Product Overview: CD74ACT273SM96

The CD74ACT273SM96 is a high-performance CMOS Octal D-Type Flip-Flop with a clear function, manufactured by Texas Instruments. Designed for use in a wide range of digital applications, this integrated circuit is part of the ACT family, which is known for its higher speed and lower power consumption compared to other logic families.

Key Features

• Logic Type: Octal D-Type Flip-Flop with clear
• Number of Pins: 20
• Package: Offered in a SOIC-20 package
• Supply Voltage Range: 4.5V to 5.5V, making it compatible with TTL levels
• Operating Temperature Range: -40°C to 85°C, suitable for industrial applications
• Speed: Fast propagation delays and output transition times for high-speed operations
• Power Consumption: Low power features that ensure minimal battery drain in portable devices

Applications

The CD74ACT273SM96 is versatile and can be used in various digital systems, including:

• Computers and computer peripherals
• Communication devices
• Control systems
• Data storage devices
• Instrumentation

Product Description

The device consists of eight edge-triggered D-type flip-flops with individual D inputs and Q outputs. The common buffered Clock (CP) and Master Reset (MR) inputs control all flip-flops. The flip-flops will store the state of their individual D-inputs that meet the setup and hold time requirements on the LOW-to-HIGH CP transition. When the MR input is LOW, all flip-flops are reset, and their Q outputs are set LOW.

The CD74ACT273SM96 boasts a robust design that ensures reliable operation under varying conditions. The inputs are buffered to lower the drive requirements, which reduces the number of components needed to interface inputs with bus-structured systems. Furthermore, the ACT series is characterized by its significant immunity to noise, which is crucial for maintaining signal integrity in complex electronic systems.

With its combination of high speed, low power consumption, and stable operation, the CD74ACT273SM96 from Texas Instruments is an excellent choice for designers looking to optimize their digital systems' performance and efficiency.