12 CHANNELS CELL
SIMULATOR
12 NTC-RACK:
CSNTC 31-1-1212 F
The Cells Simulation Rack/Module with NTC and fault simulation is a battery simulator module with 12 isolated cells used to simulate battery features. It also contain 12 NTC channels to simulate temperature sensor output and support the short circuit, open circuit and reverse voltage fault simulation modes.
The voltage of each cell and NTC output can be adjusted through Standard CAN, Ethernet TCP and USB-C, a well as getting the voltage and the current measurements.
Specifications
- 126 independent and isolated cells in total.
- Extendable number of cells by adding more modules in series.
- Standalone module or bench rack mounted.
- Each cell has an adjustable output voltage of 0 V to 7 V with 1.0 mV precision.
- The current sourcing of each cell is up to 1 A.
- Voltage measurement with a precision of 0.4 mV.
- High current measurement with a precision of 1mA.
- Low current measurement with a precision of 5 uA.
- Short circuit, open circuit and reverse voltage fault simulation modes.
- Controllable by CAN ISO 11898-2, Ethernet TCP and USB-C.
- 12 independent NTC channels to simulate temperature sensor output.
12 CHANNELS CELL SIMULATOR 12 NTC-RACK
CSNTC 31-1-1212 F
The Cells Simulation Rack/Module with NTC and fault simulation is a battery simulator module with 12 isolated cells used to simulate battery features. It also contain 12 NTC channels to simulate temperature sensor output and support the short circuit, open circuit and reverse voltage fault simulation modes.
The voltage of each cell and NTC output can be adjusted through Standard CAN, Ethernet TCP and USB-C, a well as getting the voltage and the current measurements.
Specifications
- 126 independent and isolated cells in total.
- Extendable number of cells by adding more modules in series.
- Standalone module or bench rack mounted.
- Each cell has an adjustable output voltage of 0 V to 7 V with 1.0 mV precision.
- The current sourcing of each cell is up to 1 A.
- Voltage measurement with a precision of 0.4 mV.
- High current measurement with a precision of 1mA.
- Low current measurement with a precision of 5 uA.
- Short circuit, open circuit and reverse voltage fault simulation modes.
- Controllable by CAN ISO 11898-2, Ethernet TCP and USB-C.
- 12 independent NTC channels to simulate temperature sensor output.