In this paper, a new control strategy based on current mode control for Dynamic Voltage Restorer (DVR) is proposed to mitigate the power quality problems in the supply voltage. The DVR is controlled indirectly by controlling the supply current. The reference supply currents are estimated using the sensed load terminal voltages and the dc bus voltage of DVR. The control scheme is based on synchronous reference frame theory (SRFT) for the operation of a capacitor supported DVR. The control strategy is verified through extensive simulation studies using MATLAB with its Simulink and Power System Blockset (PSB) toolboxes to demonstrate the improved performance of DVR
Abstract- The problem of voltage unbalance and its impacts on sensitive loads is well known. To solv...
Because of intricacy of force framework organization, voltage droop/expand turned into the significa...
In this paper, different voltage injection schemes for dynamic voltage restorers (DVRs) are analysed...
The dynamic voltage restorer (DVR) is used to regulate the voltage at the load terminals from variou...
The subject of power quality is gaining much interest nowadays. With the sophisticated sensitive ele...
The protection to the sensitive loads from voltage sags, swells and harmonics can be achieved using ...
The use of power electronics equipment has rapidly increased day by day and it is leading to several...
In distribution system the most common phenomena is voltage sag, in which will be effected on the di...
The Dynamic Voltage Restorer (DVR) is a custom device that is used to maintain the voltage at the lo...
This paper presents control algorithm for dynamic voltage restorer (DVR) to improve voltage quality ...
Voltage sag and voltage swell are frequently occurred power quality problems in present power distri...
The protection of the sensitive unbalanced nonlinear loads from sag/swell, distortion, and unbalance...
The performance of a dynamic voltage restorer (DVR) in improving the quality of power supply is exam...
This paper represents a review of the dynamic voltage restorer for power quality improvement in the ...
This paper represents a low complexity of the DVR controller by using a robust differentiator named ...
Abstract- The problem of voltage unbalance and its impacts on sensitive loads is well known. To solv...
Because of intricacy of force framework organization, voltage droop/expand turned into the significa...
In this paper, different voltage injection schemes for dynamic voltage restorers (DVRs) are analysed...
The dynamic voltage restorer (DVR) is used to regulate the voltage at the load terminals from variou...
The subject of power quality is gaining much interest nowadays. With the sophisticated sensitive ele...
The protection to the sensitive loads from voltage sags, swells and harmonics can be achieved using ...
The use of power electronics equipment has rapidly increased day by day and it is leading to several...
In distribution system the most common phenomena is voltage sag, in which will be effected on the di...
The Dynamic Voltage Restorer (DVR) is a custom device that is used to maintain the voltage at the lo...
This paper presents control algorithm for dynamic voltage restorer (DVR) to improve voltage quality ...
Voltage sag and voltage swell are frequently occurred power quality problems in present power distri...
The protection of the sensitive unbalanced nonlinear loads from sag/swell, distortion, and unbalance...
The performance of a dynamic voltage restorer (DVR) in improving the quality of power supply is exam...
This paper represents a review of the dynamic voltage restorer for power quality improvement in the ...
This paper represents a low complexity of the DVR controller by using a robust differentiator named ...
Abstract- The problem of voltage unbalance and its impacts on sensitive loads is well known. To solv...
Because of intricacy of force framework organization, voltage droop/expand turned into the significa...
In this paper, different voltage injection schemes for dynamic voltage restorers (DVRs) are analysed...