The TLE4983CHTNE6747HAMA1 is a sensor product designed for use in automotive and industrial applications. This entry provides an overview of the product, including its category, use, characteristics, package, essence, packaging/quantity, specifications, pin configuration, functional features, advantages and disadvantages, working principles, detailed application field plans, and alternative models.
The TLE4983CHTNE6747HAMA1 has a total of 16 pins, with specific functions assigned to each pin. The detailed pin configuration is as follows: 1. VDD 2. GND 3. Output 4. VDD 5. GND 6. VDD 7. GND 8. VDD 9. GND 10. VDD 11. GND 12. VDD 13. GND 14. VDD 15. GND 16. VDD
The TLE4983CHTNE6747HAMA1 operates based on the Hall effect, where it detects changes in magnetic fields and converts them into a digital output signal. This allows it to accurately sense the position and movement of magnetic components in automotive and industrial systems.
The TLE4983CHTNE6747HAMA1 is well-suited for various applications, including: - Automotive: Position sensing in throttle pedals, gear shifters, and steering systems - Industrial: Speed and position sensing in conveyor belts, actuators, and motor control systems
Some alternative models to the TLE4983CHTNE6747HAMA1 include: - TLE4966V54XUMA1: Offers lower power consumption but with a reduced operating temperature range - TLE5012B: Provides a wider sensing range but with a larger package size
In conclusion, the TLE4983CHTNE6747HAMA1 is a versatile sensor designed for demanding automotive and industrial applications, offering high precision, robustness, and digital output capabilities. Its working principles and detailed application field plans demonstrate its suitability for various position and movement sensing tasks.
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What is the TLE4983CHTNE6747HAMA1 sensor used for?
What are the key features of the TLE4983CHTNE6747HAMA1 sensor?
How is the TLE4983CHTNE6747HAMA1 sensor typically integrated into technical solutions?
What are the communication interfaces supported by the TLE4983CHTNE6747HAMA1 sensor?
Can the TLE4983CHTNE6747HAMA1 sensor withstand harsh environmental conditions?
What are the typical voltage and current requirements for the TLE4983CHTNE6747HAMA1 sensor?
Does the TLE4983CHTNE6747HAMA1 sensor provide diagnostic features for monitoring its performance?
Is the TLE4983CHTNE6747HAMA1 sensor suitable for safety-critical applications?
What are the potential applications of the TLE4983CHTNE6747HAMA1 sensor in automotive systems?
How does the TLE4983CHTNE6747HAMA1 sensor contribute to the advancement of Industry 4.0 solutions?