NVTFS5C466NLTAG Discrete Semiconductor Products |
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Allicdata Part #: | NVTFS5C466NLTAGOSTR-ND |
Manufacturer Part#: |
NVTFS5C466NLTAG |
Price: | $ 0.22 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | ON Semiconductor |
Short Description: | MOSFET N-CHANNEL 40V 51A 8WDFN |
More Detail: | N-Channel 40V 51A (Tc) 38W (Tc) Surface Mount 8-WD... |
DataSheet: | NVTFS5C466NLTAG Datasheet/PDF |
Quantity: | 1500 |
1500 +: | $ 0.20506 |
Vgs(th) (Max) @ Id: | 2.2V @ 250µA |
Package / Case: | 8-PowerWDFN |
Supplier Device Package: | 8-WDFN (3.3x3.3) |
Mounting Type: | Surface Mount |
Operating Temperature: | -55°C ~ 175°C (TJ) |
Power Dissipation (Max): | 38W (Tc) |
FET Feature: | -- |
Input Capacitance (Ciss) (Max) @ Vds: | 880pF @ 25V |
Vgs (Max): | ±20V |
Gate Charge (Qg) (Max) @ Vgs: | 7nC @ 4.5V |
Series: | Automotive, AEC-Q101 |
Rds On (Max) @ Id, Vgs: | 7.3 mOhm @ 10A, 10V |
Drive Voltage (Max Rds On, Min Rds On): | 4.5V, 10V |
Current - Continuous Drain (Id) @ 25°C: | 51A (Tc) |
Drain to Source Voltage (Vdss): | 40V |
Technology: | MOSFET (Metal Oxide) |
FET Type: | N-Channel |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
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NVTFS5C466NLTAG Application Field and Working Principle
The NVTFS5C466NLTAG FET, or Field Effect Transistor, is an important component to many electronics, from simple amplifiers to complex systems and is a common part of the integrated circuits that make up many electronic devices. This article provides an overview of the device, describes its uses and explains its working principle.
The NVTFS5C466NLTAG is a single MOSFET, or metal oxide semiconductor, which stands for Metal-Oxide-Semiconductor Field-Effect Transistor. This type of transistor is called an enhancement mode transistor, which means that its conduction current is proportional to the gate-to-source voltage. This makes it ideal for amplifying and switching applications.
The NVTFS5C466NLTAG offers a wide range of features that make it suitable for a variety of applications. It offers a low on-resistance, meaning that it can provide efficient power switching without a large drop in voltage. It also features a high gate threshold voltage, meaning that it can be used as part of a power control mechanism, allowing for the setting of the voltage level to reduce power consumption.
The NVTFS5C466NLTAG is typically used in power control applications, such as for switched-mode power supplies. It can be used to regulate voltage levels, to improve the efficiency of the power supply, or to reduce the power consumption of the circuit. It can also be used to adjust or control the voltage level of a signal. Additionally, this device can also be used to improve the performance of motor drives or control devices.
The working principle of the NVTFS5C466NLTAG is based on the principle of field effect. Field effect refers to the effect of the electric field generated from the gate of the transistor on the conducting channel between the source and the drain regions. The electric field varies with the gate voltage, and when this voltage increases, it causes a strong electric field to be applied in the regions of the source and the drain. This strong electric field causes a decrease in the number of free carriers in the conducting channel, thus reducing the current flow between the source and the drain.
The process of current control is based on the gate-source voltage of the device, which is varied to adjust the amount of current flow. When the gate-source voltage is increased, it causes the current flow to increase, while when it is decreased, the current flow is reduced. This allows for an efficient way of controlling the current output of the device. It is also important to note that the voltage between the source and the drain must always remain constant, as a sudden change in this voltage can cause damage to the device.
The NVTFS5C466NLTAG is a very useful device in many power control applications. Its low on-resistance and high gate threshold voltage makes it ideal for a number of applications, from basic amplifiers, to complex power control circuits. Its working principle is based on the principle of field effect, which allows the device to be used for current control applications. Its versatility means that it can be used in a variety of situations, from power control to amplifiers and motor control.
The specific data is subject to PDF, and the above content is for reference
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