Manufacturer Part Number
SN74LVC374AQPWREP
Manufacturer
texas-instruments
Introduction
The SN74LVC374AQPWREP is a high-performance, edge-triggered D-type flip-flop device from Texas Instruments, featuring tri-state non-inverted outputs.
Product Features and Performance
Single D-type flip-flop with 8 bits per element
High clock frequency support up to 100 MHz
Positive edge-triggered
Low propagation delay: 8.5ns at 3.3V, 50pF
Tri-State, Non-Inverted output for easier interfacing
Low quiescent current of 10 µA to ensure power efficiency
Provides a wide supply voltage range from 2V to 3.6V
Designed for surface mount technology with a 20-TSSOP package
Product Advantages
Supports high-speed operations with minimal delay
Energy efficient, reducing overall power consumption
Versatile supply voltage range for various application needs
High output drive capacity (24mA) suitable for driving multiple loads
Reduced input capacitance (4pF) offers a lower loading effect
Key Technical Parameters
Clock Frequency: 100 MHz
Max Propagation Delay: 8.5ns @ 3.3V, 50pF
Voltage Supply: 2V ~ 3.6V
Current Output High, Low: 24mA
Operating Temperature: -40°C ~ 125°C
Quality and Safety Features
Built to operate reliably within the wide operating temperature range of -40°C to 125°C
Compliant with Texas Instruments’ stringent quality and safety standards
Compatibility
Compatible with other devices in the 74LVC series for efficient system design
Suitable for logic level translation because of its wide voltage range
Application Areas
Communication equipment
High-speed data processing systems
Complex logic circuits
Consumer electronics
Product Lifecycle
Currently active and not nearing discontinuation
Ongoing support and availability
Several Key Reasons to Choose This Product
High-speed performance suitable for advanced digital systems
Low power consumption enhances system energy efficiency
Wide operating temperature range ensures reliability in various environments
Flexible voltage range supports versatile design requirements
High drive capability allows control of multiple outputs