ON Semiconductor MC74AC32N Quad 2-Input OR Gate

The ON Semiconductor MC74AC32N is a high-performance, quad 2-input OR gate integrated circuit, designed to operate with exceptional speed while maintaining CMOS low power dissipation. This device is a member of the high-speed AC series and is fabricated with advanced CMOS technology to achieve superior switching performance with high output drive while minimizing power consumption.

Key Features

• Logic Type: Quad 2-Input OR Gate
• Package: DIP-14 (Dual In-Line Package with 14 pins)
• Operating Voltage Range: 2V to 6V, accommodating a variety of logic level requirements and ensuring compatibility with both TTL and CMOS logic.
• High Output Drive: Capable of driving up to 24 mA at the output, allowing for direct driving of heavier loads.
• High-Speed Operation: Fast propagation delays compared to other CMOS devices, with a typical delay time of only 8 ns at 5V, making it suitable for high-speed applications.
• Low Power Consumption: The IC maintains a low power consumption profile, which is critical for battery-powered and energy-efficient designs.
• High Noise Immunity: Characterized by a high degree of noise immunity, ensuring stable operation even in electrically noisy environments.

Applications

The MC74AC32N is versatile and can be used in a wide range of applications, including:

• Logic function implementation
• Input/output buffering
• Signal gating
• Control circuits
• Communication systems

This OR gate IC is suitable for use in both commercial and industrial environments, with an operating temperature range from -40°C to +85°C. Its standard DIP-14 package allows for easy insertion into sockets or soldering onto printed circuit boards, making it a convenient choice for prototyping as well as production runs.

ON Semiconductor's commitment to quality ensures that the MC74AC32N meets strict standards for reliability and performance. Whether for use in complex digital systems or simple logic circuits, this OR gate provides a reliable solution for digital signal processing where high speed, low power, and logic level flexibility are essential.