Application Of Uart In Gps Navigation System

The APX9132 integrated circuit is an ultra-sensitive, pole-independent Hall-effect switch featuring a latched digital output. It operates within a voltage range of 2.5 volts to 3.5 volts, and its unique clocking scheme reduces average power consumption. The output activates in response to either a north or south magnetic pole with sufficient flux, while it remains off in the absence of a magnetic field. This polarity independence and minimal power requirement enable the device to effectively replace reed switches for superior signal conditioning. Advanced CMOS processing is utilized to optimize low-voltage and low-power performance, and the SOT-23 package provides an optimized solution for a wide range of applications. Manufactured by Anpec Electronics Corporation.

The APX9132 integrated circuit is designed to function as a highly sensitive Hall-effect switch, which detects magnetic fields and provides a digital output signal. Its latched output ensures that once the magnetic field is detected, the output remains in its activated state until a reset condition occurs, making it suitable for applications requiring a stable signal in the presence of a magnetic field.

The operational voltage range of 2.5 to 3.5 volts allows for compatibility with various low-voltage systems, making the APX9132 ideal for battery-powered devices where power efficiency is critical. The innovative clocking scheme incorporated into the design minimizes average operating power, thereby extending battery life in portable applications.

The pole-independent feature of the APX9132 is particularly advantageous, as it can respond to both north and south magnetic poles without the need for orientation, simplifying the design and installation processes in various applications. This characteristic, combined with its low power consumption, positions the APX9132 as a superior alternative to traditional reed switches, which may have limitations in terms of power efficiency and sensitivity.

The use of advanced CMOS technology enhances the performance of the APX9132, allowing it to operate effectively in low-voltage environments while maintaining minimal power requirements. The SOT-23 package design not only optimizes the device's footprint for space-constrained applications but also ensures ease of integration into existing circuit designs.

Applications for the APX9132 include position sensing, proximity detection, and various consumer electronics where reliable and efficient magnetic field detection is required. Its robust characteristics and efficient performance make it a valuable component in modern electronic systems.The APX9132 integrated circuit, is an ultra-sensitive, pole independent Hall-effect Switch with a latched digital output. A 2. 5 volt to 3. 5 volt operation and a unique clock- ing scheme reduce the average operating power requirements, either a north or south pole of sufficient flux will turn the output on; in the absence of a magnetic field, the o

utput is off. The polari ty independence and minimal power requirement allow this device to be easi ly replaced reed Switch for super ior for signal conditioning. Advanced CMOS processing is used to take advantage of low-vol tage and low-power requirements, SOT-23 package provided a optimized package for most applications.

By Anpec Electronics Corporation 🔗 External reference