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The following versions: 4.0, 3.7 and 3.3 are the most frequently downloaded ones by the program users. PLECS is categorized as Photo & Graphics Tools. This tool was originally created by Plexim. The PLECS installer is commonly called PLECS.exe. You can launch this PC software on Windows 7/8/10 64-bit. ←PLECS 3.7 – improved thermal modelling + processor-in-the-loop plecs-sign-arrow. PLECS PIL Manual. Bier haus slot free play. Download the latest edition of the PIL User Manual (5518 KB) in PDF format. The manual was last updated on Aug 31, 2018 for PLECS 4.4.4 and PIL Framework 3.1. Download promotional flyers about various applications PLECS can be used for. These PDF documents are formatted for A4 and US letter paper size.

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PLECS
Developer(s)Plexim
Initial release2002; 18 years ago
Operating systemMac OS X, Windows, Linux
PlatformStandalone or Simulink
Available inEnglish, Japanese
TypeSimulation software
LicenseProprietary
Websitewww.plexim.com/products/

PLECS (Piecewise LinearElectrical Circuit Simulation) is a software tool for system-level simulations of electrical circuits developed by Plexim.[1] It is especially designed for power electronics but can be used for any electrical network. Raging bull casino instant play. PLECS includes the possibility to model controls and different physical domains (thermal[2], magnetic[3][4] and mechanical[5]) besides the electrical system.

Most circuit simulation programs model switches as highly nonlinear elements. Due to steep voltage and current transient, the simulation becomes slow when switches are commutated. In most simplistic applications, switches are modelled as variable resistors that alternate between a very small and a very large resistance. In other cases, they are represented by a sophisticated semiconductor model.

When simulating complex power electronic systems, however, the processes during switching are of little interest. In these situations it is more appropriate to use ideal switches that toggle instantaneously between a closed and an open circuit. This approach, which is implemented in PLECS, has two major advantages: Firstly, it yields systems that are piecewise-linear across switching instants, thus resolving the otherwise difficult problem of simulating the non-linear discontinuity that occurs in the equivalent-circuit at the switching instant. Secondly, to handle discontinuities at the switching instants, only two integration steps are required (one for before the instant, and one after). Both of these advantages speed up the simulation considerably, without sacrificing accuracy. Thus the software is ideally suited for modelling and simulation of complex drive systems[6] and modular multilevel converters[7], for example.

In recent years, PLECS has been extended to also support model-based development of controls with automatic code generation. In addition to software, the PLECS product family includes real-time simulation hardware for both hardware-in-the-loop (HIL) testing and rapid control prototyping[8]. Onecast 1 132.

Integration with MATLAB/Simulink or Standalone[edit]

The PLECS software is available in two editions: PLECS Blockset for integration with MATLAB®/Simulink®, and PLECS Standalone, a completely independent product.

When using PLECS Blockset, the control loops are usually created in Simulink, while the electrical circuits are modelled in PLECS. Bike baron 1 0 – the ultimate bike game. PLECS Standalone on the other hand can be operated independently from other software and offers an all-in-one solution for modelling electrical circuits and controls in a single environment. Both editions are interoperable with each other.

The main difference between the two versions is that PLECS Standalone runs faster than PLECS Blockset due to its optimised engine.

Add-on PLECS Coder[edit]

A code generator usually converts some intermediate representation of source code into machine code. The PLECS Coder is an add-on to PLECS Blockset and PLECS Standalone. It generates ANSI-C code from a PLECS model which can be compiled to execute on the simulation host or a separate target. The target can be an embedded control platform or a real-time digital simulator. The PLECS Coder can also produce embedded code for specific hardware targets.

Add-on PLECS PIL[edit]

Plecs 3 77

In the Model-based design of control loops, Processor-in-the-Loop (PIL) simulation can accelerate the development process. It allows engineers to test their control algorithms on the real hardware inside a virtual circuit simulator. As an add-on to PLECS Blockset and PLECS Standalone, PLECS PIL provides that solution.

Hardware for Real-Time Simulations[edit]

PLECS RT Box 3 with a LaunchPad Interface Card

The PLECS RT Box is a real-time simulator specially designed for power electronics applications[9]. It is a processing unit for both real-time hardware-in-the-loop (HIL) testing and rapid control prototyping. A PLECS RT Box can be programmed and operated from PLECS. Thus, a software license of PLECS (Blockset or Standalone) and a PLECS Coder license are required to operate the hardware.

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References[edit]

  1. ^Jost Allmeling (July 27, 1999). 'PLECS-piece-wise linear electrical circuit simulation for Simulink'.
  2. ^'Thermal Simulation'. Plexim.
  3. ^Allmeling, Jost; Hammer, Wolfgang; Schönberger, John (July 30, 2012). 'Transient simulation of magnetic circuits using the permeance-capacitance analogy'. 2012 IEEE 13th Workshop on Control and Modeling for Power Electronics (COMPEL).
  4. ^'Magnetics'. Plexim.
  5. ^'Mechanical Systems'. Plexim.
  6. ^De Doncker, Rik W.; Pulle, Duco W.J.; Veltman, Andre (2020). Advanced Electrical Drives (2 ed.). Springer International Publishing. ISBN978-3-030-48976-2.
  7. ^Sharifabadi, Kamran; Harnefors, Lennart; Nee, Hans-Peter; Norrga, Staffan; Teodorescu, Remus (2016). Design, Control, and Application of Modular Multilevel Converters for HVDC Transmission Systems. Wiley-IEEE Press. ISBN978-1-118-85156-2.
  8. ^Allmeling, Jost (November 21, 2019). 'Model Continuity: From Offline Simulation to Real-Time Testing'.
  9. ^Allmeling, Jost; Felderer, Niklaus (April 9, 2018). 'Sub-cycle average models with integrated diodes for real-time simulation of power converters'. 2017 IEEE Southern Power Electronics Conference (SPEC).
Retrieved from 'https://en.wikipedia.org/w/index.php?title=PLECS&oldid=977331435'
Plecs

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Plexim.Plecs.Standalone.v4.2.3


PLECS® is the tool of choice for high-speed simulations of power electronic systems. It is available in two editions: PLECS Blockset for seamless integration with MATLAB®/Simulink®, and PLECS Standalone, a completely independent product.
What's new in Version 4.2
Enhanced Schematic Editor
We have enhanced the schematic editor with a smart routing algorithm that reduces the occurrence of overlapping connections. The new auto-connection feature lets you quickly create connections between two or more components.
Dynamic Subsystem Masks
PLECS now lets you create dynamic mask icons for masked subsystems that change their appearance depending on parameter settings. You can also create dynamic dialogs by disabling or hiding a parameter or changing its value depending on the value of another parameter.
Enhanced Code Generation
The PLECS Coder now supports non-floating-point signal data types.
Application example: HIL simulation of MMC
The PLECS RT Box is a modern real-time simulator that can be programmed and operated from PLECS. With its 32 analog and 64 digital input/output channels and its 1 GHz dual-core CPU it is a versatile processing unit for both real-time hardware-in-the-loop (HIL) testing and rapid control prototyping.
HIL simulation of MMC with four RT Boxes
The arrangement above is used for real-time simulation of a grid-connected modular multi-level converter (MMC) with four interconnected RT Boxes. Each phase leg of the MMC consisting of 10 half-bridges has its own slave controller and is simulated on a separate RT Box. The fourth box at the top simulates the passive filters and the grid. The RT Boxes are interconnected via high-speed serial links on the back to exchange simulation data and synchronize the simulation step. All boxes run with a time step of 3 μs.
The controls are implemented on four C2000 microcontrollers, which are connected to the front of each RT Box via LaunchPad Interface boards. The master controller at the top communicates with the slave controllers via an SPI bus.

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