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Analysis of MOSFET Amplifier

Last Updated : 30 Mar, 2026

Because of their high input impedance, low power consumption, and ease of manufacture, MOSFETs are frequently employed in amplifier circuits. MOSFETs are perfect for voltage amplification, particularly in the input stages of analog circuits, because their high input impedance guarantees little loading of the input signal.

The MOSFET in amplifier applications is appropriately biased in the saturation area to generate magnified output signals from little changes in input voltage.

Depending on the terminals used for input and output, MOSFET amplifiers are classified as:

Amplifier TypeInput NodeOutput Node
Common Source (CS)GateDrain
Common Drain (CD)GateSource
Common Gate (CG)SourceDrain

Analysis of Common Source Amplifier

The input signal is fed into the gate of a common source (CS) amplifier, and the output is drawn from the drain. Both input and output share the source terminal.

With a phase inversion between the input and output, this arrangement offers substantial voltage gain.

👁 8
Common Source MOSFET Amplifier (Voltage Divider Bias)

Small Signal AC Equivalent Circuit (with Bypass Capacitor)

For AC analysis:

  • Coupling capacitors act as short circuits
  • DC supply is treated as ground
  • Source resistor is bypassed (acts as AC ground)
👁 9l
Small Signal AC Equivalent of CS Amplifier

Let:

(i) Input Impedance ()

Input impedance is the resistance seen at the input terminal

Since gate current is zero, input impedance is very high.

(ii) Output Impedance ()

Output impedance is the resistance seen from the output

If , then:

(iii) Voltage Gain ()

For CS amplifier:

If , then:

The negative sign indicates a 180° phase shift.

Key Features

  • High input impedance
  • Moderate output impedance
  • High voltage gain
  • Provides 180° phase shift (inversion)
  • Widely used for voltage amplification

Analysis of Common Drain Amplifier

A common drain (CD) amplifier uses the source as the output and the gate as the input. The drain terminal is typical.

Because the output comes after the input, this setup is often referred to as a source follower.

👁 10L
Common Drain (Source Follower) MOSFET Amplifier

Small Signal AC Equivalent Circuit

For AC analysis:

  • Capacitors are short-circuited
  • DC supply is grounded
👁 20
Small Signal Model of CD Amplifier

Let:

(i) Input Impedance ()

Input impedance is high due to insulated gate.

(ii) Output Impedance ()

If

(iii) Voltage Gain ()

Since

Thus, the common drain amplifier has unity gain.

Key Features

  • High input impedance
  • Low output impedance
  • Used as a buffer (impedance matching)

Analysis of Common Gate Amplifier

The source receives the input and the drain receives the output in a common gate (CG) amplifier. The gate terminal is frequently used.

High-frequency applications make use of this arrangement.

👁 420851547
Common Gate MOSFET Amplifier

Small Signal AC Equivalent Circuit

For AC analysis:

  • Capacitors are shorted
  • Gate is at AC ground
👁 420851548
Small Signal Model of CG Amplifier

(i) Input Impedance ()

Input impedance is low.

(ii) Output Impedance ()

If :

(iii) Voltage Gain ()

This amplifier provides high voltage gain without phase inversion.

Key Features

  • Low input impedance
  • High output impedance
  • High voltage gain
  • Used in RF and high-frequency circuits
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