Analog Devices' High-performance, Low-power MEMS Gyroscope Enables Applications In Harsh Industrial Environments

Analog Devices ADXRS450

New applications for MEMS (micro-electro-mechanical systems) motion sensors are evolving in the industrial automation, medical, and instrumentation markets where much higher performance is required than is typically found in motion sensors designed for consumer applications. To address this growing demand for more accuracy, stability, and high vibration and shock resistance, Analog Devices has developed the high-performance, low-power ADXRS450 iMEMS gyroscope with digital output specifically for angular rate (rotational) sensing in harsh environments.

Analog Devices ADXRS450

Analog Devices’ High-performance, Low-power MEMS Gyroscope Enables Applications In Harsh Industrial EnvironmentsLeveraging ADI’s previous three generations of industry-leading MEMS gyroscopes, this fourth-generation device features an advanced, differential quad-sensor design that enables it to operate accurately under intense shock and vibration conditions. No other MEMS gyroscope is able to perform at this level under these conditions. With robust performance and operating on low power of only 6 mA, this MEMS gyroscope is effective for diverse applications, such as robotics, industrial instrumentation, avionics, and platform stabilization for high speed trains.

“Our customers rely on the Analog Devices iMEMS brand for the high performance and reliability they receive from our motion sensing products that combine innovative MEMS sensor design with ADI’s leading analog signal conditioning circuitry for the optimum sensing solution,” said Mark Martin, vice president, MEMS and Sensors Technology Group, Analog Devices. “The ADXRS450 iMEMS gyroscope is a complete angular rate gyroscope in a single package and is the first device in a new class of high performance MEMS gyros from ADI that feature an innovative differential quad-sensor design.”

Features:

  • Complete rate gyroscope on a single chip
  • ±300°/sec angular rate sensing
  • High vibration rejection over a wide frequency range
  • Excellent 25°/hr null offset stability
  • Internally Temperature compensated
  • 2,000 g powered shock survivability
  • SPI Digital output with 16-bit data word
  • Low Noise and Low Power
  • 3.3V and 5V operation
  • -40°C to +105°C operation
  • Ultra small, light, and RoHS compliant
  • Two package options:
    • Low cost SOIC package for yaw rate (Z-axis) response
    • Innovative ceramic vertical mount package which can be oriented for pitch, roll, or yaw response

The new quad-sensor design rejects the influence of linear acceleration, enabling the ADXRS450 to operate in exceedingly harsh environments where shock and vibration are present and can cause measurement errors in less capable gyros. The ADXRS450 is the most stable, vibration-immune MEMS gyro available, with sensitivity to linear acceleration specified at only 0.03 °/sec/g, acceleration rectification of only 0.003 °/sec/g2, a noise-rate density specification of 0.020°/sec/√Hz, and power consumption of only 6 milliamps under typical conditions. Other features include internal temperature compensation over an extended industrial temperature range and an optional ceramic vertical-mount package that uniquely enables three-axis sensing on a single PCB without daughterboards.

Mr. Martin added, “MEMS gyroscopes have long been the most difficult MEMS device to design and manufacture, particularly at the high-performance and low power consumption levels required in many emerging industrial automation and instrument applications. When compared to other high-performance MEMS gyros available, our new iMEMS gyros consume only one tenth the power of competing products and provide greater stability and vibration immunity.”

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