Product Overview: AD8210WYRZ-R7 from Analog Devices Inc.

The AD8210WYRZ-R7 is a high-performance, high-voltage, bidirectional current shunt monitor from Analog Devices Inc., a leading global manufacturer of precision high-performance integrated circuits used in analog and digital signal processing applications. This current sense amplifier is specifically designed to accurately measure current across shunts in automotive and industrial systems, power management, and battery monitoring applications.

Featuring a wide input common-mode voltage range of -2V to +65V, the AD8210WYRZ-R7 is capable of operating at full performance across a broad spectrum of supply voltages, making it an extremely versatile component for various electrical environments. The device is optimized for the measurement of small differential voltages across a current sensing resistor in the presence of high common-mode voltages, ensuring precise current monitoring even under challenging conditions.

The AD8210WYRZ-R7 has an impressive bandwidth of 500 kHz, allowing it to effectively capture high-speed current transients, which is critical for advanced control and monitoring systems. Its precision is further enhanced with a low input offset voltage, ensuring that measurements are accurate and reliable.

Encased in a compact, RoHS-compliant, 8-lead SOIC package, the AD8210WYRZ-R7 is designed for easy integration into a variety of circuit designs. Its small footprint allows for efficient use of board space, which is particularly valuable in dense electronic assemblies.

Key features of the AD8210WYRZ-R7 include:

• High common-mode voltage range: -2V to +65V
• Wide operating temperature range: -40°C to +125°C
• High accuracy with low offset voltage
• High bandwidth: 500 kHz
• Fixed gain of 20 V/V with a single external resistor
• Single-supply operation: 4.5 V to 5.5 V
• Overvoltage protection up to 70 V for transient excursions
• 8-lead SOIC package

With its robust performance and flexibility, the AD8210WYRZ-R7 is an ideal solution for designers seeking a reliable current monitoring component that can withstand the rigors of high-voltage applications while delivering precise and accurate measurements.