
cam (GND) J20
(DICOM)J14
PE
PE
67 X831 Three rows of DB15 sockets, 1st&2nd encoder signal and motor
X893 temperature input , TTL, SINCOS, Various absolute encoders
Finishing wire
and binding left shift to off noise
68 X832
69 X833 Db9 hole female, rotary transformer / multi-pole magnetoresistive
UN = 690 V (range 525 to 750 V). The power ratings are valid at nominal voltage 690 V
Air flow
PN:Typical motor power in Nominal load use. In:Rated current aviailable continuously without overload at 40 ° C.
Imax:Max.current , Available for 10 seconds at start,then as long as allowed by drive temperature .
ILD:Continuous current allowing110% ILD for 1 minute every 5 minutes at 40 ° C,for typical motor power in light-overload use.
E8 IHD:Continuous current allowing150% IHD for 1 minute every 5 minutes at 40 ° C,for typical motor power in heavy-duty use.
The ratings apply at 40 ° C ambient temperature.At higher temperatures(Up to 55 ° C) the derating is 1%/1° C. 1).150% overload.
The E series drive control unit is an upgraded control unit from the B
series. Each option is modularized, supports a variety of standard interfaces,
and interfaces with mainstream high-speed fieldbus options. The following
figure shows the basic functions and basic attention of each interface based on
the standard universal For more information, please refer to the manual or
contact the relevant representative to further clarify your needs.
3
XModbus
9 631
Resolver/TTL/HTL/SinCos/Abs/EnDat/Biss/Rs485
Encoder Adapter Port.X Signal types supported by each port 10 632
Type 631 632 633 634
Resolver Abs./EnDat
TTL / HTL Biss/Rs485
11 Lable EtherCAT or ProfiNET type showon
TTL / HTL
Use Shield Cable and Grounding TTL/SinCos/Abs.
Refor to manual for more Infor. EnDat/Biss/Rs485
XCANopen Ports
X631 X632 X633 X634
14211022
GND CANopen ports :EIA-CAN Terminal R ON/OFF by parameter
13 L- Protocol configuration refer to manual The wiring should with
GND wire, A / B twisted pair, and shielded to enhance
8 H+ electromagnetic anti-interference, 1939 type in coming soon
LAN EtherNET/IP,TCP/IP,Modbus-TCP,Remote debugging, multi-Drive
14 X863 linkage control to Host computer hub
15 AI Ai Jumper, move up current type, move down voltage type
C Frame
ACS580 series Wall-mounted single drives [General Drives/Servo]
UN = 3phase- 220 V (range 200 to 240 V). The power ratings are valid at nominal voltage 220 V
ACS580-R13-04A0-2B
ACS580-R16-05A6-2B
R1 ACS580-R17-08A0-2B
W
ACS580-C25-12A9-2B
ACS580-C27-025A-2B
ACS580-C32-032A-2B
ACS580-C34-045A-2B
ACS580-C35-061A-2B
H
ACS580-C43-072A-2 /B
ACS580-C44-087A-2 /B
ACS580-C45-105A-2 /B
ACS580-C53-145A-2 /B
ACS580-C54-169A-2 /B
D
ACS580-C55-206A-2 /B
C2 ACS580-C63-246A-2 /B
Un = 380V(range 340V to 500V).The power ratings are valid at nominal voltage 400V
C3
C4
1) 101-105% Overload,The target is non-long-term, but intermittently work above >80% load and no more than 101-105%.
Ratings
Typical motor power in Nominal load use.
Nominal continuous current at 40 ° C, At higher temperatures (up to 55 °C)the derating is 1%/1 °C..
Max.current
C5/6/7 Max.current,the length of time depends on the Heatsink temperature of Drives.
C
communication
card
SLOT 1 SINK/NPN SINK
+24V/200mA
SLOT 2 port
card port
mode
1.CANH (default) B24V Instructions and Notes
A+/485+
2.CANL 1. Please pay attention to using
A-/485- COM the power within the allowable
3.NC
specifications of the driver
GND 4.GND SOURCE (voltage level, single or three
DI1
5.GND phase, voltage fluctuation,
fieldbus CANH J8 voltage imbalance, etc.)
6.GND
protocols CANL 7.A- DI2 2. Due to the driver input and
RJ45 Port
MODBUS 8.A+ SINK SOURCE the high-speed switch
485 CANopenTermination Digital NPN PNP electronic inversion
resistorsJ15 “NO” default DI3
input characteristics, please choose
CANopen is not connected a circuit breaker or Fuse or
J15
DI4
leakage protection switch that
Bus NC NO complies with the electrical
M3 specifications.
+
Bus 2*2.5
Hole J12 DI5 3. Appropriate AC reactor on
-
GN Ports the output side can effectively
CAN RS485 suppress the higher-order
D DI6 harmonics on the input side
and improve the power factor
Standard analog input (types with DC reactors can
and output module Standard digital input reduce this requirement,
Motor Temp.PT and output module depending on use or industry
Motor +24V
KTY84 PT+ experience)
Temp J14
PT100 Input COM 4. Noise filters and common
PT-
PT1000 (default) KTY84 PT100 mode inductors (magnetic
DIO1 loops) on the input and output
(default) DIO1/DIO2
sides can effectively reduce
as in the influence of conducted
Digital DIO2 radiation between the drive
+10V J17 Input system and external electrical
1KΩ SINK:COM components. It can be
Analog | PT+/AI3 0~+10V SOURCE :+24V DIO1 support designed to improve the
input 5KΩ High pulse input stability and reliability of the
PT- Optional PT AI3 DIO1
3 system in different application
GND
function Max.DC24V/5 COM DIO2 support scenarios and so on.
0mA High pulse output 5. AC output reactor (Du / Dt)
J18 DIO2 measures, etc., are used to
Digital Max. suppress the resonance peak
AO1 0~+10V/0~ AO1
Analog 20mA VI input DC24V/50mA COM
J11 voltage generated on the
motor side when the motor
output AO2 0~+10V/0~
J16
Output Pulse output DIO1 DI7 cable is too long (such as more
20mA 0~50KHZ than 100 meters) to protect the
Or J12 motor coils and drive the old
GND AO2 3rd Relay NC1 and other coil windings It is
VI DIO2 DI8
COM1 especially necessary to
J4 RO(Relay): evaluate this carefully when
NO1
J10 the insulation performance is
AC250V >10mA&<3A degraded or poor. This
NC2
+10V
+10 +24 DC30V >10mA&<1A GND
measure can also help reduce
V V COM2 PE
1KΩ J11 3rd RO by replace DIO EMC the leakage from the motor
jumper wire to ground due to the
| AI1 -10~+10V/-20~20mA AI1 terminal in Optional NO2 Cap
IV distributed induction
5KΩ Remove it if with EMC interference capacitance.
AI2 -10~+10V/-20~20mA J13
Analog 6. The standard strong and
input GND J10
AI2 weak current separation
IV wiring, good standard
1-2 *Updated AIO/DIO design support I/O features
:
PE GND grounding, weak control signal
line GND follow and twisted
1.+10V and +24V can be switched
Legend Cap EMC Jumper pair, power contactor coil
Remove it if with EMC interference
2.PT port use to AI3 with voltage input installation of arc
extinguishing components and
3.CAN and RS485 mode change by switch other measures will effectively
Shield cable 4.AI1&AI2 with negative V/A input switch by parameter
. improve the electrical
reliability of the drive system.
3P jumper
5.DIO1/DIO2 support input by SINK and SOURCE mode 7.Good grounding at the site,
Twisted *R type drives I /O 2x analog(only positive)input、1x and standardized electrical
Shield cable RJ45 Standard with layout, wiring, and design for
Control output,Digital(only SINK)output x(5+1)、output x1
EIA/TIA568B cooling air inlet and outlet will
Switch Panel RO relay x1,no PT/RJ45 port. greatly improve the stability
and life of the driver.
6.3xRelay replace the DIO terminal of DI module in Optional
BLM, ALM, and SMM modules can be equipped with a built-in brake chopper, which greatly
facilitates the design of dynamic braking and cabinet formation in multi-machine transmission,
which can shorten the engineering design time and the cost of cabinet assembly. Rectifier Inverter
(BLM or AFE) (SMM)
-04, -X04 (Note: 04 represents the general name of the component, subject to the actual
detailed model) High-power transmission module kit includes parallel R series inverter module
(SMM) and R series semi-controlled diode rectifier with thyristor charging function Module, or
through the combination of AIM+ALM=AFE module to form IGBT very low harmonic rectifier, its
power range can be up to 2300kW, and the voltage range is 380-690V.
The multi-drive module is suitable for building multi-drive devices, which can be used in
metallurgy, oil and gas, mining, ships, offshore operations, material handling, pulp and paper,
automobiles, food and beverage, cement, electricity, clean water and sewage treatment
industries.
They can control many applications, including cranes, profile and flat tying, conveyor belts,
winches, dynamometer test stands, production lines, paper machines, pumps and fans.
Multi-drive modules can meet all the needs of a complete set of transmission equipment,
including rectifiers, inverters, filters, brake choppers (built-in optional), various communication
options, and various speed feedback interface options. With the highly accurate motor control
platform-direct torque control technology, the drive can control the motor either in an open loop
or in a closed loop.
Hole Hole
Wide Hight Depth depth diameter screw Weight
width
Size W H D W2 H2 d2 size M Filter BLM DC-Bus SMM
(mm) (mm) (mm) (mm) (mm) (mm) (kg) Fuse
AIM ALM
Harmonic reduce 97%
In-built BLM: BLM: BLM: BLM: BLM: BLM: In-built BLM: BLM: AFE:
380-415Vac 380-415Vac 380-415Vac 380-415Vac TBA 380-415Vac 380-415Vac TBA AIM
Pn:45kW
Power Range
VFD BLM BLM BLM - DCDC BLM DCDC VFD DCDC - DCDC - LC (sinewave filter)
SMM SMM SMM SMM SMM PTi/o SMM PTi/o SMM PTi/o SMM PTi/o - M1-2 U2-3 External LC
ALM ALM ALM ALM ALM ALM ALM ALM AIM (Built-in soft start charging)
74
61 73
14 15 16
71
51 52
31 62 62 62
32 41 83
22
12 3 R+
17 63
42
Y R-
53 89
64
9 43
72
BLM [AC-DC] basic rectifier power supply module, Air cooling, ACS880, 380V/ 690V
Three-phase input Un= 400V(380-500V) The rated power is valid when the voltage is 400V (55-132-560-4000kW) *
According to the rated and peak load current selection
Air flow
Basic Rectification (BLM)
PN IN Imax ILD PLD IHD PHD
Rectification
BLM Power supply kW kW kW
55 115 148 110 55 91 45 59 1200 320 ACS880-U13-105A-3B+BLM U1 [W=100]
90 182 247 176 90 150 75 67 1940 400 ACS880-U23-169A-3B+BLM U2 [W=200]
132 246 350 241 132 225 110 67 3300 650 ACS880-U33-246A-3B+BLM U3 [W=300]
160 293 418 283 160 266 132 68 3850 680 ACS880-R80-293A-3+BLM Note:
160-250kW
can also choose
200 363 498 355 200 293 160 68 4100 700 ACS880-R81-363A-3+BLM the smaller
modules in parallel
250 487 545 450 250 387 200 68 4600 720 ACS880-R82-487A-3+BLM
SMM 280 546 628 526 280 480 250 68 5100 950 ACS880-R83-546A-3+BLM R8
315 624 718 615 315 546 280 68 5782 1100 ACS880-R84-624A-3+BLM (W245*
H1000*
400 760 874 727 355 568 315 68 6252 1200 ACS880-R85-760A-3+BLM D600
450 865 1080 865 450 675 355 68 7860 1350 ACS880-R86-865A-3+BLM -650)
560 1050 1265 1000 560 874 450 68 8625 1580 ACS880-R87-950A-3+BLM
Three-phase input Un= 660V(525-690V) The rated power is valid when the voltage is 690V (45-132-630-4000kW)
315 330 480 320 315 295 280 68 6120 1100 ACS880-R83-325A-6+BLM
400 430 655 420 400 415 355 72 7000 1350 ACS880-R85-420A-6+BLM R8
500 522 800 505 500 505 450 72 8500 1350 ACS880-R87-505A-6+BLM (W245*
H1000*
630 650 820 630 630 565 560 72 10500 1650 ACS880-R88-571A-6+BLM
D600
710 739 900 721 710 598 630 73 12400 1980 ACS880-R8A-721A-6+BLM -650)
800 864 1160 820 800 711 710 74 13600 2250 ACS880-R8B-800A-6+BLM
*More bigger power modules is achieved by parallel connection
Three-phase input Un= 660V(525-690V) The rated power is valid when the voltage is 690V (45-132-630-4000kW)
160 174 274 165 160 142 132 58 3750 600 ACS880-U38-175A-6+XXX U3A+U3
315 330 480 320 315 295 280 68 6120 1100 ACS880-R83-325A-6+XXX
R8A+R8
400 430 655 420 400 415 355 72 7000 1350 ACS880-R85-420A-6+XXX
110 226 287 212 110 184 90 67 2200 550 ACS880-U36-206A-3+SMM 24V75W U3
132 246 350 241 132 225 110 67 3300 650 ACS880-U37-246A-3+SMM 24V75W (W200)
160 293 418 283 160 266 132 68 3850 680 ACS880-R72-293A-3+SMM 220V1A R7
200 363 498 355 200 293 160 68 4100 700 ACS880-R73-363A-3+SMM 220V1A (W190
H900
250 487 545 450 250 387 200 68 4600 720 ACS880-R74-487A-3+SMM 220V1A D535)
280 546 628 526 280 480 250 68 5100 950 ACS880-R83-546A-3+SMM 220V2A
315 624 718 615 315 546 280 68 5782 1100 ACS880-R84-624A-3+SMM 220V2A R8
(W245*
R7 400 760 874 727 355 568 315 68 6252 1200 ACS880-R85-760A-3+SMM 220V2A H1000*
450 865 1080 865 450 675 355 68 7860 1350 ACS880-R86-865A-3+SMM 220V2A D600
-650)
560 1050 1265 1000 560 874 450 68 8625 1580 ACS880-R87-950A-3+SMM 220V2A
630 1140 1482 1072 630 915 500 68 9430 3000 ACS880-R92-1140A-3+SMM 220V3A
710 1250 1630 1200 710 1070 560 68 10560 3400 ACS880-R93-1250A-3+SMM 220V3A
R9
(W570
800 1480 1930 1421 800 1170 630 72 14800 3800 ACS880-R94-1480A-3+SMM 220V3A H900
1000 1760 2120 1690 900 1316 800 74 17500 4200 ACS880-R95-1760A-3+SMM 220V3A D535)
1200 2210 2880 2122 1200 1653 900 75 33700 5200 ACS880-3R86-2210A-3+PSMM+PCU+PL 3xR8
1400 2610 3140 2506 1400 1952 1000 76 35000 5200 ACS880-3R87-2610A-3+PSMM+PCU+PL 3xR8
1800 3450 4140 3312 1800 2581 1400 76 37000 6100 ACS880-4R87-3450A-3+PSMM+PCU+PL 4xR8
2400 4290 5150 4118 2000 3209 1800 77 46000 6200 ACS880-3R95-4290A-3+PSMM+PCU+PL 3xR9
R8 2800 5130 6160 4925 2400 3837 2000 78 57000 7300 ACS880-4R95-5130A-3+PSMM+PCU+PL 4xR9
Three-phase input Un= 660V(525-690V) The rated power is valid when the voltage is 690V (45-132-630-4000kW)
45 49 71 47 45 42 37 59 1120 290 ACS880-U32-049A-6+SMM 24V65W
55 61 104 58 55 49 45 59 1295 320 ACS880-U33-061A-6+SMM 24V65W
75 84 124 80 75 61 55 59 1440 340 ACS880-U34-080A-6+SMM 24V65W U3
(W300
90 98 168 93 90 84 75 67 1940 400 ACS880-U35-098A-6+SMM 24V65W H400
110 119 198 113 110 98 90 67 2310 550 ACS880-U36-119A-6+SMM 24V65W D320)
132 142 220 135 132 119 110 67 3300 650 ACS880-U37-142A-6+SMM 24V65W
160 174 274 165 160 142 132 68 3922 680 ACS880-R72-175A-6+SMM 220V1A R7
210 384 200 200 174 160 68 4822 700 ACS880-R73-210A-6+SMM 220V1A (W190
200
H900
250 271 411 257 250 210 200 68 6000 720 ACS880-R74-271A-6+SMM 220V1A D535)
R9 280 300 450 290 280 265 250 68 5800 950 ACS880-R82-295A-6+SMM 220V2A
315 330 480 320 315 295 280 68 6120 1100 ACS880-R83-325A-6+SMM 220V2A
355 370 520 360 355 325 315 68 6800 1200 ACS880-R84-360A-6+SMM 220V2A R8
(W245*
400 430 520 420 400 415 355 68 7000 1350 ACS880-R85-420A-6+SMM 220V2A H1000*
450 470 655 455 450 455 400 72 7200 1300 ACS880-R86-450A-6+SMM 220V2A D600
-650)
500 522 655 505 500 505 450 72 8500 1350 ACS880-R87-505A-6+SMM 220V2A
560 590 800 570 560 515 500 2) 72 9500 1450 ACS880-R88-571A-6+SMM 220V2A
800 800 1200 768 710 576 560 75 11500 1670 ACS880-R92-721A-6+SMM 220V3A R9
1030 1550 989 900 768 710 75 14200 1850 ACS880-R94-900A-6+SMM 220V3A (W570
1000
H900
1100 1170 1760 1123 1000 989 800 75 16500 1960 ACS880-R95-1160A-6+SMM 220V3A D535)
1400 1540 2310 1478 1400 1123 1100 76 19500 2150 ACS880-3R88-1540A-6+PSMM+PCU+PL 3xR8
4xR8 note 1) 1600 1740 2610 1670 1600 1478 1200 76 23400 2340 ACS880-3R88-1740A-6+PSMM+PCU+PL 3xR8
Note 1: 2000 2300 3450 2208 2000 1670 1600 77 32100 2870 ACS880-4R88-2300A-6+PSMM+PCU+PL 4xR8
Typical power module parallel structure
2800 2860 4290 2746 2400 2208 2000 77 40800 3150 ACS880-3R95-2860A-6+PSMM+PCU+PL 3xR9
1. Inverter power module R8/9-PSMM
2. PCU = Parallel Control Unit 3200 3420 5130 3283 3200 2746 2400 77 48700 3850 ACS880-3R95-3420A-6+PSMM+PCU+PL 3xR9
3.PL=parallel current sharing reactor 4xR9
4000 4100 6200 4000 4000 3283 3200 78 53600 4680 ACS880-4R95-4160A-6+PSMM+PCU+PL
* Select according to the rated and peak load current
2.2 5.6 6.8 5.3 2.2 4.0 1.5 45 nx76 30 [A]-[B]M1C-05A6-3+SMM+[D]+[F] 45/4.6 M1
(W100
4.0 9.5 12 8.8 4.0 5.6 2.2 45 nx97 40 [A]-[B]M1D-09A8-3+SMM+[D]+[F] 45/3.3
H400
5.5 12.9 16 12 5.5 9.4 4.0 45 nx172 50 [A]-[B]M1E-12A6-3+SMM+[D]+[F] 45/2.2 D320)
7.5 17 21 17 7.5 13 5.5 45 420 55 [A]-2U1F-017A-3+SMM+[D]+[F] 55/3.5 *2 in 1 model
ALM+SMM【AC-AC】active rectifier + inverter drive module, forced air cooling, ACS880, 380V
3 phase input Un= 400V(380-500V) Rated power is valid at 400V voltage (5.5-18.5kW)
Active Front End (AFE) * Select according to rated and peak load current
Note): For bigger power expansion or professional application models and more details, such as low harmonic 12-pulse
rectification or four-quadrant models with feedback function, please consult relevant personnel.
This series of all-in-one models realizes the high-speed and fast exchange of required information between multiple inverter units (SMM) through the
unique internal special operation processing circuit, so as to be competent for those requiring multi-axis high speed/position/torque precision linkage
Applications.
Its main application topology features are: the upper control system (machine) controls the driver in real time through the current mainstream high-
speed real-time fieldbus (EtherCAT/ProfiNET, etc.), and the multi-channel I/O and motor feedback form a high-dynamic drive control system.
Conventional open loop drive is also supported.
In the form of power supply, there are a variety of flexible options to match the power supply conditions and requirements of different characteristics.
Among them, the topology of BLM+ brake chopper is suitable for conventional typical applications,
However, for those applications that require more advanced motor control characteristics and frequent dynamic acceleration and deceleration of the
motor, the ALM power supply form should be preferred, which will greatly help ensure or improve control.
Effects and green energy.
In order to simplify your power networking difficulty, you only need to prepare a 24Vdc switching power supply + grid-side filter reactance + SPD anti-
surge protector + the above all-in-one driver with ALM for a typical multi-axis application to obtain four-quadrant operation. power supply + multi-axis
inverter drive system.
Mains Feedback
inductor L1 TTL/SinCos/Abs./Endat./Biss
aR Class Fuse #4 ALM #1 SMM #2 SMM #3 SMM
SPD Reactor U1
Figure 4A 4-in-1 driver (M1) with active rectification and feedback module
Mains
Input reactor TTL/SinCos/Abs./Endat./Biss
aR Class Fuse #4 BLM #1 SMM #2 SMM #3 SMM #4 SMM
Reactor U2
Mains
TTL/SinCos/Abs./Endat./Biss
aR Class Fuse ARF #1 SMM #2 SMM #3 SMM #4 SMM
liquid Built-in
Heat the inductance
Noise
Nominal ratings Light-overload Heavy-duty Level Diss.
cooling Model Number brake
chopper of the Frame
flow
Main liquid cooling + auxiliary air adapts to the reactor (mH) size
PN IN Imax ILD PLD IHD PHD [A]=ACS880 minimum
to the AC
cooling internal circulation type L/min. resistance
input side
(mm)
Basic Rectification (BLM) or kW kW kW value (Ω)
liquid Built-in
Heat the inductance
Noise
Nominal ratings Light-overload Heavy-duty Level Diss.
cooling Model Number brake
chopper of the Frame
flow
[A]=ACS880
adapts to the
minimum
reactor (mH) size
PN IN Imax ILD PLD IHD PHD L/min. resistance
to the AC
(mm)
input side
kW kW kW value (Ω)
110 119 198 113 110 98 90 67 2310 550 [A]-L80-119A-6 /B >=8Ω ~0.26
132 142 220 135 132 119 110 67 3300 650 [A]-L80-142A-6 /B >=6Ω ~0.21
160 174 274 165 160 142 132 68 3922 680 [A]-L80-175A-6 /B >=6Ω ~0.18
200 210 384 200 200 174 160 68 4822 700 [A]-L80-210A-6 /B >=4Ω ~0.13
250 271 411 257 250 210 200 68 6000 720 [A]-L81-271A-6 /B >=4Ω ~0.11
L8
280 300 450 290 280 265 250 68 5800 950 [A]-L82-295A-6 /B >=4Ω ~0.09 (W200
315 330 480 320 315 295 280 68 6120 1100 [A]-L83-325A-6 /B >=3.3Ω ~0.08 H1000
D530)
355 370 520 360 355 325 315 68 6800 1200 [A]-L84-360A-6 /B >=3.3Ω ~0.06
400 430 520 420 400 415 355 68 7000 1350 [A]-L85-420A-6 /B >=3.3Ω ~0.06
450 470 655 455 450 455 400 72 7200 1300 [A]-L86-450A-6 /B >=2.7Ω ~0.05
L8 L9【liquid cooling type】 522 655 505 500 505 450 72 8500 1350 ~0.05
500 [A]-L87-505A-6 /B >=2.7Ω
BLM [AC-DC] Basic rectifier power supply module, liquid cooling, ACS880, 690V
Liquid-cooling Basic Three-phase input Un= 690V(660-690V) The rated power is valid when the voltage is 690V (55-132-800-4000kW) * According to the rated and peak load current selection
Rectifier Module (BLM) liquid Built-in
the inductance
Noise Heat
Nominal ratings Light-overload Heavy-duty Level Diss.
cooling Model Number brake
chopper of the Frame
flow
[A]=ACS880
adapts to the
minimum
reactor (mH) size
PN IN Imax ILD PLD IHD PHD L/min. resistance
to the AC
(mm)
BLM value (Ω) input side
kW kW kW
55 115 148 110 55 91 45 47 1200 10 [A]-LU13-105A-6+BLM / / U2 [W=100]
90 182 247 176 90 150 75 47 1940 13 [A]-LU23-169A-6+BLM / / U2 [W=200]
132 246 350 241 132 225 110 47 3300 15 [A]-LU33-246A-6+BLM / / U3 [W=300]
400 430 655 420 400 415 355 46 7000 22 [A]-L85-420A-6 /B+BLM >=2.7Ω ~0.06
800 864 1160 820 800 711 710 46 13600 25 [A]-L8B-800A-6 /B+BLM >=2.7Ω
L8
~0.05
* Higher power can be obtained by connecting this series of modules in parallel. For more liquid-cooled derivatives or
low-power topological models, please consult relevant personnel
LX series water (liquid) cooling type driver can realize high-precision control of common induction motors and high-efficiency permanent magnet motors in the large power
range under the condition of 380...690Vac power supply. The ultra-compact structure and high power density make it especially suitable for air-cooled and heat-sensitive
applications with limited installation space and harsh environments, and has excellent performance in various extreme environmental conditions.
Compared with air cooling, the liquid-cooled drive can significantly reduce the load and floor space of the air-conditioning system in the electrical room, and achieve low noise
and more stable operation. It can be widely used in stand-alone or large-scale common DC bus systems. When properly configured, optimum performance and significant
energy cost savings can be achieved.
The standard VFD hardware structure driver must be equipped with a suitable L reactance filter to form an LC filter with the capacitance in the module. If it is in the form of AFE
rectifier power supply, it is recommended to choose an air-cooled AIM + 1 liquid-cooled ALM, and an AIM with a liquid-cooled LCL filter is also available. At this time, functional
modules such as LCL filter and power-on charging are also available. It will be supplied in component form to be assembled into a system in a cabinet.
For the L8X module of SMM/ALM with no basic rectification and only inverter topology, the DC side common mode filter is standard as default, which will make it easier for you to
form a high-power multi-transmission topology. At the same time, L8X has a built-in fan cooling /liquid -cooled heat exchange module, which will effectively control the
temperature of the circulating air in the electrical cabinet.
For liquid-cooled supply sources, air-cooled to liquid-cooled or liquid-cooled to liquid-cooled heat exchangers are optional, which can be considered in multiple dimensions
such as project cost budget, installation site conditions, corrosion resistance level, and liquid-liquid medium conditions.
* For more liquid-cooled derivative or low-power topological models, please consult relevant personnel
Three-phase input Un= 660V(525-690V) The rated power is valid when the voltage is
690V (45-132-630-4000kW)
liquid
Auxiliary
Nominal ratings Light-overload Heavy-duty Noise Heat cooling Model Number Frame
Level Diss. power (W)
flow
[A]=ACS/PTi/PTo/DCC size
DC=24V
PN IN Imax ILD PLD IHD PHD L/min. [B]=2/3/4 (mm)
AC=220V
kW kW kW
45 49 71 47 45 42 37 59 1120 290 [A]880-LU32-049A-6+[XXX] 24V65W
55 61 104 58 55 49 45 59 1295 320 [A]880-LU33-061A-6+[XXX] 24V65W
75 84 124 80 75 61 55 59 1440 340 [A]880-LU34-080A-6+[XXX] 24V65W U3
90 98 168 93 90 84 75 67 1940 400 [A]880-LU35-098A-6+[XXX] 24V65W [W=300]
110 119 198 113 110 98 90 67 2310 550 [A]880-LU36-119A-6+[XXX] 24V65W
132 142 220 135 132 119 110 67 3300 650 [A]880-LU37-142A-6+[XXX] 24V65W
160 174 274 165 160 142 132 68 3922 680 [A]880-LU38-175A-6+[XXX] 24V65W
U3
200 210 384 200 200 174 160 68 4822 700 [A]880-LU39-210A-6+[XXX] 24V65W
[W=300]
250 271 411 257 250 210 200 68 6000 720 [A]880-LU3A-271A-6+[XXX] 24V65W
280 300 450 290 280 265 250 68 5800 950 [A]880-L82-295A-6+[XXX] /
315 330 480 320 315 295 280 68 6120 1100 [A]880-L83-325A-6+[XXX] /
L8 L9【liquid cooling type】 355 370 520 360 355 325 315 68 6800 1200 [A]880-L84-360A-6+[XXX] /
400 430 520 420 400 415 355 68 7000 1350 [A]880-L85-420A-6+[XXX] /
L8
450 470 655 455 450 455 400 72 7200 1300 [A]880-L86-450A-6+SMM / (W200
Note 1: 500 522 655 505 500 505 450 72 8500 1350 [A]880-L87-505A-6+SMM / H1000
D530)
Typical power module parallel 560 590 800 570 560 515 500 2) 72 9500 1450 [A]880-L88-571A-6+SMM /
structure
800 800 1200 768 710 576 560 75 11500 1670 [A]880-L89-721A-6+SMM /
1. Inverter power module R8/9-PSMM
2. PCU = Parallel Control Unit 1000 1030 1550 989 900 768 710 75 14200 1850 [A]880-L8A-900A-6+SMM /
3.PL=parallel current sharing reactor 1100 1170 1760 1123 1000 989 800 75 16500 1960 [A]880-L8B-1160A-6+SMM /
1400 1540 2310 1478 1400 1123 1100 76 19500 2150 [A]880-2L8A-1540A-6+PSMM+PCU+PL
1600 1740 2610 1670 1600 1478 1200 76 23400 2340 [A]880-3L88-1740A-6+PSMM+PCU+PL
2000 2300 3450 2208 2000 1670 1600 77 32100 2870 [A]880-3L8A-2300A-6+PSMM+PCU+PL
2800 2860 4290 2746 2400 2208 2000 77 40800 3150 [A]880-4L8A-2860A-6+PSMM+PCU+PL
3200 3420 5130 3283 3200 2746 2400 77 48700 3850 [A]880-3L8B-3420A-6+PSMM+PCU+PL
4000 4100 6200 4000 4000 3283 3200 78 53600 4680 [A]880-4L8B-4160A-6+PSMM+PCU+PL
* For more liquid-cooled derivative or low-power topological models, please consult relevant personnel
Related value Input Output noise Heat cool down Model Number Frame
level output Air volume
1. The maximum voltage of DC output: -3=DC380V -4=DC780V. size
PN IN UN Uout U DC-bus 2. Special applications support built-in braking unit +-3B, built-in
(690Vac system) DC<=DC1200V Comprehensive selection according to power & maximum current, protection class: IP20; BLM input voltage: three-phase AC660-690V
Note): Bigger power are multi-module drive,for more details ,please check with related person.
PN: Typical motor power with no overload application. In: Rated current available continuously without overload at ambient 40 °C.
Imax: Maximum output current. It can last up to 10 seconds at startup, otherwise it depends on the temperature of the drive.
In: Continuous current, 120% In overload allowed for 1 min/5 min at 40 °C.
R8D+M These ratings correspond to an ambient temperature of 40 °C, if the ambient temperature is higher (up to 55 °C) a derating of 1%/1°C is required.
Printing
section
Deviation
IM sensor IM
(contactless
potentiometer)
Main speed
setter
PLC Dancer position
Torque accuracy
Typical industries Real sensorless vector control Vector control
Torque control range 1 : 20 1 : 50
Textile industry Steel industry Absolute torque accuracy ±20% ±10%
Repetitive torque accuracy ±10% ±5%
Pulp, paper, paper products manufacturing industries
Cranes
Inverter
Cutter
PLC section
IM
R
IM
R
Typical industries
Construction industry
Machine Tools
Jig Grindstone
Insert a workpiece
Typical industries
IM
Feeding table
Lumber
Speed setting
IM
Inverter
Lift
Power regeneration Fork
converter Inverter
Move
Inverter
Typical industries
Tact time can be eliminated at conveyor lines, etc.
Steel industry Metal products manufacturing
Lumber, wood product
PLC function
manufacturing industries Textile industry When a few sensors are used to check the presence of goods on a
Water transportation, conveyor and the arrival of such goods, the inverter can directly
fishing industry Warehousing
Ink roller
Water roller
Paper
Compressor
Tank
Inverter
DC-bus
Power grid
ASM=AIM+SLM
Motor
AC Drive Shielded Motor Cable
V
Cm ~0.5nF
W
Cc ~2.5nF
PE ground
The above figure is a typical topology diagram of a variable frequency speed regulation electromechanical system.
From left to right, it is the power supply, driver (inverter), shielded power (or signal cable), and motor. This figure
mainly illustrates the distributed capacitance for long lines. The formation of noise, the flow and processing of noise,
etc. The core points of understanding and knowing this section are:
◆ 1. Find out where the source of interference comes from? This is usually from the motor winding itself, and the C4
motor cable.
◆ 2. Find out which objects are easily disturbed? Here is usually a weak current control analog signal less than 36V,
C5/6/7
such as AI, AO, encoder feedback signal, etc.
◆ 3. How to standardize and efficiently deal with interference and interference?
Understand the relevant knowledge in principle, and standardize the electrical wiring according to the general
electrical specifications and manual instructions. The specific points are:
◆ a. Use shielded cable for the motor cable and connect the motor casing to the ground wire from the power grid
transformer.
◆ b. Use shielded wires for weak signal wires and cables that may be disturbed, and try to separate them from the
motor wires and power wires of each strong current side and keep a certain distance for wiring, and connect the
shielding layers of these weak wires to the power grid transformer. come on the ground. In order to obtain the
shielding effect of the shielding layer, it has a passage path for discharging the interference charges.
◆ c. Connect the motor casing, encoder casing (or signal line shielding layer), driver casing, etc. to the same
ground wire for common potential processing. This is the processing method in special environments with poor
grounding conditions. At this time, make sure that the absolute connection of the connected ground wire is firm and
reliable, and keep confirming that the ground stake is in a low ground impedance state and is well grounded,
otherwise the motor induced electricity will cause the risk of injury to personnel and equipment.
◆ Note: Do not directly connect both ends of the shielding layer of the cable connecting the motor temperature sensor
to the driver to the ground wire. If one end cannot add a 3.3nF capacitor between the shielding layer and the ground,
only one end should be grounded.
W
H
D5D B8
+CPSP R1 C2 C3
35 mm 4- 5mm(PT4*16) 53 mm
4- 3mm
(PT2.6*8)
78 mm
7.5 mm
8.5 mm
23 mm
30mm C2 100 290 200 55 275 5.5 M5 3.5
2)
C3/B3 145 400 230 1 20 385 7 M6 8
Figure 2 Front opening diagram for
42 mm
back view
side view
87 mm
2)
55 mm C6/B6 290 680 305 245 655 11 M10 38
Model No:+CPSP keypad bracket 2)
Figure 1 The appearance of the keyboard cabinet door C7/B7 425 900 350 95/370 878 11 M10 50
mounting bracket and the front opening diagram
155(W)
The 5 yellow holes in the picture above are
the installation and fixing holes that need to
C8/B8 380 1660 535 445(D) 1588 11 M10 140
be opened for the door panel
190 900 55
R7 535 100 770 11 M10
190 900 43
R8B 240 977-1) 577-
1) 3) 150 900 12 M12
M12 800
21
R8M 240 1395 600 63
R8A/D 24 0 1395 577 150 1302 12 M12 210
1) Including the height of the whole machine after the detachable base with rollers can
accommodate the input/output reactor (optional).
2) Due to the difference of the control unit, the depth of the B size needs to be increased by about
40mm based on this value C size).
3) Contains the local depth after operating the keyboard
R8-A FE R9M
【AI M+A LM)】
1 Digital I/O board with 3xRelay +DIR3 C type,6xDI,+24V,3xRO(Relay with 1NC+1NO) for Slot2 flag 2
2 LCD keypad +CP66 128x64 dots, assistant panel support Chinese and English language flag 5
3 High-speed differential encoder +CTTL33 9+15Pin+C type, Non-isolated,high-speed differential encoder flag 3
4 Resolver encoder +RT35 9+15Pin+C type, for resolver type encoder flag 3
(9+15Pin)DB head interface, high-precision sine cosine or high-speed differential non isolated encoder, with frequency
5 SinCos encoder +SN34 flag 3
division
6 HTL Multi-function frequency division encoder +HTL39T Pluggable screw terminal, push-pull, open collector signal input (DC12V power supply) with frequency division flag 3
7 TTL Multi-function frequency division encoder +TTL39T Pluggable screw terminal ,supports differential encoder signal input (DC 5V power supply) with frequency division flag 3
Pluggable screw terminal, differential signal input (DC12 power supply), with frequency division and disconnection
8 TTL Multi-function heavy load encoder +CTL39T flag 3
detection
9 HTL standard encoder +HTL52 9Pin Screw+R type,Screw terminal, supporting open collector encoder signal input (DC12V power supply) flag 11
9+15Pin+R type, Pluggable screw terminal, push-pull, open collector signal input (DC12V power supply) with frequency
10 HTL Multi-function frequency division encoder +HTL59 flag 10
division
11 TTL pulse encoder module +TTL59 9+15Pin+R type,supports differential encoder signal input (DC 5V power supply) with frequency division flag 10
12 DB series plug wiring by screw port type +DB15F (3-row female socket),+DB9M (2-row male Plug ), wiring by screw ports. flag 13/14
13 DB series plug wiring by soldering type +SDF15F (3-row female socket),+SDB15M (3-row male Plug ),+SDB9M (2-row male Plug) flag 15
14 Profibus-DP communication card +DP41 Profibus-DP fieldbus protocols,suitable for C type only flag 4
15 ProfiNET communication card +B2PN For B type frame ,ProfiNET fieldbus protocols flag 6
16 EtherCAT communication card +B2EC For B type frame ,EtherCAT fieldbus protocols with standard RJ45 port flag 6
17 MECHATROLINK-II communication card +B2M2 For B type frame,MECHATROLINK -II fieldbus protocols flag 6
21 Control panel surface mounting platform +CPSP For LCD panel,fixed by 4-PT4x16 screw flag16
IT/TT/TN power supply Insulation Realize the factory default settings for the leakage current of the driver and the specific requirements of ships for power
22 +MYC flag17
strengthening for vessel or island electronic products.
23 Bottom wheel fram for R8 power module +BTR8 support and quickly move the power module, can prevent dumping, and can carry suitable output reactor flag18
16
18 10
For U1, C2-C5, B/E2-8 series of standard single-drive drives, the brake chopper is a standard built-in component (some high-power machines are
Power Module (BLM/AFE) optional, please refer to each selection table for details). The design will achieve better integration in the dimensions of adjustable braking
voltage, braking response, braking power control, etc., to simplify and save your software and hardware configuration time.
The independent braking chopper system mainly includes braking chopper module, external braking resistor (box) and its temperature monitoring
and cooling system. A higher power braking system can be connected by multiple braking chopper modules in parallel. It is responsible for
processing the energy generated by the motor deceleration. The basic principle is that when the energy recovered by the motor deceleration
causes the intermediate DC link voltage of the drive to exceed the limit set by the control program, the brake chopper will be turned on and the
external braking resistor is connected to the intermediate DC circuit. The power consumption of the resistor will continuously reduce the voltage
on the intermediate DC circuit until it is lower than the programmed value. When you select the main parameters of the external braking resistor,
SMM you need to pay attention and match them. The minimum resistance value that the chopper you choose can withstand, the maximum braking
power/time of the mechanical device where it is located, and at the same time, pay attention to the treatment of the large heat generated by the
resistor during long-term braking, and have temperature monitoring to prevent fire or countermeasures.
The three-phase braking unit is dynamically controlled, designed for common DC bus drive systems, flexible installation, and the overall braking
function has higher system reliability
Brake
chopper
Module
(BRK)
+BRK External brake chopper module, air-cooled, ACS880, C760V/AC400V
3-phase input Un= 400V(380-500V) The rated power is valid when the voltage is 400V
1
Brake
braking cycle braking cycle noise cooling
Rated value (1min/5min) level air volume
Chopper
Adaptation
Frame
(10s/60s)
Brake Model Number Minimum size
Resistance
Resistor Pcont Pbrmax Imax Irms Pbr Irms Pbr Irms Value (Ω) (mm)
(R) kW kW kW kW Rmin
200 710 1090 298 610 940 710 1100 58 660 ACS880-R71-450A-3+BRK 1.2
300 1100 1635 465 910 1410 1010 1645 58 720 ACS880-R72-640A-3+BRK 0.6
R7
(W190
DCN/- DCP/+ 400 1500 2200 605 1200 1882 1400 2250 67 1350 ACS880-R73-960A-3+BRK 0.4 H900
600 2150 3250 910 1800 2868 2100 3250 67 2560 ACS880-R74-1280A-3+BRK 0.3 D535)
* For more liquid-cooled derivatives or low-power topological models, please consult relevant personnel. The heating loss of the brake
chopper is 1% of the total braking power.
Pbr.max: Maximum short-term braking power.
Rmin: The minimum resistance value of the external resistance (box) that the brake chopper can withstand and allow.
Brake Imax: Maximum peak output current of each brake chopper during braking. The resistor is at its minimum value for maximum current and can
resistor last for 10 seconds during initial braking, otherwise the length of time depends on the temperature of the drive.
(R) Pcont: Maximum continuous braking power. A resistor placed in the correct position continues to dissipate power (heat) and the energy Er is
released within 400 seconds.
Pbr: The braking power in the corresponding load cycle: 1min/5min.=1 minute braking power is Pbr., 4 minutes no load. 10s/60s=10s braking
power is Pbr., 50s no-load.
Irms: The corresponding rms current of each chopper during the duty cycle.
Tel:0086-75521002258
Fax: 0086-75521002258
E-mail:info@inomaxtechnology.com
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