Advanced cell simulation for passive- and active-balancing BMS testing
The Advanced Battery Simulator 800 provides eight 5V, 5A cells to simulate battery sink and source characteristics for testing Battery Management Systems (BMS). Over 200 cells can be stacked in series to safely simulate battery stacks of up to 1000 VDC. Built-in voltage and current readback sensing per cell provide highly accurate simulation as well as live data readings without external monitoring equipment. Onboard auxiliary I/O can be used to simulate cell and module temperature sensors and provides additional analog and digital I/O. Integrated faulting relays facilitate open circuit, cell short, and reverse polarity faults. Safe operation is guaranteed by compliance to the IEC 61010-1 product safety standard and the use of robust, reinforced/double insulation between the high voltage cell domains and the low voltage communication interfaces and auxiliary IO domains.
- 8 independently controlled cell channels
- 0 to 5 VDC output, sink/source up to 5A/Ch
- 1000 VDC Ch-to-Earth GND isolation
- 1000 VDC Ch-to-Ch isolation
- 1U form factor for high cell density
- Compliant to IEC 61010-1, 3rd edition
- Built-in fault insertion per channel (open, short, reverse polarity)
- Dedicated BMS terminal per cell
- Pack current simulation
- Temperature simulation per cell
- Auxiliary analog and digital I/O
- Ethernet, UDP, RS-485, and high-speed CAN control communications
- C/C++, Python, & NI LabVIEW™ drivers
- CAN .dbc file
- VeriStand integration
The Advanced Battery Simulator 800 is BLOOMY’s next generation battery cell simulator (aka emulator) for testing battery management systems (BMS) and other battery-sensitive devices for EVs, electric aircraft, stationary ESS and more! Its best-in-class performance includes sub-1mV cell voltage accuracy across its 0-5V range, extremely low noise, 5A of current sink/source capability per cell, integrated short, open, and polarity-reversed cell faults, cell temperature and pack current sensor simulation, and 1,000V of reinforced isolation. In addition, the Advanced Battery Simulator 800 performs onboard cell model execution with kilohertz loop rates, and has an intuitive SCPI application programming interface. The ABS is remotely monitored and controlled via Ethernet, CAN, and RS-485 using the included software drivers for C/C++, CAN DBC, Python, NI LabVIEW, and more.
Onboard cell model execution facilitates distributed, asynchronous execution across multiple instruments, allowing virtual unlimited scaling of battery hardware-in-the-loop (HIL) simulator applications. By combining the simulated cells, models, faulting, and sensors onboard the Advanced Battery Simulator 800, as well as the ability to series-connect multiple instruments, the Advanced Battery Simulator 800 cohesively and comprehensively simulates a battery with minimal supervision from a host computer. The dense feature set in a modular 1.75" (1RU) package makes BLOOMY’s Advanced Battery Simulator 800 the most advanced battery simulator now available!
Learn more about Bloomy’s complete BMS test offerings:
Cell Channel Features (per channel unless otherwise noted) | |
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Isolated Channels | 8 |
Operation Modes | Sourcing or Sinking | Constant Voltage or Constant Current |
Voltage Range | 0.0 to 5 VDC |
Current Ranges | ±1A or ±5A |
Remote Sensing | 4-Wire Voltage Compensation |
Working Voltage | 1000 VDC Ch-to-Earth GND (Reinforced/Double), Ch-to-Ch (Basic) |
Withstand Voltages | Ch-to-Earth: 2700 VAC for 5 sec, 2000 VDC for 60 sec Ch-to-Ch: 1700 VAC for 5 sec |
Fault Insertion | Open, Short, Reverse Polarity |
Protection | OVP, OCP, OPP |
Calibration Interval | 2 years |
Cell Channel Performance (typ. @ 22°C ± 2°C) | |
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Voltage Setpoint | ±0.75mV Accuracy, 105μV Resolution |
Current Limits | ±20mA Accuracy, 105μA Resolution |
Control Loop Rates (selectable) | 1kHz (fastest) | 10Hz (50/60Hz rejection) |
Voltage Read Accuracy | ±0.48mV @ 4V output |
Current Read Accuracy | ±1A Range: ±0.6mA | ±5A Range: ±2.4mA |
Voltage Read Resolution (includes pk-pk noise) | 55μV @ 1kHz control | 10μV @ 10Hz control |
Current Read Resolution (includes pk-pk noise) | ±1A Range: 135μA @ 1kHz control | 10μA @ 10Hz control ±5A Range: 695μA @ 1kHz control | 55μA @ 10Hz control |
Voltage Step Response | 50μs (10% to 90%) | 1ms (settled to < 1mV) |
Load Step Response | 30μs (transient recovery) | 1ms (settled to < 1mV) |
Auxiliary I/O | |
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Analog Outputs | 8 channels, 16-bit, ±10 VDC, 5mA |
Analog Inputs | 8 channels, 16-bit, ±10 VDC |
Analog I/O Update Rate | 100Hz |
Digital Outputs (general purpose) | 4 channels, 5V, 5mA |
Digital Inputs (general purpose) | 4 channels, 3.3V or 5V |
Digital I/O Update Rate | 1kHz |
Inhibit | 1 TTL input, Shuts down all cell simulation channels |
Communications | |
---|---|
Interfaces | TCP/IP, UDP, CAN, RS-485 |
Max Command / Read Rate | 400Hz (TCP, UDP), 100Hz (CAN), 50Hz (RS485) |
Software | C/C++, Python, NI LabVIEW™, CAN .dbc, VeriStand Integration |
Physical / Environmental | |
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Power Input | 90–264 VAC, 50/60Hz |
Dimensions | 483 mm W x 424 mm D x 43.95 mm H (suitable for 1U 19” racks) |
Weight | 7.94 kg (17.5 lbs) |
Operating Temp / Humidity | 0°C to 35°C, 20% to 85% relative humidity (non-condensing) |
Pollution Degree | 2 |
The Advanced Battery Simulator 800 can be used as a standard instrument, controllable via Ethernet, UDP, CAN, or RS485 via the supplied LabVIEW, C/C++, Python drivers and command documentation. The Advanced Battery Simulator 800 can also be integrated into VeriStand and other real-time environments using the supplied CAN .dbc files. Whether controlled via standard SCPI commands for automated production test, or via real-time CAN for hardware-in-the-loop (HIL) validation the Advanced Battery Simulator 800 is the fundamental building block of many advanced BMS automated test solutions.