SIMPLORER User Manual V6.0 - FER-a

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4 5 170 Modeling with Circuit Components Synchronous Machine Electrical Excitation without Damper >>Basics>Circuit>Electrical Machines The model represents a linear DC field synchronous machine without damper (internal-field) as a lumped circuit component. Depending on the parameter set, the machine can be operated either as a salient or non-salient pole rotor. The circuit nodes A – B – C are the terminals of star-connected stator winding; the circuit nodes E1 – E2 are the terminals of excitation winding. The component cannot be used with AC and DC simulation. If the line-to-line voltage v ab , v bc , v ac or the line currents i a , i b , i c of the synchronous machine are of special interest, voltmeters or ammeters can be connected to the synchronous machine. Model Limits of Synchronous Machine Models Equation System • 3-phase symmetrical synchronous machine with internal-field system and star-connected stator winding without neutral node (no zero phase-sequence system). • Linear and iron-loss free magnetic circuit. • No consideration of skin effects in the windings. • Exclusive consideration of fundamental flux linkage between stator, damper and excitation windings. • Rotor position-independent leakage inductances. • Friction losses (parasitic torques) are not considered in the model; they can be added with the load torque parameter externally. The equation system is implemented in a rotor-fixed (rotor-fixed and also rotor flux-fixed) coordinate system (d-q coordinates). Index 1 represents the stator quantities; the index e the quantities of rotor excitation wingdings. The phase quantities of the real three-phase synchronous machine are indicated with a, b, c. Voltage equations dψ1d() t dψed() t v1d() t = i1d() t ⋅ R1 + ------------------ – p ⋅ ω() t ⋅ ψ1q() t ved() t = ied() t ⋅ R ------------------ e + dt dt dψ1q() t v1q() t = i1q() t ⋅ R1 + ------------------ + p ⋅ ω() t ⋅ ψ1d() t veq() t = 0 dt Flux-linkage equations ψ1d() t = i1d() t ⋅ L1d + ied() t ⋅ Lm1ed ψ1q() t = i1q() t ⋅ L 1q ψed() t = i1d() t ⋅ Lm1ed + ied() t ⋅ Led ψeq() t = 0 Torque equation (electromagnetic developed “internal” torque) mi() t = 3 --p ⋅ ( ψ 2 1d() t ⋅ i1q() t – ψ1q() t ⋅ i1d() t )
<strong>SIMPLORER</strong> 6.0 — <strong>Manual</strong> 171 Motion equation Electrical coupling of excitation dω ------------- () t dt = 1 -- ( m J i() t – mw() t ) quantities with the orthogonal quantities ved() t = ve() t ie() t = ied() t Electrical coupling of phase quantities with the orthogonal quantities γ() t = p ⋅ ω() t dt v1α() t v1β() t v1d() t v1q() t = = = ∫ 2 1 1 --v 3 1a() t – --v 3 1b() t – --v 3 1c() t ------v 3 3 3 1b() t – ------v 3 1c() t v1α() t ⋅ cos( γt () ) + v1β() t ⋅ sin( γt () ) = v1α() t ⋅ sin( γt () ) – v1β ⋅ cosγ() t Dialog Settings � «Parameters» Click the «Value» field of the corresponding parameter to define a value. Common parameter types. Enter a numerical value, a variable, or an expression. Look the meaning up in the parameter table below. � «Initial Values» Click the «Value» field of the corresponding parameter to define the initial values. Common parameter types. Enter a numerical value, a variable, or an expression. The values are set only once at simulation start. Look the meaning up in the parameter table below. � «Angular Dimension» In the list, select radians or degrees for the angular dimension. The dimension is valid for all angle input quantities in the machine model. Component Parameters i1α() t = i1d() t ⋅ cos( γt () ) – i1q() t ⋅ sin( γt () ) i1β() t = i1d() t ⋅ sin( γt () ) + i1q() t ⋅ cos( γt () ) i1a() t = i1α() t 1 i1b() t --i 3 = – 2 1α() t + ------i 2 1β() t 1 i1c() t --i 3 = – 2 1α() t – ------i 2 1β() t Description [Unit] Parameter Name Data Type Load Torque [Nm] LOAD real Stator Resistance [Ω] R1 real Stator Inductance d-Axis [H] L1D real Stator Inductance q-Axis [H] L1Q real Mutual Inductance stator-exciter d-Axis [H] LM1ED real Excitation Resistance [Ω] RE real Excitation Inductance d-Axis [H] LE real Number of Pole Pairs [/] P real Moment of Inertia [kg*m²] J real Initial Current Stator Phase a [A] I1A0 real Initial Current Stator Phase b [A] I1B0 real Initial Current Stator Phase c [A] I1C0 real Initial Excitation Current [A] IE0 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 Parameters SIMPLORER 6.0
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Component Outputs Mutual Inductance
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Component Outputs Controlled Voltag
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Current Source SIMPLORER 6.0 — Ma
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Component Outputs SIMPLORER 6.0 —
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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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Page 139 and 140: Dynamic IGBT Model SIMPLORER 6.0
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Page 147 and 148: Dynamic FET Model SIMPLORER 6.0 —
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Page 185 and 186: Synchronous Machine Electrical Exci
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Page 201 and 202: Linear Two-winding Transformer SIMP
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Page 205 and 206: Component Parameters Secondary Side
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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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SIMPLORER 6.0 — Manual 283 «Dela
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Needle Pulses SIMPLORER 6.0 — Man
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Component Outputs 2D Lookup Table S
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PWM Component Outputs SIMPLORER 6.0
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Equivalent Line SIMPLORER 6.0 — M
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⎛ VT ⎞ qt () = ( TAU ⋅ ISAT)
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2D Lookup Table XY SIMPLORER 6.0
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Separate Component Characteristic S
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SIMPLORER 6.0 — Manual 299 � «
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Equations SIMPLORER 6.0 — Manual
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Equations SIMPLORER 6.0 — Manual
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10 Physical Domains SIMPLORER 6.0
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Nature Types of Components SIMPLORE
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SIMPLORER 6.0 — Manual 309 The fl
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Simulator Outputs SIMPLORER 6.0 —
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qt () = dp ⋅ VOL ------------ + P
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SIMPLORER 6.0 — Manual 315 By def
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Winding SIMPLORER 6.0 — Manual 31
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10.3 Mechanical Components Displace
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Time-Controlled Position/Angle Sour
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Time-Controlled Velocity Source ds
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Spring SIMPLORER 6.0 — Manual 327
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Mass Component Parameters SIMPLORER
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Component Nodes Limit Stop SIMPLORE
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10.4 Thermal Components • Tempera
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Component Outputs Heat Flow Source
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Component Nodes Thermal Resistance
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11 Schematic Environment This chapt
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Printing Model Sheets SIMPLORER 6.0
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Using Templates SIMPLORER prompt to
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SIMPLORER 6.0 — Manual 347 11.2.2
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Command Description Changing Proper
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Inserting Date, Time, and File Info
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11.2.4 Drawing Elements SIMPLORER 6
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Properties of Rectangles, Circles,
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Element Menu � Command Toolbar Sy
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Editing Properties Exporting Data S
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Split Windows Command Toolbar Symbo
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Arranging Schematic Elements SIMPLO
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12 Simulation Results This chapter
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View Tool Coordinates SIMPLORER 6.0
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Outputs in Connect View Elements 2D
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Y Axis Tab SIMPLORER 6.0 — Manual
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X Axis Tab SIMPLORER 6.0 — Manual
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Channels Tab SIMPLORER 6.0 — Manu
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Nyquist Plot Channel Tab SIMPLORER
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12.2.2 Postprocessing with Display
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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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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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14.2 SIMPLORER ASCII System Data Fo
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Data Set Format SIMPLORER 6.0 — M
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Parameters for Data Channels SIMPLO
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15 Model Libraries SIMPLORER 6.0
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SIMPLORER Language Concept SIMPLORE
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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 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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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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