Overview of ACM4520-901-2P
The ACM4520-901-2P, manufactured by TDK Corporation, is a compact, high-performance accelerometer designed for various applications requiring precise motion sensing. This MEMS (Micro-Electro-Mechanical Systems) based sensor offers excellent stability, sensitivity, and low noise, making it suitable for use in industrial, automotive, and consumer electronics.
Key Features and Specifications
- Dual-axis accelerometer with a measurement range of ±2g
- High sensitivity of 1000 mV/g for accurate motion detection
- Low noise density of 50 μg/√Hz, ensuring clear signal output
- Wide bandwidth of 550 Hz for capturing high-frequency vibrations
- Low power consumption of 350 μA, ideal for battery-powered devices
- Operating temperature range from -40°C to +125°C
- Compact LGA-12 package with dimensions of 4.5 mm x 4.5 mm x 2.0 mm
Applications
The ACM4520-901-2P finds applications in various fields, including:
- Industrial equipment monitoring and predictive maintenance
- Automotive systems such as electronic stability control and rollover detection
- Consumer electronics like smartphones, tablets, and wearables
- Robotics and automation for motion control and navigation
- Structural health monitoring and seismic activity detection
Integration and Usability
TDK Corporation has designed the ACM4520-901-2P with ease of integration in mind. The sensor features a digital I2C interface, allowing for simple connection to microcontrollers and other processing units. Additionally, the device offers a built-in self-test function and a programmable interrupt system, enabling users to customize its behavior according to their specific requirements.
Reliability and Quality
As a product of TDK Corporation, the ACM4520-901-2P adheres to stringent quality standards and undergoes rigorous testing to ensure reliable performance in demanding environments. The sensor's robust construction and advanced packaging technology contribute to its durability and long-term stability, making it a dependable choice for critical applications.