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MOSFETs

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D2020UK

SEMELAB

30W 20V 5V 1individualNChannel 65V 2A SOIC SMD mount 4.06mm*5.08mm*2.18mm

Quantity: 80

Ship Date: 7-13 working days

50+ $82.3071

100+ $79.6232

200+ $76.9393

Ext. Price: $4115.35

MOQ: 50

Mult: 50

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D1010UK

SEMELAB

389KW 20V 70V 240pF(Max) @ 0V threaded mounting 34.03mm(length)*5.08mm(height)

Quantity: 0

Ship Date: 10-15 working days

Ext. Price:

MOQ: 50

Mult: 10

SPQ: 10

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D5002UK

SEMELAB

87KW 20V 1individualNChannel 125V 6A 120pF(Max) @ 50V CASE DA threaded mounting 24.76mm*9.52mm*6.6mm

Quantity: 0

Ship Date: 7-13 working days

25+ $37.811

50+ $37.052

100+ $36.293

250+ $35.534

Ext. Price: $945.27

MOQ: 25

Mult: 1

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D1001UK

SEMELAB

50KW 20V 7V 1individualNChannel 70V 1Ω(Typ) @ 20V 5A 60pF(Max) @ 28V CASE DA threaded mounting 24.76mm*9.52mm*6.6mm

Quantity: 0

Ship Date: 10-15 working days

Ext. Price:

MOQ: 1

Mult: 1

SPQ: 25

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MOSFETs

MOSFET stands for Metal-Oxide-Semiconductor Field-Effect Transistor. It is a type of transistor used for amplifying or switching electronic signals and electrical power. Here's a concise introduction in English:

Definition:
A MOSFET is a voltage-controlled device that uses a gate voltage to control the flow of current between its source and drain terminals. It consists of a metal gate electrode, an oxide insulator, and a semiconductor channel, typically made of silicon.

Function:
The primary function of a MOSFET is to act as a switch or an amplifier. When a voltage is applied to the gate, it creates an electric field that either allows or inhibits current flow between the source and drain. This makes MOSFETs ideal for digital and analog circuits, where precise control over current is required.

Applications:
MOSFETs are widely used in various electronic devices due to their versatility and efficiency. Some common applications include:
1. Power electronics for motor control and power supply regulation.
2. Digital electronics for logic gates and memory circuits.
3. Analog circuits for signal amplification and processing.
4. Automotive electronics for engine management and safety systems.

Selection Criteria:
When selecting a MOSFET, consider the following criteria:
1. Voltage Rating: Ensure the MOSFET can handle the maximum voltage of the circuit.
2. Current Rating: Choose a MOSFET that can handle the expected current load.
3. Power Dissipation: Consider the heat generated and ensure the MOSFET can dissipate it effectively.
4. Switching Speed: For high-speed applications, select a MOSFET with fast switching characteristics.
5. Gate Threshold Voltage: This determines the minimum voltage required to turn the MOSFET on.
6. Package Type: Choose a package that suits the physical constraints of the application.
7. Cost: Balance performance with cost, considering the budget and availability.

In summary, MOSFETs are essential components in modern electronics, offering precise control over current flow and enabling a wide range of applications from simple switches to complex integrated circuits.
Please refer to the product rule book for details.