ON Semiconductor NL17SG07DFT2G Logic Gate

The NL17SG07DFT2G is a high-performance, single 2-Input AND Gate from ON Semiconductor, designed for a wide array of applications requiring fast and power-efficient logic operations. This advanced logic gate is part of ON Semiconductor's NL17SG series, which is renowned for its low voltage and low power consumption, making it an excellent choice for portable and battery-powered devices.

Constructed with state-of-the-art silicon gate CMOS technology, the NL17SG07DFT2G offers a minimal propagation delay while maintaining low dynamic power consumption. Its design ensures that the device is capable of operating at a voltage range of 1.65V to 5.5V, providing a flexible solution for interfacing with both high-speed and low-power systems.

The NL17SG07DFT2G is housed in an ultra-small SC-88A (SOT-353) package, which is ideal for space-constrained applications. Despite its compact size, it delivers robust performance with a high tolerance for slow or noisy input rise and fall times. This feature is particularly useful in environments where signal integrity may be compromised.

Key features of the NL17SG07DFT2G include:

• High-Speed Operation: Ensures quick response times, suitable for high-frequency logic switching.
• Low Power Consumption: Ideal for battery-operated devices, contributing to longer battery life and energy efficiency.
• Broad Voltage Range: Compatible with various logic level requirements, accommodating a range of interface scenarios.
• Ultra-Small Package: The compact SC-88A package allows for high-density PCB layouts and saves valuable board space.

Applications for the NL17SG07DFT2G are diverse, encompassing everything from portable electronics to complex computing systems. It can be used in microprocessor systems, signal processing circuits, and any application requiring a reliable logic AND function with a minimal footprint.

ON Semiconductor's commitment to quality ensures that the NL17SG07DFT2G is a logic gate that designers can trust for both performance and efficiency, making it an essential component in modern electronic designs.