Technical Description
The HCMB (High Current Measurement Box) from IRS represents an advanced solution for the precise measurement of high currents, as encountered in the validation and calibration of battery sensors in laboratory environments. In development and testing environments, battery states and the accuracy of the sensor elements are examined and optimized under controlled conditions. With the capability to accurately measure currents from 0.1A to 2kA, the system provides reliable data that are essential for the development of innovative battery systems.
Thanks to state-of-the-art measurement technology, automatic range selection, and integrated polarity reversal, the HCMB ensures the highest precision and flexibility even under dynamic test conditions. These features make it an indispensable tool in the research and development phase of modern battery sensor technology.
Technical Description
The HCMB (High Current Measurement Box) from IRS represents an advanced solution for the precise measurement of high currents, as encountered in the validation and calibration of battery sensors in laboratory environments. In development and testing environments, battery states and the accuracy of the sensor elements are examined and optimized under controlled conditions. With the capability to accurately measure currents from 0.1A to 2kA, the system provides reliable data that are essential for the development of innovative battery systems.
Thanks to state-of-the-art measurement technology, automatic range selection, and integrated polarity reversal, the HCMB ensures the highest precision and flexibility even under dynamic test conditions. These features make it an indispensable tool in the research and development phase of modern battery sensor technology.
Technical Specifications
Measurement Range: ±2kA, 500A continuous current
Insulation Resistance: up to +30V DC
Sampling Rate: 1.7 kS/s
Resolution: 32-Bit
Automatic Range Selection: Two measurement ranges with automatic switching
Polarity Reversal: Included
Areas of Application
Validation and Calibration: Precise measurements for the development and fine-tuning of sensor systems to ensure high measurement accuracy even at extreme current values.
Development and Testing Environments: Used in laboratories and test stands where battery measurements are conducted under controlled conditions.
Research and Development: Support in analyzing and optimizing modern battery systems to explore innovative approaches for future applications.
Test Stands for Battery Systems: A central measuring instrument in test stands that allows comprehensive evaluation of the performance and durability of battery systems.
With its high precision, flexibility, and robustness, the HCMB offers an ideal solution for demanding testing and calibration applications in the development and validation of battery sensors and systems.
Technical Specifications
Measurement Range: ±2kA, 500A continuous current
Insulation Resistance: up to +30V DC
Sampling Rate: 1.7 kS/s
Resolution: 32-Bit
Automatic Range Selection: Two measurement ranges with automatic switching
Polarity Reversal: Included
Areas of Application
Validation and Calibration: Precise measurements for the development and fine-tuning of sensor systems to ensure high measurement accuracy even at extreme current values.
Development and Testing Environments: Used in laboratories and test stands where battery measurements are conducted under controlled conditions.
Research and Development: Support in analyzing and optimizing modern battery systems to explore innovative approaches for future applications.
Test Stands for Battery Systems: A central measuring instrument in test stands that allows comprehensive evaluation of the performance and durability of battery systems.
With its high precision, flexibility, and robustness, the HCMB offers an ideal solution for demanding testing and calibration applications in the development and validation of battery sensors and systems.
you might also be interested in this
CAN-FD
6 CAN-FD interfaces
CAN-FD
6 CAN-FD interfaces
cRIO FaultSim6
Simulation of electrical small signal faults
cRIO FaultSim6
Simulation of electrical small signal faults
cRIO OPIF 5MBit/s
Optical communication via optical fibers up to 5MBit/s
cRIO OPIF 5MBit/s
Optical communication via optical fibers up to 5MBit/s
CAN-FD
6 CAN-FD interfaces