Battery PACK (500v-1000v) Test System

Battery PACK (500v-1000v) Test System has the characteristics of energy feedback, high precision, fast response, high safety, and ease of use. It is suitable for various purposes such as product research, product verification, and quality control of battery testing system.

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Battery-PACK-(500v-1000v)-Test-System

Detailed Introduction

PACK test equipment adopts sinexcel, firstly adopts three-level AC scheme, and the detection process supports multi-gear switching. The device integrates voltage, temperature, pressure and other auxiliary channels, and CAN also integrate various communication protocols such as temperature box, water cooler, mainstream CAN CANFD 485, etc. It supports a variety of practical and innovative functions such as data one-click automatic export, which meets all aspects of PACK battery electrical performance testing.

System Features

Ultra-high Accuracy Test

Voltage Accuracy:0.02%F.S. Current Accuracy:0.02%F.S.
High-speed Roadmaps

5ms Fast Current Response 50ms Roadmaps Test
High Regenerative Efficiency

High efficiency and low loss .Energy feedback to the grid, 95% efficiency
Flexible Expansion

Integrated BMS\voltage\- temperature\temperature chamber\Water chiller etc., efficient linkage

Key System Parameters

Model
Voltage Parameters

Output Voltage Range

 10V~1250V

Voltage Accuracy

± 0.02%F.S.

Voltage Resolution

0.1mV
Current parameters
Output Current Range
-300A ~ +300A
-450A ~+450A
-600A ~+600A
-1200A ~+1200A

Current Range

150A/300A

150A/300A/450A

150A/300A/450A/600A

300A/600A/900A/1200A
Current Accuracy
± 0.02%F.S. (Based on current range)

Current Resolution

0.1mA

Channels Quantity

2CH/4CH/8CH(Support for customisation)
Power Parameters

Power Of The Whole Machine

300KW~1.6MW (Support for customisation)
Charge And Discharge Test Parameters

RiseTime

≤5ms

Switching Time

≤10ms

Minimum Recording Time

10ms / 1mV / 1mA

Charge-discharge Operation Mode

CC, CV, CP, CC-CV, CR, DCIR, Pulse, Drive simulation and other modes

Drive Simulation For EVs

50ms operating condition, 

10 million+ lines of text, support Excel import

Channel Parallel

Supports parallel connection of 6400A (channel current accuracy after parallel connection meets ±0.05% F.S.)

Efficiency

Charge efficiency: 95%; Feedback efficiency: 95%

FAQ

Battery Overvoltage
Battery voltage exceeds the upper voltage limit, confirmation time 0.2s
  1. Use a multimeter to measure the actual battery voltage and compare it with the voltage displayed on the BTS to check if the sample values are consistent.
  2. If the sample value and the actual value are not equal, confirm whether the issue is with the DC board or the wiring by swapping the sampling lines with adjacent channels. If the wiring is faulty, check for incorrect, loose, or poor connections in the voltage sampling lines.
  3. If the sample value and the actual value are equal, check if the upper computer step settings are reasonable and determine if the battery overvoltage occurs as soon as the step runs or at a specific point during the step.
  4. Check the corresponding battery for any obvious swelling, damage, or other abnormalities. If there are issues, take necessary safety measures.
  5. If the battery and voltage sampling lines are normal, confirm that the DC board is faulty and replace it.
Battery Undervoltage
Battery voltage is lower than the lower voltage limit, confirmation time 0.2s
  1. Use a multimeter to measure the actual battery voltage and compare it with the voltage displayed on the BTS to check if the sample values are consistent.
  2. If the sample value and the actual value are not equal, confirm whether the issue is with the DC board or the wiring by swapping the sampling lines with adjacent channels. If the wiring is faulty, check for incorrect, loose, or poor connections in the voltage sampling lines.
  3. If the sample value and the actual value are equal, check if the upper computer step settings are reasonable and determine if the battery undervoltage occurs as soon as the step runs or at a specific point during the step.
  4. Check the corresponding battery for any obvious swelling, damage, or other abnormalities. If there are issues, take necessary safety measures.
  5. If the battery and voltage sampling lines are normal, confirm that the DC board is faulty and replace it.
Communication Failure
Module 6S does not receive data from the upper computer, switches to fault state. The fault is automatically cleared when the module receives data from the upper computer.
  1. Check if the module and the middle computer are in a normal powered-on state.
  2. Check if the CAN connection between the module and the middle computer is normal.
  3. Check if the CANA dip switch is set correctly.
  4. Measure the matching resistance between CAN H and CAN L on the CANA bus. It should be 60±5 ohms. If not, adjust the matching resistance on the signal adapter board. If the bus voltage is normal, check the BTS fault records to identify which sub-channel triggered the fault. Use debugging software tools to check if the bus voltage displayed for that channel is normal. If abnormal, it can be determined that the DC board's bus sampling is faulty, and the board should be replaced.
  5. If all the above points are normal, connect a CAN box and use the captured messages to determine whether the issue lies with the middle computer or the lower computer.

Find Your Series

Our range of battery test equipment includes various specialized test systems such as the Milliampere-level Test System, IT Battery Test System, and EV Battery Test System, among others

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