The NLU2G14AMX1TCG from ON Semiconductor is a high-performance, dual inverter with Schmitt trigger input that is designed to operate over a broad voltage range of 1.65V to 5.5V. This versatile component is a part of ON Semiconductor's advanced series of ultra-low power CMOS logic, engineered to deliver efficient and reliable performance for a wide array of electronic applications.

Key Features

• Wide Voltage Range: The device can operate with a supply voltage ranging from 1.65V to 5.5V, making it suitable for various applications, including those that require battery operation.
• Schmitt Trigger Action: The Schmitt trigger inputs provide a hysteresis effect, which enhances noise immunity and transforms slowly changing input signals into sharply defined jitter-free output signals, ideal for noisy environments.
• High Speed: With a propagation delay time significantly lower than that of conventional CMOS inverters, the NLU2G14AMX1TCG ensures swift signal processing.
• Low Power Consumption: This device is optimized for low power consumption, making it an excellent choice for power-sensitive applications.
• Compact Packaging: The product is available in a space-saving 6-lead MicroPak™ package, which is ideal for PCBs where space is at a premium.
• Multiple Configurations: It can be used as two single inverters or combined to form a single dual inverter, providing design flexibility.

Applications

The ON Semiconductor NLU2G14AMX1TCG is suitable for a broad range of applications, including:

• Wave and pulse shapers
• High-speed logic circuits
• Signal processing
• Communication systems
• Portable and battery-powered electronics
• Astables and monostables

Quality and Reliability

ON Semiconductor is known for its commitment to quality and reliability. The NLU2G14AMX1TCG is manufactured to the highest standards, ensuring that it meets the rigorous demands of industrial and commercial use. Whether you are designing a new system or upgrading an existing one, this dual inverter with Schmitt trigger input is an excellent choice for your digital logic circuit needs.