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Multi-objective Optimization Algorithms for Class-E Amplifier Design | Synapse

April 10, 2026

Multi-objective Optimization Algorithms for Class-E Amplifier Design

Key Points

The aim is to enhance class-E amplifier design through multi-objective optimization algorithms.
Employ evolutionary computation methods like MOEA/D and MOPSO.
Utilize the Nelder-Mead method for optimization.
Conduct a comparative analysis of different optimization algorithms.
Illustrative example demonstrates the effectiveness of the proposed optimization methods.
Insights into improved design options for class-E amplifiers are provided.

Abstract

This paper presents multi-objective optimization algorithms for designing class-E switching-mode circuits. These methods expand the options for the passive elements incorporated into the circuit. As multi-objective optimization algorithms, we employ evolutionary computation methods such as MOEA/D and MOPSO. Additionally, we apply the Nelder—Mead method to the multi-objective optimization problem. A comparative analysis of these algorithms through an illustrative example provides valuable insights into the design of class-E amplifiers.

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Cite This Study

FUJITA et al. (Thu,) studied this question.

synapsesocial.com/papers/69d892d16c1944d70ce04154 https://doi.org/https://doi.org/10.1587/transfun.2025eap1211