Original scientific paper
https://doi.org/10.1080/00051144.2022.2118099
Controlling the Speed of renewable-sourced DC drives with a series compensated DC to DC converter and sliding mode controller
K. Gurumoorthy
; Department of EEE, Amrita College of Engineering and Technology, Nagerkoil, Tamil Nadu, India
Sujatha Balaraman
; Department of EEE, Government College of Technology, Coimbatore, Tamil Nadu, India
Abstract
A solar-powered drive for the separately excited DC (SEDC) motor drive system has been proposed and validated. The proposed system uses a set of two cascaded series compensated buck boost converters (SCBBCs) and a push pull DC to DC converter. The maximum power point tracking (MPPT) for the solar PV energy harvesting system is based on a sliding mode controller (SMC) and the SCBBC next to the solar PV source is used for this purpose. The armature winding of the SEDC motor receives the required isolated DC voltage from a push pull converter that is powered from a common DC link that carries a battery. The field winding of the SEDC motor is fed by the second SCBBC. The speed of the SEDC motor is regulated by a separate sliding mode controller implemented in the second SCBBC. A detailed state space analysis of the SCBBC and related mathematical modelling of the complete system are presented. The simulations were carried out in the MATLAB SIMULINK environment, and an experimental prototype was developed utilizing a 200 W 110 V SEDC motor.
Keywords
Solar photo voltaic systems; series compensated buck boost converter; sliding mode controller; average state space modelling; speed regulation of DC motors
Hrčak ID:
287955
URI
Publication date:
7.9.2022.
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