The SG-9001JC10.000000MHZ is a crystal oscillator manufactured by Epson Electronics America Inc-Semiconductor Div. This oscillator is designed to generate a highly stable and accurate clock signal at a frequency of 10.000000 MHz. It's a crucial component in various electronic devices requiring precise timing and synchronization.

Applications

• Microcontrollers and microprocessors clock sources
• Real-time clocks (RTC)
• Communication equipment (e.g., Ethernet, USB)
• GPS devices
• Industrial control systems

Features

• Stable and accurate 10.000000 MHz output frequency
• Low jitter and phase noise
• Small form factor
• Low power consumption
• Surface Mount Device (SMD) package

Benefits

• Precise timing for reliable system operation
• Improved system performance and stability
• Reduced timing errors in data transmission
• Easy integration into electronic circuits
• Compact design for space-saving applications

Crystal oscillators, like the SG-9001JC10.000000MHZ, offer superior frequency stability compared to other types of oscillators. This is essential for applications where accurate timing is critical. The low jitter and phase noise characteristics of this oscillator ensure a clean clock signal, minimizing timing errors and improving overall system performance. It is commonly used as a clock source for microcontrollers and microprocessors, providing the timing reference for their operations. It's also utilized in real-time clocks (RTCs) to maintain accurate timekeeping, communication equipment to synchronize data transmission, GPS devices for accurate positioning, and industrial control systems for precise process control. The small form factor and surface mount package of the SG-9001JC10.000000MHZ make it easy to integrate into electronic circuits while minimizing board space. The devices are used in many of Epson's printers and other time sensitive devices.

The oscillator typically requires a stable power supply voltage (e.g., 3.3V or 5V). Refer to the manufacturer's datasheet for complete electrical, mechanical, and environmental specifications. Specific parameters to consider include frequency stability over temperature, operating voltage range, and output load characteristics.