The SiT5156AICFA-33VT-16.368000F is a highly accurate and stable MEMS-based oscillator from SiTime. This oscillator offers excellent frequency stability over a wide temperature range, making it suitable for applications demanding precise timing. It is programmable, allowing for flexible configuration of frequency and other parameters. The device is known for its robustness and reliability, even in harsh environments.

Applications:

• Networking equipment (routers, switches)
• Industrial automation systems
• Precision instrumentation
• GPS and navigation systems
• Automotive applications

Features:

• Excellent frequency stability: ±20 ppm over -40°C to +85°C
• Wide frequency range: Programmable from 1 MHz to 110 MHz
• Low power consumption
• Small package size
• Supply voltage: 3.3V
• LVCMOS output
• RoHS compliant

Benefits:

• High accuracy and reliability in timing applications
• Flexible configuration for various frequency requirements
• Extended battery life in portable devices due to low power consumption
• Reduced board space due to small package size
• Simplified integration with standard logic levels
• Environmentally friendly due to RoHS compliance
• Robust performance in harsh industrial and automotive environments.

Additional Details:

The SiT5156AICFA-33VT-16.368000F MEMS oscillator is designed for applications requiring tight frequency stability and low jitter. Its programmable nature allows users to tailor the output frequency to specific system requirements. The device's robust design ensures reliable performance in challenging environments, making it ideal for industrial and automotive applications. The oscillator's low power consumption contributes to energy efficiency in battery-powered devices. The device is available in a compact SMD package, facilitating easy integration into circuit boards. Its excellent phase noise performance makes it suitable for use in communication systems and other applications where signal integrity is crucial. The oscillator’s advanced MEMS technology offers superior performance and reliability compared to traditional quartz-based oscillators.