The AH49HZ3-G1 is a cutting-edge, high-precision linear Hall-effect sensor from Diodes Incorporated, designed for a wide range of applications where accurate and reliable magnetic field detection is critical. This sensor is well-suited for both consumer and industrial markets, offering a robust solution for position sensing, current sensing, and motor control.
Key Features
- Linear Hall-effect Sensor: The AH49HZ3-G1 operates based on the Hall effect principle, providing a voltage output that is directly proportional to the applied magnetic field.
- High Sensitivity: With its high sensitivity, the sensor is capable of detecting even slight changes in magnetic fields, ensuring precise measurements.
- Wide Operating Voltage Range: This sensor supports a broad range of supply voltages from 3.0V to 28V, making it versatile for various applications and system voltages.
- Low Noise Output: The device is engineered to produce a low noise output signal, enhancing the accuracy of the readings.
- Temperature Compensated: The AH49HZ3-G1 includes internal temperature compensation, which ensures stable performance across a wide temperature range.
- Robust Package: Housed in a small and durable SOT-23 package, the sensor is not only space-efficient but also rugged enough to withstand challenging environmental conditions.
Applications
- Position and displacement sensing
- Current sensing in power electronics
- Motor control and feedback systems
- Fluid level detection
- Proximity detection
Product Specifications
Parameter
Value
Supply Voltage (V<sub>CC)
3.0V to 28V
Output Voltage
Linear with Magnetic Field
Temperature Range
-40°C to +85°C
Package
SOT-23
In summary, the AH49HZ3-G1 from Diodes Incorporated is a high-performance, versatile linear Hall-effect sensor that offers precise and reliable magnetic field detection for a variety of applications. Its robust design, coupled with its high sensitivity and temperature compensation, makes it an ideal choice for designers looking to integrate magnetic sensing capabilities into their systems.