The SiTime SIT1602BI-82-33N-25.000000Y is a MEMS-based oscillator designed to provide a stable and accurate clock signal for electronic devices. SiTime is a leading manufacturer of silicon MEMS timing solutions, known for their reliability and performance.

Applications

• Microcontrollers
• FPGAs (Field-Programmable Gate Arrays)
• Networking equipment
• Consumer electronics
• Industrial control systems

Features

• MEMS resonator technology
• Low power consumption
• High frequency stability
• Wide operating voltage range
• Small package size
• Excellent shock and vibration resistance

Benefits

• Provides a reliable and accurate clock signal for critical timing applications
• Reduces power consumption, extending battery life in portable devices
• Ensures stable operation over a wide range of temperatures and voltages
• Saves board space
• Withstands harsh environmental conditions

Additional Details

The SIT1602BI-82-33N-25.000000Y utilizes MEMS (Micro-Electro-Mechanical Systems) resonator technology, which provides superior performance and reliability compared to traditional quartz crystal oscillators. Its low power consumption makes it suitable for battery-powered and energy-efficient applications. The high frequency stability ensures accurate timing across varying temperature and voltage conditions. The oscillator operates over a wide voltage range, providing flexibility in system design. Its small package size saves valuable board space. Excellent shock and vibration resistance make it suitable for use in harsh environments. The specific frequency is 25.000000 MHz, as indicated by the part number suffix. The operating temperature range and voltage range are specified in the datasheet. The oscillator is typically available in a small surface-mount package. It’s programmed for specific frequencies and operating characteristics during the manufacturing process.

The SiTime SIT1602BI-82-33N-25.000000Y offers a reliable and high-performance timing solution. Its MEMS technology, low power consumption, and excellent stability make it suitable for a variety of applications, especially where accuracy, small size, and robustness are critical.