The MC10173L from ON Semiconductor is a high-performance triple line receiver designed to satisfy the demanding needs of communication and instrumentation systems. This integrated circuit is part of ON Semiconductor's distinguished line of products that are renowned for their reliability and efficiency in processing digital signals.

Key Features

• Triple Line Receiver: The MC10173L integrates three independent line receivers into a single package, offering compact and efficient design possibilities.
• High-Speed Performance: Engineered for rapid signal processing, this device is capable of handling high-speed data transmission with ease, making it suitable for advanced communication systems.
• MECL 10K Series: As part of the MECL 10K series, this line receiver operates with enhanced speed and reduced power consumption, adhering to the stringent standards set for this family of products.
• Differential Inputs: Equipped with differential inputs, the MC10173L ensures improved noise immunity and signal integrity, which is crucial for maintaining the quality of data in noisy environments.
• Versatility: The device is versatile in its application and can be used in various digital systems, including but not limited to, data receivers, input/output ports, and bus-oriented systems.

Applications

The MC10173L is adept for use in a range of applications where signal integrity and processing speed are of the essence. Its typical applications include:

• High-speed data acquisition systems
• Telecommunications equipment
• Professional communication systems
• Instrumentation and control systems
• Computer networking

Technical Specifications

Below are some of the key technical specifications of the MC10173L:

• Supply Voltage Range: -4.94V to -5.46V
• Input Voltage Range: -0.5V to -5.5V
• Operating Temperature Range: 0°C to +75°C
• Package Type: PDIP-16

ON Semiconductor's commitment to quality ensures that the MC10173L triple line receiver is a reliable and efficient choice for designers looking to enhance the performance of their digital communication systems.