ON Semiconductor MC74VHC32DTR2 Quad 2-Input OR Gate

The MC74VHC32DTR2 is a high-performance, quad 2-input OR gate integrated circuit from ON Semiconductor, designed to operate with a power supply range of 2V to 5.5V. This device is part of the VHC family, which means it is fabricated using silicon gate CMOS technology to achieve high-speed operation while maintaining CMOS low power dissipation.

Each of the four OR gates in the MC74VHC32DTR2 is composed of two inputs and one output, providing the logical OR function in digital circuits. This makes the device particularly useful in applications where logic addition of signals is required. It is suitable for use in a wide array of products ranging from consumer electronics to sophisticated industrial and telecommunications systems.

The MC74VHC32DTR2 features high noise immunity characteristic of CMOS devices, which is essential for reliable operation in electrically noisy environments. Additionally, the device boasts a significant drive current of ±8 mA at the output, ensuring strong signal transmission and the ability to drive multiple loads simultaneously.

Its packaging is a TSSOP-14 (Thin Shrink Small Outline Package), which is ideal for situations where space-saving is critical. This surface-mount package allows for efficient use of PCB space, making the MC74VHC32DTR2 an excellent choice for compact designs.

Key specifications of the MC74VHC32DTR2 include:

• Logic Type: OR Gate
• Number of Circuits: 4
• Number of Inputs per Circuit: 2
• Output Current: ±8 mA
• Voltage - Supply: 2V to 5.5V
• Operating Temperature: -55°C to 125°C
• Mounting Type: Surface Mount
• Package / Case: 14-TSSOP (0.173", 4.40mm Width)

With its combination of high-speed, low power dissipation, increased noise immunity, and the ability to drive multiple loads, the MC74VHC32DTR2 from ON Semiconductor is an optimal solution for designers looking to implement efficient logic operations in their electronic projects. Its robust performance and compact form factor make it a versatile component for modern digital systems.