The CD74ACT374M96 from Texas Instruments is a high-performance, CMOS logic-level, octal edge-triggered D-type flip-flop integrated circuit. Designed to operate from a wide voltage range of 4.5V to 5.5V, this device is capable of driving high-capacitive loads while maintaining low power consumption. With its quick switching characteristics and robust construction, the CD74ACT374M96 is suitable for a variety of applications, including data storage, communication systems, and complex microprocessor-based systems.

Each flip-flop in the CD74ACT374M96 has a 3-state output, which is controlled by the output enable (OE) input, making it ideal for interfacing with bus-oriented systems. The device features eight D-type flip-flops with direct clear inputs and edge-triggered clock inputs, ensuring that data is captured on the rising edge of the clock signal. This precise edge-triggering allows for reliable synchronization with system clocks and timing signals.

The CD74ACT374M96 is offered in a compact 20-pin SOIC package, denoted by the suffix 'M96' in its part number, which allows for efficient space utilization on printed circuit boards. Its operating temperature range of -40°C to +85°C ensures stable performance across various environmental conditions. Additionally, this flip-flop IC boasts a high drive output current of ±24mA, which provides a strong signal for downstream digital components.

Key features of the CD74ACT374M96 include:

• Eight D-type flip-flops with single-rail outputs.
• Buffered control inputs for better noise immunity.
• Edge-triggered clock input for precise data capture.
• 3-state outputs for bus interfacing.
• High-speed operation and low power consumption.
• Wide operating voltage range (4.5V to 5.5V).
• High output drive capability (±24mA).
• Industrial operating temperature range (-40°C to +85°C).

The CD74ACT374M96 is a versatile component that combines high-speed operation with the practicality of octal flip-flop configuration, making it an excellent choice for designers seeking reliable data storage and transfer in their digital systems.