Scideam High-Speed Circuit Simulator Compatible with MATLAB and JMAG
30 years of supported computational power - High-speed circuit simulator for power electronics, Scideam.
Scideam is a domestic high-speed circuit simulator specialized in power generation development and power electronics development. It provides a comfortable simulation environment with over 30 years of historical computational algorithms and newly developed circuit editors and waveform viewers. ◆ Three features of Scideam 1. High-speed stable analysis By utilizing a unique analysis algorithm, it resolves both analysis time and convergence issues. It is capable of high-speed stable analysis of switching converters. 2. Loss analysis It can perform loss analysis automatically and at high speed. It displays losses for all components in a list, and switching losses are also measured automatically. 3. Model-based development It connects with MATLAB Simulink and JMAG to build a model-based development environment. *For new download PCs, you can try the full package, including the Scideam product version and the loss analysis option PowerPalette, for 30 days.
basic information
▼ Introduction to Scideam chrome-extension://efaidnbmnnnibpcajpcglclefindmkaj/https://www.hodaka.co.jp/hodaka-cms/wp-content/uploads/2023/06/c5230d634f010d7b85c834b740f6ec47.pdf ▼ Introduction to PowerPalette (Loss Analysis Option) https://www.smartenergy.co.jp/products_books/powerpalette.html ▼ Introduction to Scideam Case Studies https://www.smartenergy.co.jp/products_books/scideam.html#donyu ◆ About the Trial Download of Scideam For new download PCs, you can try the full package including the Scideam product version and the loss analysis option PowerPalette for 30 days. We hope you will also try the loss analysis function and the connection feature with Simulink.
Price range
P4
Delivery Time
OTHER
Model number/Brand name
Scideam Loss Analysis Possible MATLAB・Simulink Compatible! High-Speed Circuit Simulator
Applications/Examples of results
Automobiles, onboard power supplies, electrical equipment, Aerospace, railways, ships Renewable energy, energy storage systems, Uninterruptible power supplies (UPS) Power supplies for servers, home appliances and consumer electronics, standard power supplies Are you facing any of these issues? • It takes a long time to simulate resonant circuits and soft switching. • I managed to run a long simulation, but the results are too large to open. • The learning curve is steep, making it hard to get started. • All the help is in English.
Detailed information
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April 24th Event: MATLAB JMAG Integrated MBD Solution Seminar - Achieving Front-Loading with Domestic Manufacturer's Toolchain -
We have organized a joint seminar by three domestic companies that provide MBD tools in the field of power electronics. This seminar will introduce a toolchain that covers everything from the upstream design of power electronic systems using MATLAB and JMAG to functional verification on actual devices in a seamless manner. Additionally, Murata Manufacturing Co., Ltd. will present case studies on the application of MBD in power systems, including the definition of requirements, the transition to MILS, and the purposes and considerations for using RCP and HILS, along with several application examples. This seminar will provide valuable content for those who are currently engaged in MBD development as well as those who are looking to start.
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Scideam Seminar 2023: Loss Analysis Seminar for Circuit Design Using SiC/GaN
With the practical application of power devices using SiC and GaN, the importance of circuit simulators in power supply design is increasing. In this seminar, we will explain the methods and considerations for loss analysis using the Scideam circuit simulator, which can also be linked with MATLAB/Simulink, incorporating user case studies. Event Overview 1. Keynote Speech: Case Presentation "Model-Based Development of Totem-Pole PFC using Scideam" Yasushi Yonezawa, Researcher, Institute of Future Materials and Systems, Nagoya University We will introduce a case study of designing and implementing a Totem-pole PFC suitable for SiC/GaN devices using model-based development technology. We will explain the control design combining Scideam and MATLAB/Simulink, as well as software development techniques using code generation technology. 2. Front-Loading Loss Analysis of Power Supplies Realized with Scideam Soichiro Nakamura, President, Smart Energy Research Institute 3. Loss Analysis of SiC/GaN-FET Switching Power Supplies Masatoshi Nakahara, Advisor, Smart Energy Research Institute, Developer of Scideam/SCALE, Emeritus Professor, Sojo University
