ON Semiconductor MC100EL32D - 5V ECL ÷2 Divider

The MC100EL32D is a high-performance, integrated device from ON Semiconductor, designed to operate as a ÷2 divider within the ECLinPS™ product family. This product is crafted to deliver precision and speed, making it an ideal choice for applications requiring fast edge rates and low skew rates. The MC100EL32D is a differential ÷2 divider, which means it can divide the frequency of a differential input signal by two, an essential function in various digital and communication systems.

Constructed with advanced Bipolar technology, the MC100EL32D offers a robust feature set. It operates with a 5V power supply, providing compatibility with standard ECL operating voltages. The device boasts a fully differential clock path, which minimizes the input clock duty cycle distortion. This feature is particularly important for maintaining signal integrity in high-speed applications.

The device's high bandwidth and low output skew make it a perfect match for frequency division in PLL circuits, clock distribution networks, and high-speed digital systems. The MC100EL32D is designed to interface with other ECL, PECL, or LVPECL components seamlessly, offering a versatile solution for system design enhancements.

Key features of the MC100EL32D include:

• High-speed ÷2 operation
• Fully differential clock paths
• Internal 75 kΩ input pull-down resistors
• High bandwidth output transitions
• Available in an 8-lead SOIC package
• Industrial temperature range: -40°C to +85°C
• ESD protection: Human Body Model, ≥ 2 kV

The MC100EL32D is housed in a compact 8-lead SOIC package, providing a space-saving solution without compromising performance. Its industrial temperature range ensures reliable operation under various environmental conditions, making it suitable for deployment in a wide range of industrial and commercial applications.

Whether used in clock generation systems, high-speed data communication protocols, or digital signal processing, the ON Semiconductor MC100EL32D delivers the reliability and performance needed to meet the stringent requirements of modern electronic systems.