ON Semiconductor MC74LCX16374DTR2G

The ON Semiconductor MC74LCX16374DTR2G is a high-performance, 16-bit D-type flip-flop integrated circuit designed for use in a wide array of digital applications. This device is part of the LCX family, which is known for its low-voltage operation and high-speed interfacing capabilities. The MC74LCX16374DTR2G is particularly suitable for implementing buffer registers, I/O ports, bidirectional bus drivers, and working memory due to its robust feature set and design.

Key Features:

• Low Voltage Operation: The MC74LCX16374DTR2G operates at a nominal voltage of 3.3V, making it compatible with modern low-voltage systems, while also supporting 5V tolerant inputs.
• High-Speed Performance: With a propagation delay of just 5.5ns at 3.3V, this flip-flop is designed for applications requiring high-speed data transfer and processing.
• Power-Down High-Impedance Inputs and Outputs: This feature ensures that the device maintains a high-impedance state when powered down, preventing any potential damage from unexpected voltage levels.
• Support for Live Insertion: The MC74LCX16374DTR2G is designed to be inserted into or removed from a live backplane without affecting the system's operation, thanks to its bus-hold circuitry.
• Multiple Package Options: Available in a TSSOP-48 package, this device offers a compact footprint suitable for space-constrained applications.

Applications:

The MC74LCX16374DTR2G's versatility makes it an excellent choice for various applications, including:

• Communication infrastructure
• Computers and computer peripherals
• Data storage systems
• Industrial control systems
• Consumer electronics

The MC74LCX16374DTR2G from ON Semiconductor is a reliable and efficient solution for designers who require a 16-bit edge-triggered D-type flip-flop with the added benefit of 5V tolerant inputs and the capability for live insertion. Its low-power consumption and high-speed operation make it an ideal choice for modern digital systems where performance and power efficiency are critical.