2N7000 N-Channel MOSFET Introduction

2N7000 N-Channel MOSFET Introduction
2 min read

Introduction

The 2N7000 are small signal N-Channel MOSFETs. They are manufactured with proprietary, high-cell density DMOS technology. The products are designed to minimize resistance to on-state and provide reliable, rugged, and quick switching capabilities. They are suitable for all applications that require 400 milliamps DC. They can provide high-frequency currents that can reach 2A. They are especially suitable for applications with low voltage and low current.

Where to Use 2N7000?

The 2N7000 N-Channel MOSFETs are general use and are suitable for small servo motor control, power MOSFET gate drivers, assorted switching applications. 

2N7000 Complementary:

In the operating conditions of 12V, and 33 kHz, you also could use BS250P as 2N7000 complementary.

You could find the BS250P on easybom:

https://www.easybom.com/p/bs250p-diodes-incorporated-6384664

 

How do You Use 2N7000?

2N7000 is a unipolar voltage-controlled N-MOSFET that consists of three terminals: Source, Gate, and as well as Drain. Gate is virtually separated from the drain and source and draws no current. An insulation layer between the circuit's gate and the transistor. In the product, the conductivity between drain and source is accomplished by the motion of electrons. The MOSFET transistor's source and drain are composed of n-type materials while the body and substrate are comprised of p-type material. When we apply Silicon dioxide onto the substrate layer, it creates the standard metal oxide semiconductor. It is known as a dielectric substance which means it can act as a capacitor in which the electrode will be replaced with the semiconductor.

Clicks the picture to learn more:

2N7000 N-Channel MOSFET Introduction

In case you have found a mistake in the text, please send a message to the author by selecting the mistake and pressing Ctrl-Enter.
Anita Chan 493
Joined: 3 years ago
Comments (0)

    No comments yet

You must be logged in to comment.

Sign In