ON Semiconductor MC10H173FN: A Versatile Triple D-Type Flip-Flop

The MC10H173FN is a high-performance integrated circuit from ON Semiconductor, designed to meet the demanding needs of advanced digital systems. This triple D-type flip-flop is part of ON Semiconductor's MC10 series, which is renowned for its exceptional speed and reliability in a variety of applications, including telecommunications, computing, and industrial automation.

Constructed using ON Semiconductor's advanced ECLinPS (Emitter Coupled Logic in PicoSeconds) technology, the MC10H173FN offers rapid propagation delay times and high-frequency operation, making it an excellent choice for high-speed data processing and clock management tasks. The device is packaged in a 20-lead PLCC (Plastic Leaded Chip Carrier), which provides a compact footprint while ensuring robust physical protection and ease of integration into a variety of circuit designs.

The MC10H173FN features three D-type flip-flops with set/reset capabilities, allowing designers to implement synchronous or asynchronous control as required by their specific application. Each flip-flop has independent inputs for data (D), clock (CLK), set (S), and reset (R), along with complementary outputs (Q and Q\), providing flexibility in signal routing and logic design.

Key specifications of the MC10H173FN include:

• Supply Voltage Range: -4.94 V to -5.46 V
• Propagation Delay (t_pd): Typically 1.0 ns
• Operating Temperature Range: 0°C to +75°C
• Power Dissipation: Typically 725 mW

Additionally, the MC10H173FN supports fully differential clocking, which enhances noise immunity and allows for precise timing control. This feature is particularly useful in environments with high electrical noise or when exact timing is crucial for the performance of the system.

Overall, the MC10H173FN from ON Semiconductor is a robust and versatile component that provides designers with the high-speed, reliable performance required for modern digital systems. Its advanced features and specifications make it a key building block for applications requiring fast data throughput and precise timing control.