The MC10H016FN from ON Semiconductor is a high-performance, presettable binary counter designed to operate with a 5V power supply. This advanced integrated circuit is part of the 10H series, which is renowned for its high-speed emitter coupled logic (ECL) technology. The MC10H016FN is specifically engineered to address applications that demand fast counting operations and precise timing control, making it an ideal choice for telecommunications, computing, and industrial automation systems.

This versatile counter features a fully synchronous presettable counter design, which allows for the parallel loading of data. It can be programmed to count in binary or other complex counting sequences, providing designers with flexibility in various applications. The device's high-speed operation is complemented by a direct clear function, which quickly resets the count to zero, ensuring swift response times and increased efficiency in time-critical tasks.

The MC10H016FN comes in a compact and robust flat pack (FN) package, which ensures reliable performance even in space-constrained applications. Its ECL logic levels translate to minimal signal distortion and reduced propagation delay, which is crucial for high-speed digital circuits. The counter's differential outputs provide improved noise immunity, making the device highly resistant to electrical interference and suitable for use in electrically noisy environments.

Key features of the MC10H016FN include:

• High-speed ECL technology
• Presettable counter for flexible counting sequences
• Direct clear input for rapid count resetting
• Differential PECL outputs for enhanced noise immunity
• 5V power supply operation
• Robust flat pack packaging for space-saving installation

ON Semiconductor's commitment to quality and reliability is evident in the MC10H016FN, which is built to meet the stringent requirements of high-speed digital applications. Whether it's used in data processing, instrumentation, or control systems, this ECL binary counter is designed to deliver precision and speed, enhancing the overall performance of your electronic systems.