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CHARACTERIZATION, MODELING, AND DES
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Abstract For more than 20 years, su
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Acknowledgments This work could not
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Contents Abstract iii Acknowledgmen
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6 Conclusion 165 6.1 Contributions
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List of Figures 1.1 ESD protection
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3.32 Simulated 1/∆T vs. time and
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A.65 The output file, bvceo.out, fo
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Chapter 1 Introduction Electrostati
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1.1. ESD in the Integrated Circuit
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1.2. Characterizing ESD in Integrat
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1.3. Protecting Integrated Circuits
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1.4. Numerical Simulation 9 simulat
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1.5. Design Methodology 11 process.
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1.6. Outline and Contributions 13 A
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Chapter 2 ESD Circuit Characterizat
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2.1. Classical ESD Characterization
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2.2. Transmission Line Pulsing 19 i
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2.2. Transmission Line Pulsing 21 (
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2.2. Transmission Line Pulsing 23 (
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2.2. Transmission Line Pulsing 25 I
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2.2. Transmission Line Pulsing 27 I
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2.2. Transmission Line Pulsing 29 E
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2.2. Transmission Line Pulsing 31 w
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2.2. Transmission Line Pulsing 33 a
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2.2. Transmission Line Pulsing 35 F
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2.3. Overview of Protection Circuit
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2.3. Overview of Protection Circuit
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2.3. Overview of Protection Circuit
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2.3. Overview of Protection Circuit
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2.4. Dependence of Critical MOSFET
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2.4. Dependence of Critical MOSFET
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2.5. Design Methodology 49 the subs
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2.5. Design Methodology 51 The perf
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2.5. Design Methodology 53 enter se
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Chapter 3 Simulation: Methods and A
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3.1. Lattice Temperature and Temper
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3.1. Lattice Temperature and Temper
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3.1. Lattice Temperature and Temper
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3.1. Lattice Temperature and Temper
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3.2. Curve Tracing 65 line (c) in F
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3.3. Mixed Mode Simulation 67 x n-1
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3.3. Mixed Mode Simulation 69 V c C
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3.4. Previous ESD Applications 71 v
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3.4. Previous ESD Applications 73 I
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3.5. Extraction of MOSFET I-V Param
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3.6. Extraction of MOSFET Pf vs. tf
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3.6. Extraction of MOSFET Pf vs. tf
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3.6. Extraction of MOSFET Pf vs. tf
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3.6. Extraction of MOSFET Pf vs. tf
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3.6. Extraction of MOSFET Pf vs. tf
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3.7. Simulation of Dielectric Failu
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3.7. Simulation of Dielectric Failu
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3.7. Simulation of Dielectric Failu
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3.7. Simulation of Dielectric Failu
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Chapter 4 Simulation: Calibration a
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4.1. Calibration Procedure 97 and t
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4.1. Calibration Procedure 99 conta
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4.1. Calibration Procedure 101 4.40
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4.1. Calibration Procedure 103 Afte
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4.1. Calibration Procedure 105 past
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4.1. Calibration Procedure 107 whic
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4.1. Calibration Procedure 109 simu
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4.1. Calibration Procedure 111 (a)
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4.1. Calibration Procedure 113 wher
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4.1. Calibration Procedure 115 peri
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4.1. Calibration Procedure 117 simu
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4.1. Calibration Procedure 119 volt
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4.2. MOSFET Snapback I-V Results 12
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4.2. MOSFET Snapback I-V Results 12
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4.3. Device Failure Results 125 V t
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4.3. Device Failure Results 127 alr
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4.3. Device Failure Results 129 act
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4.3. Device Failure Results 131 (a)
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4.3. Device Failure Results 133 (a)
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4.4. Design Example 135 reached, th
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4.4. Design Example 137 Using value
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Chapter 5 Design and Optimization o
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5.1. Methodology 141 5.1 Methodolog
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5.1. Methodology 143 W L DGS SGS Co
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5.1. Methodology 145 reaches its pe
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5.1. Methodology 147 the same withs
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5.1. Methodology 149 various respon
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5.1. Methodology 151 needed to desc
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5.1. Methodology 153 The actual pat
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- Page 177 and 178: 5.4. Optimization 161 Qualitatively
- Page 179 and 180: 5.5. Summary of Design Methodology
- Page 181 and 182: Chapter 6 Conclusion In the integra
- Page 183 and 184: 6.1. Contributions 167 TLP was show
- Page 185 and 186: 6.2. Future Work 169 most ESD quali
- Page 187 and 188: 6.2. Future Work 171 Significant wo
- Page 189 and 190: Appendix A Tracer User’s Manual S
- Page 191 and 192: A.3. CONTROL Card 175 A.3 CONTROL C
- Page 193 and 194: A.4. FIXED Card 177 A.4 FIXED Card
- Page 195 and 196: A.5. OPTION Card 179 • DAMP is a
- Page 197 and 198: A.5. OPTION Card 181 A.5.4 Examples
- Page 199 and 200: A.6. SOLVE Card 183 if the voltage
- Page 201 and 202: A.7. Input Deck Specifications 185
- Page 203 and 204: A.9. Examples 187 column contains c
- Page 205 and 206: A.9. Examples 189 fixed num = 1 typ
- Page 207 and 208: A.9. Examples 191 Collector Current
- Page 209 and 210: A.9. Examples 193 title mes.pis mes
- Page 211 and 212: A.9. Examples 195 simulator to use.
- Page 213 and 214: A.9. Examples 197 #Soln #Vctrl Ictr
- Page 215 and 216: Bibliography [1] T.J. Green and W.K
- Page 217 and 218: Bibliography 201 [20] C. Duvvury, R
- Page 219 and 220: Bibliography 203 [42] S.M. Sze, Phy
- Page 221: Bibliography 205 [63] R. van Overst