ON Semiconductor MC10EL52D: Differential Clock Data Receiver

The MC10EL52D from ON Semiconductor is a high-performance, integrated circuit specifically designed for clock and data signal reception. This differential clock data receiver is part of ON Semiconductor's 5V ECL logic family, which is renowned for its high-speed operation and reliability in demanding applications.

This device features a differential line receiver that translates PECL (Positive Emitter Coupled Logic) levels to NECL (Negative Emitter Coupled Logic) levels, making it an ideal choice for interfacing with high-speed logic signals. The MC10EL52D operates with a supply voltage of 5V ±5%, ensuring compatibility with a wide range of electronic components and systems.

The MC10EL52D boasts a minimum pulse width of 150 ps and a propagation delay of just 1 ns, providing the swift response times necessary for today’s high-speed digital communications and signal processing applications. The device is housed in an 8-pin SOIC package, which offers a compact footprint while still providing excellent thermal performance and ease of integration into existing designs.

With its differential input structure, the MC10EL52D provides improved noise immunity, which is crucial for maintaining signal integrity in noisy environments or over long distances. This feature makes the device particularly suitable for telecommunications, data communications, and high-speed computing applications where maintaining signal fidelity is paramount.

Moreover, the MC10EL52D is characterized for operation from -40°C to +85°C, ensuring reliable performance across a wide range of environmental conditions. This temperature range, combined with ON Semiconductor's commitment to quality, makes the MC10EL52D a trusted choice for engineers and designers looking to incorporate a robust differential clock data receiver into their systems.

In summary, the ON Semiconductor MC10EL52D is a versatile, high-speed differential clock data receiver that offers excellent signal integrity, low propagation delay, and robust performance, making it an ideal component for a variety of high-speed digital applications.