Best solution
for your design
Authorized Distributor
for Newhaven Display International Inc

Transistors

Brand
Brand
More options
Case
Case
More options
JFET N-Channel Transistor

0,00 excl. VAT

BJT SOT223 80V 1000MA PNP 2W

0,00 excl. VAT

SMD, Transistor

0,00 excl. VAT

0,00 excl. VAT

2N2219A, Transistor, STM

0,00 excl. VAT

Bipolar Transistors - BJT NPN Power Switching

0,00 excl. VAT

MOSFET N-CH 60V 300MA SOT-23-3

Low offset voltage

Low Voltage operation

Easily driven without buffer

High Speed Circuits

Low error voltage

0,03 excl. VAT

MOSFET N-CH 60V 300MA SOT-23-3

0,00 excl. VAT

Mosfet Transistor

0,00 excl. VAT

TRANS PNP 50V 0.1A SC70

0,00 excl. VAT

HF-Transistor NPN 10V 65mA 9GHz 200mW marking R35

0,00 excl. VAT

GENERAL PURPOSE TRANSISTOR NPN TRANSISTOR

0,00 excl. VAT

SMALL SIGNAL BIPOLAR TRANSTR NPN

0,00 excl. VAT

SWITCHING P-CHANNEL POWER MOS FET

0,00 excl. VAT

Transistor

0,00 excl. VAT

30V N-Channel MOSFET Transistor

0,00 excl. VAT

Transistor

0,00 excl. VAT

Transistor, SOT23, marking :6AW

0,00 excl. VAT

A transistor is a fundamental semiconductor device used to amplify and switch electronic signals and electrical power. It serves as a building block for modern electronic devices and plays a critical role in the field of electronics. Transistors are primarily used for three main purposes:
  1. Amplification: Transistors can amplify weak electrical signals. A small input signal at the base terminal of the transistor can control a larger output signal at the collector terminal. This property is essential in audio amplifiers, radio receivers, and other signal processing applications.
  2. Switching: Transistors can act as electronic switches. By applying a small signal at the base terminal, the transistor can control the flow of a larger current between the collector and emitter terminals. This on/off switching capability is crucial in digital circuits, where binary signals (0s and 1s) control the operation of devices.
  3. Signal Modulation: Transistors are also used in modulation circuits, where they help modify carrier signals with information signals, enabling radio communication and other forms of signal transmission.
There are two main types of transistors: bipolar junction transistors (BJTs) and field-effect transistors (FETs):
  1. BJTs: These transistors use both electron and hole charge carriers. They come in two types: NPN (N-type material between two P-type materials) and PNP (P-type material between two N-type materials).
  2. FETs: These transistors rely on the electric field to control the flow of current. They come in two main varieties: MOSFETs (Metal-Oxide-Semiconductor FETs) and JFETs (Junction Field-Effect Transistors).
Transistors are the cornerstone of modern electronics, enabling the creation of complex integrated circuits (ICs) that power everything from computers and smartphones to medical devices and communication systems. As transistor technology has evolved, it has led to improvements in processing speed, energy efficiency, and miniaturization of electronic devices. In summary, transistors are semiconductor devices that provide amplification and switching capabilities, making them indispensable components in virtually all electronic devices and systems.