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Hitachi Energy
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02:32
Hitachi Energy Semiconductor News and Highlights 2022
Hitachi Energy Semiconductors presents product highlights and news at PCIM 2022 in Nuremberg, Germany, with the product launch of the new RoadPak SiC e-mobility module for all kinds of e-vehicles. Learn more about the most diverse power semiconductor portfolio including GTOs, IGBTs, IGCTs, thyristors, and diodes, which are manufactured in Switzerland and the Czech Republic. Know more about Semiconductors at https://www.hitachienergy.com/offering/product-and-system/semiconductors
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02:16
Why is the power semiconductor market migrating to SiC?
As a pioneering technology leader, we continue to focus on what brings value to our customers and partners and we will co-create and develop new products and digital solutions that will support a sustainable energy future. In this video, Virgiliu Botan, Global Product Manager BiMOS, shares with us how the technology of semiconductors has changed in the last few years and why innovations in the production of Silicon Carbide can both boost the efficiency and make emobility more affordable. Meet our expert: https://www.linkedin.com/in/virgiliu-botan-aab446189/ Learn more: https://www.hitachienergy.com/semiconductors
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02:26
How are IGCT semiconductors enabling renewables?
As a pioneering technology leader, we continue to focus on what brings value to our customers and partners and we will co-create and develop new products and digital solutions that will support a sustainable energy future. In this video, Christian Winter, Global Product Manager BiPolar, shares with us why power semiconductors, such as Integrated Gate-Commutated Thyristors (IGCTs), are integral to control the power generation and connection of the network from renewable energy sources. Meet our expert: https://www.linkedin.com/in/christian-winter-7000766a/ Learn more: https://www.hitachienergy.com/semiconductors
imperix
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13:56
SEPOC 22 - Industry keynote - imperix presentation
This video is an overview of imperix solutions for fast and easy prototyping of power electronics converters.
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01:45
Introduction to imperix solutions
This video gives an overview of imperix solutions for control equipment and prototyping hardware in the field of power electronics, drives, smart grids, and related topics.
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01:20
PCB assembly factory tour - Discover where our power modules are made!
This is a quick glimpse of the production of our power modules at our local partner's PCB assembly factory. The assembly process includes the deposition of solder paste, reflow soldering of SMD components, wave soldering of power components, and mechanical assembly. Right after production, the power modules are tested at imperix's lab. After testing, the finished products are used to build reconfigurable power converters, such as solar PV inverters, motor drives, or battery chargers. They come in particularly handy for R&D activities in power electronics, with research topics such as renewable energy conversion, micro-grids, smart-grids, or motor drives. For more information about their features, visit our website https://imperix.com/products/power-modules/. For more information about imperix and Firecomms press release, visit https://imperix.com/imperix-news/wide-bandgap-power-converters-with-easy-to-use-inverter-development-modules/
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00:50
Motor control examples - Testbench overview
This video shows a motor testbench controlled with imperix power electronics solutions. This includes a high-performance controller (http://bit.ly/B-Box_RCP) and a modular inverter (http://bit.ly/Power_Modules). The development of the control algorithm is done using Automated Code Generation from Simulink, using the imperix ACG SDK library (bit.ly/ACG_SDK). Code examples can be found at the following links: Motor speed control: https://imperix.com/doc/implementation/motor-speed-control FOC of Electric Car: https://imperix.com/doc/example/electric-car-motor-control Sensorless FOC of Wind Turbine PMSG: https://imperix.com/doc/example/wind-turbine-generator-control-using-a-sensorless-algorithm FPGA-based DTC of PMSM: https://imperix.com/doc/example/direct-torque-control
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00:40
Modular multilevel converter turned into audio amplifier - imperix Christmas application example
As an informal challenge, we ambitioned to use an existing laboratory-scale MMC inverter (or M2C) as a powerful audio amplifier. Modular Multilevel Converters are best known for their suitability to high-voltage applications, notably large-scale HVDC facilities such as in sub-sea or long-distance energy transport. The high quality of the produced waveforms is very beneficial to the overall system design. Switching audio amplifiers, often referred to as Class-D amplifiers, share the same need for superior voltage quality. Read more, and download Simulink model here: https://kb.imperix.com/x/GAgz
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08:57
Getting started with imperix ACG SDK on Simulink [Part 3]
This video explains how to get started with the imperix ACG Software Development Kit on Simulink. A simple control algorithm of a buck converter is addressed as a complete application example. This includes: • [Part 1] creating the Simulink model: https://youtu.be/4M1n_LsGORI • [Part 2] running a realistic off-line simulation of the whole system: https://youtu.be/2P03E2tswhE • [Part 3] executing the control code on a B-Box RCP or B-Board PRO: https://youtu.be/N1tkcRJZV8Y More details are developed in https://kb.imperix.com/x/pgsM ACG SDK installation link: https://imperix.com/downloads/ B-Box RCP: https://bit.ly/B-Box_RCP B-Board PRO: https://bit.ly/B-Board_PRO
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08:47
Getting started with imperix ACG SDK on Simulink [Part 2]
This video explains how to get started with the imperix ACG Software Development Kit on Simulink. A simple control algorithm of a buck converter is addressed as a complete application example. This includes: • [Part 1] creating the Simulink model: https://youtu.be/4M1n_LsGORI • [Part 2] running a realistic off-line simulation of the whole system: https://youtu.be/2P03E2tswhE • [Part 3] executing the control code on a B-Box RCP or B-Board PRO: https://youtu.be/N1tkcRJZV8Y More details are developed in https://kb.imperix.com/x/pgsM ACG SDK installation link: https://imperix.com/downloads/ B-Box RCP: https://bit.ly/B-Box_RCP B-Board PRO: https://bit.ly/B-Board_PRO
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07:30
Getting started with imperix ACG SDK on Simulink [Part 1]
This video explains how to get started with the imperix ACG Software Development Kit on Simulink. A simple control algorithm of a buck converter is addressed as a complete application example. This includes: • [Part 1] creating the Simulink model: https://youtu.be/4M1n_LsGORI • [Part 2] running a realistic off-line simulation of the whole system: https://youtu.be/2P03E2tswhE • [Part 3] executing the control code on a B-Box RCP or B-Board PRO: https://youtu.be/N1tkcRJZV8Y More details are developed in https://kb.imperix.com/x/pgsM ACG SDK installation link: https://imperix.com/downloads/ B-Box RCP: https://bit.ly/B-Box_RCP B-Board PRO: https://bit.ly/B-Board_PRO
Plexim - PLECS Tutorials
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13:18
Introduction to PLECS Standalone
This tutorial video provides an introduction to PLECS Standalone. The highlights of the video are using the schematic editor and component library, and modeling a simple DC/DC converter, first with an open-loop controller, and then close the loop with a hysteresis type controller. The resulting waveforms are then viewed in the PLECS Scope. To watch the tutorial video on introduction to PLECS Blockset, please follow this link -- https://youtu.be/JnEJ63qEOqc For more tutorial videos, visit www.plexim.com.
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03:32
How to Install PLECS Standalone on a Mac Operating System
This video provides a demonstration on how to install PLECS Standalone on a Mac operating system.
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03:25
How to Install PLECS Standalone on a Windows Operating System
This video provides a demonstration on how to install PLECS Standalone on a Windows operating system.
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15:52
Introduction to PLECS Blockset
This tutorial video provides an introduction to PLECS Blockset. The highlights of the video are using the schematic editor and component library, and modeling a simple DC/DC converter, first with an open-loop controller built in Simulink, and then close the loop with a hysteresis type controller built at the PLECS level. The resulting waveforms are then viewed in the PLECS Scope. To watch the tutorial video on introduction to PLECS Standalone, please follow this link -- https://youtu.be/iK2ebV9XcyM For more tutorial videos, visit www.plexim.com.
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04:28
How to Install PLECS Blockset on a Windows Operating System
This video provides a demonstration on how to install PLECS Blockset on a Windows operating system.
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04:26
How to Install PLECS Blockset on a Mac Operating System
This video provides a demonstration on how to install PLECS Blockset on a Mac operating system.
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11:01
Using the PLECS Scope
This tutorial video provides the viewer with an overview of the PLECS Scope and how to use many of its features. Fully functional, free trial licenses via: http://www.plexim.com/trial Further information: http://www.plexim.com/
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09:48
Thermal Modeling in PLECS Part 1
This tutorial video provides the viewer with an introduction to thermal modeling in PLECS. Fully functional, free trial licenses via: http://www.plexim.com/trial Further information: http://www.plexim.com/
Plexim - PLECS Webinars
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36:58
PLECS 4.4 Features Highlights
Watch this webinar to learn about new PLECS features in Version 4.4, including user interface updates, added components, and more new capabilities. Some of the features shown now allow PLECS users to: - Define separate tasks for generating code to embedded and real-time targets - Display a legend in Scopes and XY-Plots - From File, PID controllers, Fourier, RMS, THD, and new power module blocks - Use non-floating-point signal data types in normal simulations - Plot custom figures in PLECS Standalone, including control system analyses
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33:32
Intro to Electric Machines Webinar
In this webinar, a Plexim engineer explores how the PLECS library of ready-made, but adaptable machine models are implemented and can be used for traction, motion control and other industrial applications.
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43:52
Webinar: Using the PLECS State Machine Block (28-November 2017)
State machines are useful for implementation and later software production of supervisory controls and complex modulators. The PLECS State Machine block provides a graphical way to model event-driven systems using states and transitions. Learn how to model a simple state machine in PLECS and tie it into an electrical simulation. For more information, visit https://www.plexim.com/ or email us at info@plexim.com.
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33:20
Webinar: Tips and Tricks for Using PLECS (11-April 2018)
This webinar provides some tips and tricks of using PLECS, including shortcuts, little known features, and best practices. For more information, visit https://www.plexim.com/ or email us at info@plexim.com.
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53:03
Webinar: Introduction to PLECS Physical Domains (07-September 2017)
Watch this webinar recording to learn about the thermal, magnetic, and mechanical components included in PLECS. We discuss simulating various aspects of a power converter or drive system within its surrounding environment, including non-idealities and loss sources. Applications include a DC-DC converter and a motion control system. For more information, visit https://www.plexim.com/ or email us at info@plexim.com.
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52:44
Webinar: Thermal Modeling in PLECS (18-September 2018)
Watch this webinar recording to learn about the the benefits of using the PLECS thermal domain, including power semiconductor loss and circuit efficiency calculations, heat flow and temperature monitoring, cooling network design, and device reliability analysis. Learn how to add detailed thermal information to your model! For more information, visit https://www.plexim.com/ or email us at info@plexim.com.
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20:31
Webinar: PLECS 4.2 Features Highlights (20-September 2018)
Watch this webinar to learn about new PLECS features including smart routing algorithms that reduce the occurrence of overlapping connections, and an auto-connect feature. Dynamic subsystem mask icons can now change their appearance depending on parameter settings. The PLECS Coder has been enhanced to allow non-floating-point signal data types and an improved code generation framework more easily supports embedded targets. For more information, visit https://www.plexim.com/ or email us at info@plexim.com.
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37:19
Webinar: Control Design Using the Small-Signal Analysis Tools (28-March 2019)
Watch this webinar to learn about the multiple small-signal analysis tools built into PLECS that allow users to quickly generate a Bode plot of a system for controller design and stability analysis. Using an isolated flyback converter, this webinar will illustrate how to obtain a frequency response with the PLECS analysis tools to design a voltage controller, predict the system loop gain, and verify stability. For more information, visit https://www.plexim.com/ or email us at info@plexim.com.
Plexim - PLECS Demo Models
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08:40
Multi-Tasking Code Demo: Single-Phase PV Inverter (Part-1)
This video demonstrates a Single-Phase PV Inverter, with a cascaded control scheme. The model provides an explanation of the typical workflow of the PLECS embedded code generation tool, using Texas Instruments or TI C2000 microcontrollers, also referred to as MCUs. Combined with the PLECS RT Box, the performance of the MCU can be verified directly. Additionally, this model illustrates the multi-tasking code for the TI C2000 Microcontrollers. There are two parts to this video. In this first part, we will look at the explanation of the model and in the second part we will look at the real-time performance of the model, as well as illustrate the multi-tasking feature. The link to the second part of the video is here -- https://youtu.be/M_ST97o718I. For more videos and further information, please visit our website https://www.plexim.com.
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07:21
PLECS Code Generation Demo Model: Building a Simple Demo Model on a TI C2000 MCU
This PLECS code generation demo model shows how to use Texas Instruments (TI) C2000 microcontrollers (MCUs) with the PLECS Coder and the TI C2000 Target Support Package. Parallel control subsystem models are included, allowing to program several specific MCUs from TI. Each subsystem can be directly converter into target specific code for the corresponding TI LaunchPad hardware, 28069, 280049C, 28377S, and 28379D LaunchPad, including the 28069, 280049C, 28377S, and 28379D devices. The logic can blink an LED on the LaunchPad board and generate two sinusoidal waveforms that are measured with a PLECS Scope by connecting a PWM output to a digital input via a jumper wire. This example walks the user through the process of flashing the MCU (either directly from PLECS or via Code Composer Studio), establishing the hardware connections for the waveform generation-measurement task, and using the External Mode to update Scopes in the PLECS application with real-time waveforms and optionally tune parameter values in the control logic in real-time. To learn how to get started with the TI C2000 Target Support Package (TSP), watch this video -- https://youtu.be/BfSVuqrnBZM To learn how to use the PLECS external mode and parameter inlining features with the TI C2000 TSP, watch this video -- https://youtu.be/zf6PtdZrc7w. For more videos and other information, please visit our website at www.plexim.com.
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08:02
Multi-Tasking Code Demo: Single-Phase PV Inverter (Part-2)
This video demonstrates a Single-Phase PV Inverter, with a cascaded control scheme. The model provides an explanation of the typical workflow of the PLECS embedded code generation tool, using Texas Instruments or TI C2000 microcontrollers, also referred to as MCUs. Combined with the PLECS RT Box, the performance of the MCU can be verified directly. Additionally, this model illustrates the multi-tasking code for the TI C2000 Microcontrollers. There are two parts to this video. In the first part, we looked at the explanation of the model and in this second part we will look at the real-time performance of the model, as well as illustrate the multi-tasking feature. The link to the first part of the video is here -- https://youtu.be/DaotWNvULwA. For more videos and further information, please visit our website https://www.plexim.com.
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03:00
Buck Converter with Analysis Tools
This video corresponds to the PLECS demo model showing how to perform a Steady-State Analysis and use small-signal analysis to obtain different open-loop transfer functions for an unregulated buck converter. The transfer function can be calculated by performing an AC Sweep or Impulse Response Analysis, which both inherently first execute a Steady-State Analysis, or alternatively, using the Multitone Analysis, which does not execute a Steady-State Analysis. For more videos and other information, please visit our website at www.plexim.com.
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02:28
Buck Converter with Thermal Model
This video corresponds to the PLECS demo model of a simple unregulated buck converter including a basic thermal model. It serves as an example for using thermal description files, the heat sink component and thermal chains to represent the various interfaces between a semiconductor junction and the ambient environment. With the loss model and thermal circuit, one can calculate the switching and conduction losses of the IGBT and diode, as well as the converter efficiency. For more videos and other information, please visit our website at www.plexim.com.
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03:42
Inverter with C-Script-Based PWM Modulator
This video corresponds to the PLECS demo model of an ideal MOSFET inverter that is controlled by a custom PWM scheme implemented as a state machine using the PLECS C-Script block. Minimum switch on-time and dead time parameters can be configured for observing timing effects on the simulated waveforms. For more videos and other information, please visit our website at www.plexim.com.
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04:31
Dual Active Bridge
This video corresponds to the PLECS demo model of a dual active bridge (DAB) converter with an input voltage of 95 VDC, an output voltage of 380 VDC, and a switching frequency of 250 kHz. This model contains a transformer that is implemented in two configurations: as an ideal model and a more detailed version that includes saturation behavior modeled using the PLECS magnetic domain. Additionally, the thermal behavior of Wolfspeed Silicon Carbide MOSFETs for the primary and secondary side bridges, is included using the PLECS thermal domain. After a system startup transient settles, a load step change from 1 kW to 2 kW is simulated. For more videos and other information, please visit our website at www.plexim.com.
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03:11
Flyback Converter with Magnetics
This video corresponds to the PLECS demo model of a DC-DC flyback converter operating in discontinuous conduction mode with two outputs. The model combines the electrical power circuit with a special magnetic circuit for the flyback transformer and a discrete controller regulating the higher output voltage. A load step is performed on each output winding and the BH loop of the transformer is available to monitor the saturation behavior. For more videos and other information, please visit our website at www.plexim.com.
Plexim - PLECS Coder Tutorials
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09:17
PLECS Code Generation Demo Model: Sensorless Field-Oriented Control of PMSM on an STM32 MCU
This video corresponds to the PLECS STM32 code generation demo model of Sensorless Field-Oriented Control (FOC) of a permanent-magnet synchronous machine (PMSM). This model features a drive system with a three-phase brushless DC (BLDC) motor, with a sinusoidal back-emf. A rotor position and speed observer is used for a sensorless field oriented control (FOC) strategy as part of a closed-loop cascaded controller with an inner d and q axis current control loop and an outer speed control loop. The control model can be converted to embedded code for the STM32G4x or STM32F3x microcontroller (MCU) families from STMicroelectronics. STM32 Target Support User Manual: https://plexim.com/sites/default/files/stm32manual.pdf For more videos and further information, please visit our website at https://plexim.com/
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06:11
PLECS Code Generation Demo Model: Building a Simple Demo Model on an STM32 MCU
This STM32 code generation demo model shows how to use STMicroelectronics STM32 microcontrollers (MCUs) with the PLECS Coder and the STM32 Target Support Package. Parallel control subsystem models are included, allowing to program several specific MCUs from STM. Each subsystem can be directly converter into target specific code for the corresponding STM Nucleo hardware, including the G474RE, G431RB, and F303RE devices. The logic can blink an LED on the Nucleo board and generate two sinusoidal waveforms that are measured with a PLECS Scope by connecting a PWM output to a digital input via a jumper wire. This example walks the user through the process of flashing the MCU (either directly from PLECS or via STM32CubeIDE), establishing the hardware connections for the waveform generation-measurement task, and using the External Mode to update Scopes in the PLECS application with real-time waveforms and optionally tune parameter values in the control logic in real-time. STM32 Target Support User Manual: https://plexim.com/sites/default/files/stm32manual.pdf For more videos and further information, please visit our website at https://plexim.com/
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09:19
PLECS Code Generation Demo Model: RGB LED Peak Current Control on an STM32 MCU
This video corresponds to the PLECS STM32 code generation demo model of the high-brightness RGB LED control application as defined in the application note AN5345 from STMicroelectronics, using the B-G474E-DPOW1 Discovery kit. The power circuit consists of three inverted buck converters driving an RGB LED module. The RGB LED module is composed of three independent LEDs: red, green and blue. These LEDs are then independently controlled using a peak current control approach with burst mode operation for independent control of brightness and color. The STM32 Target Support Library includes a Peak Current Control (PCC) component. The component integrates several MCU peripherals including a high-resolution timer, comparator, and a digital-to-analog converter to achieve the desired PCC functionality. The joystick buttons on the B-G474E-DPOW1 Discovery kit are used to enable the PCC output and configure the control logic operation. Signal LEDs display the controller’s operating status. STM32 Target Support User Manual: https://plexim.com/sites/default/files/stm32manual.pdf For more videos and further information, please visit our website at https://plexim.com/
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04:59
Getting Started with the PLECS STM32 Target Support Package
Watch this tutorial video to get started with the STM32 Target Support Package (TSP). STM32 Target Support User Manual: https://plexim.com/sites/default/files/stm32manual.pdf For more videos and further information, please visit our website at https://plexim.com/
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07:34
External Mode and Parameter Inlining with the TI C2000 Target Support Package
Watch this tutorial video to learn how to use the PLECS external mode and parameter inlining features with the TI C2000 Target Support Package (TSP). With these features, you can update Scopes in PLECS with real-time waveforms and change certain control parameters on the fly. Video Outline: 0:00 - Introduction 0:40 - External Mode with TI C2000 TSP 5:03 - Parameter Inlining with TI C2000 TSP Having trouble getting started? Follow the link listed here to watch the tutorial video on getting started with the TI C2000 TSP -- https://youtu.be/OOQp85FsogM. For more videos and other information, please visit our website at www.plexim.com.
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13:00
Getting Started with the TI C2000 Target Support Package
Watch this tutorial video to get started with the TI C2000 Target Support Package (TSP). From the PLECS Coder, there are two ways to deploy generated embedded code onto a TI C2000 MCU -- the first is to build and program the MCU from PLECS, and the second method is to generate code into a Code Composer Studio (CCS) project to then build and program from there. Video Outline: 0:00 - Introduction 0:40 - Install the TI C2000 TSP on PLECS 1:19 - Install the TI C2000 TSP using the Installer Executable 3:45 - Manual Installation of the TI C2000 TSP 5:46 - Build and Program the MCU from PLECS 4:55 - Manual Installation of the External TI tools 8:49 - Generate Code to Code Composer Studio (CCS) from PLECS Please refer to TI C2000 Target Support User Manual here for the latest instructions -- https://plexim.com/sites/default/files/c2000manual.pdf To learn how to use the PLECS external mode and parameter inlining features with the TI C2000 TSP, watch this video -- https://youtu.be/zf6PtdZrc7w. To build a simple model on the TI C2000 TSP, watch this video -- https://youtu.be/6LqBGWPC4Fk. For more videos and other information, please visit our website at www.plexim.com.
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Play Video
07:21
PLECS Code Generation Demo Model: Building a Simple Demo Model on a TI C2000 MCU
This PLECS code generation demo model shows how to use Texas Instruments (TI) C2000 microcontrollers (MCUs) with the PLECS Coder and the TI C2000 Target Support Package. Parallel control subsystem models are included, allowing to program several specific MCUs from TI. Each subsystem can be directly converter into target specific code for the corresponding TI LaunchPad hardware, 28069, 280049C, 28377S, and 28379D LaunchPad, including the 28069, 280049C, 28377S, and 28379D devices. The logic can blink an LED on the LaunchPad board and generate two sinusoidal waveforms that are measured with a PLECS Scope by connecting a PWM output to a digital input via a jumper wire. This example walks the user through the process of flashing the MCU (either directly from PLECS or via Code Composer Studio), establishing the hardware connections for the waveform generation-measurement task, and using the External Mode to update Scopes in the PLECS application with real-time waveforms and optionally tune parameter values in the control logic in real-time. To learn how to get started with the TI C2000 Target Support Package (TSP), watch this video -- https://youtu.be/BfSVuqrnBZM To learn how to use the PLECS external mode and parameter inlining features with the TI C2000 TSP, watch this video -- https://youtu.be/zf6PtdZrc7w. For more videos and other information, please visit our website at www.plexim.com.
Plexim - PLECS Coder Webinars
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47:10
Webinar: PLECS Coder and TI C2000 Target Support Package (27-August 2019)
Watch this webinar to see the PLECS Coder in action! This webinar demonstrates how the PLECS TI C2000 Target Support Package can be used to program a microprocessor in minutes and can run practical closed-loop control applications. The webinar also features insights from a Plexim senior developer who will discuss motivations, implementation, and best practices for automated code generation. The presentation highlights the PLECS Coder workflow where we'll design and simulate a motor drive system on our PC in PLECS, then generate and deploy code onto a TI C2000 MCU and spin a real motor. Once the embedded control code is running, we'll show how one can adjust control parameters on-the-fly, view real-time signals streaming back from the microprocessor in the PLECS Scope, and benchmark our simulation model against a physical plant. For more information, visit https://www.plexim.com/ or email us at info@plexim.com.
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46:52
Webinar: Offline Controls Modeling to Embedded Code Generation (11-March 2020)
PLECS is used for offline controls modeling and simulation through to embedded code generation for real-time control applications. These topics are explored using an example model where current control of an H-bridge converter is developed live and enabled for TI C2000 MCU code generation. This webinar demonstrates ease-of-use and model continuity features that enable engineers using Plexim’s platform to shorten development cycles, improve testing, and consolidate efforts. For more videos, visit www.plexim.com.
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41:46
Webinar: Multi-Tasking Code for the TI C2000 MCUs (28-October 2020)
PLECS offline nested control models can be automatically deployed onto an embedded target. In this webinar, a Plexim engineer will show this workflow with a controller for a single-phase, grid-connected PV inverter with an inner voltage control task and outer maximum power point control scheme. This webinar demonstrates the ease-of-use and model continuity features that can be leveraged by Plexim's toolchain. For more videos, visit www.plexim.com.
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![Getting started with imperix ACG SDK on Simulink [Part 3]](https://i.ytimg.com/vi/N1tkcRJZV8Y/maxresdefault.jpg)
![Getting started with imperix ACG SDK on Simulink [Part 2]](https://i.ytimg.com/vi/2P03E2tswhE/maxresdefault.jpg)
![Getting started with imperix ACG SDK on Simulink [Part 1]](https://i.ytimg.com/vi/4M1n_LsGORI/maxresdefault.jpg)
