Allicdata Part #: | NLV14001BDG-ND |
Manufacturer Part#: |
NLV14001BDG |
Price: | $ 0.16 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | ON Semiconductor |
Short Description: | IC GATE NOR 4CH 2-INP 14SOIC |
More Detail: | NOR Gate IC 4 Channel 14-SOIC |
DataSheet: | NLV14001BDG Datasheet/PDF |
Quantity: | 1000 |
1100 +: | $ 0.15315 |
Current - Output High, Low: | 8.8mA, 8.8mA |
Base Part Number: | 4001 |
Package / Case: | 14-SOIC (0.154", 3.90mm Width) |
Supplier Device Package: | 14-SOIC |
Mounting Type: | Surface Mount |
Operating Temperature: | -55°C ~ 125°C |
Max Propagation Delay @ V, Max CL: | 80ns @ 15V, 50pF |
Logic Level - High: | 3.5 V ~ 11 V |
Logic Level - Low: | 1.5 V ~ 4 V |
Series: | 4000B |
Current - Quiescent (Max): | 1µA |
Voltage - Supply: | 3 V ~ 18 V |
Features: | -- |
Number of Inputs: | 2 |
Number of Circuits: | 4 |
Logic Type: | NOR Gate |
Part Status: | Active |
Packaging: | Tube |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Logic gates and inverters are fundamental components of digital electronic circuits. They form the basis for programmable systems, memory storage, and communication networks. The NLV14001BDG is one of the more common high-performance logic gates and inverters available on the market today. This component has the potential to significantly improve any circuit’s efficiency and performance in both static and dynamic conditions. Understanding how it works, its application fields and other related topics is essential for unlocking its full potential.
The NLV14001BDG is a differential input-output type device that uses P-channel metal oxide semiconductor (PMOS) technology. It contains four separate MOS transistors, making it ideal for connecting two or more digital circuits. This component is much more efficient than its CMOS predecessor, and its resistance to current is much lower – making it a great choice for high-speed logic operations. This component excels at passing digital signals from source to destination and can provide precise logic levels with low power consumption. Additionally, the NLV14001BDG requires no additional heat sinks to dissipate power.
The primary application field of the NLV14001BDG is communication networks which require fast, reliable, and power-efficient data transmission. In such environments, the NLV14001BDG is the ideal choice, as it provides reliable logic levels with minimal power consumption. In addition, the component can be utilized in mobile and embedded systems that require low voltage and high speed. Other useful applications include power management and motor control circuits, as well as digital signal processing. The NLV14001BDG is also used in medical applications where accuracy and reliability are paramount.
Understanding the working principle of the NLV14001BDG is key to unlocking its full potential. This component utilizes four MOS transistors to pass digital signals from source to destination. When the input voltage is in the logic high state, a small amount of current is passed from the source to the destination through the MOS transistors. The current flow is regulated by the gate-source voltage, which determines the switching on or off of the MOS transistors at any point. Since the NLV14001BDG is differential in nature, the input and output signals must be balanced in order for the component to properly function.
In addition to being a great choice for communication networks, the NLV14001BDG is also very useful in power management and motor control circuits. This component is designed to be tolerant of power disruptions, making it ideal for situations where regulatory requirements must be met. The component is also resistant to current, meaning it can be used in high-speed logic operations without the need for additional heat sinks. The component’s low power consumption and high speed also make it the perfect choice for mobile and embedded systems.
In conclusion, the NLV14001BDG is a versatile and reliable component that can be used in a variety of applications. Its differential input-output design makes it ideal for communication networks and digital signal processing, while its resistance to current and low power consumption make it suitable for power management and motor control circuits. Moreover, its robustness makes it a great choice for high-speed logic operations and medical applications. Understanding how the component works is a great first step towards unlocking its full potential.
The specific data is subject to PDF, and the above content is for reference
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