ON Semiconductor MC10H176MEL - High-Performance ECL Presettable Counter

The ON Semiconductor MC10H176MEL is a high-speed, master-slave, presettable counter designed for exceptional performance in Emitter Coupled Logic (ECL) applications. Built with advanced silicon-gate technology, this device is part of ON Semiconductor's 10H series of integrated circuits, which are well-known for their high-speed operation and reliability.

Key Features

• High-Speed Operation: The MC10H176MEL is capable of handling fast clock input frequencies, making it suitable for high-performance counting applications.
• Master-Slave Configuration: This design allows for synchronous internal operations, ensuring accurate and reliable counting.
• Presettable Counter: Users can preset the counter to any desired value, providing flexibility and control over the counting process.
• Asynchronous Reset: The device includes an asynchronous reset function, which allows the counter to be quickly set to zero without the need for a clock pulse.
• Single 5V Power Supply: The MC10H176MEL operates on a single 5V power supply, simplifying power management in system design.
• ECL 10K Compatible Outputs: The outputs are compatible with ECL 10K logic levels, ensuring easy integration into existing ECL systems.
• Temperature Range: The device is specified to operate over a full military temperature range, making it suitable for demanding environments.

Applications

The ON Semiconductor MC10H176MEL is ideal for use in a variety of high-speed digital systems, including:

• Frequency division and counting circuits
• High-speed timing applications
• Complex data processing systems
• Professional and military electronics

Quality and Reliability

ON Semiconductor is committed to delivering quality and reliability in all of its products. The MC10H176MEL is manufactured to the highest standards, ensuring consistent performance and longevity in the field. With ON Semiconductor's commitment to quality, customers can trust this ECL counter to meet their high-speed counting requirements with precision and dependability.