The SN74AUP1G17DBVT is a high-performance, single Schmitt-trigger buffer gate from Texas Instruments designed for operation over a power supply range of 0.8 V to 3.6 V. This device is optimized for low-voltage and low-power applications, making it an ideal choice for use in portable and battery-powered electronics where energy efficiency is critical.

Key Features

• Low Static-Power Consumption: The SN74AUP1G17DBVT has an ultra-low static power consumption (ICC), which minimizes power losses when the device is in a static state, thus extending battery life in portable applications.
• Low Dynamic-Power Consumption: With its reduced dynamic power consumption, this buffer gate is optimized for low-power operations, ensuring minimal power draw during switching activities.
• Wide Operating Voltage Range: The device supports a wide range of operating voltages from 0.8 V to 3.6 V, making it versatile for various applications and compatible with multiple logic levels.
• Schmitt-Trigger Action: The Schmitt-trigger inputs provide a hysteresis effect, which enhances noise immunity and allows for slow input transition rates, ensuring stable operation in noisy environments.
• Low Input Capacitance: Designed with low input capacitance, this device offers faster response times and reduced signal distortion, making it suitable for high-speed signal processing applications.
• ESD Protection: The SN74AUP1G17DBVT comes with integrated electrostatic discharge (ESD) protection circuits, safeguarding the device from damage due to static discharges.

Applications

The SN74AUP1G17DBVT is commonly used in a variety of applications, including:

• Mobile Phones
• PDAs
• Portable Media Players
• Notebooks and Laptops
• Medical Monitoring Devices
• Low-Power Microcontroller Interfaces

Package Information

The device is available in a small-outline transistor (SOT-23) package, which is ideal for space-constrained applications. Its compact form factor allows for high-density mounting on PCBs, providing a space-efficient solution for modern electronic designs.