Epson high-precision low jitter programmable crystal oscillator SG-8201CJA

In today's era of rapid digital development, electronic devices have increasingly stringent requirements for the accuracy and stability of clock signals. The Epson SG-8201CJA high-precision, low jitter programmable crystal oscillator has emerged, shining like a brilliant technological star in many fields, providing a solid and reliable foundation for the stable and efficient operation of various advanced electronic systems.

1、 Excellent technical indicators create extraordinary performance

The SG-8201CJA crystal oscillator has demonstrated remarkable strength in terms of technical parameters. Its output frequency range is wide, from 1.2MHz to 170MHz, which can flexibly adapt to the diverse clock frequency requirements of different electronic devices. Whether it is the basic control circuit in the low-frequency range or the high-speed data processing module in the high-frequency range, it can accurately control and provide just the right frequency support for every application scenario.

In terms of frequency accuracy, this crystal oscillator is a model. Within a wide temperature range of -40 ° C to+105 ° C, the frequency tolerance can be strictly controlled within ± 15 × 10 ⁻⁶; Even in the more extreme temperature range of -40 ° C to+125 ° C, the frequency tolerance can be maintained within ± 25 × 10 ⁻⁶ or ± 50 × 10 ⁻⁶. This excellent frequency stability ensures that electronic devices can consistently maintain accurate clock signals in various complex environments, effectively avoiding system failures or performance degradation caused by frequency drift, greatly improving system reliability and stability.

And the low jitter characteristic is a major highlight of SG-8201CJA. When the output frequency is 125MHz, the typical phase jitter is only 1.1ps. Such a low level of jitter has immeasurable value in applications that require high signal quality, such as high-speed data transmission and precision signal processing. It can minimize the bit error rate during signal transmission, ensure data integrity and accuracy, and enable electronic devices to complete various complex tasks with higher efficiency and better quality, such as high-speed data transmission and processing in communication base stations and obtaining more accurate measurement results in high-end measuring instruments.

2、 Powerful programmability to meet diverse needs

As a programmable crystal oscillator, SG-8201CJA brings unprecedented flexibility and convenience to engineers and developers. Through programming, users can easily adjust key parameters such as output frequency and phase of the crystal oscillator according to specific application requirements, achieving personalized customization of clock signals. This programmable feature not only greatly shortens the product development cycle, reduces the design complexity and cost increase caused by replacing different specifications of crystal oscillators, but also enables the same model of crystal oscillator to be widely used in various electronic devices and systems, greatly improving the universality and scalability of the product.

For example, in the development process of smart wearable devices, with the continuous iteration and upgrading of product functions, the requirements for clock frequency may also change. With the programmability of SG-820C1JA, developers do not need to redesign circuit boards or replace crystal oscillators. They can meet new frequency requirements through simple programming operations, accelerating product updates and quickly responding to market changes. Similarly, in the field of industrial automation control, different production equipment and process flows may require different clock signals. SG-8201CJA can easily meet these diverse needs, providing a unified and flexibly adjustable clock reference for the entire automated production line, ensuring precise and error free collaborative work between various devices.