Product Overview: ATA8201C-PXQW from Microchip Technology

The ATA8201C-PXQW is a cutting-edge, low-power RF transmitter designed by Microchip Technology, a global leader in microcontroller, mixed-signal, analog, and Flash-IP solutions. This device is specifically engineered to meet the demanding requirements of automotive and industrial markets, offering a robust and reliable wireless communication solution.

Key Features

• Frequency Range: The ATA8201C-PXQW operates in the 315 MHz, 434 MHz, and 868 MHz frequency bands, making it versatile for various regional applications and standards.
• Modulation Schemes: It supports various modulation schemes including ASK, FSK, and PSK, enabling flexibility in designing communication protocols.
• Low Power Consumption: With a focus on energy efficiency, this transmitter maintains low power consumption, which is crucial for battery-operated devices.
• High Output Power: It is capable of delivering high output power, ensuring strong signal transmission and extended range.
• Integrated Features: The device comes with integrated features such as a temperature sensor and a battery voltage detector, which contribute to system reliability and performance monitoring.

Applications

The ATA8201C-PXQW is ideal for a wide range of applications, including:

• Remote Keyless Entry (RKE) systems
• Tire Pressure Monitoring Systems (TPMS)
• Telemetry and industrial controls
• Home and building automation
• Wireless alarm and security systems

Quality and Reliability

Microchip Technology is committed to delivering high-quality products that comply with stringent industry standards. The ATA8201C-PXQW is no exception, as it is designed with a focus on reliability and performance, ensuring seamless integration into automotive-grade applications.

Support and Resources

Microchip Technology provides extensive support and resources for the ATA8201C-PXQW, including detailed datasheets, application notes, and design guides to assist developers in integrating this transmitter into their projects seamlessly.