This study deals with an implementation of an instantaneous reactive power theory-based electronic load controller (ELC) for regulating the voltage and frequency of an isolated induction generator system (IG) that can supply electricity in remote areas. This ELC provides the fundamental reactive power and compensates harmonics of load currents. The proposed ELC is a combination of voltage source converter (VSC) with a dc link capacitor, a chopper and an auxiliary load at its dc bus. It controls active and reactive powers of the small hydro plant thus regulating the voltage and frequency of IG system. This ELC also balances the currents of the IG system under unbalanced load currents and eliminates the harmonics of the load currents thereby ...
Abstract—This paper describes the mathematical modelling of self-excited induction generators (SEIGs...
This paper presents a novel configuration of a voltage and frequency (VF) controller for a stand-alo...
AbstractConstant voltage and frequency can be generated by a stand-alone Self-Excited Induction Gene...
This paper deals with an implementation of an electronic load controller (ELC) using a digital signa...
This paper deals with an electronic load controller (ELC) for a standalone induction generator (IG) ...
This paper presents a new control algorithm for voltage and frequency control (VFC) of an isolated i...
An electronic load controller (ELC) is developed for an isolated asynchronous generator (IAG) to fee...
This paper deals with an electronic load controller (ELC) for a stand alone pico hydro power generat...
The control of voltage and frequency is one of the prime concerns in small off-grid hydroelectric po...
This paper deals with the power quality improvement in a conventional electronic load controller (EL...
The objective of this thesis is to provide a throughout analysis of the possible use of an induction...
This paper presents a new configuration of a voltage and frequency controller for a stand alone pico...
This paper deals with a voltage and frequency control of an isolated asynchronous generator feeding ...
This study presents design and implementation of a dynamic electronic load controller (DELC) for vol...
This paper presents a design of an isolated star/hexagon transformer based ELC (electronic load cont...
Abstract—This paper describes the mathematical modelling of self-excited induction generators (SEIGs...
This paper presents a novel configuration of a voltage and frequency (VF) controller for a stand-alo...
AbstractConstant voltage and frequency can be generated by a stand-alone Self-Excited Induction Gene...
This paper deals with an implementation of an electronic load controller (ELC) using a digital signa...
This paper deals with an electronic load controller (ELC) for a standalone induction generator (IG) ...
This paper presents a new control algorithm for voltage and frequency control (VFC) of an isolated i...
An electronic load controller (ELC) is developed for an isolated asynchronous generator (IAG) to fee...
This paper deals with an electronic load controller (ELC) for a stand alone pico hydro power generat...
The control of voltage and frequency is one of the prime concerns in small off-grid hydroelectric po...
This paper deals with the power quality improvement in a conventional electronic load controller (EL...
The objective of this thesis is to provide a throughout analysis of the possible use of an induction...
This paper presents a new configuration of a voltage and frequency controller for a stand alone pico...
This paper deals with a voltage and frequency control of an isolated asynchronous generator feeding ...
This study presents design and implementation of a dynamic electronic load controller (DELC) for vol...
This paper presents a design of an isolated star/hexagon transformer based ELC (electronic load cont...
Abstract—This paper describes the mathematical modelling of self-excited induction generators (SEIGs...
This paper presents a novel configuration of a voltage and frequency (VF) controller for a stand-alo...
AbstractConstant voltage and frequency can be generated by a stand-alone Self-Excited Induction Gene...