Diodes Incorporated 74AUP1G07FX4-7: Low-Power, Single Buffer Gate with Open-Drain Output

The 74AUP1G07FX4-7 is a high-performance, single buffer gate with an open-drain output, designed by Diodes Incorporated to meet the requirements of low-voltage operation while maintaining low static and dynamic power consumption. This advanced ultra-low-power (AUP) CMOS device is ideal for battery-powered and portable applications where power efficiency is paramount.

With its wide operating voltage range of 0.8V to 3.6V, the 74AUP1G07FX4-7 is extremely versatile, making it suitable for interfacing with both traditional 3.3V and newer low-voltage systems. Its low-power consumption is further enhanced by a very low static current of less than 0.9µA at 3.3V, which significantly extends battery life in portable devices.

The open-drain output of the 74AUP1G07FX4-7 allows for wired-OR functions and interfacing with different voltage levels within a system. This feature is especially useful when designing circuits that require level shifting or when driving lines with multiple inputs connected. Additionally, the output can handle voltages up to 3.6V, which provides a good margin for over-voltage conditions.

Designed for robustness, the 74AUP1G07FX4-7 is equipped with input hysteresis, which enhances noise immunity and ensures stable output states even in the presence of input signal disturbances. This makes the device particularly reliable in harsh electrical environments or in applications where long cables may introduce noise.

The device comes in an ultra-small and leadless DFN1010-6 (XSON6) package, which is perfect for space-constrained applications. Its small footprint does not compromise performance, as the device is characterized for operation from -40°C to +125°C, ensuring reliability across a wide temperature range.

Whether you're designing advanced microprocessor systems, portable electronics, or power management circuits, the Diodes Incorporated 74AUP1G07FX4-7 offers an excellent balance of power efficiency, voltage range, and robustness, making it an ideal choice for your circuit design needs.