The SGFHEA3.6864 is a crystal oscillator manufactured by Vishay. It is a critical component used in various electronic circuits to provide a stable and accurate clock signal. Crystal oscillators are known for their high precision and stability, making them essential in applications where timing accuracy is paramount.

Applications:

• Microcontrollers and microprocessors: Providing the clock signal for processing operations.
• Communication equipment: Used in transceivers and network devices for precise timing in data transmission.
• Consumer electronics: Including mobile phones, tablets, and digital cameras, ensuring accurate operation of internal circuitry.
• Industrial control systems: Providing synchronization for automated processes and machinery.
• Test and measurement equipment: Used in signal generators, oscilloscopes, and frequency counters for accurate time-based measurements.

Features:

• High frequency stability: Maintains a consistent output frequency under varying conditions.
• Low phase noise: Minimizes unwanted noise components in the output signal.
• Compact size: Allows for integration into small form factor devices.
• Low power consumption: Reduces energy usage in battery-powered applications.
• Wide operating temperature range: Ensures reliable performance in diverse environmental conditions.

Benefits:

• Improved system performance: Stable clock signal enhances the reliability and accuracy of electronic devices.
• Reduced timing errors: High precision minimizes timing discrepancies in data processing and communication.
• Enhanced signal integrity: Low phase noise ensures a cleaner and more reliable signal.
• Extended battery life: Low power consumption prolongs the operational time of portable devices.
• Increased system robustness: Wide temperature range allows for use in harsh environments.

Technical Specifications (Typical):

The SGFHEA3.6864 typically operates at a frequency of 3.6864 MHz. It is often available in a surface-mount package. The frequency stability is usually specified in parts per million (PPM) over a certain temperature range. The operating voltage can vary, but is often 3.3V or 5V. Specific datasheets should be consulted for precise specifications, including load capacitance, aging characteristics, and output waveform details.