The SiT8208AI-3F-33E-25.000000 is a MEMS (Micro-Electro-Mechanical Systems) oscillator manufactured by SiTime. This oscillator offers a precise and stable 25.000000 MHz clock signal while providing excellent resistance to shock, vibration, and temperature variations. It is designed as a drop-in replacement for traditional quartz crystal oscillators, offering superior performance and reliability in harsh environments.

Applications

• Industrial automation
• Avionics systems
• Automotive electronics
• Military and aerospace
• High-reliability embedded systems
• Networking equipment

Features

• 25.000000 MHz output frequency
• MEMS technology for high reliability
• Excellent frequency stability
• High shock and vibration resistance
• Wide operating temperature range
• 3.3V supply voltage
• Low power consumption

Benefits

• Provides a precise and stable clock signal in demanding environments
• Offers superior reliability compared to quartz crystal oscillators
• Ensures accurate timing for critical applications
• Maintains performance under shock and vibration conditions
• Suitable for use in a variety of environments
• Compatible with common microcontroller and microprocessor supply voltages
• Minimizes power consumption in battery-powered applications

Additional Details

The SiT8208AI-3F-33E-25.000000 is designed for use with a 3.3V power supply. It utilizes MEMS technology to achieve high frequency stability and excellent resistance to shock and vibration. The oscillator maintains its performance over a wide operating temperature range, typically from -40°C to +85°C or even wider depending on the specific grade. The MEMS resonator is inherently less susceptible to damage from mechanical stress compared to quartz crystals. The low power consumption makes it suitable for battery-powered and energy-sensitive applications. It's often used in high-reliability embedded systems where consistent and accurate timing is critical. The device is available in various package options, including small surface-mount packages. It meets stringent industry standards for shock, vibration, and temperature performance. The output signal is typically CMOS compatible. The device is RoHS compliant, ensuring environmental friendliness. It is a highly reliable and robust alternative to traditional quartz crystal oscillators, offering enhanced performance in challenging environments.