The SN74AUC2G79DCURE4 from Texas Instruments is a high-performance, dual positive-edge-triggered D-type flip-flop with clear and preset functionality. This advanced integrated circuit is part of the AUC family, designed to operate on a very low voltage range while providing the speed necessary for demanding applications. It's an ideal choice for use in mobile phones, PDAs, and other battery-operated electronics where power efficiency and space are critical considerations.

Each flip-flop has independent data (D), clock (CLK), set (SET\), and reset (RESET\) inputs, and Q and Q\ outputs. This configuration allows for flexible setup and hold times which are crucial for timing-critical applications. The clear and preset features enable the flip-flop to be set or reset asynchronously, which is essential for initialization and recovery processes.

The SN74AUC2G79DCURE4 operates over a supply voltage range of 0.8 V to 2.7 V, making it particularly suitable for low-voltage operations. This component also boasts a very low static power consumption, with a typical ICC of only 10 µA, further conserving power in your designs.

With its ultra-small 3 mm x 3 mm VQFN package, the SN74AUC2G79DCURE4 is designed for space-saving on PCBs, allowing for more compact electronic designs. Additionally, the device features balanced propagation delays and transition times, which contribute to improved reliability and performance of high-speed signaling environments.

Key features of the SN74AUC2G79DCURE4 include:

• Optimized for Very Low Voltage Applications (0.8 V to 2.7 V)
• Very Low Static Power Consumption (ICC = 10 µA Typical)
• High-Speed Operation
• Independent Asynchronous Set and Reset Inputs
• Ultra-Small Footprint with VQFN Package
• Extended Industrial Temperature Range (-40°C to 85°C)

Whether you're designing the next generation of portable electronics or looking to upgrade existing systems, the SN74AUC2G79DCURE4 offers the performance, power efficiency, and compact size needed to meet the stringent demands of today's high-speed digital applications.