MOSFET

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MOSFET MOS FET MOS-FET - Metal Oxide Semiconductor Field Effect Transistor

Dualgatemosfet.png
The MOSFET is a type of FET that works by electronically varying the width of a channel along which electrons flow. The width of the channel is controlled by the voltage on an electrode called the gate , which is located physically between the source and the drain and is insulated from the channel by an extremely thin layer of metal oxide.

The schematic symbol illustrated here is for the Dual Gate MOSFET.

MOSFET functional modes: depletion mode and enhancement mode. The mode corresponds to whether the transistor is in an ON state or an OFF state at zero gate–source voltage. The depletion mode MOSFET and the JFET are very similar. JFETs cannot be used as enhancement mode devices because if the gate is forward biased it will conduct like a forward biased diode.

The n-type or n-channel MOSFET is fabricated on a p-type semiconductor substrate. The complementary MOSFET is the p-type or p-channel MOSFET. It contains p-type source and drain regions in an n-type substrate. The inversion layer is formed when holes are attracted to the interface by a negative gate voltage. While the holes still flow from source to drain, they result in a negative drain current.

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Illustration: The direction of the arrow indicates the type of channel material. Notice that the gate terminal is not connected to the channel as in a JFET.

The most common use of the MOSFET in radio communication is for amplification and uses an enhancement mode FET. Modern solid state transceivers use the MOSFET for amplification in the final stage of a radio transceiver. The MOSFET provides current and voltage gain yielding an output current into an external load which exceeds the input current and an output voltage across that external load which exceeds the input voltage.

No gate current is required to maintain the inversion layer and the resulting current between drain and source on a MOSFET. The current gain is inversely proportional to the signal frequency, reaching unity current gain at the transit frequency. Because the current saturates at higher drain source voltage the result is a small drain current variation can cause a large drain voltage variation or a resulting voltage gain.

Unlike bipolar transistors, the gain of MOSFETs doesn't decrease at a 6db/octave rate as you go up in frequency. However, in certain conditions bipolar transistors have matched or bettered MOSFETs in terms of die-area-specific on-state resistance. In terms of general electronics, FETs can be used to replace normal bipolar junction transistors in most circuits.

MOSFET RD70HVF1.jpg
An example of a MOSFET used as a PA or final state power amplifier:

Signal enters from the pre-amplifier stage into the MOSFET where the signal is amplified to approximately 50 watts using the MOSFET in the illustration.

In ham radio the PA refers to a power amplifier which may or may not be the MOSFET type.

Pill - A slang term for the MOSFET popularized by bootleg Citizen Band operators using illegal power amplification. A CB user may refer to a 100-watt pill when discussing a linear amplifier connected between his 4-watt CB radio and his antenna. However, the pill specifically refers to a linear amplifier of the transistor type and not of the vacuum tube type. The term is criticized for being the invention of someone lacking a background in electronics and thus making a visual comparison to the shape of the round MOSFET to medication, such as an aspirin pill.

Transistor pill.jpg
It is incorrect to refer to a transistor as a pill.