Psim 11 User Download Full PDF
Download Full PDF Package. DisclaimPowersim Iaccuracy ofdirect or indindirect, incbusiness proany damagePSIM User Manual (1) Manual Psim. Chapter 1 of this manual describes the circuit structure, software/hardware requirement, and parameter. The use of the SimCoder Module is described in the separate document SimCoder User Manual. This manual covers both PSIM and all the add-on Modules except SimCod er Module. 2.11 Mechanical Elements and Sensors 85.
The Motor Drive Module has built-inchine models and mechanical load models for drive system studies. With fast simulation and friendly user interface, PSIM provides a powerfulUlation environment for power electronics, analog and digital control, and motorve system studies.Is manual covers both PSIM1 and its three add-on Modules: Motor Drive Module,gital Control Module, and SimCoupler Module. In no event will Powersim or itsirect suppliers be liable for any damages whatsoever including, but not limited to, direct,idental, or consequential damages of any character including, without limitation, loss offits, data, business information, or any and all other commercial damages or losses, or fors in excess of the list price for the licence to the software and documentation.Component Parameter Specification and Format 3Wer Circuit ComponentsResistor-Inductor-Capacitor Branches 72.1.1 Resistors, Inductors, and Capacitors 7 2.1.2 Rheostat 82.1.3 Saturable Inductor 8 2.1.4 Nonlinear Elements 9Switches 11 2.2.1 Diode, DIAC, and Zener Diode 12 2.2.2 Thyristor and TRIAC 142.2.3 GTO, Transistors, and Bi-Directional Switch 15 2.2.4 Linear Switches 182.2.5 Switch Gating Block 19 2.2.6 Single-Phase Switch Modules 21 2.2.7 Three-Phase Switch Modules 22Transformers 26 2.4.1 Ideal Transformer 262.4.2 Single-Phase Transformers 26 2.4.3 Three-Phase Transformers 292.5 Other Elements 31 2.5.1 Operational Amplifier 312.5.2 dv/dt Block 32IiMotor Drive Module 33 2.6.1 Electric Machines 332.6.1.1 DC Machine 332.6.1.2 Induction Machine 372.6.1.3 Induction Machine with Saturation 412.6.1.4 Brushless DC Machine 422.6.1.5 Synchronous Machine with External Excitation 482.6.1.6 Permanent Magnet Synchronous Machine 502.6.1.7 Switched Reluctance Machine 542.6.2 Mechanical Loads 56 2.6.2.1 Constant-Torque Load 562.6.2.2 Constant-Power Load 572.6.2.3 Constant-Speed Load 582.6.2.4 General-Type Load 592.6.3 Gear Box 592.6.4 Mechanical-Electrical Interface Block 60 2.6.5 Speed/Torque Sensors 62Ntrol Circuit ComponentsTransfer Function Blocks 65 3.1.1 Proportional Controller 663.1.2 Integrator 673.1.3 Differentiator 683.1.4 Proportional-Integral Controller 693.1.5 Built-in Filter Blocks 693.2.1 Summer 703.2.2 Multiplier and Divider 713.2.3 Square-Root Block 723.2.4 Exponential/Power/Logarithmic Function Blocks 72 3.2.5 Root-Mean-Square Block 733.2.6 Absolute and Sign Function Blocks 73 3.2.7 Trigonometric Functions 743.2.8 Fast Fourier Transform Block 74Other Function Blocks 76 3.3.1 Comparator 763.3.2 Limiter 763.3.3 Gradient (dv/dt) Limiter 763.3.4 Look-up Table 773.3.5 Trapezoidal and Square Blocks 79 3.3.6 Sampling/Hold Block 803.3.7 Round-Off Block 813.3.8 Time Delay Block 823.3.9 Multiplexer 833.3.10 THD Block 84Logic Components 86 3.4.1 Logic Gates 863.4.2 Set-Reset Flip-Flop 86 3.4.3 J-K Flip-Flop 873.4.4 D Flip-Flop 873.4.5 Monostable Multivibrator 88 3.4.6 Pulse Width Counter 883.4.7 A/D and D/A Converters 89Digital Control Module 90 3.5.1 Zero-Order Hold 903.5.2 z-Domain Transfer Function Block 913.5.2.1 Integrator 923.5.2.2 Differentiator 943.5.2.3 Digital Filters 943.5.3 Unit Delay 983.5.4 Quantization Block 983.5.5 Circular Buffer 993.5.6 Convolution Block 1003.5.7 Memory Read Block 101Iv3.5.8 Data Array 1013.5.9 Stack 1023.5.10 Multi-Rate Sampling System 103SimCoupler Module 104 3.6.1 Set-up in PSIM and Simulink 1043.6.2 Solver Type and Time Step Selection in Simulink 107Sources 1124.2.1 Time 1124.2.2 DC Source 112 4.2.3 Sinusoidal Source 113 4.2.4 Square-Wave Source 1144.2.5 Triangular Source 14.2.6 Step Sources 1164.2.7 Piecewise Linear Source 1174.2.8 Random Source 1194.2.9 Math Function Source 14.2.10 Voltage/Current-Controlled Sources 1204.2.11 Nonlinear Voltage-Controlled Sources 122Switch Controllers 126 4.5.1 On-Off Switch Controller 1264.5.2 Alpha Controller 1274.6 Function Blocks 130 4.6.1 Control-Power Interface Block 1304.6.2 ABC-DQO Transformation Block 1324.6.3 Math Function Blocks 133Alysis SpecificationTransient Analysis 137Cuit Schematic DesignCreating a Circuit 145Subcircuit 147 6.3.1 Creating Subcircuit - In the Main Circuit 1486.3.2 Creating Subcircuit - Inside the Subcircuit 1486.3.3 Connecting Subcircuit - In the Main Circuit 1506.3.4 Other Features of the Subcircuit 1506.3.4.1 Passing Variables from the Main Circuit to Subcircuit 1516.3.4.2 Customizing the Subcircuit Image 1526.3.4.3 Including Subcircuits in the PSIM Element List 153Other Options 1546.4.1 Running the Simulation 1546.4.2 Generate and View the Netlist File 1546.4.3 Define Runtime Display 1546.4.4 Settings 1546.4.5 Printing the Circuit Schematic 155Or/Warning Messages and Other Simulation IssuesSimulation Issues 1678.1.1 Time Step Selection 1678.1.2 Propagation Delays in Logic Circuits 1678.1.3 Interface Between Power and Control Circuits 1688.1.4 FFT Analysis 168TroductionIM is a simulation package specifically designed for power electronics and motorntrol. (Powersim) makes no representation or warranty with respect to the adequacy or this documentation or the software which it describes. 0 0 menganggap dokumen ini bermanfaat, Tandai dokumen ini sebagai bermanfaat. Chapter 1 of this manual describes the circuit structure, software/hardware requirement,Simpan Simpan PSIM User Manual Untuk Nanti.
Chapter 2 through 4 describe the power and controlcuit components. The simulationvironment is illustrated as follows.Apter 1 of this manual describes the circuit structure, software/hardware requirement,d parameter specification format. TheCoupler Module provides interface between PSIM and Matlab/Simulink2 for co-ulation.E PSIM simulation package consists of three programs: circuit schematic programIM, PSIM simulator, and waveform processing program SIMVIEW1.
Components in smain and z domain, logic components (such as logic gates and flip flops), andnlinear components (such as multipliers and dividers) are used in the control circuit.nsors measure power circuit voltages and currents and pass the values to the controlcuit. The control circuit is represented in block diagram. The figure below shows the relationship between these blocks.E power circuit consists of switching devices, RLC branches, transformers, andupled inductors. Finally, error/warning messages are discussed in Chapter 8.1.2 Circuit StructureA circuit is represented in PSIM in four blocks: power circuit, control circuit, sensors,anD switch controllers. The use of the PSIM schematic program and SIMVIEW is discussed inChapter 6 and 7.
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