BRS - Model MBT -Measurement Module Battery Tester
The Measurement Module Battery Tester (MBT-x) is designed for implementation in production facilities and quality assurance processes. It is optimized for quick testing of battery cells and modules and for checking weld connections. The device measures three primary battery parameters (AC internal resistance, DC internal resistance, and battery voltage) within 0.4 seconds. An additional measurement mode allows automatic temperature correction. To simplify wiring, it offers both 4-wire and 6-wire configurations. The module is housed in an aluminum enclosure and can be fastened using four screws. Connection to control systems (SPS) is facilitated through an RS232 serial interface. The power supply is provided by a separate power unit. This module is engineered for high precision and efficient performance, ensuring reliable and rapid battery testing in industrial settings.
The MBT-x is a measuring module for use in production plants and in quality assurance. It is optimized for the quick testing of battery cells and modules and for testing welded joints.
The 3 essential battery parameters (AC internal resistance, DC internal resistance and battery voltage) are measured within 0.4 seconds; an additional measuring mode allows automatic temperature correction.
To facilitate cabling, a 6-wire arrangement is also provided in addition to the 4-wire measurement technology.
The measuring module is protected by an aluminum housing that can be attached with 4 screws. The measuring module is connected to the system control system (PLC) via a serial interface (RS232). Power is supplied via a separate power supply unit.
- Internal resistance measuring range adjustable for testing welded joints
- 3-parameter measurement within 0.4sec
- Measure battery voltage with high accuracy (±1mV for cells)
- Measuring the battery internal resistance (real part) at 2 frequencies (10Hz, 1kHz)
- Test object connection in 4-wire technology or 6-wire technology with compensation current
- Measuring the temperature with temperature compensation of the 10Hz measurement
- Cycle time can be further reduced through parallel operation
