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Stable frequency guardian in EPSON crystal oscillator electronic devices

  • Aug 01,2024
  • 72 VIEWS

    With the continuous development and popularization of electronic technology, the application fields of crystal oscillators are also constantly expanding. From traditional household appliances to emerging fields such as the Internet of Things and wearable devices, crystal oscillators play an important role. It is expected that in the next few years, with the rapid development and popularization of 5G artificial intelligence and other technologies, the market demand for crystal oscillators will continue to grow. At the same time, with the continuous emergence of new materials and new processes, the performance of crystal oscillators will be further improved to meet the needs of more high-end application scenarios. Crystal oscillators have multiple sizes to choose from, including 121016122016252032225032 and 7050, which are suitable for different circuit designs and application needs. The frequency range of crystal oscillators is 6-60MHz (fundamental frequency). 40-200MHz (third harmonic).


    This wide frequency range makes quartz crystal resonators suitable for various circuits and application scenarios, with low equivalent series resistance: the equivalent series resistance of the crystal oscillator is between 40-160 Ω (maximum value). A lower equivalent series resistance helps reduce energy loss in the circuit and improve circuit efficiency. The average load capacitance of a passive crystal oscillator is 8-32pF. Appropriate load capacitance can help optimize circuit performance and improve circuit stability. The commonly used operating temperature range for passive crystal oscillators is -10 ° C~60 ° C, -20 ° C~70 ° C, and -40 ° C~85 ° C, which can adapt to various working environments. Common fields: Internet of Things (IoT), smart homes, smart communication, smart transportation, wearable devices, etc. These devices require precise time synchronization and frequency control of crystal oscillators to ensure data accuracy and real-time performance.

    In household appliances such as refrigerators, washing machines, and air conditioners, crystal oscillators are used to control the speed of motors, ensure the accuracy of timing functions, and achieve various intelligent control functions. In toys, audio and video devices, crystal oscillators are used to generate stable audio and video signals, ensuring the normal operation and image quality of the equipment. In the fields of servers and cloud computing, crystal oscillators are used to provide stable clock signals and time synchronization functions for data centers, ensuring the normal operation of various services and the security of data. In medical equipment, crystal oscillators are used to ensure the accuracy and reliability of various medical devices, such as electrocardiographs, blood pressure monitors, blood glucose meters, etc. Crystal oscillators are used in automotive and transportation systems to control the operation of various sensors and actuators, such as speedometers, tachometers, navigation systems, etc. In the future development, with the continuous progress of technology and the expansion of application fields, the crystal oscillator industry will usher in a broader market prospect and development space.