SN74LV373ATNS Product Overview

The SN74LV373ATNS is an octal transparent D-type latch designed and manufactured by Texas Instruments, a leader in semiconductor solutions. This advanced integrated circuit is part of the 74LV family, which operates at a lower voltage range for optimized power consumption and compatibility with modern microcontroller logic levels.

Key Features

• Logic Type: Octal Transparent D-type Latches with 3-state outputs
• Logic Level: Low-Voltage, which supports 2V to 5.5V VCC operation
• Package: Supplied in a Thin Shrink Small-Outline Package (TSSOP), making it suitable for space-constrained applications
• Pin Count: 20-pin configuration for broad compatibility with standard sockets and PCB layouts
• Output Drive Capability: Capable of driving up to 5.5V (max) on the output, allowing for interfacing with various types of digital circuits
• Performance: Fast propagation delays and output transition times for high-speed operation

Applications

The SN74LV373ATNS is versatile and can be used in a wide range of applications, including:

• Temporary data storage
• Data multiplexing
• System address latching
• Memory address latching
• Implementation of buffer registers

Quality and Reliability

Texas Instruments is renowned for its commitment to quality and reliability. The SN74LV373ATNS is built to meet high standards, ensuring stable performance in various operating conditions. Its robust design is suitable for industrial and commercial applications where consistent operation is critical.

Support and Resources

For designers and engineers, Texas Instruments provides extensive support and resources for the SN74LV373ATNS, including detailed datasheets, application notes, and design tools. This helps in simplifying the design process and accelerating time-to-market for products utilizing this component.

Overall, the SN74LV373ATNS from Texas Instruments represents a reliable and efficient solution for digital storage and interfacing needs in modern electronic systems. Its low-voltage operation, combined with high-speed performance, makes it an excellent choice for power-sensitive and high-performance applications.