Development of an Adaptive EMI Cancellation Strategy for Stationary Clocked Systems

Abstract

Cancellation of disturbing signals is a common strategy in EMC. In this work, a specialized strategy is developed to cancel the disturbing harmonics of stationary clocked systems. This strategy is refined by an adaptive approach to conveniently find the optimum signals for cancellation. As a special feature of this method, all troublesome effects, like delays or attenuations, can easily be compensated. From a basic theory, two implementation variants are derived: 1) Continuously Adapted Harmonics Cancellation (CAHC) and 2) Previously Adapted Harmonics Cancellation (PAHC). CAHC is implemented on an FPGA-system. The hardware, programming and performance of the utilized FPGA and its peripherals are transparently discussed. The effectivity of the method is demonstrated for a power electronic dc-to-dc converter.