NLVVHC1G08DFT1G

Current - Quiescent (Max):	1µA
Package / Case:	5-TSSOP, SC-70-5, SOT-353
Supplier Device Package:	SC-88A (SC-70-5/SOT-353)
Mounting Type:	Surface Mount
Operating Temperature:	-55°C ~ 125°C
Max Propagation Delay @ V, Max CL:	7.9ns @ 5V, 50pF
Logic Level - High:	1.5 V ~ 3.85 V
Logic Level - Low:	0.5 V ~ 1.65 V
Current - Output High, Low:	8mA, 8mA
Series:	Automotive, AEC-Q100, 74VHC
Voltage - Supply:	2 V ~ 5.5 V
Features:	--
Number of Inputs:	2
Number of Circuits:	1
Logic Type:	AND Gate
Part Status:	Active
Packaging:	Tape & Reel (TR)

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Introduction

Logic gates, inverters, and NLVVHC1G08DFT1G applications are three interrelated topics that are important to understand when dealing with digital systems. Logic gates are building blocks for constructing digital circuits, and inverters are a type of logic gate used for data conversion and reversal of signal polarity. The NLVVHC1G08DFT1G is a type of logic gate specifically designed for interfaces with higher voltage and higher current requirements. This article discusses the application field of NLVVHC1G08DFT1G gate and its working principles.

NLVVHC1G08DFT1G Application Field

The NLVVHC1G08DFT1G is a high-speed, low-voltage, high-current, and low-power-consumption logic gate. It is designed to operate at very high switching speeds and has no crossover current between the output and input pins. This logic gate can be used in high-speed digital logic interfacing applications where low-voltage and high-current requirements exist. It can also be used in applications requiring low-level drive capability, such as light sensitive devices.

NLVVHC1G08DFT1G Low-Level Drive Capability

The NLVVHC1G08DFT1G has a low-level drive capability, which enables it to switch cooperatively with other logic gates, reducing overall power consumption and improving efficiency. Its low-level drive capability is provided by the use of source-follower transistors, which are designed to reduce output impedance and thereby provide a more robust signal for interfacing with other components. The source-follower transistors also make the NLVVHC1G08DFT1G more tolerant to signal overdriving and signal noise, making it more suitable for high-speed signal processing applications.

NLVVHC1G08DFT1G Working Principle

The NLVVHC1G08DFT1G is a 3-input logic gate that can be used to create digital circuits. It consists of three inputs and one output. When a high signal is applied to either input, the output will be activated. When both inputs are low, no output will be generated. The NLVVHC1G08DFT1G also features a hysteresis circuit for improved noise immunity.The NLVVHC1G08DFT1G logic gate operates on a voltage-controlled switching principle. The input voltage is applied to the gate’s control input, triggering the logic gate when the control voltage passes a certain threshold. It is configured to use a Schottky diode to collect the current generated by the response of the control voltage. This current is used to control the potential at the output and helps to regulate the output voltage.

Conclusion

The NLVVHC1G08DFT1G is a high-speed, low-voltage, high-current, and low-power-consumption logic gate. It is designed to operate at very high speeds with no crossover current between the output and input pins. It is suited for applications requiring low-level drive capability, such as light sensitive devices, as well as for high-speed digital logic interfacing applications. Its working principle is based on a voltage-controlled switching principle and is designed to use a Schottky diode for current collection.

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