Dual Fet

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Dual Fet Transistor
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dual-gate MOSFET

Supply Chain Engineering C-Level - Defense + Space Automotive NPI Shortage Buying Medical Devices Industrial Automation. FDSS2407 N-Channel Dual MOSFET ©2004 Semiconductor Components Industries, LLC. October-2017,Rev 1 Publication Order Number: FDSS2407/D FDSS2407 N-Channel Dual MOSFET 62V, 3.3A, 132mΩ Features 62V, 132m Ω, 5V Logic Level Gate Dual MOSFET in SO-8 5V Logic Level feedback signal of the drain to source voltage.

Универсальный англо-русский словарь. Академик.ру. 2011.

Смотреть что такое 'dual-gate MOSFET' в других словарях:

Dual FET-Input, Low Distortion. DUAL HIGH CURRENT OPERATIONAL AMPLIFIER. Dual High Performance, High Fidelity Audio Operational Amplifier. The dual-gate MOSFET (DGMOS) has a tetrode configuration, where both gates control the current in the device. It is commonly used for small-signal devices in radio frequency applications where biasing the drain-side gate at constant potential reduces the gain loss caused by Miller effect, replacing two separate transistors in cascode. 4ea RCA DUAL GATE MOSFET 40820 N-CHANNEL FET RADIO RF AMPLIFIER AUDIO TRANSISTOR FOUR EACH RCA 40820 DUAL GATE MOSFET TRANSISTOR 4 PIN TO-18 METAL CASE. More NOS N Channel Drain Source 20 v Power 330mw Useful for RF amplifier.

Dual-Gate-MOSFET — Der Metall Oxid Halbleiter Feldeffekttransistor (englisch: metal oxide semiconductor field effect transistor, MOSFET auch MOS FET, selten MOST) ist eine Variante der Feldeffekttransistoren mit isoliertem Gate (IGFET), genauer der Metall Isolator… … Deutsch Wikipedia
MOSFET — Two power MOSFETs in the surface mount package D2PAK. Operating as switches, each of these components can sustain a blocking voltage of 120 volts in the OFF state, and can conduct a continuous current of 30 amperes in the ON state, dissipating up … Wikipedia
MOSFET — Der Metall Oxid Halbleiter Feldeffekttransistor (englisch: metal oxide semiconductor field effect transistor, MOSFET auch MOS FET, selten MOST) ist eine Variante der Feldeffekttransistoren mit isoliertem Gate (IGFET), genauer der Metall Isolator… … Deutsch Wikipedia
High-k+Metal-Gate-Technik — Schematischer Querschnitt durch den Gate Aufbau eines Transistors in High k+Metal Gate Technik Die High k+Metal Gate Technik (HKMG Technik) bezeichnet in der Halbleitertechnik einen speziellen Aufbau von Metall Isolator Halbleiter… … Deutsch Wikipedia
Insulated Gate Bipolar Transistor — Transistor bipolaire à grille isolée Symbole usuel de l’IGBT Le transistor bipolaire à grille isolée (IGBT, de l’anglais Insulated Gate Bipolar Transistor) est un dispositif semi conducteur de la famille des transistors qui est utilisé comme… … Wikipédia en Français
Insulated gate bipolar transistor — Transistor bipolaire à grille isolée Symbole usuel de l’IGBT Le transistor bipolaire à grille isolée (IGBT, de l’anglais Insulated Gate Bipolar Transistor) est un dispositif semi conducteur de la famille des transistors qui est utilisé comme… … Wikipédia en Français
NOR gate — This article is about NOR in the sense of an electronic logic gate (e.g. CMOS 4001). For NOR in the purely logical sense, see Logical NOR. For other uses of NOR or Nor, see Nor (disambiguation). 4001 redirects here. For the year, see 5th… … Wikipedia
AND gate — The AND gate is a digital logic gate that implements logical conjunction it behaves according to the truth table to the right. A HIGH output (1) results only if both the inputs to the AND gate are HIGH (1). If neither or only one input to the AND … Wikipedia
Metall-Oxid-Halbleiter-Feldeffekttransistor — Der Metall Oxid Halbleiter Feldeffekttransistor (englisch metal oxide semiconductor field effect transistor, MOSFET auch MOS FET, selten MOST) gehört zu den Feldeffekttransistoren mit isoliertem Gate, auch als IGFET bezeichnet. Er ist den… … Deutsch Wikipedia
Cascode — The cascode is a two stage amplifier composed of a transconductance amplifier followed by a current buffer. Compared to a single amplifier stage, this combination may have one or more of the following advantages: higher input output isolation,… … Wikipedia
Double Diffused Metal Oxide Semiconductor Field Effect Transistor — Der Metall Oxid Halbleiter Feldeffekttransistor (englisch: metal oxide semiconductor field effect transistor, MOSFET auch MOS FET, selten MOST) ist eine Variante der Feldeffekttransistoren mit isoliertem Gate (IGFET), genauer der Metall Isolator… … Deutsch Wikipedia

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FET, Field Effect Transistor Circuit Design Includes:
FET circuit design basicsCircuit configurationsCommon sourceCommon drain / source followerCommon gate

Field effect transistors are used in circuit design as they are able to provide very high input impedance levels along with significant levels of voltage gain.

Unlike the bipolar transistor which is a current controlled device, the field effect transistor is voltage controlled. This makes the way FET circuits are designed rather different to the way bipolar transistor circuits are designed.

However, circuits with current and voltage gain can still be designed and similar circuit formats are adopted.

FET circuit basics

When considering the use of a FET circuit, it is necessary to consider FET technology and the type of field effect transistor will be the most applicable.

Dual Fet 2sk389

Note on Field Effect Transistor Technology:

The field effect transistor, FET, is a three terminal device which provides voltage gain. Having a high input impedance the electric field in the vicinity of the input terminal called the gate modifies the current flowing in what is called the channel between terminals called the source and drain.

Read more about the Field Effect Transistor Device & How it Works

The FET has three electrodes:

Source: The Source is the electrode on the FET through which the majority carriers enter the channel, i.e. at acts as the source of carriers for the device. Current entering the channel through the source is designated by IS.
Drain: The Drain is the FET electrode through which the majority carriers leave the channel, i.e. they are drained from the channel. Conventional current entering the channel via the drain is designated by the letters ID. Also Drain to Source voltage is often designated by the letters VDS
Gate: The Gate is the terminal that controls the channel conductivity, hence the level of voltage on the gate controls the current flowing in the output of the device.

FET circuit design parameters

When starting out on the design of a FET circuit, it is necessary to determine the basic requirements for the circuit. These will govern many of the decisions regarding the type of circuit topology to use and also the type of FET to use.

There can be a number of parameters required in the requirements for the transistor circuit design:

Dual Fet Transistor

Voltage gain: The voltage gain is often a key requirement. It is the output signal voltage divided by the input signal voltage.
Current gain: This is the gain of the FET circuit in terms of current. It may be necessary to drive a high level of current into the load.
Input impedance: This is the impedance that the previous stage will see when it is providing a signal to this FET circuit in question. FETs inherently have a high input impedance to the gate and therefore FETs are often used where this is of paramount importance.
Output impedance: The output impedance is also important. If the FET circuit is driving a low impedance circuit, then its output must have a low impedance, otherwise a large voltage drop will occur in the transistor output stage.
Frequency response: Frequency response is another important factor that will affect the FET circuit design. Low frequency or audio transistor circuit designs may be different to those used for RF applications. Also the choice of the FET and capacitor values in the circuit design will be greatly affected by the required frequency response.
Supply voltage and current: In many circuits the supply voltage is determined by what is available. Also the current may be limited, especially if the finished FET circuit design is to be battery powered.

FET types for circuit design

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As there are several different types of field effect transistor that can be used, it is necessary to define at least some of the FETs that can be used within the circuit design process.

The table below defines some of the different types and characteristics that can be encountered.

FETs for Use in Circuit Design
Characteristic	Details
N-channel	An N channel FET has a channel made from N-type semiconductor in which the majority carriers are electrons.
P-channel	An P channel FET has a channel made from P-type semiconductor in which the majority carriers are holes.
J-FET	The J-FET or junction FET is a form of FET where the gate is formed by using a diode junction onto the channel. The isolation is maintained by ensuring that the diode junction remains reverse biased when operated within the circuit. It is a key requirement of the FET circuit design to ensure the junction remains reverse biased for satisfactory operation.
MOSFET	This type of field effect transistor relies on a metal oxide later between the gate and channel. It offers a very high input resistance.
Dual-gate MOSFET	As the name implies, this form of MOSFET has two gates. In FET circuit design, this gives additional options.
Enhancement mode	Enhancement mode FETs are OFF at zero gate-source voltage. They are turned on by pulling the gate voltage in the direction of the drain voltage, i.e. towards the supply rail, which is positive for N-channel devices and negative for P-channel devices. In other words by pulling the gate voltage towards the drain voltage, the number of carriers in the active layer of the channel is enhanced.
Depletion mode	In a depletion-mode MOSFET, the device is normally ON at zero gate-source voltage. Any gate voltage in the direction of the drain voltage will tend to deplete the active area of channel of carriers and reduce the current flowing.

When designing an FET circuit, it is first necessary to select the required type of FET. Factors including the basic type of FET including whether it is a junction FET or MOSFET or another type as well as the mode type and other factors all need to be determined to before it is possible to proceed with the circuit design.

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