Product Overview: SN74AUP1G79DBVT from Texas Instruments

The SN74AUP1G79DBVT is a cutting-edge, single positive-edge-triggered D-type flip-flop with a clear input, designed and manufactured by Texas Instruments. This compact and efficient device is part of the advanced ultra-low-power Schottky (AUP) family, which is renowned for its reduced power consumption and high-performance operation.

Engineered for optimal performance in a small footprint, the SN74AUP1G79DBVT comes in a tiny 6-pin SOT-23 package, making it an excellent choice for space-constrained applications. The device operates over a broad V_CC range of 0.8 V to 3.6 V, providing design flexibility and compatibility with low-voltage systems, which is particularly crucial for battery-operated and portable devices.

Its ultra-low static power consumption of less than 0.9 µA significantly extends battery life, and the low dynamic power consumption of 4.5 pJ per bit at 3.3 V minimizes the overall energy usage of the system. Furthermore, the SN74AUP1G79DBVT offers a high-speed performance with a maximum t_pd of 3.7 ns at 3.3 V, ensuring swift and reliable data transfer and processing.

The device is characterized for operation from -40°C to 85°C, making it suitable for a wide range of industrial and commercial applications. Its robust design includes a latch-up performance that exceeds 100 mA per JESD 78, Class II, providing excellent protection against latch-up events.

The SN74AUP1G79DBVT boasts several key features, including the single data input (D), a single clock input (CLK), a single clear input (CLR), and a single output (Q). The clear input allows for the immediate resetting of the flip-flop, which is essential for initialization and synchronization tasks in digital circuits.

In conclusion, the SN74AUP1G79DBVT from Texas Instruments is a highly reliable and energy-efficient solution for a wide array of applications requiring flip-flop functionality. Its low-power operation, high-speed performance, and small package size make it ideal for use in modern electronic systems where efficiency and space savings are paramount.