Session
Computer Science and Communication Engineering
Description
The paper deals with the extension of the Online-CADCOM platform by incorporating knowledge for transformer design online tools. Calculators like goodcalculators, alfatransformer, jcalc, farnell bulgaria, maddox, 3phaseassociates, voltage-disturbance, omnicalculator, forumelectrical and modules in online platforms like PowerEsim and Webench Power Designer are tested, and their Characterization passports are developed, then added as electronic content. Compulsory and optional criteria for automatic selection of the online transformer design tools are defined and added to the Knowledge-base of Online CADCOM platform. Special attention is given to the capacity of the online tools to generate the SPICE model parameters of the transformer designed which allows the implementation, simulation and test in electronic circuits. The Expert tool supporting decision-making methods such as multicriteria decision-making (MCDA) and multi-attribute utility theory (MAUT) is implemented to select online transformer design tools to satisfy a given specification. Illustrative examples are presented. The study extends the capabilities of the platform Online-CADCOM by assisting engineers and designers with the automatic selection of appropriate online transformer design tools.
Keywords:
Decision-Making Models, MCDA, MAUT, Online-CADCOM Platform, Transformer Design, Transformer SPICE Model
Proceedings Editor
Edmond Hajrizi
ISBN
978-9951-982-15-3
Start Date
25-10-2024 9:00 AM
End Date
27-10-2024 6:00 PM
DOI
10.33107/ubt-ic.2024.402
Recommended Citation
Kostova, Katerina and Marinova, Galia, "Automatic Transformer Design Tool Selection in the Online-CADCOM Platform" (2024). UBT International Conference. 18.
https://knowledgecenter.ubt-uni.net/conference/2024UBTIC/CS/18
Automatic Transformer Design Tool Selection in the Online-CADCOM Platform
The paper deals with the extension of the Online-CADCOM platform by incorporating knowledge for transformer design online tools. Calculators like goodcalculators, alfatransformer, jcalc, farnell bulgaria, maddox, 3phaseassociates, voltage-disturbance, omnicalculator, forumelectrical and modules in online platforms like PowerEsim and Webench Power Designer are tested, and their Characterization passports are developed, then added as electronic content. Compulsory and optional criteria for automatic selection of the online transformer design tools are defined and added to the Knowledge-base of Online CADCOM platform. Special attention is given to the capacity of the online tools to generate the SPICE model parameters of the transformer designed which allows the implementation, simulation and test in electronic circuits. The Expert tool supporting decision-making methods such as multicriteria decision-making (MCDA) and multi-attribute utility theory (MAUT) is implemented to select online transformer design tools to satisfy a given specification. Illustrative examples are presented. The study extends the capabilities of the platform Online-CADCOM by assisting engineers and designers with the automatic selection of appropriate online transformer design tools.