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TDK introduces flexible Multi-Hall-array sensor for high-precision current sensing

TDK Corporation (TSE:6762) expands its Micronas Hall-effect sensor portfolio with the CUR 4000 sensor.

TDK introduces flexible Multi-Hall-array sensor for high-precision current sensing
  • Non-intrusive, galvanic isolated contactless current measurement
  • Configurable for highly accurate linear current sensing with read-out of multi-Hall-array or for differential coreless and stray-field robust current sensing
  • ISO 26262 ASIL-B ready and AEC-Q100 qualified

The sensor, developed for highly accurate current measurements in automotive and industrial applications, offers non-intrusive, galvanic isolated contactless current sensing. These features will contribute to the future of high-voltage systems of hybrid and electric vehicles (xEV).

The product is suited for DC and AC measurements and overcurrent detection in high-power battery monitoring applications and can measure dynamic current ranges up to ≥2000 A.* For these kind of measurement tasks, CUR 4000 comes with different configurable modes for linear core-based and differential coreless application setups.

The sensor's production is planned for the second quarter of 2021, with samples already available.

In the linear modes of CUR 4000, a configurable array of Hall elements enables highly accurate measurements for core-based stray-field robust sensor-module designs. The differential mode enables minimal coreless and stray-field robust system designs without shields.

Read-out of the complete Hall array provides an output-offset temperature-drift below ±0.05 percent full scale. Furthermore, the sensor delivers a hysteresis-free output signal. A non-linearity error of ±0.2 percent and a noise performance of ±0.005 percent full scale allows precise current measurements with a signal bandwidth of up to 8 kHz.

TDK used proven Hall sensor technology to structure the CUR 4000. Primary characteristics, like temperature dependent gain and offset can be adjusted to the magnetic circuitry by programming the non-volatile memory. CUR 4000 is defined as SEooC ASIL-B ready, according to ISO 26262 with several on-board diagnostic functions, which builds a basis for current sensor modules with a higher ASIL level using redundancy techniques or a combination with other current sensing technologies.

CUR 4000 is available in a small eight-pin SOIC8 SMD package for less complex assembly compared to through-hole packages.

Glossary

  • xEV = Vehicles including an electric traction motor
  • SEooC = Safety Element out of Context
  • SPI = Serial Peripheral Interface
  • SOIC = Small Outline Integrated Circuit

Main applications*

  • xEV battery monitoring, battery disconnect unit and overcurrent detection
  • Stationary battery management

Main features and benefits**

  • Multi-Hall-array sensor technology for high-precision core-based current sensing
  • Configurable for highly accurate linear current sensing with read-out of multi-Hall-array or for differential coreless and stray-field robust current sensing
  • Contactless current sensing (non-intrusive)
  • SEooC ASIL-B ready according to ISO 26262 to support Functional Safety applications
  • Digital (SPI) interface for direct microcontroller connectivity and sensor programming
  • Sleep modes (wake-up pin) for low power consumption
  • Automotive temperature grade (TA = -40 °C up to 150 °C)

Key data

TDK introduces flexible Multi-Hall-array sensor for high-precision current sensing

www.tdk.com

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