502 UnitCircleStyle — ZeroStyle Index CancelTerms, 168, 412 example application, 175 examples for, 416 options description for, 413 Capacitor, 451 Capacitors, initial conditions for, 46 CCCSource, 454 CCVSource, 454 CharacterMapping, option for ReadNetlist, 368 CheckedAMWave, data type returned by AMWave, 440 CheckedExpWave, data type returned by ExpWave, 442 CheckedPulseWave, data type returned by PulseWave, 443 CheckedPWLWave, data type returned by PWLWave, 444 CheckedSFFMWave, data type returned by SFFMWave, 445 CheckedSinWave, data type returned by SinWave, 447 CircleMark, marker style for options PoleStyle and ZeroStyle, 89, 355 Circuit, 48, 181 examples for, 181 Circuit equations, setting up and solving, 229 Circuit object, 180 information on, Statistics, 279 manipulating, 257 showing contents, DisplayForm, 49 Circuit-description language, 180 CircuitEquations, 73, 229, 233, 236, 237, 238 examples for, 241 options description for, 232 Cleanup, option for ApplyDesignPoint, 272 option for UpdateDesignPoint, 275 Clusterbound, option for CancelTerms, 414 CMRR, 154 ColorList, option for DXFGraphics, 424 Common-mode gain, 152 Common-mode rejection ratio, 154 Compatibility to Version 1, 30 Compiled, option for NDAESolve, 293 option for WriteSimulationData, 381 Complex frequency, 81 Complexity problem, 130 ComplexityEstimate, 132, 387 examples for, 388 ComplexValues, option for WriteSimulationData, 381 CompressEquations, option for ApproximateMatrixEquation, 395 option for NDAESolve, 296 CompressMatrixEquation, 400 examples for, 401 CompressNonlinearEquations, 97, 168, 409 example application, 174 examples for, 411 options description for, 410 Conductance, 450 Connectivity field, format for referencing subcircuits, 53 Connectivity list, 36 Control system description, Circuit, 181 Controlled sources, 37, 40 Controlling branch, of controlled sources, 40 Controlling currents, naming scheme for, 72 Controlling voltages, naming scheme for, 72 ControllingCurrentPrefix, option for CircuitEquations, 72, 233 ControllingVoltagePrefix, option for CircuitEquations, 72, 234 ConvertDataTo2D, 420 examples for, 421 ConvertImmittances, option for CircuitEquations, 76, 234 CrossMark, marker style for options PoleStyle and ZeroStyle, 89, 355 Current, into pin, 95 naming scheme for brach currents, 72 naming scheme for controlling currents, 72 reference direction, 158 Current, 94 Current meter, 452 Current-controlled sources, connection, 40 CurrentSource, 453 DAE (differential-algebraic equations), 106 DAEObject, information on, Statistics, 279 manipulating, 257 showing contents, DisplayForm, 42 Data format, 282 Database, for subcircuits, 64 DataLabels, option for WriteSimulationData, 382 DC, mode option for source value specification, 187 option value for AnalysisMode, 232, 295 DC analysis, 292 DC-transfer analysis, 109, 113, 292 DCEquations, 252 examples for, 254 options description for, 253 Decibels, option value for MagnitudeDisplay, 335 DefaultACError, option value for ErrorFunction, 406 DefaultACSimulation, option value for SimulationFunction, 406 DefaultDTError, option value for ErrorFunction, 404 DefaultDTSimulation, option value for SimulationFunction, 404 Defaults, parameter for Model, 198 DefaultSelector, option for CircuitEquations, 234 option for ExpandSubcircuits, 225 Definition, parameter for Model, 50, 92, 94, 202 Degrees, option value for PhaseDisplay, 335, 345 DeleteElements, 259 examples for, 260 Demo notebooks, 11 DerivativePostfix, option for ACEquations, 250, 251 Design points, applying, ApplyDesignPoint, 271 extracting, GetDesignPoint, 270
Index Design points — GetDesignPoint 503 for matrix approximation, 138 generation of, 161 numerical reference values, 134 updating, UpdateDesignPoint, 274 DesignPoint, option for ApproximateDeterminant, 323 option for ApproximateMatrixEquation, 395 option for CircuitEquations, 235 option for LREigenpair, 316 option for MatchSymbols, 276 option for NDAESolve, 296 option for NoiseAnalysis, 289 option for WriteModel, 384 Device mismatch, 152 Differential gain, 151 Differential-algebraic equations (DAE), 106 Differentiator, 460 Diode, 462 example model implementation, 93 large-signal model, 462 small-signal model, 467 DirectedLogError, option value for ErrorFunction, 324 DisplayForm, 36, 42, 49 Dominant pole, 162 DT analysis, 109, 113, 292 DXF, 421 DXFGraphics, 421 examples for, 424 options description for, 423 Ebers-Moll transistor model, example for, 98 Eldo, option value for Simulator, 431 Element types, 39 Element values, 38 numerical values, 43 symbolic values, 43 Elements, admittance elements, 45 impedance elements, 45 ElementTypes, 39, 187 examples for, 187 ElementValues, option for CircuitEquations, 81, 235 EliminateVariables, option for CompressNonlinearEquations, 410 Email address, 6 Environment variables, 435 Equations, compressing nonlinear equations, CompressNonlinearEquations, 168, 409 extracting, GetEquations, 262 for behavioral models, 94 setting up, CircuitEquations, 229 solving nonlinear equations, 97 solving of, 74 Equations, parameter value for Definition, 92, 94 Error, specification for equations, MaxError, 138 specification for expressions, 136 Errorbound, option for CancelTerms, 414 ErrorFunction, AC mode option value for NonlinearSetup, 406 DT mode option value for NonlinearSetup, 404 option for ApproximateDeterminant, 324 ESTA (extended sparse tableau analysis), 78 ExpandSubcircuits, 55, 223 examples for, 226 options description for, 224 Expansion, of subcircuits, 55 Exponential, option value for FrequencyScaling, 87, 334, 345, 349 option value for Sampling, 382 Exporting, behavioral models, WriteModel, 383 simulation data, WriteSimulationData, 380 ExpWave, 441 examples for, 442 Extended sparse tableau analysis (ESTA), 78 ExtendedTableau, option value for Formulation, 78, 236 Features, new features in version 2.1, 25 detailed description of new features, 27 overview of new features, 26 Fill-in pattern, 45 FillColors, option for DXFGraphics, 423 FindModel, 215 examples for, 215 FindModelParameters, 216 FindRoot, option value for NonlinearMethod, 299 Fixator, 458 Flat netlist, 55 Formulation, option for CircuitEquations, 76, 236 Four-terminal elements, 37 FourierPlot, 343 examples for, 343 Frequency, 188 Frequency-domain analysis, 145 FrequencyScaling, option for BodePlot, 334 option for NicholPlot, 88, 345 option for NyquistPlot, 87, 349 FrequencyVariable, option for ACAnalysis, 285 option for ACEquations, 250, 251 option for ApproximateDeterminant, 324 option for CircuitEquations, 81, 236 option for LREigenpair, 316 option for NoiseAnalysis, 289 FullModels, option value for ModelLibrary, 429 GeneralizedEigensystem, 307 examples for, 307 option value for GEPSolver, 324 GeneralizedEigenvalues, 308 examples for, 308 GEPSolver, option for ApproximateDeterminant, 324 GEPSolverOptions, option for ApproximateDeterminant, 324 GetDAEOptions, 267
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Authors: Dr. rer. nat. Jochen Broz
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2 Part 3. Reference Manual 3.1 Netl
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A Short Introduction 1.1 Welcome to
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1.1 Welcome to Analog Insydes 7 Net
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1.2 Getting Started 9 (Section 3.6.
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1.2 Getting Started 11 CancelTerms
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1.2 Getting Started 13 Analysis Tas
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1.2 Getting Started 15 this topic i
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1.2 Getting Started 17 In[10]:= ref
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1.2 Getting Started 19 In[16]:= op7
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1.2 Getting Started 21 The numerica
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1.2 Getting Started 23 comparison o
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1.3 What’s New 25 1.3 What’s Ne
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1.3 What’s New 27 Graphics Functi
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1.3 What’s New 29 Modeling Langua
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1.3 What’s New 31 NDAESolve, NDAE
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34 2. Tutorial 2.1 Preface 2.1.1 Ho
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36 2. Tutorial The Netlist command
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38 2. Tutorial {V0, {1, 2}, V0} Hen
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40 2. Tutorial Controlled Sources:
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42 2. Tutorial In[9]:= vdeqs = Circ
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44 2. Tutorial the Symbolic option
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46 2. Tutorial In[16]:= cccseqs2 =
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48 2. Tutorial 2.3 Circuits and Sub
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50 2. Tutorial Model[ Name −> sub
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52 2. Tutorial Connections to subci
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54 2. Tutorial In[2]:= commonEmitte
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56 2. Tutorial In[5]:= flatAmpDyn =
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58 2. Tutorial 2.3.5 Subcircuit Par
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60 2. Tutorial In[13]:= darlington
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62 2. Tutorial same global symbols
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64 2. Tutorial appropriate Scope ar
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66 2. Tutorial B C E RB gm*VBE E Fi
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68 2. Tutorial In[27]:= Circuit[ Mo
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70 2. Tutorial An advanced applicat
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72 2. Tutorial 2.4 Setting up and S
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74 2. Tutorial To illustrate equati
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76 2. Tutorial 2.4.3 Circuit Equati
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78 2. Tutorial In[10]:= CircuitEqua
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80 2. Tutorial 2.4.4 Additional Opt
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82 2. Tutorial In[18]:= rlc2eqs = C
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84 2. Tutorial In[3]:= BodePlot[H1[
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86 2. Tutorial In[6]:= H12a[s_] :=
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88 2. Tutorial In[11]:= NicholPlot[
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90 2. Tutorial In[14]:= RootLocusPl
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92 2. Tutorial 2.6 Modeling and Ana
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94 2. Tutorial Model[ Name −> Dio
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96 2. Tutorial 2.6.3 Referencing Be
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98 2. Tutorial In[8]:= dnwsol = Com
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100 2. Tutorial the base current, i
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102 2. Tutorial Similarly, we defin
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104 2. Tutorial In[14]:= mnaeqsfa =
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106 2. Tutorial 2.7 Time-Domain Ana
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108 2. Tutorial Let’s use NDAESol
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110 2. Tutorial The influence of th
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112 2. Tutorial In[11]:= diffAmp =
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114 2. Tutorial Additionally, we fo
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116 2. Tutorial Then, we run NDAESo
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118 2. Tutorial 2.7.3 Flow of Trans
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120 2. Tutorial input of circuit ne
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122 2. Tutorial difference between
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124 2. Tutorial Vic 1 2 L1 C1 R1 Io
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126 2. Tutorial In[30]:= oscillator
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128 2. Tutorial In[36]:= TransientP
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130 2. Tutorial 2.8 Linear Symbolic
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132 2. Tutorial Even for this very
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134 2. Tutorial than R3 and R4: R1
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136 2. Tutorial Let’s apply solut
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138 2. Tutorial at all. This will b
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140 2. Tutorial s ⩵ Π I f . Fi
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142 2. Tutorial In[33]:= voutsimp3
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144 2. Tutorial of all terms by lea
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146 2. Tutorial D G S VGS gm*VGS GD
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148 2. Tutorial 6 VDD M3 M4 5 1 M1
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150 2. Tutorial Ys ⩵ Hs Xs Hence
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152 2. Tutorial 2.9.3 Device Mismat
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154 2. Tutorial In[17]:= cmgSAG = A
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156 2. Tutorial Replacing the load
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158 2. Tutorial Stimulus Sources fo
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160 2. Tutorial In[27]:= twoportmna
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162 2. Tutorial Let’s examine the
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164 2. Tutorial In[45]:= BodePlot[r
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166 2. Tutorial Finally, we verify
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168 2. Tutorial each input symbol (
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170 2. Tutorial As a first step we
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172 2. Tutorial In[8]:= mnaFull = C
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174 2. Tutorial In[16]:= Max @ Map[
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176 2. Tutorial In[24]:= Statistics
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178 2. Tutorial the equations for t
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180 3. Reference Manual 3.1 Netlist
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182 3. Reference Manual A complex c
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184 3. Reference Manual This netlis
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186 3. Reference Manual You may not
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188 3. Reference Manual If no value
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190 3. Reference Manual A model ref
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192 3. Reference Manual 3.2 Subcirc
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194 3. Reference Manual Name −> "
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196 3. Reference Manual Ports Ports
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198 3. Reference Manual Any symbol
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200 3. Reference Manual calculated
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202 3. Reference Manual Definition
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204 3. Reference Manual (ODEs). In
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206 3. Reference Manual With the In
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208 3. Reference Manual A circuit w
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210 3. Reference Manual This code d
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212 3. Reference Manual Simulate th
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214 3. Reference Manual option name
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216 3. Reference Manual 3.3.3 FindM
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218 3. Reference Manual 3.3.6 LoadM
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220 3. Reference Manual option name
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222 3. Reference Manual Remove the
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224 3. Reference Manual option name
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226 3. Reference Manual When HoldMo
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228 3. Reference Manual List the Mo
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230 3. Reference Manual option name
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232 3. Reference Manual option name
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234 3. Reference Manual Controlling
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236 3. Reference Manual Value Symbo
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238 3. Reference Manual If the Inde
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240 3. Reference Manual Value takes
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242 3. Reference Manual Set up a sy
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244 3. Reference Manual Set up a sy
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246 3. Reference Manual Now we use
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248 3. Reference Manual Replace all
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250 3. Reference Manual 3.5.2 ACEqu
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252 3. Reference Manual Show equati
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254 3. Reference Manual Define netl
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256 3. Reference Manual Extract val
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258 3. Reference Manual 3.6.1 AddEl
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260 3. Reference Manual Examples Lo
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262 3. Reference Manual Display net
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264 3. Reference Manual Define a si
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266 3. Reference Manual 3.6.9 GetPa
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268 3. Reference Manual Return the
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270 3. Reference Manual You can set
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272 3. Reference Manual the DesignP
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274 3. Reference Manual Show new DA
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276 3. Reference Manual Show update
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278 3. Reference Manual Match symbo
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280 3. Reference Manual number of e
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282 3. Reference Manual 3.7 Numeric
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284 3. Reference Manual The combina
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286 3. Reference Manual The default
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288 3. Reference Manual have to be
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290 3. Reference Manual Read the ne
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292 3. Reference Manual 3.7.5 NDAES
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294 3. Reference Manual option name
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296 3. Reference Manual Note that t
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298 3. Reference Manual MaxDelta On
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300 3. Reference Manual In case of
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302 3. Reference Manual Perform num
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304 3. Reference Manual Vic 1 2 L1
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306 3. Reference Manual 3.8 Pole/Ze
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308 3. Reference Manual r v ⩵
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310 3. Reference Manual Calculate b
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312 3. Reference Manual Read in a P
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314 3. Reference Manual Show the ro
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316 3. Reference Manual option name
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318 3. Reference Manual A ϑ i B
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320 3. Reference Manual Find the po
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322 3. Reference Manual option name
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324 3. Reference Manual ErrorFuncti
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326 3. Reference Manual error but s
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328 3. Reference Manual If you set
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330 3. Reference Manual Set up syst
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332 3. Reference Manual 3.9 Graphic
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334 3. Reference Manual option name
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336 3. Reference Manual Automatic s
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338 3. Reference Manual Display all
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340 3. Reference Manual Show magnit
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342 3. Reference Manual Reduce the
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344 3. Reference Manual 3.9.3 Nicho
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346 3. Reference Manual Examples Lo
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348 3. Reference Manual NyquistPlot
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350 3. Reference Manual Draw a Nyqu
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352 3. Reference Manual Display the
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354 3. Reference Manual option name
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356 3. Reference Manual Examples Lo
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358 3. Reference Manual Change the
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360 3. Reference Manual Parametric
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362 3. Reference Manual Define netl
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364 3. Reference Manual Generate a
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366 3. Reference Manual 3.10 Interf
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368 3. Reference Manual Options Des
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370 3. Reference Manual Read and co
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372 3. Reference Manual Independent
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374 3. Reference Manual Linear resi
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376 3. Reference Manual ReadNetlist
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378 3. Reference Manual See also: W
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380 3. Reference Manual Read simula
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382 3. Reference Manual DataLabels
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384 3. Reference Manual option name
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386 3. Reference Manual Generate th
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388 3. Reference Manual Define an A
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390 3. Reference Manual The fourth
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392 3. Reference Manual Simplify th
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394 3. Reference Manual option name
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396 3. Reference Manual be a number
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398 3. Reference Manual This netlis
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400 3. Reference Manual Plot the ex
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402 3. Reference Manual This netlis
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404 3. Reference Manual The rules m
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406 3. Reference Manual An example
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408 3. Reference Manual V and V a
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410 3. Reference Manual option name
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412 3. Reference Manual Show compre
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414 3. Reference Manual Clusterboun
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416 3. Reference Manual Examples Lo
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418 3. Reference Manual As mentione
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420 3. Reference Manual 3.13 Miscel
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422 3. Reference Manual The main pu
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424 3. Reference Manual ThicknessFu
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426 3. Reference Manual 3.13.3 Math
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428 3. Reference Manual View global
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430 3. Reference Manual Use full-pr
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432 3. Reference Manual wish to run
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434 3. Reference Manual 3.15 The An
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436 3. Reference Manual 3.15.3 Rele
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Appendix 4.1 Stimuli Sources . . .
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4.1 Stimuli Sources 441 argument na
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4.1 Stimuli Sources 443 4.1.3 Pulse
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4.1 Stimuli Sources 445 Examples Lo
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4.1 Stimuli Sources 447 A CheckedSi
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4.2 Netlist Elements 449 element ty
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