Above Modelling and Adaptive Control of a Double Winded Induction Generator

TL;DR

This paper presents a novel adaptive control system for a double winded induction generator, focusing on maintaining constant terminal voltage despite torque variations, validated through a reduced order model.

Contribution

It introduces a minimum variance adaptive control approach specifically designed for a double winded induction generator with a distinct excitation winding.

Findings

The control system effectively maintains voltage stability under varying torque conditions.

The reduced order model accurately predicts generator behavior for control design.

Validation confirms the control structure's robustness and effectiveness.

Abstract

The paper deals with the modelling and control of a double winded induction generator. The controlled process is an induction generator with distinct excitation winding. At the generator terminal is connected a load (electrical consumer). There are presented the results obtained by using a minimum variance adaptive control system. The main goal of the control structure is to keep the generator output (terminal voltage) constant by controlling the excitation voltage from the distinct winding. The study cases in the paper are for the validation of the reduced order model of induction generator (5th order model) used only to design the adaptive controller. There is also validated the control structure. There were considered variations of the mechanical torque.