Autonomous Vehicle Application Crystal TSX-3225

    In recent years, many unmanned products have been launched, including unmanned supermarkets, drones, vending machines, autonomous vehicles, and other technologies that are rapidly developing. The development of technology has driven the development of electronic components. Electronic components - "crystal oscillators" - have made tremendous contributions to modern technology, using their small bodies to exert great energy. Autonomous vehicles are at the forefront of modern technology, relying on precise sensors, communication modules, and control systems to achieve autonomous navigation and driving. Crystal oscillators (crystal oscillators) play a crucial role in these systems, providing stable clock signals and frequency references for various electronic components.

    The Epson TSX-3225 crystal oscillator is a small volume 3.2x2.5mm passive crystal oscillator, quartz crystal resonator, four pin SMT crystal oscillator, frequency range: 16MHz to 48MHz, operating temperature range: -40 ℃ to+85 ° C/+105 ℃, with ultra small, lightweight, heat-resistant and environmentally resistant characteristics.In autonomous vehicles, TSX-3225 crystal oscillators are mainly used in the following key areas:

1. Sensor module: Autonomous vehicles rely on multiple sensors (such as LiDAR, cameras, and radar) to perceive the environment. These sensors require precise clock signals to synchronize data acquisition and processing. The TSX-3225 provides a highly stable clock signal to ensure the accuracy and consistency of the sensors.

2. Communication system: The onboard communication system requires a reliable clock source to handle data transmission between vehicle to vehicle (V2V) and vehicle to infrastructure (V2I). The high stability and low phase noise characteristics of TSX-3225 ensure the reliability and real-time performance of data transmission.

3. Navigation system: The navigation system of autonomous vehicles relies on high-precision positioning and time synchronization. TSX-3225 provides a stable reference frequency for satellite navigation systems such as GPS and Beidou, improving positioning accuracy and navigation performance.

4. Control system: The vehicle's autonomous driving control system requires precise clock signals to execute complex algorithms and real-time decisions. The high frequency stability and low delay characteristics of TSX-3225 enable the control system to operate efficiently and accurately.