SN74ABT843DWR - Texas Instruments

Manufacturer Part Number

SN74ABT843DWR

Manufacturer

Texas Instruments

Introduction

The SN74ABT843DWR is a high-performance D-type transparent latch with tri-state outputs. It features 9 independent latches with separate data and enable inputs, allowing for efficient and flexible data management in a wide range of digital applications.

Product Features and Performance

9:9 circuit configuration

Tri-state outputs for easy bus interfacing

Propagation delay of 4.4ns for fast data throughput

Operates on a 4.5V to 5.5V supply voltage

Supports a wide operating temperature range of -40°C to 85°C

Surface mount 24-SOIC package for compact integration

Product Advantages

Excellent speed and efficiency for time-critical digital systems

Flexible configuration allows for customized data handling

Robust performance across a wide range of operating conditions

Space-saving surface mount package for optimal board utilization

Key Reasons to Choose This Product

High-speed, high-performance D-type latch with advanced features

Reliable and efficient data management for a variety of applications

Seamless integration into diverse digital systems and designs

Backed by Texas Instruments' reputation for quality and innovation

Quality and Safety Features

Rigorously tested to ensure reliable and consistent performance

Complies with industry safety and environmental standards

Manufactured in Texas Instruments' state-of-the-art facilities

Compatibility

The SN74ABT843DWR is compatible with a wide range of digital logic ICs and can be easily integrated into various electronic systems and applications.

Application Areas

Digital signal processing

Data acquisition and control systems

Computer and peripheral equipment

Telecommunications equipment

Industrial automation and control

Product Lifecycle

The SN74ABT843DWR is an active and currently available product. There are no known plans for discontinuation at this time. Customers are advised to contact our website's sales team for information on any potential equivalent or alternative models that may become available in the future.