The SG-8002JC 64M is a programmable crystal oscillator from Epson Electronics America Inc-Semiconductor Div, designed to generate a stable clock signal at or near 64 MHz, depending on the specific programming. It is used in various electronic applications requiring precise timing.

Applications:

• High-speed data processing
• Networking equipment
• Microcontrollers
• FPGA clocking
• USB interfaces
• Graphics cards
• Test and measurement instruments

Features:

• Frequency: Approximately 64 MHz (programmable)
• Programmable frequency
• Supply Voltage: Typically 1.8V, 2.5V, or 3.3V (check datasheet for specific voltage range)
• Operating Temperature: Typically -40°C to +85°C (check datasheet for specific temperature range)
• Output Waveform: CMOS
• Excellent frequency stability
• Low jitter performance
• Compact package size
• RoHS compliant

Benefits:

• Provides a stable and accurate clock source for high-speed digital systems.
• Programmability allows customization of the frequency to meet specific application requirements.
• Low jitter minimizes timing errors and ensures data integrity.
• Small size enables easy integration into compact designs.
• Wide operating temperature range allows for reliable operation in various environments.

Additional Details:

The SG-8002JC series oscillators are known for their robust performance and reliability. Refer to the specific datasheet for the exact specifications of the 64MHz variant (the '64M' in the part number suggests a frequency around 64MHz, but the exact programmable range should be confirmed in the datasheet). The output waveform is typically CMOS, ensuring compatibility with a wide range of digital logic circuits. High frequency stability is crucial for maintaining accurate timing in demanding applications. Low jitter performance is vital for minimizing timing errors, particularly in high-speed data communication and processing. The compact package size makes it easy to integrate the oscillator onto densely populated circuit boards. The SG-8002JC series is widely used in applications requiring a precise and reliable clock source, such as in networking devices, high-speed microcontrollers, and FPGA systems. The programmable nature of the oscillator offers design flexibility for various application needs.