Abstract
This paper proposes a new unified power flow controller (UPFC) topology. A single phase of them system with the proposed topology consists of an N:2 transformer with a center tap at the low-voltage side and a power converter module comprising full- and half-bridge converters. A three-phase system can be implemented with three devices. While the conventional UPFC topology uses two three-phase transformers, which are called series and parallel transformers, the proposed topology utilizes three single-phase transformers to implement a three-phase UPFC system. By using an autotransformer structure, the power rating of the transformers and the voltage rating of switches in the power converter module can be significantly decreased. As a result, it is possible to reduce the installation spaces and costs compared with the conventional UPFC topology. In addition, by adopting a full- and half-bridge converter structure, the proposed topology can be easily implemented with conventional power devices and control techniques. The techniques used to control the proposed topology are described in this paper. The results obtained from simulations and experiments verify the effectiveness of the proposed UPFC topology.
Highlights
In a modern, civilized society, electricity is essential
unified power flow controller (UPFC) system is a combination of a STATCOM and SSSC, which share a DC link capacitor, and comprises two transformers and two power converters, which are bulky and expensive
To mitigate the disadvantages and exploit the merits of UPFCs, this paper proposes a new UPFC
Summary
In a modern, civilized society, electricity is essential. The demand for electricity is increasing annually with industrial and economic development [1]. Fundamental solutions to meet the electricity demand include the expansion of generating plants and electric power transmission systems of the power grids. Social and environmental factors restrict the scope for such expansion. Concerns about global warming, environmental pollution due to the use of fossil fuels, and the exhaustion of fossil fuels are increasing [2]. New and renewable energy systems, such as wind and solar power, are being added to conventional power grid systems [3,4]. The power generation of new and renewable energy systems varies significantly depending on the weather
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