The ON Semiconductor NLU2G17CMUTCG is a high-performance, dual non-inverting Schmitt trigger designed with advanced silicon gate CMOS technology. It is a versatile component that provides a solution for various applications requiring noise immunity and hysteresis at the input, which is essential in creating stable and reliable digital systems.

This integrated circuit features two independent non-inverting Schmitt triggers with standard push-pull outputs. The device operates over a wide voltage range from 1.65V to 5.5V, making it suitable for interfacing with both low-voltage and standard-voltage circuits. This flexibility allows designers to use the NLU2G17CMUTCG in mixed-voltage environments, which is common in battery-operated and power-saving applications.

With its compact UDFN package, the NLU2G17CMUTCG is an ideal choice for space-constrained applications. The ultra-small, leadless package design minimizes the PCB footprint and is optimized for low inductance, which is crucial for high-speed circuit operation. The device's low power consumption makes it an excellent choice for portable electronics where power efficiency is a priority.

The NLU2G17CMUTCG offers excellent performance with a propagation delay time typically less than 10 ns at 5V, ensuring fast response times for critical applications. Its enhanced noise immunity and improved hysteresis make it a robust component for use in environments with electrical noise, such as industrial controls, automotive systems, and data communication devices.

Key features of the NLU2G17CMUTCG include Schmitt-trigger action at all inputs, which makes the circuit tolerant to slower input rise and fall times. It also has balanced propagation delays and low input capacitance. The device is fully characterized for operation from -40°C to +125°C, providing reliable performance in a wide range of operating conditions.

Overall, the ON Semiconductor NLU2G17CMUTCG is a highly reliable and efficient solution for designers looking to incorporate Schmitt triggers into their digital logic systems, with its wide operating voltage range, low power consumption, and noise immunity ensuring stable operation in a variety of applications.