ON Semiconductor MC74VHC74DTR2G Dual D-Type Flip-Flop

The MC74VHC74DTR2G is a high-speed CMOS dual D-type flip-flop integrated circuit designed and manufactured by ON Semiconductor. This versatile component is known for its robust performance and reliability, making it an ideal choice for a wide range of digital applications. The device features two flip-flops with individual clear and clock inputs for each flip-flop, as well as outputs for both the normal and complement states.

Constructed with silicon gate CMOS technology, the MC74VHC74DTR2G offers superior speed performance while maintaining a low power consumption profile. It operates with a wide voltage range from 2V to 5.5V, which allows it to be used in various logic systems and makes it compatible with TTL levels. This dual D-type flip-flop is capable of driving up to 8 LSTTL loads, providing ample drive capability for most applications.

The MC74VHC74DTR2G is characterized by its fast switching speeds and high noise immunity, ensuring reliable operation even in environments with significant electrical noise. The device's inputs include hysteresis, which increases its tolerance to slower input rise and fall times, further enhancing its performance in less-than-ideal conditions.

ON Semiconductor's MC74VHC74DTR2G comes in a TSSOP-14 package, which is suitable for surface-mount technology (SMT) and is designed for optimized board space efficiency. This makes it an excellent choice for compact and dense circuit designs where space is at a premium.

Applications for this dual D-type flip-flop are diverse and include signal processing, data storage, registers, clocks, power management systems, and various other digital systems that require high-speed, low-power sequential logic. Its robust design and flexible operating characteristics make it a go-to component for engineers and designers looking to create reliable and efficient digital solutions.

With ON Semiconductor's commitment to quality, the MC74VHC74DTR2G is a product that delivers consistent performance and is engineered to meet the stringent requirements of modern electronic systems.