SN74LVTH16373GRDR - 16-Bit Transparent D-Type Latches with 3-State Outputs

The SN74LVTH16373GRDR is a high-performance integrated circuit designed and manufactured by Texas Instruments (TI), a leader in the semiconductor industry. This product belongs to the SN74 family, which is well-known for its robustness and reliability in a variety of electronic applications.

At the heart of the SN74LVTH16373GRDR are 16-bit transparent D-type latches, which are capable of storing data temporarily. Each latch is equipped with a 3-state output that can be either high, low, or in a high impedance state. This feature allows for the connection of multiple devices to a common bus without interference, making it an ideal choice for bus-oriented systems.

The device operates with a 3.3V power supply but is 5V tolerant, ensuring compatibility with mixed-voltage systems and providing a bridge in multi-voltage applications. The SN74LVTH16373GRDR is designed with a low-voltage, high-speed (LVTH) technology that offers a reduced power consumption without compromising on speed, which is crucial for energy-sensitive designs.

Furthermore, the SN74LVTH16373GRDR offers a wide operating temperature range, typically from -40°C to 85°C, allowing its use in environments that experience extreme temperature variations. Its performance is characterized by fast switching times, with a typical propagation delay time of only 3.8 ns, providing quick response times for high-speed data processing tasks.

The device comes in a 48-pin Thin Shrink Small-Outline Package (TSSOP), designated by the "GRDR" suffix in its part number. This compact form factor is suitable for space-constrained applications while ensuring robustness and ease of soldering on printed circuit boards.

In summary, the SN74LVTH16373GRDR from Texas Instruments is a versatile and efficient solution for data storage and bus management in digital systems. Its high-speed performance, low power consumption, and 3-state outputs make it an excellent choice for designers looking to optimize their digital logic operations.