The EN1011C1, manufactured by Ecliptek Corporation, is a crystal oscillator designed to provide a stable and accurate clock signal for various electronic applications. This oscillator is known for its low jitter, high stability, and wide operating temperature range, making it suitable for use in communication equipment, microcontrollers, and other precision timing applications.

Applications:

• Microcontrollers
• Communication Equipment
• Network Devices
• Industrial Control Systems
• Test and Measurement Equipment

Features:

• Crystal Oscillator: Provides a stable and accurate clock signal.
• Low Jitter: Minimizes timing variations for precise operation.
• High Stability: Maintains frequency accuracy over a wide temperature range.
• Wide Operating Temperature Range: Suitable for use in harsh environments.
• SMD Package: Allows for easy surface mount assembly.
• 3.3V Supply Voltage: Compatible with standard logic levels.

Benefits:

• Precise Timing: Ensures accurate and reliable operation of electronic circuits.
• Reduced System Noise: Low jitter minimizes timing variations and noise.
• Stable Performance: Maintains frequency accuracy over temperature variations.
• Easy Assembly: SMD package simplifies the manufacturing process.
• Reliable Operation: Designed for long-term reliability and stability.
• Cost-Effective Solution: Provides a high-performance timing solution at a competitive price.

Additional Details:

The EN1011C1 crystal oscillator utilizes a quartz crystal to generate a stable and accurate clock signal. The low jitter characteristic minimizes timing variations, which is crucial for high-speed data communication and precision timing applications. The high stability ensures that the oscillator maintains its frequency accuracy over a wide temperature range, making it suitable for use in harsh environments.

The SMD package allows for easy surface mount assembly, reducing manufacturing costs and improving reliability. The 3.3V supply voltage is compatible with standard logic levels, simplifying integration into existing systems. The specific technical specifications include details on the frequency stability, the jitter performance, and the operating temperature range. It is designed to meet the rigorous requirements of various electronic applications, delivering a balance of performance, reliability, and cost-effectiveness.