9210 單通道電池測試系統

型號 : NHR 9210 Single Channel Battery Test System

Battery Test System for Automated Characterization Testing, Power Cycling Testing, Life-Cycle Testing & More!

Features

  • Smaller footprint makes it easier to move within a lab (roughly half the size of the 9200)
  • Custom waveform/profile generation
  • Sub-mS voltage, current & mode transition times
  • Built-in digital measurements with charting & scope displays
  • Internal controller with software & connections for an external monitor & keyboard
  • Expandable from 12 to 252kW with 40, 120, or 600V bi-directional DC loads
  • Regenerative, 87% efficiency of discharge power returned to AC mains
  • Multiple safety layers to protect battery being tested
  • Battery emulation & burn-in applications
  • Create, run, monitor, chart & report UUT profiles without writing any code

Model Number

9210-4904

9210-4912

9210-4960

Programming Capability

Operating States

Charge (Source), Discharge (Load), Standby, Battery

Charge/Discharge Modes

Constant Voltage (CV), Current (CC), Power (CP), Resistance (CR)

Charging Envelope

0-40V, 8kW, 600A

0-120V, 8kW, 200A

0-600V, 8kW, 40A

Discharging Envelope

1-40V, 12kW, 600A

4-120V, 12kW, 200A

10-600V, 12kW, 40A

Programming

Rng

Accy1

Res1

Rng

Accy1

Res1

Rng

Accy1

Res1

Voltage

0-40V

0.1%+0.1%

0.005%

0-120V

0.1%+0.1%

0.005%

0-600V

0.1%+0.1%

0.005%

Current

±600A

0.21%+0.21%

0.005%

±200A

0.21%+0.21%

0.005%

±40A

0.21%+0.21%

0.005%

Power

±8/-12kW

0.41%+0.41%

0.005%

±8/-12kW

0.41%+0.41%

0.005%

±8/-12kW

0.41%+0.41%

0.005%

Resistance

0-34Ω

02%

0.005%

0-100Ω

02%

0.005%

0-500Ω

02%

0.005%

Slew Rate

 

 

 

  Voltage

0.011V/s-80V/ms

0.033V/s-240V/ms

0.165V/s-600V/ms

  Current

0.17A/s-3000A/ms

0.55A/s-1000A/ms

0.011A/s-40A/ms

  Resistance

0.01Ω/s-34Ω/Ms

0.28Ω/s-100Ω/Ms

0.14Ω/s-500Ω/Ms

  Power

2W/s-8kW/s

2W/s-8kW/s

2W/s-8kW/s

Test Measurement

Rng

Accy1

Res1

Rng

Accy1

Res1

Rng

Accy1

Res1

Voltage, DC Avg

0-40V

0.05%+0.05%

0.005%

0-120V

0.05%+0.05%

0.005%

0-600V

0.05%+0.05%

0.005%

Current, DC Avg, A-Hr

0-600A

0.1%+0.1%

0.005%

0-200A

0.1%+0.1%

0.005%

0-40AV

0.1%+0.1%

0.005%

Power, Ah, kWh

±12kW

0.2%+0.2%

0.005%

±12kW

0.2%+0.2%

0.005%

±12kW

0.3%+0.2%

0.005%

Time

1ms-1Yr

0.1%

0.005%

1ms-1Yr

0.1%

0.005%

1ms-1Yr

0.1%

0.005%

Physical


Size (HxWxD)

43.5 x 28 x 31″/1105 x 711 x 787mm (w/ casters)

Weight

500lbs/227kg

1 All Accuracies are % os set + % of Range, all Resolutions are % of Range unless otherwise indicated. 2 Input Voltage set at placement of order.

Advantages


  • Battery emulation using OCV & series resistance
  • Designed for testing &mp: emulating all battery chemistries
    – Automatic energy integration (full & 1/2 cycle)
    – Multiple safety layers to protect UUT
  • Software tools to shorten test development time
    – PC-based Softpanel GUI with charting
    – Supplied LabVIEW & IVI-C/IVI-COM drivers
    – Optional: Enerchron® test sequencer

Benefits

  • Regenerative, returns greater than 87% of power to the facility, which provides significant electrical savings.
  • Modular – full function tester per channel design
  • Parallels for high power testing (up to 252kW)
  • Safely simulate and emulate “Real World” conditions
    – Sub-mS voltage, current, & mode transition times
    – Emulate over/under charged batteries
    – Safely emulate BMS & battery failures
  • Small footprint for easy movement

Applications

The Single Channel Battery Test System (9210 Series) further extends its 9200 family of high-power battery charge/discharge test systems, which are especially suitable for xEV electric vehicle and grid storage battery cycling as well as drive-cycle simulations and grid-energy simulations.

Like the successful 9200 systems, the new single module test system (9210) utilizes any of the 40V, 120V, or 600V modular, independent 12-kilowatt DC power modules which enable testing of a number of smaller batteries, each with a different test plan, power level and start/stop times. The smaller footprint makes it easier to move within a laboratory and/or manufacturing, allowing the tester to be brought to the engineer’s workspace.