ON Semiconductor MC100EL58DR2G - Differential 2:1 Multiplexer

The MC100EL58DR2G is a high-performance differential 2:1 multiplexer designed by ON Semiconductor, a leading provider of semiconductor-based solutions. This device is part of the ECLinPS MAX™ family, which is renowned for its exceptional speed and reliability in data transmission applications.

Key Features

• High-Speed Performance: The MC100EL58DR2G offers a typical propagation delay of 175 ps, making it an ideal solution for high-speed data routing and switching applications.
• Differential Design: The differential nature of the inputs and outputs provides improved noise immunity and allows for the use of this multiplexer in environments with higher levels of electrical interference.
• PECL Mode Operation: Designed to operate in PECL mode, the device requires a negative supply voltage, typically ranging from -4.2 V to -5.7 V.
• Low Power Consumption: With a typical power consumption of just 45 mW, this multiplexer is an energy-efficient choice for system designs.
• Extended Temperature Range: The MC100EL58DR2G is designed to perform reliably over an extended industrial temperature range of -40°C to +85°C, ensuring stable operation in harsh conditions.

Applications

The versatility of the MC100EL58DR2G makes it suitable for a wide range of applications, including:

• High-speed data communication and processing
• Automated test equipment (ATE)
• Signal routing in telecommunications
• Add/drop multiplexers
• High-frequency clock division

Product Specifications

The MC100EL58DR2G is offered in an 8-SOIC package, providing a compact footprint for space-constrained applications. It is also characterized by a 2:1 multiplexing capability, which allows one of two differential inputs to be selected for output via a single select input (SEL).

For designers and engineers looking for a reliable and efficient solution for their high-speed switching needs, the MC100EL58DR2G from ON Semiconductor is an excellent choice that combines performance, durability, and energy efficiency.