ON Semiconductor MC74VHC1G32DFT2 Single 2-Input OR Gate

The MC74VHC1G32DFT2 is a high-performance, single 2-input OR gate integrated circuit fabricated by ON Semiconductor. This device is designed with advanced silicon gate CMOS technology to achieve fast propagation delays, low quiescent power, and robust noise immunity. It is a versatile component that can be used in a wide range of digital applications, from simple logic control circuits to more complex system-level functions.

Featuring a compact 5-pin SC-70 (SOT-353) package, the MC74VHC1G32DFT2 is suitable for space-constrained applications while providing the functional integration needed to minimize component count. It operates over a broad voltage range of 2V to 5.5V, making it compatible with TTL levels and ideal for interfacing with both 3.3V and 5V systems.

The device's inputs are high impedance, which conserves energy by not requiring a continuous input current. Additionally, the inputs tolerate voltages up to 7V, allowing the MC74VHC1G32DFT2 to be used in scenarios where voltage spikes might occur without the risk of damaging the device.

ON Semiconductor's MC74VHC1G32DFT2 offers a fanout of 8 LS-TTL loads, which is indicative of its excellent drive capabilities. The symmetrical output impedance ensures a high noise tolerance and balanced propagation delays, making it a reliable choice for critical timing applications.

With its low power dissipation and high noise immunity, the MC74VHC1G32DFT2 is a preferred choice for battery-operated devices, portable electronics, and other power-sensitive applications. Its robust latch-up performance exceeds 100mA per JESD 78, Class II, ensuring stable operation under a variety of conditions.

Whether you're designing a consumer electronics device, a communication system, or an industrial control panel, the MC74VHC1G32DFT2 from ON Semiconductor offers a high-quality, cost-effective solution for your digital logic needs. Its reliability and performance are backed by ON Semiconductor's commitment to quality, making it an excellent choice for your circuit designs.