Add to ORKGDC injection limits into the AC network are an important power quality control requirement for gridconnected photovoltaic systems. Most publications on DC offset controllers focus only on their steady state performance. It is important to consider their dynamic performance especially in terms of speed of response and stability. In this paper a mathematical model for a digitally implemented DC offset controller is derived. A design procedure, based on the model, is proposed for the controller. Results of tests performed on a system of 1kW nominal rating, provide validation for the mathematical model
The fluctuating nature of some of the Distributed Generation (DG) sources can cause power quality re...
This paper addresses a new integrative control scheme for a boost-buck inverter, interfacing the pho...
This paper addresses voltage control of distributed dc power systems. DC power systems have been dis...
DC injection limits into the AC network are an important power quality control requirement for gridc...
Limitation of direct current (DC) injection into the alternating current (AC) network is an importan...
Australian Standard AS 4777.2-2005, section 4.9 imposes limits on DC injection into the AC network b...
Limitations of DC injection into the AC network is an important operational requirement for grid con...
In this paper, a model-based approach of DC-DC converters dedicated to controller design application...
In this paper, the most prominent inverter interface control techniques for the grid-connected photo...
The increasing penetration of Distributed Generation and storage connected to the distribution netwo...
Abstract Power electronics–based converters for photovoltaic (PV) systems are susceptible to overcur...
In electrical grids, the widespread connection of power converters and non-linear loads caused the e...
This paper proposes a newly designed Real Time Digital Feedback Controller for a grid connected PV s...
Abstract: The consumption of the petroleum product assets and the worldwide temperature alteration i...
A programmable direct current (DC) power supply with Real-time Digital Simulator (RTDS)-based photov...
The fluctuating nature of some of the Distributed Generation (DG) sources can cause power quality re...
This paper addresses a new integrative control scheme for a boost-buck inverter, interfacing the pho...
This paper addresses voltage control of distributed dc power systems. DC power systems have been dis...
DC injection limits into the AC network are an important power quality control requirement for gridc...
Limitation of direct current (DC) injection into the alternating current (AC) network is an importan...
Australian Standard AS 4777.2-2005, section 4.9 imposes limits on DC injection into the AC network b...
Limitations of DC injection into the AC network is an important operational requirement for grid con...
In this paper, a model-based approach of DC-DC converters dedicated to controller design application...
In this paper, the most prominent inverter interface control techniques for the grid-connected photo...
The increasing penetration of Distributed Generation and storage connected to the distribution netwo...
Abstract Power electronics–based converters for photovoltaic (PV) systems are susceptible to overcur...
In electrical grids, the widespread connection of power converters and non-linear loads caused the e...
This paper proposes a newly designed Real Time Digital Feedback Controller for a grid connected PV s...
Abstract: The consumption of the petroleum product assets and the worldwide temperature alteration i...
A programmable direct current (DC) power supply with Real-time Digital Simulator (RTDS)-based photov...
The fluctuating nature of some of the Distributed Generation (DG) sources can cause power quality re...
This paper addresses a new integrative control scheme for a boost-buck inverter, interfacing the pho...
This paper addresses voltage control of distributed dc power systems. DC power systems have been dis...