Manufacturer Part Number
SN74LVU04ANSR
Manufacturer
Texas Instruments
Introduction
The SN74LVU04ANSR is a hex inverter chip from Texas Instruments that operates on a 2V to 5.5V supply voltage.
Product Features and Performance
Logic Type: Inverter
Number of Circuits: 6
Number of Inputs: 1
Voltage - Supply Range: 2V to 5.5V
Current - Quiescent (Max): 20 µA
Current - Output High, Low: 12mA each
Input Logic Level - Low: 0.3V
Input Logic Level - High: 1.7V
Max Propagation Delay: 7ns at 5V with 50pF load
Operating Temperature Range: -40°C to 85°C
Product Advantages
Low power consumption with a maximum quiescent current of 20 µA
Fast switching with a propagation delay of just 7ns at 5V for high-speed applications
Broad supply voltage range suitable for various logic environments and applications
Robust temperature performance for use in extreme conditions
Key Technical Parameters
Supply Voltage: 2V ~ 5.5V
Quiescent Current (Max): 20 µA
Output Current (High, Low): 12mA
Propagation Delay (Max at 5V, 50pF): 7ns
Operating Temperature: -40°C to 85°C
Input Logic Level (Low): 0.3V
Input Logic Level (High): 1.7V
Quality and Safety Features
Designed to meet stringent industry standards for quality and reliability
Compatibility
Surface Mount compatible with SOIC-14 packaging for integration into various PCB designs
Application Areas
Telecommunications
Computing systems
Consumer electronics
Control systems
Embedded systems
Product Lifecycle
Product Status: Active
Information on discontinuation and availability of replacements or upgrades should be monitored via Texas Instruments or authorized distributors.
Several Key Reasons to Choose This Product
Low power consumption suitable for battery-powered and energy-efficient designs
Fast switching capability for high-frequency operations
Wide operating temperature range, enabling use in harsh environments
Versatile supply voltage range fitting various electronics systems
Renowned manufacturer with a reputation for reliable and durable components
Available in volume with Tape & Reel packaging for automated assembly processes