AD_MSG
HI_THERE!

POP_UP_MESSAGE_CONTENT

US_MESSAGE
SEND_MESSAGE
+86 13430584894

Epson programmable frequency display crystal oscillator SG-9101CG opens up infinite possibilities for electronic device innovation

  • Mar 11,2025
  • 11 VIEWS

In today's rapidly developing electronic devices, the volume of electronic products is shrinking while the functions are becoming more diverse. Electronic devices are constantly pursuing high performance and low interference, and the stability of clock signals and electromagnetic compatibility (EMC) have become core challenges in design. Epson's programmable spread spectrum crystal oscillator SG-9101CG, with its high performance, flexibility, and compact design, has brought infinite possibilities for the development of electronic devices. It not only meets the demand for high-performance crystal oscillators in existing application scenarios, but also provides a solid foundation for future technological innovation. It is becoming an innovative engine in fields such as industrial automation, the Internet of Things, and automotive electronics, unlocking infinite possibilities for engineers.


This crystal oscillator supports a wide frequency range from 0.67MHz to 170MHz, with very flexible adjustment. The SG-9101CG is equipped with a high stability active crystal oscillator, combined with PLL technology and programming tool SG Writer II. Users can quickly adjust the frequency division/doubling parameters to achieve custom configuration of frequency range from 0.67MHz to 170MHz, with an expansion ratio coverage of ± 0.25% to ± 4%. Meet the diverse needs of different electronic devices. Engineers can complete the burning process in just a few minutes, quickly respond to sample requirements, and significantly shorten the development cycle.


Electromagnetic interference (EMI) is a major challenge faced by electronic devices, which can lead to performance degradation, unstable signal transmission, and other issues. SG-9101CG adopts advanced spread spectrum technology, which modulates the frequency of the clock signal to disperse energy over a wide frequency range, effectively reducing electromagnetic interference. In the field of automotive electronics, there are numerous electronic devices inside the car, such as engine control units (ECUs), in car entertainment systems, navigation systems, etc., which generate complex electromagnetic environments during operation. The application of SG-9101CG in these devices can reduce electromagnetic interference between devices and ensure stable operation of various systems. When playing high-definition videos in the car entertainment system, there will be no screen lag or sound distortion caused by electromagnetic interference from other devices; The navigation system can also accurately provide navigation information to drivers in a stable electromagnetic environment, improving driving safety and comfort.


Signal jitter can affect the accuracy and stability of data transmission in electronic devices, and SG-9101CG performs well in low jitter performance. It can provide stable and pure clock signals for devices, ensuring the accuracy of data transmission and processing. In communication devices such as 5G base stations and routers, high-speed data transmission requires extremely high stability of clock signals. The low jitter characteristics of SG-9101CG enable 5G base stations to quickly and accurately process and transmit large amounts of data, reducing data transmission latency and error rates.


Electronic devices may operate at various environmental temperatures, and SG-9101CG has excellent adaptability over a wide temperature range, capable of stable operation within the temperature range of -40 ℃ to+85 ℃. In the field of industrial automation, industrial equipment often needs to work in high-temperature factory workshops or low-temperature outdoor environments. SG-9101CG, as a clock source for industrial equipment, can provide stable clock signals for equipment in both hot summer and cold winter, ensuring the normal operation of automated production lines. In high temperature environments, it will not experience frequency drift or performance degradation due to excessive temperature; In low-temperature environments, it can quickly start and maintain stable operation, providing guarantees for the continuity and reliability of industrial production.


The Epson programmable spread spectrum crystal oscillator SG-9101CG, with its unique characteristics, has brought infinite possibilities for the development of electronic devices. It not only meets the demand for high-performance crystal oscillators in existing application scenarios, but also provides a solid foundation for future technological innovation. Whether it is improving device performance, reducing electromagnetic interference, or dealing with complex environments, SG-9101CG has demonstrated outstanding capabilities.