ON Semiconductor 74LVT16374MEAX: High-Performance 3.3V CMOS 16-Bit Edge-Triggered D-Type Flip-Flop

The 74LVT16374MEAX is a high-speed, low-power 16-bit edge-triggered D-type flip-flop integrated circuit from ON Semiconductor, designed for use in applications that require the capture and storage of digital data. Built on advanced 3.3V CMOS technology, this device is optimized for leading-edge performance in a wide range of operating conditions.

Featuring 16 D-type flip-flops, the 74LVT16374MEAX captures data on the rising edge of the clock signal, ensuring precise timing and synchronization in digital systems. Each flip-flop has individual clear and data inputs, as well as outputs, which allows for flexible use in various configurations, such as registers, counters, and memory devices.

The device operates with a 3.3V power supply, making it compatible with low-voltage systems while also providing 5V tolerant inputs, which allows for interface with both 3.3V and 5V logic levels without the need for external components. This feature is particularly useful for mixed-voltage systems and for upgrading existing designs that require interfacing with newer technology.

The 74LVT16374MEAX comes in a 48-pin SSOP package, ensuring a compact footprint suitable for space-constrained applications. The small size, combined with the high level of integration, reduces board space requirements and simplifies design complexity.

With its low power consumption and fast propagation delays, this device is ideal for high-performance computing, telecommunications, and networking equipment where speed and power efficiency are critical. The ON Semiconductor commitment to quality ensures that the 74LVT16374MEAX meets the stringent requirements of industrial and commercial applications, providing reliable operation even under harsh conditions.

Overall, the 74LVT16374MEAX is a versatile and reliable component that offers designers a balance of speed, power, and integration, making it an excellent choice for a broad range of digital logic applications.