The SiT8102AC-24-33E-133.33300Y is a programmable oscillator from SiTime. It is designed to provide a precise and stable clock signal for various electronic applications. This oscillator is known for its high frequency stability, low jitter, and programmability, allowing designers to customize the output frequency to meet specific system requirements.

Applications:

• Networking equipment: Routers, switches, and servers.
• Data centers: Storage devices and high-performance computing.
• Industrial automation: Control systems and robotics.
• Consumer electronics: Audio and video equipment.
• Medical devices: Diagnostic equipment and patient monitoring systems.

Features:

• Programmable frequency: Allows for customization of the output frequency.
• High frequency stability: Ensures accurate and reliable clock signal.
• Low jitter: Minimizes phase noise and timing errors.
• Wide supply voltage range: Operates from 2.25V to 3.63V.
• Small package size: Allows for use in space-constrained applications.

Benefits:

• Improved system performance: Provides a stable and accurate clock signal.
• Increased design flexibility: Allows for customization of the output frequency.
• Reduced EMI emissions: Minimizes electromagnetic interference.
• Simplified design: Easy to integrate into existing systems.
• Enhanced reliability: Provides stable and dependable performance.

Specifications:

The SiT8102AC-24-33E-133.33300Y has a frequency of 133.333 MHz. The frequency stability is typically ±20 ppm. The supply voltage range is from 2.25V to 3.63V. The operating temperature range is typically from -40°C to +85°C. It is available in a 2.5 x 2.0 mm package. SiTime oscillators are known for their resistance to shock and vibration.

This programmable oscillator is a versatile and reliable component for a wide range of timing applications. Its high frequency stability, low jitter, and programmability make it a popular choice for demanding environments. The robust design and comprehensive documentation ensure that it can be easily integrated into various systems.