SN74ALVC04DR - Texas Instruments

Manufacturer Part Number

SN74ALVC04DR

Manufacturer

Texas Instruments

Introduction

The SN74ALVC04DR, a component of the 74ALVC series, consists of six inverters designed for handling logic-level conversion and signal processing in high-speed digital systems.

Product Features and Performance

Six independent inverters

Logic Type: Inverter

Capability for signal switching and conditioning

Low quiescent current of 10 µA

Robust output current of 24mA both high and low

Quick propagation delay with 2.8ns maximum at 3.3V and 50pF load

Product Advantages

Efficient operation in a wide voltage supply range from 1.65V to 3.6V

Consistency in performance across an operating temperature range of -40°C to 85°C

Compact and lightweight with surface mount, 14-SOIC package

Suitable for automated PCB assembly processes

Key Technical Parameters

Logic Type: Inverter

Number of Circuits: 6

Voltage Supply: 1.65V ~ 3.6V

Current Quiescent (Max): 10 µA

Current Output High, Low: 24mA, 24mA

Max Propagation Delay @ V, Max CL: 2.8ns @ 3.3V, 50pF

Operating Temperature: -40°C ~ 85°C

Quality and Safety Features

Built to withstand harsh environmental conditions

Surface mounting technology reduces risk of dislodging in demanding applications

Conformance to stringent industry standards for reliability and safety

Compatibility

Compatible with a vast range of logic systems due to its versatile supply voltage characteristics

Suitable for integration with existing digital systems requiring logic level conversion and signal inversion

Application Areas

Telecommunications

Computing devices

Consumer electronics

Industrial control systems

Product Lifecycle

Status: Active

Not nearing discontinuation, with continued production support and component availability from Texas Instruments

Several Key Reasons to Choose This Product

High reliability in signal processing and logic control applications

Extremely low propagation delay beneficial for high-frequency operation

Suitable for a wide array of operational environments due to broad operating temperature range

High output current capabilities enhancing overall circuit robustness

Energy-efficient design with minimal quiescent current draw