Product Overview: SN74AHCT574NSR

The SN74AHCT574NSR is a high-performance, octal edge-triggered D-type flip-flop integrated circuit (IC) designed and manufactured by Texas Instruments. This device is part of the Advanced High-Speed CMOS (AHCT) family and is specifically crafted to deliver robust performance for a wide range of digital applications. The SN74AHCT574NSR is ideal for temporary data storage, data transferring, and acting as a buffer or interface between two buses of different word lengths.

Key Features

• Logic Type: D-Type Flip-Flop
• Number of Circuits: 8
• Output Type: 3-State
• Voltage - Supply: 4.5V to 5.5V
• Operating Temperature: -40°C to 85°C
• Mounting Type: Surface Mount
• Package / Case: 20-SOIC
• Propagation Delay Time: 11ns at 5V
• Edge Triggered: Yes

Performance and Quality

The SN74AHCT574NSR is designed to interface with 5V systems, providing the capability to translate 5V signals into the 3.3V logic level, which makes it suitable for mixed-voltage applications. With its fast propagation delay and edge-triggered design, this IC ensures reliable and quick data transfer, which is essential for high-speed digital systems.

Applications

Due to its versatile nature, the SN74AHCT574NSR can be used in various digital applications such as:

• Temporary storage and data transfer for microprocessors and microcontrollers
• Buffering data for communication between different digital systems
• Interface for different word length buses
• Control systems, automation, and signal processing

Reliability and Support

Texas Instruments is known for its commitment to quality and reliability. The SN74AHCT574NSR is no exception, as it is built to meet the rigorous standards of the industry. Customers can also access extensive technical support and documentation, including datasheets, application notes, and design resources, directly from the Texas Instruments website.

Whether for industrial, commercial, or advanced computing applications, the SN74AHCT574NSR from Texas Instruments provides the performance and reliability necessary to meet the demands of modern digital electronics.