Abstract
The paper presents the existing verification methods for control algorithms in power electronics systems, including the application of model checking techniques. In the industry, the most frequently used verification methods are simulations and experiments; however, they have to be performed manually and do not give a 100% confidence that the system will operate correctly in all situations. Here we show the recent advancements in verification and performance assessment of power electronics systems with the usage of formal methods. Symbolic model checking can be used to achieve a guarantee that the system satisfies user-defined requirements, while statistical model checking combines simulation and statistical methods to gain statistically valid results that predict the behavior with high confidence. Both methods can be applied automatically before physical realization of the power electronics systems, so that any errors, incorrect assumptions or unforeseen situations are detected as early as possible. An additional functionality of verification with the use of formal methods is to check the converter operation in terms of reliability in various system operating conditions. It is possible to verify the distribution and uniformity of occurrence in time of the number of transistor switching, transistor conduction times for various current levels, etc. The information obtained in this way can be used to optimize control algorithms in terms of reliability in power electronics. The article provides an overview of various verification methods with an emphasis on statistical model checking. The basic functionalities of the methods, their construction, and their properties are indicated.
Highlights
Power electronics is an interdisciplinary field related to three basic technical areas:(1) electrical engineering, (2) computer engineering, and (3) control engineering
In a recent article [39], we showed how to benefit from symbolic model checking, The proposed design methodology involves triple verification: (1) model checking of the focusing on formal verification of a direct matrix converter (MC) with transistor commuspecification with the nuXmv tool, (2) software verification of the modeled system, and tation and space vector modulation (SVM)
Application of model checking to power electronics systems, tools to evaluate these properties [40]
Summary
Power electronics is an interdisciplinary field related to three basic technical areas:(1) electrical engineering, (2) computer engineering, and (3) control engineering. Power electronics is an interdisciplinary field related to three basic technical areas:. In the initial design stage, the concept of the system operation and the control strategy should be checked, taking into account the parameters of the components used, as well as the parameters related to power supply, load and disturbances. In the last phase of design and construction, one should take into account the mutual physical interactions of individual elements and interactions with the environment, as well as changes in the parameters of the system during its operation, e.g., element heating, aging of elements, etc. The stage of launching and testing the operation of prototypes should include analyses related to the observance of safety procedures, the correctness of switching on/off of individual system components and the analysis of the occurrence of unwanted states of the system operation
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