NLX2G04AMUTCG - onsemi

Manufacturer Part Number

NLX2G04AMUTCG

Manufacturer

onsemi

Introduction

The NLX2G04AMUTCG is a high-performance, dual inverter logic gate from onsemi's MiniGate™ series, designed for various high-speed computing applications.

Product Features and Performance

Dual inverter logic gate

High-speed performance with a maximum propagation delay of 3.6ns at 5V

Low quiescent current of 1 µA

High output current capability (32mA both high and low outputs)

Wide operating temperature range from -55°C to 125°C

Surface mount technology for compact and efficient design

Supports a wide range of supply voltages from 1.65V to 5.5V

Product Advantages

Low power consumption, enhancing energy efficiency

Efficient output drive strength

Capable of operating in extreme temperature conditions

Miniaturized package, suitable for high-density PCB layouts

Key Technical Parameters

Voltage Supply: 1.65V ~ 5.5V

Current Quiescent (Max): 1 µA

Current Output High, Low: 32mA

Max Propagation Delay @ V, Max CL: 3.6ns @ 5V, 50pF

Operating Temperature: -55°C to 125°C

Mounting Type: Surface Mount

Package: 6-UDFN (1.45x1)

Quality and Safety Features

Robust operating temperature range ensures reliable performance under extreme conditions

High output current capability contributes to strong signal integrity

Compatibility

Specifically designed for integration in high-speed logic circuit applications with compatible mounting and electrical characteristics

Application Areas

High-speed computing systems

Data processing devices

Consumer electronics

Communication equipment

Product Lifecycle

Obsolete status with possible availability of replacements or upgrades from onsemi

Potential for limited availability of parts, consult manufacturer for substitution options

Several Key Reasons to Choose This Product

High-speed performance facilitating rapid data processing

Ultra-low power consumption ideal for energy-sensitive projects

Wide operating temperature and high-drive strength supporting rugged applications

Miniaturized package benefits dense circuit designs with limited space