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A MEMS accelerometer is a very accurate sensor based on microelectromechanical systems technology and can pick up straight-line speed and tilt angle. Its main parts are usually made up of a small hanging weight and a spring. When it feels an outside force, the weight moves, which turns into an electric signal with the help of ways like capacitance, resistance, or piezoelectricity. This small and sharp setup makes MEMS accelerometers have big benefits, such as being tiny, using little energy, and having a low price, making them good for many different small gadgets that need high energy saving.

In actual use, MEMS accelerometers find major application in auto safety controls (for example, airbag activations and car crash observations), handheld health gadgets (like step plus motion monitors), and home electronics (for instance, cell phone display panel automatic rotation and fall alert). They further serve industrial mechanization, uncrewed tools (drones along with bots), plus building soundness checks. Their steadiness as well as quickness answer the call for immediate action, spotting, and stance feeling.

Technological advancements have made modern MEMS accelerometers not only better in terms of resolution and measurement range but also as devices with strong vibration and interference resistance, low temperature drift, wide response frequency, and others. Increasingly, they become integrated with such sensors as gyroscopes and magnetometers in IMU (inertial measurement unit) systems for more accurate motion tracking and attitude estimation. The so-described trend leads to a transformation of MEMS accelerometers from single sensors to multifunctional sensing platforms that serve the smarter and more connected future application environments.

MA1000A

High end closed-loop MEMS accelerometer chip, specially designed for vibration measurements: seismic monitor, micro-vibration monitoring, etc.

  • Range: ±2g~±30g, Excellent Bias Stability
  • Output: Differential Output / Single-Ended Output
  • Very Low Noise: 1.2μg/√Hz for ±2g Range (typical)
  • Input Power Supply: 4.75~5.25V
  • Embedded Self-Test Function and Temperature Sensor
  • Embedded Precision Reference Voltage
  • Shock Survivability: 6000g, Vibration Resistance
  • Wide Operating Temperature Range: -40~+125°C

MAS1012 Single Axis MEMS Capacitive Accelerometer

– Closed Loop Structure MEMS Capacitive Accelerometer

– Range:±2g, Excellent Bias Stability

– Dynamic Range: ≥110dB

– Bandwidth: ≥1KHz (Typical Value, -3dB)

– Low Noise: ≤1.0μgrms/√Hz

– Non-linearity: 0.1%FS (Full Range)

– Extremely Reliable in Harsh Environment

– Wide Operating Temperature Range: -40~+85ºC

MAS3012

Single/Dual/Triaxial MEMS Capacitive Accelerometer Sensor, ultra-low noise: 1ug, dynamic range: 110dB, widely used in vibration monitoring, etc.

  • Closed Loop Structure MEMS Capacitive Accelerometer
  • Range: ±2g, ±5g, ±10g, ±30g, Excellent Bias Stability
  • Dynamic Range: ≥110dB,
  • Bandwidth: MAS3012-2 ≥1KHz (Typical Value, -3dB)
  • Low Noise: MAS3012-2≤1.0μgrms/√Hz
  • Non-linearity: 0.1%FS (Full Range)
  • Extremely Reliable in Harsh Environment
  • Wide Operating Temperature Range: -40~+85ºC

MAS1002 Single Axis MEMS Capacitive Accelerometer

– Single Axis MEMS Capacitive Accelerometer

– Range:±2g, Excellent Bias Stability

– Output: Differential Output / Single-Ended Output

– Dynamic Range: ≥100dB, Bandwidth (-3dB): 200Hz

– Low Noise: ≤2.5μgrms/√Hz

– Non-linearity: 0.1%FS (Full Range)

– Extremely Reliable in Harsh Environment

– Wide Operating Temperature Range: -40~+85°C

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