ACS71020 Hall-effect Power Monitoring and Overcurrent Detection Breakout

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₹52,406.02
Sku:
ES-12154
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Product Overview

The ACS71020 Hall-effect module, designed for power monitoring and overcurrent detection, provides users with the option to connect wires or headers through its through-holes, streamlining the linkage of any ACS71020 pin to an application. This power monitoring module offers a precise and isolated solution for sensing current, voltage, and power, supporting both I2C and SPI interfaces.

Covering a current-sensing range from 0 to 90A, the ACS71020 Hall-effect Power Monitoring and Overcurrent Detection Breakout establishes itself as a resilient and versatile device for supervising power systems in applications demanding high power.

Integration into existing systems is made seamless through the I2C or SPI communication interface, enabling effortless connection to microcontrollers or other devices. The incorporation of 16-bit voltage and current ADCs guarantees a superior level of accuracy and precision.

Boasting advanced functionalities such as temperature compensation, offset correction, and overcurrent detection, the ACS71020 Hall-effect Power Monitoring and Overcurrent Detection Breakout emerges as a highly reliable tool for power monitoring. Its operational capability across a wide temperature spectrum further enhances its suitability for use in challenging industrial environments.

For those involved in power systems, the ACS71020 Hall-effect Power Monitoring and Overcurrent Detection Breakout proves indispensable. Its exceptional accuracy, advanced capabilities, and smooth integration make it a crucial asset for monitoring and identifying overcurrent incidents across a diverse array of applications.

Key Features
  • Current-sensing range from 0 to 90 A
  • I2C or SPI communication
  • 16-bit voltage and current ADCs
  • Accurate power monitoring of AC applications
  • Reinforced isolation up to 517 VRMS in a single package eliminates the need for dual isolated supplies
  • Active, reactive, and apparent power measurements, and power factor
  • RMS and instantaneous voltage and current measurements
  • Dedicated voltage zero crossing pin
  • Overcurrent fault output pin
  • Hall-effect-based current measurement with common mode stray field rejection
  • User-programmable VRMS under/overvoltage pin
Data Transmission
The transmission of data over I2C is composed of several steps outlined in the sequence below.
  • Start Condition: Defined by a negative edge of the SDA line, initiated by the Master while SCL is high.
  • Address Cycle: 7-bit Slave address, plus 1 bit to indicate write (0) or read (1), followed by an Acknowledge bit.
  • Data Cycles: Reading or writing 8 bits of data, followed by an Acknowledge bit. This cycle can be repeated for multiple bytes of data transfer. The first data byte on a write could be the register address.
  • Stop Condition: Defined by a positive edge on the SDA line while SCL is high.
Resources

ACS71020 Power Monitoring Breakout Dimensions

Warranty Information

We offer 14 days replacement warranty in case of manufacturing defects. For more details, please visit our cancellation and returns page.