ON Semiconductor 74LVX74M Dual D-Type Positive Edge-Triggered Flip-Flop

The 74LVX74M from ON Semiconductor is a high-performance, dual D-type positive edge-triggered flip-flop integrated circuit designed for use in a wide range of digital applications. This device is part of the low-voltage CMOS technology family, offering a robust solution for functions such as data storage, data transfer, and signal synchronization.

The 74LVX74M features two independent flip-flops with individual clear and set inputs for each flip-flop. These inputs allow for greater flexibility in control operations, making the device suitable for implementing buffer registers, shift registers, and state machines. The clear and set inputs are asynchronous, ensuring that the flip-flops can be reset or preset independently of the clock signals, allowing for immediate response in critical control applications.

With its low-voltage operation ranging from 2.0V to 3.6V, the 74LVX74M provides a low-power solution that is compatible with TTL levels, making it a versatile choice for interfacing with both 3.3V and 5V systems. This feature is particularly beneficial in mixed-voltage environments where power efficiency and logic level compatibility are essential.

Performance is a key attribute of the 74LVX74M, delivering high-speed operation with a typical clock frequency of 160 MHz at 3.3V. This speed is complemented by the balanced propagation delays and transition times, which contribute to the reliable and predictable performance of the device in high-speed applications.

The 74LVX74M is provided in a compact SOIC-14 package, ensuring a minimal footprint on printed circuit boards and making it an ideal choice for space-constrained applications. The device also features a robust industrial operating temperature range from -40°C to +85°C, ensuring reliable operation in diverse environmental conditions.

In summary, ON Semiconductor's 74LVX74M is a highly functional and efficient solution for digital systems requiring edge-triggered flip-flops. Its low-power operation, high-speed performance, and flexible control inputs make it a superior choice for designers looking to optimize their digital logic designs.