Graphical models for power electronic converters and their control in RT modeling and HILverification using NI software and hardware
By: Sonica, V. Sushma
.
Contributor(s): Varma, Ch. Sruthi.
Publisher: USA Springer 2023Edition: Vol.104(5), Oct.Description: 1091-1101p.Subject(s): Humanities and Applied SciencesOnline resources: Click here
In:
Journal of the institution of engineers (India): Series BSummary: Global energy consumption is increasing rapidly which demands the transition toward cost-effective renewable energy sources such as wind and solar energy systems, while reducing the air pollution. Owing to the important role of power electronic converters in renewable energy, in this paper, modeling of widely known DC–DC and DC–AC converters using LabVIEW is presented. The derived models have the advantages of graphical programming and ease in integrating the developed the plant model with an embedded controller, which enables effective real-time (RT) simulation without any additional expensive RT simulators (like Opal RT/RTDS/PLEXIM). The developed graphical models which are solved using a numerical method with a constant time step are further utilized to perform controller-hardware-in-the-loop (CHIL) simulation. The results are comparable with those obtained from NI Multisim, an offline simulator, thus validating the developed graphical models.
| Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
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Articles Abstract Database
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School of Engineering & Technology Archieval Section | Not for loan | 2024-0118 |
Global energy consumption is increasing rapidly which demands the transition toward cost-effective renewable energy sources such as wind and solar energy systems, while reducing the air pollution. Owing to the important role of power electronic converters in renewable energy, in this paper, modeling of widely known DC–DC and DC–AC converters using LabVIEW is presented. The derived models have the advantages of graphical programming and ease in integrating the developed the plant model with an embedded controller, which enables effective real-time (RT) simulation without any additional expensive RT simulators (like Opal RT/RTDS/PLEXIM). The developed graphical models which are solved using a numerical method with a constant time step are further utilized to perform controller-hardware-in-the-loop (CHIL) simulation. The results are comparable with those obtained from NI Multisim, an offline simulator, thus validating the developed graphical models.
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