ON Semiconductor MC10H680FN: A High-Performance ECL Counter/Divider

The MC10H680FN is a sophisticated integrated circuit produced by ON Semiconductor, renowned for its high-speed and reliable performance in a variety of applications. This device is part of the 10H series and is designed to operate with Emitter Coupled Logic (ECL) levels, making it ideal for systems that require fast switching and low power dissipation.

Key Features

• High-Speed Operation: The MC10H680FN is capable of handling clock frequencies up to GHz range, providing the speed necessary for high-performance computing, telecommunications, and other demanding applications.
• Configurable Counter/Divider: This device can be configured as a 4-bit counter or a 3-bit counter with a divide-by-8 latch, offering versatility in its use for various counting and dividing tasks.
• ASYNCHRONOUS Master Reset: The inclusion of an asynchronous master reset allows the counter to be quickly and easily reset without the need for synchronization to the clock signal, enhancing its usability in systems that require rapid initialization or recovery.
• Differential ECL Outputs: The differential outputs provide improved noise immunity and allow for longer transmission lines without signal degradation, which is critical in maintaining signal integrity in complex electronic systems.
• Power Supply Options: The MC10H680FN is designed to work with a standard ECL power supply voltage of -5.2V, ensuring compatibility with existing ECL-based systems and simplifying power management.

Applications

The versatility and high-speed performance of the MC10H680FN make it suitable for a wide range of applications, including:

• High-speed computing and data processing
• Telecommunications and network equipment
• Instrumentation and test equipment
• Industrial control systems
• Precision timing circuits

In conclusion, the MC10H680FN from ON Semiconductor is a reliable and high-speed counter/divider that offers a combination of performance, versatility, and ease of use for engineers looking to integrate counting and dividing functionality into their ECL-based systems.