ON Semiconductor MC74LVX74DT Dual D-Type Flip-Flop

The MC74LVX74DT from ON Semiconductor is a high-performance, dual D-type flip-flop integrated circuit that is part of the low-voltage CMOS technology family. This device is designed to operate at a voltage range of 2.0V to 3.6V, making it an ideal choice for battery-operated and low-power applications. The MC74LVX74DT is characterized by its high speed and low power consumption, which are essential features for modern digital systems.

This integrated circuit features two independent D-type flip-flops with individual clear and preset inputs for each flip-flop. The flip-flops are positive-edge triggered, meaning that the logic state at the 'D' input is sampled at the rising edge of the clock input and then reflected at the output Q. The clear and preset inputs are active low and active high, respectively, which allows for asynchronous clearing or setting of the flip-flop.

The MC74LVX74DT is packaged in a TSSOP-14 (Thin Shrink Small Outline Package) which is suitable for surface-mount technology (SMT). Its compact form factor helps in saving valuable board space in dense circuit designs. The device also features low static and dynamic power consumption, further conserving energy in the system.

ON Semiconductor has designed the MC74LVX74DT with multiple protections to ensure reliable operation. It has input and output over-voltage tolerance, allowing the device to interface with 5V logic levels without additional components. Moreover, the device is equipped with high drive capability, providing improved signal integrity by driving capacitive loads.

The MC74LVX74DT is commonly used in a variety of digital applications, including data storage, data transfer, counters, and control circuits. Its fast switching capabilities and robust performance make it a versatile component in both commercial and industrial environments.

With its combination of low power, high speed, and compact packaging, the MC74LVX74DT from ON Semiconductor is an excellent choice for designers looking to implement efficient and reliable flip-flops in their digital logic designs.