Diodes Incorporated 74LVCE1G32SE-7 - Single 2-Input OR Gate

The 74LVCE1G32SE-7 is a high-performance, single 2-input OR gate integrated circuit from Diodes Incorporated, designed for use in a wide range of digital applications. This device is part of the 74LVC family, which is renowned for its low-voltage operation and low power consumption, making it ideal for battery-operated devices and power-sensitive applications.

Operating on a supply voltage range of 1.65V to 5.5V, the 74LVCE1G32SE-7 offers excellent flexibility for interfacing with both 3.3V and 5V logic levels, ensuring compatibility with a variety of microcontrollers and digital systems. Its low-voltage CMOS technology also allows for a significant reduction in power consumption without sacrificing speed, providing a maximum propagation delay of only 3.7ns at 3.3V.

The device is housed in a space-saving SOT-353 package, which is ideal for compact PCB layouts and portable electronic assemblies. With its small footprint, the 74LVCE1G32SE-7 is particularly suitable for high-density mounting and applications where board space is at a premium.

One of the key features of this OR gate is its 5V tolerant inputs, which allow for direct interfacing with TTL levels, adding to the component's versatility. Furthermore, the 74LVCE1G32SE-7 is characterized for operation from -40°C to +125°C, ensuring reliable performance across a broad range of environmental conditions.

In terms of protection, the device includes input and output over-voltage protection, which provides robustness against static discharge and transient excess voltage events. Additionally, the 74LVCE1G32SE-7 features low input capacitance and bus hold functionality, which maintains the last active input state when no driving signal is present, reducing the need for external pull-up or pull-down resistors.

Overall, the Diodes Incorporated 74LVCE1G32SE-7 is a reliable and efficient solution for implementing OR logic functions in digital circuits where space, power consumption, and ease of interfacing are critical considerations.