Design Optimization of Electromagnetic Emission Systems: A TRIZ-based Approach to Enhance Efficiency and Scalability

Abstract

The design optimization of electromagnetic emission systems is critical for enhancing both the efficiency and scalability of electronic and electrical devices. As the demand for high-performance systems increases, optimizing these systems for minimal electromagnetic interference (EMI) while maintaining operational efficiency has become a priority. Existing methods for electromagnetic emission control often face challenges in balancing performance and compliance with strict regulatory standards. Conventional approaches, while effective in specific scenarios, may struggle with scalability, adaptability, and the ability to address complex, multi-dimensional optimization problems. These limitations hinder the development of more advanced, energy-efficient, and compact systems. The proposed solution introduces an Electromagnetic Emission-based TRIZ (EE-TRIZ) approach, which leverages the TRIZ (Theory of Inventive Problem Solving) methodology for systematic problem-solving in the context of electromagnetic design. This framework integrates the principles of TRIZ with electromagnetic design considerations to identify innovative solutions that minimize EMI, enhance efficiency, and ensure scalability. It enables the creation of more compact, energy-efficient, and interference-free systems, thus enhancing the long-term viability of electromagnetic emission designs.