Chapter 5: Difference between revisions

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!Type !! K
!Type !! K
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|Enhancement || <math>\frac{1}{2}\mu_nC_{ox}\frac{W}{L}</math>
|Enhancement || <math>\frac{1}{2}\mu_nC_{ox}\frac{W}{L}=\frac{1}{2}KP\frac{W}{L}</math>
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|Depletion<br>JFET || <math>\frac{I_{DSS}}{V_{to}^2}</math>
|Depletion<br>JFET || <math>\frac{I_{DSS}}{V_{to}^2}</math>

Revision as of 14:28, 21 March 2010

Metal-oxide semiconductor field effect transistor (MOSFET)

Circuit symbols for various FETs
NMOS & PMOS in Cutoff
Triode (Linear) and Saturation (B.P.O = Beyond Pinch Off)
NMOS
IvsV mosfet.png
FET small-signal equivalent circuit

"The FET controls the flow of electrons (or electron holes) from the source to drain by affecting the size and shape of a "conductive channel" created and influenced by voltage (or lack of voltage) applied across the gate and source terminals (For ease of discussion, this assumes body and source are connected). This conductive channel is the "stream" through which electrons flow from source to drain."<ref>Wikipedia: Field-effect transistor http://en.wikipedia.org/wiki/Field-effect_transistor</ref>

  • Enhancement: The electric field from the gate voltage forms an induced channel allowing current to flow.
  • Depletion: The channel is physically implanted rather than induced.
  • JFET: Charge flows through a semiconducting channel (between the source and drain). Applying a bias voltage to the gate terminal impedes the current flow (or pinches it off completely).

Threshold Voltage

  • The threshold voltage, , is the minimum needed to move the transistor from the Cutoff to Triode region.
  • is usually on the order of a couple of volts
for various FETs
Type n-Channel p-Channel
Enhancement + -
Depletion - +
JFET - +
IMG 0292.JPG

Modes of operation

  • Cutoff
  • The channel has not been created (Enhancement) or is pinched off (Depletion & JFET). No current flows.
  • Triode:
  • When is reached, a channel forms beneath the gate (Enhancement) or is no longer pinched off (Depletion & JFET), allowing current to flow.
  • As increases, the voltage between the gate and channel becomes smaller as you progress towards the drain. This results in the channel tapering off as you get closer to the drain.
  • " Because of the tapering of the channel, its resistance becomes larger with increasing , resuling in a lower rate of increase of ." <ref>Electronics p. 291</ref>
  • Why doesn't it just cut the current off completely when v_DS gets high enough? If it is pinched off, how does the current flow still?
  • Saturation:
  • When is reached, the channel thickness at the drain end becomes zero (Enhancement, Depletion & JFET).

Device equations

Conditions for various modes of operation
Region
Cutoff
Triode
Saturation
Boundry
Alternate (Frohne) method
Region
Cutoff
Triode
Saturation
Drain current
Region
Cutoff
Triode
Saturation
Boundry


Type K
Enhancement
Depletion
JFET
  • Device Parameters:
  • Surface Mobility: , the electrons in the channel
  • Capacitance of the gate per unit area:
  • Transconductance:

Analysis

  1. Analyze the DC circuit to find the Q-point (using nonlinear device equations or characteristic curves)
  2. Use the small-signal equivalent circuit to find the impedance and gains

Small-signal equivalent circuits, Transconductance & Drain Resistance

  • "Transconductance, gm, is an important parameter in the design of amplifier circuits. In general, better performance is obtained with higher values of gm."<ref>Electroincs p. 310</ref>
  • Transconductance is defined as .
  • , where rd is the drain resistance


Type Voltage Gain Current Gain Power Gain Input Impedance Output Impedance Frequency Response
Common-Source High Low
Common-Drain
Source Follower
Common-Gate

Pros and Cons

Transistor Pros Cons
MOSFET *Draws no gate current
*Infinite input resistance
*Voltage-controlled current source
Gate protection needed to prevent static electricity from breaking down the insulation
JFET
BJT Current-controlled current source

Questions

  • How do you find rd?
  • Roughly what are the breakdown voltages for JFETs?
  • CMOS nand/nor gates
  • JFET only goes to IDSS?

References

<references/>