field-effect transistor (Meaning)
field-effect transistor (n)
a transistor in which most current flows in a channel whose effective resistance can be controlled by a transverse electric field
Synonyms & Antonyms of field-effect transistor
No Synonyms and anytonyms found
field-effect transistor Sentence Examples
- Field-effect transistors (FETs) are fundamental building blocks in modern electronics, controlling the flow of current in semiconductor devices.
- The gate electrode of a FET generates an electric field that modulates the conductivity of the channel beneath it.
- MOSFETs (Metal-Oxide-Semiconductor FETs) form the basis of modern digital integrated circuits, offering high switching speeds and low power consumption.
- JFETs (Junction FETs) have a simpler structure than MOSFETs, making them suitable for applications where cost or radiation resistance is a concern.
- FETs can operate as amplifiers, switches, or signal converters, enabling a wide range of electronic functions.
- The high input impedance of FETs allows them to amplify weak signals without significant distortion.
- By cascading FETs, complex digital logic circuits can be constructed, performing computations and storing data.
- Field-effect transistors have revolutionized the field of computing, making possible the development of powerful and compact electronic devices.
- FETs are essential components in sensors, detectors, and other electronic systems, enabling the precise measurement and control of signals.
- Advanced FET technologies, such as FinFETs and TFETs, are continually being developed to enhance performance and reduce power consumption in electronic circuits.
FAQs About the word field-effect transistor
a transistor in which most current flows in a channel whose effective resistance can be controlled by a transverse electric field
No synonyms found.
No antonyms found.
Field-effect transistors (FETs) are fundamental building blocks in modern electronics, controlling the flow of current in semiconductor devices.
The gate electrode of a FET generates an electric field that modulates the conductivity of the channel beneath it.
MOSFETs (Metal-Oxide-Semiconductor FETs) form the basis of modern digital integrated circuits, offering high switching speeds and low power consumption.
JFETs (Junction FETs) have a simpler structure than MOSFETs, making them suitable for applications where cost or radiation resistance is a concern.
