The NC7WZ132K8XNL is a dual 2-input Schmitt-trigger NAND gate from ON Semiconductor. This device combines the functionality of a NAND gate with Schmitt-trigger inputs, providing improved noise immunity and signal conditioning. It is suitable for use in various digital logic applications, particularly in noisy environments.

Applications

• Noise Filtering: Cleans up noisy signals in digital circuits.
• Wave Shaping: Sharpens digital signals with slow rise and fall times.
• Logic Level Shifting: Converts between different voltage levels in a system.
• Switch Debouncing: Eliminates the effects of switch bounce in mechanical switches.
• Simple Logic Functions: Implements basic NAND logic functions in digital systems.

Features

• Dual 2-Input NAND Gate: Contains two independent 2-input NAND gates in a single package.
• Schmitt-Trigger Inputs: Provides excellent noise immunity and signal conditioning.
• Wide Operating Voltage Range: Operates from 1.65V to 5.5V.
• Low Power Consumption: Minimizes power usage in battery-powered applications.
• Small Footprint: Available in a space-saving 8-lead MicroPak package.
• High Speed Performance: Offers fast propagation delay for quick signal processing.
• Pb-Free Package: RoHS compliant.

Benefits

• Improved Noise Immunity: Schmitt-trigger inputs reduce the impact of noise on signal integrity.
• Simplified System Design: Wide operating voltage and small package size simplify integration into various systems.
• Reliable Performance: Provides consistent and dependable NAND logic functions.
• Reduced Board Space: Tiny MicroPak package saves valuable space on printed circuit boards.
• Extended Battery Life: Low power consumption translates to longer operational time for portable devices.

Additional Details

The NC7WZ132K8XNL utilizes advanced silicon gate CMOS technology. The Schmitt-trigger inputs have a typical hysteresis of 0.5V, which significantly improves noise margin. The device is specified for operation from -40°C to +85°C. The maximum propagation delay is typically around 5ns at 5V.