The NLV17SZ126DFT2G from ON Semiconductor is a versatile and robust non-inverting buffer/driver designed to meet the needs of a variety of applications requiring signal amplification and buffering. This high-performance component is part of ON Semiconductor's extensive range of logic devices that are known for their reliability and efficiency.

Key Features

• Operating Voltage Range: The device operates over a broad voltage range from 1.65V to 5.5V, making it suitable for interfacing with both low-voltage and standard logic levels.
• High Current Drive Capability: It can drive up to 24mA at the output, allowing it to power LEDs or other low-power devices directly and interface with high-input capacitance loads.
• Low Power Consumption: With a typical quiescent current of 10μA, this buffer/driver is an excellent choice for power-sensitive applications.
• Schmitt Trigger Action: Inputs include Schmitt triggers that provide noise immunity and allow the device to perform well in environments with electrical noise.
• ESD Protection: The NLV17SZ126DFT2G is equipped with built-in ESD protection circuits, safeguarding the device from electrostatic discharges.

Applications

The ON Semiconductor NLV17SZ126DFT2G is ideal for a range of applications, including:

• Signal buffering in mixed-voltage systems
• Line drivers for data communications
• Logic level translation for multi-voltage systems
• Driving heavy loads such as LEDs and relays

Package and Quality

This device is available in a compact, surface-mount SC-88A (SOT-353) package, which is suitable for automated assembly processes and applications where space is at a premium. ON Semiconductor's commitment to quality ensures that the NLV17SZ126DFT2G meets stringent industry standards, providing reliable performance for both commercial and industrial applications.

With its combination of features, the NLV17SZ126DFT2G from ON Semiconductor is an excellent choice for designers looking for a high-quality, high-performance non-inverting buffer/driver that can easily integrate into a wide array of electronic systems.