A Method to Improve the System Efficiency of an Electronic Drive Unit: Variable Switching Frequency-Loss Optimization

The design and improvement of electric motor and inverter systems is crucial for numerous industrial applications in electrical engineering. Accurately quantifying the amount of power lost during operation is a substantial challenge, despite the flexibility and widespread usage of these systems. Although it is typically used to assess the system’s efficiency, this does not adequately explain how or why power outages occur within these systems. This paper presents a new way to study power losses without focusing on efficiency. The goal is to explore and analyze the complex reasons behind power losses in both inverters and electric motors. The goal of this methodology is to systematically analyze the effect of the switching frequency on current ripple under varying operating conditions (i.e., different combinations of current and speed) and subsequently identify the optimum switching frequency for each case. In the end, the paper creates a complete model for understanding power losses—without relying on efficiency as a measure. This work shows how using analytical methods and computer tools can give a deeper insight into how inverter and induction motor systems lose power, offering a fresh approach to analyzing and improving these systems.