- Page 2 and 3: Authors: Dr. rer. nat. Jochen Broz
- Page 4 and 5: 2 Part 3. Reference Manual 3.1 Netl
- Page 7 and 8: A Short Introduction 1.1 Welcome to
- Page 9 and 10: 1.1 Welcome to Analog Insydes 7 Net
- Page 11 and 12: 1.2 Getting Started 9 (Section 3.6.
- Page 13 and 14: 1.2 Getting Started 11 CancelTerms
- Page 15 and 16: 1.2 Getting Started 13 Analysis Tas
- Page 17 and 18: 1.2 Getting Started 15 this topic i
- Page 19 and 20: 1.2 Getting Started 17 In[10]:= ref
- Page 21 and 22: 1.2 Getting Started 19 In[16]:= op7
- Page 23 and 24: 1.2 Getting Started 21 The numerica
- Page 25 and 26: 1.2 Getting Started 23 comparison o
- Page 27 and 28: 1.3 What’s New 25 1.3 What’s Ne
- Page 29 and 30: 1.3 What’s New 27 Graphics Functi
- Page 31 and 32: 1.3 What’s New 29 Modeling Langua
- Page 33: 1.3 What’s New 31 NDAESolve, NDAE
- Page 37 and 38: 2.2 Netlists 35 2.2 Netlists 2.2.1
- Page 39 and 40: 2.2 Netlists 37 1 4 out1 R V1 gm*V1
- Page 41 and 42: 2.2 Netlists 39 2.2.2 Circuit Eleme
- Page 43 and 44: 2.2 Netlists 41 1 CM 2 V0 RB RL IB
- Page 45 and 46: 2.2 Netlists 43 The result represen
- Page 47 and 48: 2.2 Netlists 45 {VCC, {1, 0}, Type
- Page 49 and 50: 2.2 Netlists 47 In[23]:= filtereqs
- Page 51 and 52: 2.3 Circuits and Subcircuits 49 Thr
- Page 53 and 54: 2.3 Circuits and Subcircuits 51 C B
- Page 55 and 56: 2.3 Circuits and Subcircuits 53 {su
- Page 57 and 58: 2.3 Circuits and Subcircuits 55 2.3
- Page 59 and 60: 2.3 Circuits and Subcircuits 57 In[
- Page 61 and 62: 2.3 Circuits and Subcircuits 59 In[
- Page 63 and 64: 2.3 Circuits and Subcircuits 61 In[
- Page 65 and 66: 2.3 Circuits and Subcircuits 63 In[
- Page 67 and 68: 2.3 Circuits and Subcircuits 65 In[
- Page 69 and 70: 2.3 Circuits and Subcircuits 67 In[
- Page 71 and 72: 2.3 Circuits and Subcircuits 69 {VC
- Page 73 and 74: 2.3 Circuits and Subcircuits 71 In[
- Page 75 and 76: 2.4 Setting up and Solving Circuit
- Page 77 and 78: 2.4 Setting up and Solving Circuit
- Page 79 and 80: 2.4 Setting up and Solving Circuit
- Page 81 and 82: 2.4 Setting up and Solving Circuit
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2.5 Graphics 83 2.5 Graphics Mathem
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2.5 Graphics 85 Automatic {ymin, ym
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2.5 Graphics 87 NyquistPlot Options
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2.5 Graphics 89 means of the PlotPo
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2.5 Graphics 91 Animating Root Locu
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2.6 Modeling and Analysis of Nonlin
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2.6 Modeling and Analysis of Nonlin
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2.6 Modeling and Analysis of Nonlin
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2.6 Modeling and Analysis of Nonlin
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2.6 Modeling and Analysis of Nonlin
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2.6 Modeling and Analysis of Nonlin
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2.6 Modeling and Analysis of Nonlin
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.7 Time-Domain Analysis of Nonline
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2.8 Linear Symbolic Approximation 1
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2.8 Linear Symbolic Approximation 1
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2.8 Linear Symbolic Approximation 1
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2.8 Linear Symbolic Approximation 1
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2.8 Linear Symbolic Approximation 1
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2.8 Linear Symbolic Approximation 1
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2.8 Linear Symbolic Approximation 1
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.9 Frequency-Domain Analysis of Li
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2.10 Nonlinear Symbolic Approximati
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2.10 Nonlinear Symbolic Approximati
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2.10 Nonlinear Symbolic Approximati
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2.10 Nonlinear Symbolic Approximati
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2.10 Nonlinear Symbolic Approximati
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2.10 Nonlinear Symbolic Approximati
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Reference Manual 3.1 Netlist Format
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3.1 Netlist Format 181 3.1.2 Circui
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3.1 Netlist Format 183 Reference de
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3.1 Netlist Format 185 {refdes, {no
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3.1 Netlist Format 187 3.1.5 Elemen
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3.1 Netlist Format 189 defines a ti
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3.1 Netlist Format 191 3.1.10 Model
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3.2 Subcircuit and Device Model Def
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3.2 Subcircuit and Device Model Def
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3.2 Subcircuit and Device Model Def
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3.2 Subcircuit and Device Model Def
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3.2 Subcircuit and Device Model Def
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3.2 Subcircuit and Device Model Def
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3.2 Subcircuit and Device Model Def
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3.2 Subcircuit and Device Model Def
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3.2 Subcircuit and Device Model Def
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3.2 Subcircuit and Device Model Def
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3.3 Model Library Management 213 3.
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3.3 Model Library Management 215 3.
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3.3 Model Library Management 217 Ex
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3.3 Model Library Management 219 Ex
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3.3 Model Library Management 221 Lo
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3.4 Expanding Subcircuits and Devic
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3.4 Expanding Subcircuits and Devic
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3.4 Expanding Subcircuits and Devic
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.5 Setting Up and Solving Circuit
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.6 Circuit and DAEObject Manipulat
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3.7 Numerical Analyses 283 Analog I
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3.7 Numerical Analyses 285 option n
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3.7 Numerical Analyses 287 To solve
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3.7 Numerical Analyses 289 Options
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3.7 Numerical Analyses 291 Perform
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3.7 Numerical Analyses 293 NDAESolv
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3.7 Numerical Analyses 295 option n
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3.7 Numerical Analyses 297 None Aut
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3.7 Numerical Analyses 299 FindRoot
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3.7 Numerical Analyses 301 D1 1 2 V
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3.7 Numerical Analyses 303 Perform
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3.7 Numerical Analyses 305 set to z
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3.8 Pole/Zero Analysis 307 3.8.1 Ge
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3.8 Pole/Zero Analysis 309 3.8.3 Po
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3.8 Pole/Zero Analysis 311 Examples
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3.8 Pole/Zero Analysis 313 option n
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3.8 Pole/Zero Analysis 315 r v ⩵
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3.8 Pole/Zero Analysis 317 dae into
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3.8 Pole/Zero Analysis 319 Solve th
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3.8 Pole/Zero Analysis 321 is real
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3.8 Pole/Zero Analysis 323 option n
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3.8 Pole/Zero Analysis 325 Note tha
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3.8 Pole/Zero Analysis 327 does not
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3.8 Pole/Zero Analysis 329 Toleranc
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3.8 Pole/Zero Analysis 331 Estimate
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3.9 Graphics Functions 333 BodePlot
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3.9 Graphics Functions 335 Decibels
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3.9 Graphics Functions 337 This pro
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3.9 Graphics Functions 339 Display
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3.9 Graphics Functions 341 Restrict
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3.9 Graphics Functions 343 3.9.2 Fo
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3.9 Graphics Functions 345 See also
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3.9 Graphics Functions 347 Set up m
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3.9 Graphics Functions 349 Frequenc
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3.9 Graphics Functions 351 Do an AC
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3.9 Graphics Functions 353 3.9.5 Ro
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3.9 Graphics Functions 355 PlotRang
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3.9 Graphics Functions 357 Change b
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3.9 Graphics Functions 359 Transien
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3.9 Graphics Functions 361 SweepPar
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3.9 Graphics Functions 363 View sig
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3.9 Graphics Functions 365 Display
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3.10 Interfaces 367 option name def
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3.10 Interfaces 369 Protocol This o
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3.10 Interfaces 371 PSpice ReadNetl
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3.10 Interfaces 373 ReadNetlist["ne
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3.10 Interfaces 375 Eldo card .ADDL
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3.10 Interfaces 377 3.10.3 ReadSimu
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3.10 Interfaces 379 simulator "Anal
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3.10 Interfaces 381 WriteSimulation
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3.10 Interfaces 383 View the file "
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3.10 Interfaces 385 Automatic {var
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3.11 Linear Simplification Techniqu
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3.11 Linear Simplification Techniqu
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3.11 Linear Simplification Techniqu
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3.11 Linear Simplification Techniqu
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3.11 Linear Simplification Techniqu
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3.11 Linear Simplification Techniqu
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3.11 Linear Simplification Techniqu
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3.11 Linear Simplification Techniqu
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3.12 Nonlinear Simplification Techn
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3.12 Nonlinear Simplification Techn
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3.12 Nonlinear Simplification Techn
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3.12 Nonlinear Simplification Techn
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3.12 Nonlinear Simplification Techn
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3.12 Nonlinear Simplification Techn
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3.12 Nonlinear Simplification Techn
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3.12 Nonlinear Simplification Techn
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3.12 Nonlinear Simplification Techn
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3.13 Miscellaneous Functions 421 Ex
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3.13 Miscellaneous Functions 423 Op
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3.13 Miscellaneous Functions 425 Us
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3.14 Global Options 427 3.14 Global
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3.14 Global Options 429 3.14.4 Mode
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3.14 Global Options 431 Turn off pr
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3.14 Global Options 433 Display the
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3.15 The Analog Insydes Environment
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3.15 The Analog Insydes Environment
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440 4. Appendix 4.1 Stimuli Sources
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442 4. Appendix A CheckedExpWave ca
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444 4. Appendix Display the signal.
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446 4. Appendix argument name defau
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448 4. Appendix 4.2 Netlist Element
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450 4. Appendix 4.2.2 Conductance t
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452 4. Appendix V1 node1 node2 An o
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454 4. Appendix 4.2.11 CCCSource ty
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456 4. Appendix The terminals of th
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458 4. Appendix node1 node2 A Norat
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460 4. Appendix 4.2.22 Integrator t
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462 4. Appendix 4.3 Model Library T
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464 4. Appendix parameter name defa
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466 4. Appendix parameter name defa
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468 4. Appendix 4.3.2 Bipolar Junct
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470 4. Appendix C RC CBX B RB CBC C
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472 4. Appendix parameter name defa
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474 4. Appendix parameter name defa
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476 4. Appendix parameter name defa
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478 4. Appendix Small-Signal Model
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480 4. Appendix 4.3.3 MOS Field-Eff
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482 4. Appendix parameter name defa
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484 4. Appendix parameter name defa
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486 4. Appendix If TOX is set, the
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488 4. Appendix D s*DqdDvgb*vgb s*D
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490 4. Appendix parameter name defa
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492 4. Appendix parameter name defa
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494 4. Appendix D D G G S S Valid v
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496 4. Appendix parameter name defa
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498 4. Appendix The automatic reduc
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Credits Developers Dr. rer. nat. Jo
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502 UnitCircleStyle — ZeroStyle I
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504 GetDAEOptions — Junction fiel
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506 Model — OperatingPointPostfix
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508 ReadNetlist — SinWave Index s
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510 ZeroStyle — ZeroStyle Index a