ON Semiconductor MC100EP451MNG Overview

The MC100EP451MNG is a high-performance, fully differential clock/data driver manufactured by ON Semiconductor, a leading provider of semiconductor-based solutions. This device is part of the ECLinPS MAX™ family of products, designed to deliver exceptional speed and signal integrity in demanding applications. The MC100EP451MNG is engineered to address the needs of advanced communication systems, high-speed networking, and data processing equipment, where reliable and fast data transmission is crucial.

The device features a fully differential ECL (Emitter Coupled Logic) to CML (Current Mode Logic) translator with differential data inputs and outputs, which ensures minimal signal skew and provides robust noise immunity. The MC100EP451MNG operates with a supply voltage of 3.3V ± 5% or 5V ± 10%, providing flexibility for different system voltages and compatibility with a variety of logic standards.

The MC100EP451MNG boasts a maximum frequency of operation exceeding 3.0 GHz, making it suitable for high-speed clock distribution and data transmission applications. With a propagation delay of typically 170 ps and an output rise and fall time of approximately 100 ps, the device is optimized for rapid signal processing and minimal latency.

Key Features

• High-speed fully differential clock/data driver
• Maximum frequency > 3.0 GHz
• Typical propagation delay: 170 ps
• Output rise and fall times: ~100 ps
• 3.3V ± 5% or 5V ± 10% supply voltage operation
• Differential ECL to CML level translation
• Minimal signal skew for improved signal integrity
• Pb-Free, RoHS compliant, and 32-lead QFN package

The MC100EP451MNG is housed in a compact 32-lead QFN package, which conserves space on printed circuit boards without sacrificing performance. This product is also Pb-Free and RoHS compliant, ensuring it meets modern environmental standards for electronic components. Whether used in data centers, telecommunications, or high-speed computing, the MC100EP451MNG from ON Semiconductor provides the speed and reliability required for state-of-the-art electronic systems.