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Characterization and Modelling

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Low-frequency memory effects are important for. high-frequency modelling ... Isodynamic. dc. Drain Potential (vDS) 7. 8. Transient behaviour. 9. Outline. Introduction ... – PowerPoint PPT presentation

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Title: Characterization and Modelling


1
James Rathmell Anthony Parker
Electrical Engineering
Electronics The
University of Sydney
Macquarie University
EuMIC04-3
  • Characterization and Modelling
  • of
  • Substrate Trapping
  • in HEMTs

2
Outline
  • Introduction
  • Observation of gate lag, etc.
  • SRH trap theory
  • SRH trap modelling
  • Conclusion

3
Motivation
  • Interested in large-signal, broad-band
    modelling that reflects small-signal performance
  • Low-frequency memory effects are important
    for high-frequency modelling
  • Interested in models that have continuous derivat
    ives and are convergent

4
Pros Cons
  • Able to represent heating, trapping,
    impact ionization and breakdown
  • Able to model non-linearity by feedback
    networks representing the various effects
  • Difficulties with the large solution-space
    of parameters

5
Outline
  • Introduction
  • Observation of gate lag, etc.
  • SRH trap theory
  • SRH trap modelling
  • Conclusion

6
Step Response
Drain Potential (vDS)
7
(No Transcript)
8
Transient behaviour
9
Outline
  • Introduction
  • Observation of gate lag, etc.
  • SRH trap theory
  • SRH trap modelling
  • Conclusion

10
SRH trap theory
  • Emission and capture currents give integrated
    trap voltage
  • Trap voltage nT added to gate potential
  • Input nI linear function of terminal potentials
  • Impact ionization additional current injection

11
SRH equations
12
Gate lag
13
Gate lag
14
GaN Bias-evolution
15
Outline
  • Introduction
  • Observation of gate lag, etc.
  • SRH trap theory
  • SRH trap modelling
  • Conclusion

16
Dispersion Signal Flow
vDS

iDS

vGS

vDS
Self Heating
Memoryless Nonlinearity
HT(w)
Power
Positive Traps
Hh(w)
Impact Ionization
Negative Traps
vGS
He(w)
Electron Trapping
17
Bandwidth (fb-fa) / bias DependenceThird-order
Intermodulation
pHEMT (500MHz) VDS 3 V Vi -15 dBm IDSS 140
mA VTO -1.4 V
18
Measuring H(w)
n 0.35 (7 dB/dec)
19
SPICE Modelling
20
Aplac Modelling
21
Modelling 2
22
Modelling 3
23
Conclusion
  • Modelling trapping by a restatement of
    SRH theory
  • A powerful representation of heating,
    trapping, impact ionization and breakdown
  • Allows exploration of effects of trapping
    on intermodulation

24
Questions?
25
Modelling
26
SRH charging speed
27
Temperature dependence of w
28
Gate lag
29
Transistor Characteristics
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