SIMPLORER User Manual V6.0 - FER-a

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10 334 Physical Domains The heat flow through an ideal temperature source can be arbitrary. Real temperature sources have always an internal resistance. If the internal resistance is essential for the simulation target, a corresponding resistance must be connected in series. Component Parameters Description [Unit] Parameter Name Data Type Temperature [K] VALUE real Component Outputs Description [Unit] Parameter Name Data Type Temperature [K] T real Heat Flow [J/s] H real Component Nodes Description Node Name Nature Pin 1 (with red point) TH1 thermal Time-Controlled Temperature Source Tt () = f[ time function] The time controlled temperature sources have the same properties as the linear temperature source above; the heat flow can be arbitrary and the internal resistance is zero (ideal source). The value of the temperature differential instead is equivalent to the present value of the selected time function at each calculation step. Component Parameters Description [Unit] Parameter Name Data Type Amplitude [T] AMPL real Frequency [Hz] (no trapezoidal function parameter) FREQU real Period [s] TPERIO real Delay [s] TDELAY real Phase [deg] PHASE real Angular Dimension n/a Offset OFF real Periodical; PERIO=1, periodical function, PERIO=0; non-periodical function PERIO real Damping factor [1/s] (only sine function) DAMPING>0, amplitude is exponentially decreasing (damped). DAMPING
Component Outputs Heat Flow Source <strong>SIMPLORER</strong> 6.0 — <strong>Manual</strong> 335 Description [Unit] Parameter Name Data Type Temperature [K] T real Heat Flow [J/s] H real Component Nodes Description Node Name Nature Pin 1 (with red point) TH1 thermal >>Basics>Physical Domains>Thermal The component represents an ideal flow source which supplies the defined flow rate for an arbitrary pressure differential. Within the dialog you can choose a constant or the time-controlled type. Dialog Settings � «Heat Flow [J/s]» The linear heat flow source is selected. Common parameter type. Enter a numerical value, a variable, or an expression in the text box or use the pin to connect a quantity. � � «Use pin» If the box is checked, the value is defined by the quantity connected to the pin, otherwise the value in the text box is used. � «Time Controlled» The time-controlled heat flow source is selected. In the list, select a time function and define the corresponding parameters. See also “Using Time Functions” on page 275. � In the list, select the sine, pulse, triangular, trapezoidal, saw-tooth rising, or saw-tooth falling time function. Linear Heat Flow Source Ht () = VALUE The flow rate is equivalent to the present value of the quantity specified in the input field. Usually a constant value, a time function, or a variable are chosen, or the value is determined in a state graph. All system quantities and variables can be combined with mathematical and logical operators and constants. The pressure of an ideal flow source can be arbitrary. Real flow sources have always an internal resistance. If the internal resistance is essential for the simulation target, a corresponding resistance must be connected in parallel. Component Parameters Description [Unit] Parameter Name Data Type Heat Flow [J/s] VALUE real
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5 Simulation System SIMPLORER ® 6.
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Printing History SIMPLORER 6.0 —
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Table of Contents SIMPLORER 6.0 —
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SIMPLORER 6.0 — Manual ix 12.3 Vi
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General Description of Content SIMP
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1 Introduction SIMPLORER 6.0 — Ma
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Installing SIMPLORER Hardware and S
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2 Project Management SIMPLORER 6.0
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Opional Programs • Analytical Fre
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SIMPLORER 6.0 — Manual 9 The «Sh
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Starting SIMPLORER Programs SIMPLOR
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SSC Commander Icon on the Taskbar S
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Command Toolbar Symbol and Descript
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Sorting Criteria SIMPLORER 6.0 —
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Dialog Tab/Options Description Add
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Options Menu — Directories � Di
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Command Description The Options men
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2.7 Version’s Report and Online H
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3 General Modeling Functions SIMPLO
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SI Units SIMPLORER 6.0 — Manual 2
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Characteristic Type (Name.CH) File
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Logic operators (must be surrounded
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3.2 Schematic Operating Environment
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Schematic Sheet Model Tree Object B
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3.3 Creating Simulation Models Star
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Component Overview SIMPLORER 6.0
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Searching for Components SIMPLORER
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Displaying and Hiding Pins SIMPLORE
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SIMPLORER 6.0 — Manual 47 Place t
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Defining Parameters Fixed Component
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Defining Displays and Outputs SIMPL
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Using Simulation Parameters SIMPLOR
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3.4 Characteristics in Simulation M
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SIMPLORER 6.0 — Manual 57 Define
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5 The new pin symbol can now be con
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Transferring Parameter Values into
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SIMPLORER 6.0 — Manual 63 5 Defin
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3.6 Modifying Component Parameters
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SIMPLORER 6.0 — Manual 67 Search
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SIMPLORER 6.0 — Manual 69 If you
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4 Modeling with Circuit Components
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Component Outputs SIMPLORER 6.0 —
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Component Parameters SIMPLORER 6.0
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SIMPLORER 6.0 — Manual 77 «Initi
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Inductor SIMPLORER 6.0 — Manual 7
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Component Outputs Mutual Inductance
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SIMPLORER 6.0 — Manual 85 � «T
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Component Outputs Controlled Voltag
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Current Source SIMPLORER 6.0 — Ma
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SIMPLORER 6.0 — Manual 93 «Early
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Component Outputs Voltage Controlle
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Polynomial Source SIMPLORER 6.0 —
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Fourier Source SIMPLORER 6.0 — Ma
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SIMPLORER 6.0 — Manual 101 � «
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Power Source SIMPLORER 6.0 — Manu
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Ideal Transfer Switch SIMPLORER 6.0
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4.4 Semiconductors System Level Dio
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IGBT Component Outputs SIMPLORER 6.
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Component Outputs MOS Fieldeffect T
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Component Outputs Bipolar Junction
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Component Outputs GTO-Thyristor SIM
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Thyristor Component Outputs SIMPLOR
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TRIAC Component Outputs SIMPLORER 6
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Electrical Behavior Level, Type DYN
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Irr[A] Irrmax i2 (sin) i1 (exp) �
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Dynamic IGBT Model SIMPLORER 6.0
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SIMPLORER 6.0 — Manual 129 There
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SIMPLORER 6.0 — Manual 131 Intern
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Dynamic FET Model SIMPLORER 6.0 —
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Freewheeling Diode Model SIMPLORER
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Electrical Model SIMPLORER 6.0 —
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Component Nodes SIMPLORER 6.0 — M
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SIMPLORER 6.0 — Manual 147 and Ca
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SIMPLORER 6.0 — Manual 149 Elemen
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4.6 SPICE-Compatible Models • Dio
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SIMPLORER 6.0 — Manual 153 specif
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4.6.2 Diode Models Diode SIMPLORER
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Current and Voltage Reference Arrow
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Current and Voltage Reference Arrow
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SIMPLORER 6.0 — Manual 161 BSIM3
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MESFET Model SIMPLORER 6.0 — Manu
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SIMPLORER 6.0 — Manual 165 The in
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4.7 Electrical Machines • Inducti
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SIMPLORER 6.0 — Manual 169 Initia
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SIMPLORER 6.0 — Manual 171 Motion
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Synchronous Machine Electrical Exci
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SIMPLORER 6.0 — Manual 175 Initia
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SIMPLORER 6.0 — Manual 177 Electr
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Flux-linkage equations ψ1d() t = i
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DC Machine Permanent Excitation SIM
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DC Machine Linear Electrical Excita
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DC Machine Nonlinear Electrical Exc
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4.8 Transformers • Single-Phase S
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Linear Two-winding Transformer SIMP
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Nonlinear Two-winding Transformer S
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Component Parameters Secondary Side
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W 2 KTR = ------- with W1 = Winding
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W 2 KTR = ------- with W1 = Winding
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SIMPLORER 6.0 — Manual 199 Dialog
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5 Modeling with Block Diagrams SIMP
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Defining the Sample Time You can ch
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Integrator SIMPLORER 6.0 — Manual
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Component Parameters Derivative SIM
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Component Outputs Dead-Time Element
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5.2 Discrete Blocks • Z-Transfer
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Discrete Integrator SIMPLORER 6.0
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4 SIMPLORER 6.0 — Manual 215 Dial
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SIMPLORER 6.0 — Manual 217 � «
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Component Outputs Step Function SIM
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Component Outputs 5.4 Signal Proces
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Summation SIMPLORER 6.0 — Manual
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Negator SIMPLORER 6.0 — Manual 22
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Component Outputs Comparator >>Basi
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Component Parameters N-Point Elemen
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Nonlinear Transfer Function >>Basic
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Maximum/Minimum Value at Time T SIM
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SIMPLORER 6.0 — Manual 235 �
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5.5 Math • Sine (FCT) • Cosine
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Root Sign SIMPLORER 6.0 — Manual
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6 Modeling with State Graphs SIMPLO
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Differences in Assignment Actions i
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Changing Action Types SIMPLORER 6.0
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State Graph Components • Transiti
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7 Using Measuring Instruments SIMPL
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Magnetic Meters SIMPLORER 6.0 — M
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Velocity-Force-Representation—Rot
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8 Using Signal Characteristics SIMP
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Component Parameters Event Triggere
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8.2 Dynamic Behavior Parameters •
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Pulse Duration SIMPLORER 6.0 — Ma
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8.3 Dynamic Performance Parameters
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Overshoot Characteristics SIMPLORER
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Component Parameters 8.4 Special Wa
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Sliding Mean Value SIMPLORER 6.0
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Component Outputs Power and Energy
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SIMPLORER 6.0 — Manual 273 «Scan
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9 Modeling Tools SIMPLORER 6.0 —
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Sine Wave >>Basics>Tools>Time Funct
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Triangular Wave >>Basics>Tools>Time
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Trapezoidal Wave >>Basics>Tools>Tim
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Page 297 and 298: Needle Pulses SIMPLORER 6.0 — Man
Page 299 and 300: Component Outputs 2D Lookup Table S
Page 301 and 302: PWM Component Outputs SIMPLORER 6.0
Page 303 and 304: Equivalent Line SIMPLORER 6.0 — M
Page 305 and 306: ⎛ VT ⎞ qt () = ( TAU ⋅ ISAT)
Page 307 and 308: 2D Lookup Table XY SIMPLORER 6.0
Page 309 and 310: Separate Component Characteristic S
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Page 313 and 314: Equations SIMPLORER 6.0 — Manual
Page 315 and 316: Equations SIMPLORER 6.0 — Manual
Page 317 and 318: 10 Physical Domains SIMPLORER 6.0
Page 319 and 320: Nature Types of Components SIMPLORE
Page 321 and 322: SIMPLORER 6.0 — Manual 309 The fl
Page 323 and 324: Simulator Outputs SIMPLORER 6.0 —
Page 325 and 326: qt () = dp ⋅ VOL ------------ + P
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Page 329 and 330: Magnetic Flux Source SIMPLORER 6.0
Page 331 and 332: Winding SIMPLORER 6.0 — Manual 31
Page 333 and 334: 10.3 Mechanical Components Displace
Page 335 and 336: Time-Controlled Position/Angle Sour
Page 337 and 338: Time-Controlled Velocity Source ds
Page 339 and 340: Spring SIMPLORER 6.0 — Manual 327
Page 341 and 342: Mass Component Parameters SIMPLORER
Page 343 and 344: Component Nodes Limit Stop SIMPLORE
Page 345: 10.4 Thermal Components • Tempera
Page 349 and 350: Component Nodes Thermal Resistance
Page 351 and 352: 11 Schematic Environment This chapt
Page 353 and 354: Printing Model Sheets SIMPLORER 6.0
Page 355 and 356: Using Templates SIMPLORER prompt to
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Page 361 and 362: Command Description Changing Proper
Page 363 and 364: Inserting Date, Time, and File Info
Page 365 and 366: 11.2.4 Drawing Elements SIMPLORER 6
Page 367 and 368: Properties of Rectangles, Circles,
Page 369 and 370: Element Menu � Command Toolbar Sy
Page 371 and 372: Editing Properties Exporting Data S
Page 373 and 374: Split Windows Command Toolbar Symbo
Page 375 and 376: Arranging Schematic Elements SIMPLO
Page 377 and 378: 12 Simulation Results This chapter
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Page 381 and 382: View Tool Coordinates SIMPLORER 6.0
Page 383 and 384: Outputs in Connect View Elements 2D
Page 385 and 386: Y Axis Tab SIMPLORER 6.0 — Manual
Page 387 and 388: X Axis Tab SIMPLORER 6.0 — Manual
Page 389 and 390: Channels Tab SIMPLORER 6.0 — Manu
Page 391 and 392: Nyquist Plot Channel Tab SIMPLORER
Page 393 and 394: 12.2.2 Postprocessing with Display
Page 395 and 396: Data Channels SIMPLORER 6.0 — Man
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12.3 View Tool SIMPLORER 6.0 — Ma
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SIMPLORER 6.0 — Manual 387 With t
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Shortcut Menu for Data Channels Pro
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Editing Diagram Settings SIMPLORER
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SIMPLORER 6.0 — Manual 393 Color
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12.3.4 Screen Layout and Help View
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13 Simulator SIMPLORER 6.0 — Manu
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Basic Rules for the Proper Choice o
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SIMPLORER 6.0 — Manual 401 • So
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SIMPLORER 6.0 — Manual 403 • Sp
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Circuit Simulator Parameters SECM.L
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Simulation Replay Function SIMPLORE
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13.3.2 Simulation in the SSC Comman
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Text Editor Simulation Menu � Com
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State SIMPLORER 6.0 — Manual 413
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SIMPLORER 6.0 — Manual 415 2 Incl
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Shortcut Menu and Simulator Queue I
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Circuit Simulator Processing SIMPLO
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14 Data Evaluation SIMPLORER 6.0
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DAY Post Processor Object Browser S
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Creating a New Analysis SIMPLORER 6
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14.1.3 Creating Graphical Represent
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Symbol Function Toolbar Symbol and
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View Menu � Command Toolbar Symbo
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Editing Data Channels Properties Me
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14.1.6 Options and Settings for Gra
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Cursors Command Toolbar Symbol and
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Operating Elements of Channel Calcu
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Smooth SIMPLORER 6.0 — Manual 441
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FFT (Fast Fourier Transformation) S
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Power SIMPLORER 6.0 — Manual 445
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Calculating Total Harmonic Distorti
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14.1.8 Matlab Tool Interface Requir
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Modifying Data in Matlab Data Types
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Start function � Draw the MATHCAD
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Inserting Elements in Presentations
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Insert OLE Objects SIMPLORER 6.0
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SIMPLORER 6.0 — Manual 459 All el
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14.1.11 Printing Simulation Data SI
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4 Click and enter a file name. Exp
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SIMPLORER 6.0 — Manual 465 5 Sele
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14.2 SIMPLORER ASCII System Data Fo
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Data Set Format SIMPLORER 6.0 — M
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Header in the .mdk file: typ:=A dim
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Parameters for Data Channels SIMPLO
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Command Toolbar Symbol and Descript
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User Questions Set options for user
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15 Model Libraries SIMPLORER 6.0
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SIMPLORER 6.0 — Manual 481 15.2 L
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SIMPLORER Language Concept SIMPLORE
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SIMPLORER 6.0 — Manual 485 a. Sel
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Updating C Models Command Descripti
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Shortcut menu of model tree Searche
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SIMPLORER 6.0 — Manual 491 7 Repe
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SIMPLORER 6.0 — Manual 493 8 Ente
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Simulation Tab SIMPLORER 6.0 — Ma
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15.4 Arranging Screen Layout and Us
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16 Symbol Editor SIMPLORER 6.0 —
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Symbol Management File Menu � SIM
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SIMPLORER 6.0 — Manual 503 The lo
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Arranging Elements Object Menu �
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Draw Menu � Command Toolbar Symbo
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16.3 Using Additional Features SIMP
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16.4 Arranging Screen Layout and Us
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17 Text Editor SIMPLORER 6.0 — Ma
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File Menu � Command Toolbar Symbo
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Convert Menu � SIMPLORER 6.0 —
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Key and Mouse Functions Selecting T
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Command/Tab Description SIMPLORER 6
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Appendix A.1 Glossary SIMPLORER 6.0
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SIMPLORER 6.0 — Manual 525 Term D
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SIMPLORER 6.0 — Manual 527 Term D
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A.2 Table of SIMPLORER Libraries SI
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SI Units SIMPLORER 6.0 — Manual 5
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Logic operators (must be surrounded
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Load Reference Arrow System of Circ
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SIMPLORER 6.0 — Manual 537 • Se
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A.5 Literature Reference SIMPLORER
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Index Symbols .mdk/.mda file format
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Constants Predefined 32 Continuous
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Nyquist Plot 379 Performing mathema
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GTOXY GTO-Thyristor XY Data Pairs 1
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Matlab-Tool-Interface 449 MAX Maxim
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Polynom of 2nd Order (parabolic) 29
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SIMPLORER ASCII System Data Formats
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Synchronous Machines Linear electri
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VIEW View Tool 395 VM Voltmeter 250
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