BC547B - Bipolar transistor, NPN, 45V, 100mA, TO-92, 3-pin
Available · 100+ piece · 2-5 Tage
PN2222ABU - Bipolar transistor, NPN, 40V, 1A, 300MHz, HFE:35, TO-92, 3-pin
Available · 100+ piece · 2-5 Tage
2N2222A Bipolar transistor, NPN, 40V, 600mA, TO-92, 3-pin
Available · 100+ piece · 2-5 Tage
INFINEON MOSFET, 40V drain-source, 162A drain current, 200W power dissipation, 4 Ohm resistor, THT
Available · 37 piece · 2-5 Tage
TIP122F NPN Darlington transistor, 100V, 8A, TO-220FP
Available · 81 piece · 2-5 Tage
Infineon IRLB4132PBF N Kanal MOSFET HEXFET Technologie TO220AB Gehäuse 100A 30V
Available · 100+ piece · 2-5 Tage
INFINEON TECHNOLOGIES Transistor IRF1404LPBF MOSFET, unipolar, 40V, 162A, 200W, THT
Available · 2 piece · 2-5 Tage
TIP107 PNP Darlington-Transistor, 100V, 15A, TO220AB
Available · 45 piece · 2-5 Tage
STP16NF06 - N-channel MOSFET transistor, 60V, 16A, TO-220, 3-pin
Currently not available
What is a transistor and how does it work?
Transistors are at the heart of our electronic world and the wonders of technology that power all your everyday devices. But what is actually behind this essential component and how exactly does it work? Dive into the fascinating universe of the transistor with us and discover its secrets explained simply and clearly!
What is a transistor explained simply?
A transistor is a tiny electronic component that usually has three connections and is used as an amplifier or switch. You can think of a transistor as a kind of tap for electricity. Depending on how it is controlled, it can allow, increase or block the flow of electricity.
How does the current flow in the transistor?
A transistor consists of three layers of materials called the emitter, base and collector. These layers are made of semiconductor materials, usually silicon. By applying a voltage to the base, the current flow between the emitter and collector can be controlled.
How does an NPN transistor work simply explained?
There are different types of transistors, but the NPN transistor is one of the most common. "NPN" refers to the arrangement of the semiconductor layers: Negative-Positive-Negative.
This is how an NPN transistor works simply explained:
1. switched off: With no voltage at the base, no current flows from the collector to the emitter.
2. switch on: When a positive voltage is applied to the base, the transistor allows current to flow from the collector to the emitter.
What does an NPN transistor do?
An NPN transistor can be used in various applications:
1. amplifier: it can amplify weak electrical signals. For example, a small audio signal picked up by a microphone can be amplified so that it is loud enough to drive a loudspeaker.
2. switch: In digital circuits, the transistor is often used as a fast switch. It can be switched on and off in milliseconds, allowing digital information to be processed.
Buy transistors at Berrybase
Transistors are incredibly versatile and important components in electronics. Without them, modern computers, smartphones and many other electronic devices would not be possible. Through the simple principle of "switching on and off" the flow of current, they enable a variety of functions, from signal amplification to data processing.