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EE130/230M Review Session 1.Small Signal Models for MOSFET/BJT 2.MOS Electrostatics.

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Presentation on theme: "EE130/230M Review Session 1.Small Signal Models for MOSFET/BJT 2.MOS Electrostatics."— Presentation transcript:

1 EE130/230M Review Session 1.Small Signal Models for MOSFET/BJT 2.MOS Electrostatics

2 BJT Small Signal Model A small change in I B or V BE will result in a small change in I C and V CE input current = output current = the cutoff frequency (  T = 2  f T ) is defined at input voltage = output voltage = =

3 Example A BJT is biased at I C = 1 mA and V CE = 3V.  dc = 90,  F = 5ps, T = 300K. Find (a) g m, (b) r , (c) C . Solution: (a) (b) r  =  dc / g m = 90/0.039 = 2.3 k  (c) EE130/230M Spring 2013 Lecture 27, Slide 3

4 MOSFET Small Signal Model A small change in V G will result in a small change in I D and V DS input current = output current = the cutoff frequency (  T = 2  f T ) is defined at input voltage = output voltage = =

5 Summary of Small Signal Models Inputs/Outputs Linearized equivalent circuits Key components Performances  Gain  Cut-off frequency

6 MOS Capacitor Energy Band Diagram Problem: Solution:

7 Flat-band Condition

8 Equilibrium Condition

9 Accumulation Condition

10 Strong Inversion Condition

11 Charge distribution Charge amount Capacitance Equivalent circuits

12 MOS Capacitor Charge vs. Gate Voltage AccumulationDepletionInversion VTVT Flat-band voltage Maximum depletion charge

13 MOS Capacitance vs. Gate Voltage Accumulation Depletion Inversion VTVT Flat-band voltage Minimum capacitance

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