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CHAPTER 8
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8.2 A Complete Quasi-Static Model for the Intrinsic Part
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Complete Description of Intrinsic Capacitance Effects 8.2.1a 8.2.1b 8.2.2
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6.3 Terminal Currents in Quasi-Static Operation
6.3.4 6.3.5 6.3.6 6.3.7
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Complete Description of Intrinsic Capacitance Effects 8.2.3 8.2.4 8.2.5 8.2.6 8.2.7 8.2.8
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Complete Description of Intrinsic Capacitance Effects 8.2.9 8.2.10 8.2.11 8.2.12
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Small-Signal Equivalent Circuit Topologies
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Small-Signal Equivalent Circuit Topologies 8.2.13 8.2.14 8.2.15 8.2.16
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Small-Signal Equivalent Circuit Topologies 8.2.17 8.2.18 8.2.19a 8.2.19b 8.2.19c 8.2.20
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Small-Signal Equivalent Circuit Topologies
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Small-Signal Equivalent Circuit Topologies
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Small-Signal Equivalent Circuit Topologies
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Evaluation of Capacitances 8.2.21 8.2.22 8.2.23 8.2.24
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Evaluation of Capacitances 8.2.25 8.2.26 8.2.27 8.2.28 8.2.29
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Evaluation of Capacitances 8.2.30 8.2.31a 8.2.31b 8.2.31c 8.2.31d 8.2.31e 8.2.31f 8.2.31g 8.2.31h 8.2.32 8.2.33 8.2.34 8.2.35 8.2.36
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Evaluation of Capacitances Saturation. (VDS = VDS’ , h=0) 8.2.37a~r
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Evaluation of Capacitances
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Evaluation of Capacitances
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Evaluation of Capacitances
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6.4.21 6.4.22 6.4.23 6.4.24 6.4.25
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8. 2 A Complete Quasi-Static Model for the Intrinsic Part. 8. 2
8.2 A Complete Quasi-Static Model for the Intrinsic Part Evaluation of Capacitances
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8.3 y-Parameter Models
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8.3 y-Parameter Models 8.3.1 8.3.2
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8.3 y-Parameter Models 8.3.3 8.3.4
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8.3 y-Parameter Models 8.3.5 8.3.6 8.3.7
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8.3 y-Parameter Models 8.3.8
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8.3 y-Parameter Models
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8.3 y-Parameter Models 8.3.9 8.3.10 8.3.11
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8.4 Non-Quasi-Static Models
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8.4 Non-Quasi-Static Models 8.4.1 Introduction
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model DC (Bias) Excitation 8.4.2 8.4.3 8.4.4 8.4.5 8.4.6 8.4.7 8.4.8 8.4.9 8.4.10
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model DC (Bias) Excitation 8.4.11 8.4.12 8.4.13 8.4.14a 8.4.14b 8.4.15a 8.4.15b 8.4.15c 8.4.16 8.4.17
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Time-Varying Excitation 8.4.18 8.4.19 8.4.20 8.4.21 8.4.22 8.4.23 8.4.24 8.4.25 8.4.26 8.4.27 8.4.28
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Small-Signal Excitation 8.4.29 8.4.30
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Small-Signal Excitation 8.4.31 8.4.32 8.4.33 8.4.34 8.4.35 8.4.36 8.4.37 8.4.38
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Small-Signal Excitation 8.4.39 8.4.40 8.4.41 8.4.42 8.4.43
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8.4.44 8.4.45 8.4.46 8.4.47 8.4.48
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Complex Exponential Excitation 8.4.51 8.4.52 8.4.53 8.4.49 8.4.50
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Complex Exponential Excitation 8.4.54 8.4.55 8.4.56 8.4.57a 8.4.57b 8.4.58 8.4.59 8.5.60 8.4.61 8.4.62
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Complex Exponential Excitation 8.4.66 8.4.67 8.4.63 8.4.64 8.4.65 a~i
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Complex Exponential Excitation 8.4.68 8.4.69a-c d-f g-j
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Complex Exponential Excitation 8.4.70
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Complex Exponential Excitation
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8. 4 Non-Quasi-Static Models. 8. 4
8.4 Non-Quasi-Static Models A Non-Quasi-Static Strong-Inversion Model Complex Exponential Excitation 8.4.71 8.4.18 8.4.19 8.4.20 8.4.21 8.4.22 8.4.23 8.4.24 8.4.25 8.4.26 8.4.27 8.4.28
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8.4.72 8.4.73 8.4.74
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8.4 Non-Quasi-Static Models 8.4.4 Model Comparison
8.4.75
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8. 4 Non-Quasi-Static Models. 8. 4. 4 Model Comparison. 1
8.4 Non-Quasi-Static Models Model Comparison 1. Quasi-static model without transcapacitors (Fig 7.19) : 𝜔 0 10 8.4.75
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8. 4 Non-Quasi-Static Models. 8. 4. 4 Model Comparison. 2
8.4 Non-Quasi-Static Models Model Comparison 2. Quasi-static model with transcapacitors (Fig 8.5) : 𝜔 0 3 8.4.75
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8. 4 Non-Quasi-Static Models. 8. 4. 4 Model Comparison. 3
8.4 Non-Quasi-Static Models Model Comparison 3. First-order non-quasi-static model (Fig 8.20) : 𝜔 0 8.4.75
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8.5 High-Frequency Noise
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8.5 High-Frequency Noise 8.5.1 8.5.2 8.5.3 8.5.4 8.5.5
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8.5 High-Frequency Noise
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8.5 High-Frequency Noise 8.5.6
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8.5 High-Frequency Noise 8.5.7
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8.5 High-Frequency Noise
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8.6 Considerations in MOSFET Modeling for RF Applications
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8. 6 Considerations in MOSFET Modeling for RF Applications
8.6 Considerations in MOSFET Modeling for RF Applications Model Topologies
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8. 6 Considerations in MOSFET Modeling for RF Applications
8.6 Considerations in MOSFET Modeling for RF Applications Model Topologies
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8. 6 Considerations in MOSFET Modeling for RF Applications
8.6 Considerations in MOSFET Modeling for RF Applications Gate Resistance
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8. 6 Considerations in MOSFET Modeling for RF Applications
8.6 Considerations in MOSFET Modeling for RF Applications Transition Frequency 8.6.1 8.6.2
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8. 6 Considerations in MOSFET Modeling for RF Applications
8.6 Considerations in MOSFET Modeling for RF Applications Transition Frequency Maximum Frequency of Oscillation 8.6.3 8.6.4 8.6.5
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8. 6 Considerations in MOSFET Modeling for RF Applications
8.6 Considerations in MOSFET Modeling for RF Applications Maximum Frequency of Oscillation
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