Product Overview: SEL3833B-156.2500

The SEL3833B-156.2500 is a state-of-the-art crystal oscillator module designed and manufactured by Diodes Incorporated, a leading global manufacturer and supplier of high-quality semiconductor products. This precision oscillator is part of the SEL3833 series and is specifically engineered to provide stable and reliable clock signals for a wide range of electronic applications.

Key Features

• Frequency: The SEL3833B-156.2500 operates at a fixed frequency of 156.2500 MHz, making it suitable for high-speed digital systems that require precise timing.
• Package: It comes in a compact, surface-mount package that is designed for easy integration into various circuit boards and electronic devices.
• Stability: The oscillator boasts excellent frequency stability, ensuring consistent performance over a range of environmental conditions, including temperature variations.
• Supply Voltage: Designed for versatility, it supports a supply voltage that is compatible with common industry standards, ensuring easy adoption into existing designs.
• Low Jitter: The SEL3833B-156.2500 is characterized by low phase jitter, which is critical for applications that demand high signal integrity, such as data communications and telecommunications.

Applications

This crystal oscillator is ideal for use in a variety of high-performance applications, including but not limited to network infrastructure, data centers, high-speed communication systems, and advanced computing platforms. Its reliability and precision also make it a perfect choice for industrial and medical equipment that requires accurate timing signals.

Quality and Reliability

Diodes Incorporated is committed to delivering products that meet the highest standards of quality and reliability. The SEL3833B-156.2500 is no exception, as it has undergone rigorous testing and quality assurance processes to ensure it meets the stringent requirements of the electronics industry. Customers can trust that this crystal oscillator will perform consistently and effectively in their critical applications.