XENSIV™ - TLE4972 EVAL STD PCB current sensor evaluation board for three-phase systems, with currents up to ~191A*
The TLE4972 EVAL STD PCB board is a current sensor evaluation board suitable for evaluating three-phase systems, with currents up to 191A*. The board is equipped with three TLE4972-AE35D5 Hall current sensors assembled on top of the PCB over an internal high-current copper layer (dual copper layer of 140um / 4OZ). The board can be used either standalone or interconnected with the infineon TLE4972 current sensor programmer tool, link to.
The board comes assembled with press-fit high current connectors & M6 screws for properly attaching and securing high-current cables or busbars.
TLE4972: Evaluation board variants:
TLE4972 EVAL STD PCB - based on TLE4972-AE35D5 (TDSO package variant), 191A full scale range
TLE4972 EVAL INLAY, link to - based on TLE4972-AE35D5 (TDSO package variant), 420A full scale range
TLE4972 EVAL LAT BAR, link to - based on TLE4972-AE35S5 (VSON package variant), 540A full scale range
TLE4972 EVAL VER BAR, link to - based on TLE4972-AE35S5 (VSON package variant), 842A full scale range
Register your board now in order to get access to exclusive content (software, design files, example codes).
Summary of Features
Measurement of three-phase currents, up to 191A*, external current rail
Based on TLE4972-AE35D5 current sensors
Onboard LDO for precise & stable 3.3V sensor supply
Compatible with the TLE4972 Current Sensor Programmer evaluation tool
Sensor settings programmable sensors, e.g. using the TLE4972 current sensor programmer tool, link to
The board is calibrated & calibration report is offered in the package
Standalone use OR together with the TLE4972 Current Sensor Programmer tool
Software and PCB details available after registering the board @myInfineon
*please consult the "Safety precautions" chapter of the user manual before usage.
Potential Applications
Automotive electrical drives
Auxiliary drives
Current monitoring
Overload and over-current detection
Automotive power train
Battery main switch
On board chargers, etc
XENSIV™ - TLE4972 EVAL STD PCB current sensor evaluation board for three-phase systems, with currents up to ~191A*
The TLE4972 EVAL STD PCB board is a current sensor evaluation board suitable for evaluating three-phase systems, with currents up to 191A*. The board is equipped with three TLE4972-AE35D5 Hall current sensors assembled on top of the PCB over an internal high-current copper layer (dual copper layer of 140um / 4OZ). The board can be used either standalone or interconnected with the infineon TLE4972 current sensor programmer tool, link to.
The board comes assembled with press-fit high current connectors & M6 screws for properly attaching and securing high-current cables or busbars.
TLE4972: Evaluation board variants:
- TLE4972 EVAL STD PCB - based on TLE4972-AE35D5 (TDSO package variant), 191A full scale range
- TLE4972 EVAL INLAY, link to - based on TLE4972-AE35D5 (TDSO package variant), 420A full scale range
- TLE4972 EVAL LAT BAR, link to - based on TLE4972-AE35S5 (VSON package variant), 540A full scale range
- TLE4972 EVAL VER BAR, link to - based on TLE4972-AE35S5 (VSON package variant), 842A full scale range
Register your board now in order to get access to exclusive content (software, design files, example codes).
Summary of Features
- Measurement of three-phase currents, up to 191A*, external current rail
- Based on TLE4972-AE35D5 current sensors
- Onboard LDO for precise & stable 3.3V sensor supply
- Compatible with the TLE4972 Current Sensor Programmer evaluation tool
- Sensor settings programmable sensors, e.g. using the TLE4972 current sensor programmer tool, link to
- The board is calibrated & calibration report is offered in the package
- Standalone use OR together with the TLE4972 Current Sensor Programmer tool
- Software and PCB details available after registering the board @myInfineon
*please consult the "Safety precautions" chapter of the user manual before usage.
Potential Applications
- Automotive electrical drives
- Auxiliary drives
- Current monitoring
- Overload and over-current detection
- Automotive power train
- Battery main switch
- On board chargers, etc
