Product Overview: 74AHCT574PW by NXP Semiconductors

The 74AHCT574PW is a high-speed Si-gate CMOS device fabricated by NXP Semiconductors, which is part of the 74AHCT family known for its robust performance and compatibility with TTL levels. This particular integrated circuit is an octal D-type flip-flop with 3-state outputs, designed to provide high-capacity storage and data flow management in digital systems.

Key Features:

• Logic Type: Octal D-type flip-flop ensures efficient data storage and transfer.
• Output Type: 3-state outputs allow for connection to a bus-oriented system without the need for external buffers.
• IC Package Type: TSSOP, a thin shrink small outline package, is space-saving and suitable for surface-mounted technology (SMT).
• Number of Pins: 20 pins provide adequate connections for all eight flip-flops and control signals.
• Supply Voltage Range: 4.5V to 5.5V, compatible with TTL levels, ensures reliable operation across various applications.
• Operating Temperature Range: -40°C to +125°C, offering reliability in extreme conditions.
• Logic Case Style: The TSSOP-20 package is known for its slim profile and thermal efficiency.

Applications:

The 74AHCT574PW is versatile and can be used in a variety of applications including:

• Buffer storage
• Data storage
• Control systems
• Communication systems

Product Benefits:

This NXP product offers several benefits:

• Its fast switching speeds make it suitable for high-frequency operations.
• The 3-state outputs facilitate bus-oriented applications without additional components.
• Compatibility with TTL levels allows for easy integration into existing designs.
• The robust temperature range ensures performance stability across diverse environmental conditions.

The 74AHCT574PW is a testament to NXP's commitment to providing high-performance and reliable components for advanced digital systems. Its technical specifications and design cater to the needs of modern electronics, making it an excellent choice for designers and engineers looking for quality and efficiency.