The TLE4983CHTNE8547HAMA1 is a magnetic sensor belonging to the category of Hall Effect sensors. It is commonly used for position sensing in automotive and industrial applications due to its high accuracy and reliability. The sensor possesses characteristics such as high sensitivity, low power consumption, and robust packaging, making it suitable for harsh environments. It is typically available in small surface-mount packages and is often sold in reels containing multiple units.
The TLE4983CHTNE8547HAMA1 features a standard 8-pin configuration: 1. VCC 2. GND 3. Output 4. Temperature Sense 5. Null 6. Null 7. Null 8. Null
The TLE4983CHTNE8547HAMA1 operates based on the Hall Effect, where a voltage difference is generated across a conductor when subjected to a magnetic field. This voltage is then converted into an analog output signal, providing precise information about the position of the magnet relative to the sensor.
The TLE4983CHTNE8547HAMA1 is widely used in automotive applications for throttle position sensing, gearbox position sensing, and pedal position sensing. In industrial settings, it is employed for rotary encoder systems, linear position sensing, and speed detection in motors.
Some alternative models to the TLE4983CHTNE8547HAMA1 include: - A1324LUA-T: Similar Hall Effect sensor with extended sensing range - DRV5053VAQLPG: Digital output Hall Effect sensor with integrated protection features - MLX90316KDC-BDG-000-RE: Triaxis Hall Effect sensor with programmable output options
In conclusion, the TLE4983CHTNE8547HAMA1 offers high precision and reliability in position sensing applications, particularly in automotive and industrial environments. Its robust design and integrated temperature sensor make it a preferred choice for demanding applications requiring accurate magnetic field measurements.
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What is the TLE4983CHTNE8547HAMA1?
What are the key features of the TLE4983CHTNE8547HAMA1?
How is the TLE4983CHTNE8547HAMA1 typically used in automotive applications?
In what industrial applications can the TLE4983CHTNE8547HAMA1 be utilized?
What are the communication interfaces supported by the TLE4983CHTNE8547HAMA1?
What is the operating voltage range of the TLE4983CHTNE8547HAMA1?
How does the TLE4983CHTNE8547HAMA1 handle temperature variations?
Can the TLE4983CHTNE8547HAMA1 withstand mechanical shock and vibration?
What are the advantages of using the TLE4983CHTNE8547HAMA1 over traditional position sensing technologies?
Are there any application notes or reference designs available for integrating the TLE4983CHTNE8547HAMA1 into technical solutions?