SN74AUC2G80DCURE4 - Texas Instruments

The SN74AUC2G80DCURE4 from Texas Instruments is a high-performance, dual-positive-edge-triggered D-type flip-flop integrated circuit. This advanced device is designed to operate from a 0.8 V to 2.7 V V_CC supply, making it ideal for low-voltage operations and power-sensitive applications. The SN74AUC2G80DCURE4 is part of the AUC family, which is known for its ultra-low power consumption and high-speed operation.

With its dual flip-flop configuration, the SN74AUC2G80DCURE4 offers flexibility in handling data storage and signal synchronization tasks. Each flip-flop has independent data (D), clock (CLK), set (SET), and reset (RESET) inputs, as well as Q and Q^¯ outputs. This allows for precise control and timing of data flow within digital circuits.

The device features a maximum clock frequency of 175 MHz, providing rapid data toggling suitable for high-speed data processing and communication systems. Its low power consumption is further complemented by the reduced power-down leakage current, which ensures energy efficiency even when the device is not actively switching.

Key specifications of the SN74AUC2G80DCURE4 include Schmitt-trigger action at all inputs, which makes the circuit tolerant to slower input rise and fall times. This characteristic is particularly useful in environments where input signals may suffer from noise or distortion. Additionally, the flip-flop offers a balanced propagation delay and transition times, providing reliable and consistent performance across the operating range.

The SN74AUC2G80DCURE4 comes in a 3.50-mm × 3.50-mm VSON package with a 0.5-mm pitch, which is designed for space-saving on PCBs while still being amenable to standard manufacturing processes. It is also characterized for operation from -40°C to 85°C, ensuring robust performance in a wide range of environmental conditions.

In summary, the SN74AUC2G80DCURE4 is a versatile and energy-efficient solution for designers who require high-speed, low-voltage flip-flops for their digital applications. Its robust design and advanced features make it a reliable choice for a broad array of electronic systems.