ON Semiconductor MC74HC32ANG Quad 2-Input OR Gate

The ON Semiconductor MC74HC32ANG is a high-performance, quad 2-input OR gate integrated circuit, designed for use in a wide array of digital applications. This device is part of the high-speed CMOS family and provides a fundamental logic function, the OR operation, in a compact and efficient package.

Each of the four independent OR gates within the MC74HC32ANG can perform the logical inclusive OR function. This means that the output of each gate will be high if at least one of the two inputs is high. The device is fabricated with silicon gate CMOS technology, which ensures low power consumption while maintaining high-speed operation.

Key features of the MC74HC32ANG include:

• Supply Voltage Range: This device operates at a wide range of supply voltages from 2V to 6V, making it versatile for various applications and compatible with TTL levels.
• Low Power Consumption: The MC74HC32ANG boasts a low power consumption characteristic, with a typical quiescent current of only 2µA. This feature is particularly beneficial for battery-operated devices.
• High Noise Immunity: The inherent noise immunity of CMOS technology is present in this device, ensuring stable operation even in electrically noisy environments.
• Output Drive Capability: The outputs can drive up to 10 LSTTL loads, providing good drive capabilities and allowing the device to interface with various logic families.
• Pin and Function Compatibility: The MC74HC32ANG is pin-compatible with standard 14-pin DIPs, making it easy to integrate into existing designs without significant board changes.

The MC74HC32ANG is provided in a 14-pin PDIP package, which is suitable for through-hole mounting, thereby simplifying the assembly process. This device is ideal for a wide range of applications including control systems, logic interface circuits, and any digital circuitry requiring OR gate functions.

With its robust design and ON Semiconductor's commitment to quality, the MC74HC32ANG is a reliable choice for designers looking to implement logical operations with efficiency and dependability.