ON Semiconductor MC10E155FNR2: 5V ECL 5-Bit Differential Line Receiver

The ON Semiconductor MC10E155FNR2 is a high-performance, 5-bit differential line receiver designed for system applications requiring high speed and low power consumption. Crafted for use in systems that demand robust noise immunity and fast signal propagation, this integrated circuit is an ideal solution for telecommunications, data communications, and high-speed computing environments.

Key Features:

• Technology: The MC10E155FNR2 utilizes advanced emitter-coupled logic (ECL) technology, ensuring rapid signal processing with minimal propagation delays.
• Voltage Operation: It operates at a 5V power supply, which is compatible with various industrial standards and offers a convenient interface with other 5V ECL logic family components.
• High Speed: This line receiver boasts a typical propagation delay of just 1.1 ns, making it suitable for high-speed applications that require efficient data transmission.
• Differential Inputs: The device features differential line inputs, providing increased noise immunity and allowing for the reception of low amplitude signals over long distances without signal degradation.
• Multiple Outputs: The MC10E155FNR2 offers both true and complementary outputs for each of the five bits, enhancing design flexibility and ease of integration into various digital systems.
• Package: Housed in a 28-lead PLCC (Plastic Leaded Chip Carrier) package, this line receiver ensures a compact footprint and is suitable for surface-mount technology (SMT) assembly processes.

Applications:

The versatile nature of the MC10E155FNR2 allows it to be used across a wide range of applications. It is particularly well-suited for:

• High-speed data transmission systems
• Telecommunication infrastructure
• Fiber optic receivers
• Backplane data communication
• Automated test equipment (ATE)

With its combination of high-speed operation, differential inputs, and low power consumption, the ON Semiconductor MC10E155FNR2 is a reliable choice for designers looking to optimize their high-speed digital systems.