The IDT74FCT163374PV is a high-performance, 16-bit universal bus register from Renesas Electronics America. This device is designed for use in high-speed data paths and is ideal for applications requiring minimal propagation delay. It is part of the broader FCT (Fast CMOS Technology) family, known for its speed and low power consumption.

Applications:

• Data buffering in high-speed memory systems.
• Address line driving in microprocessor applications.
• Data bus isolation.
• General-purpose storage registers.

Features:

• 16-bit universal bus register.
• Low propagation delay.
• TTL-compatible inputs and outputs.
• 3-state outputs for bus interface.
• Available in a plastic DIP package.
• Operates from a single 5V power supply.

Benefits:

• High speed: Minimizes delays in data transfer, improving overall system performance.
• Easy interfacing: TTL-compatible inputs and outputs simplify integration with other logic devices.
• Bus isolation: 3-state outputs allow for easy connection and disconnection from the bus, preventing bus contention.
• Low power consumption: Reduces overall system power requirements and heat generation.

Additional Details:

The IDT74FCT163374PV operates within a supply voltage range of 4.75V to 5.25V. The maximum propagation delay is typically around 5ns, depending on the specific operating conditions. The device features a common clock enable (CE) input and a common output enable (OE) input. When OE is high, the outputs are in a high-impedance state, effectively disconnecting the register from the bus. The device is available in a standard plastic DIP package, making it easy to prototype and integrate into existing designs. The operating temperature range is typically from 0°C to +70°C.

The FCT family is renowned for its high-performance characteristics. This device offers a cost-effective solution for applications requiring high-speed data handling capabilities. The IDT74FCT163374PV's versatile nature makes it suitable for various digital systems where temporary data storage and high-speed data transfer are critical.