Epson Programmable Crystal Oscillator SG-8200CG

    The SG-8200CG crystal oscillator adopts advanced MEMS technology, which has extremely high frequency accuracy and stability. Its frequency range covers a wide range and can meet various application needs from consumer electronics to industrial equipment. Whether in harsh industrial environments or precision medical equipment, SG-8200CG can provide reliable clock signals to ensure the normal operation of the system. The operating frequency range of SG-8200CG is 1.2 MHz to 170 MHz, and the power supply voltage is between 1.62 V and 3.63 V. It supports output enable (OE/OE) or standby (ST/ST) functions and has a frequency tolerance of ± 50 x 10 ^ -6, capable of operating in the temperature range of -40 ° C to+125 ° C. In addition, the typical phase jitter of the crystal oscillator is 1.1 ps (when fo=125 MHz), indicating that it can still maintain extremely high time accuracy at high frequencies.

    The SG-8200CG supports programmable functionality, allowing it to be adjusted according to specific application requirements. Users can easily set the desired output frequency through dedicated programming tools, simplifying the development process and improving design flexibility and efficiency. This flexibility not only saves development time, but also reduces the complexity of inventory management, making production more efficient.

    In modern electronic devices, power consumption has always been an important consideration. The SG-8200CG adopts a low-power design, suitable for devices that require long-term operation and high energy consumption requirements. In addition, its excellent vibration and impact resistance performance ensures stable operation in harsh environments. This high reliability makes SG-8200CG the preferred choice in critical application scenarios.

    Thanks to its excellent performance and flexible characteristics, SG-8200CG has been widely used in multiple fields. In communication equipment, it provides a highly stable clock signal to ensure the accuracy and reliability of data transmission; In consumer electronics, it provides precise time benchmarks for various smart devices; In the field of industrial automation, it helps equipment achieve precise synchronization and improve production efficiency.