A grid-connected HVDC shunt tap based on series-input parallel-output DC-AC multi-module 2-level voltage source converters

Elserougi, Ahmed A.; Massoud, Ahmed M.; Abdel‐Khalik, Ayman S.; Ahmed, Shehab

doi:10.1109/ieeegcc.2015.7060060

Cited by 4 publications

(2 citation statements)

References 10 publications

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“…This necessitates an additional controller to ensure equal voltage levels across the different cascaded dc‐link capacitors. The concept of dc capacitor voltage sharing controller presented in [31] can be simply employed herein. In this controller, half the value of the per‐phase dc‐side voltage ( V dc j /2) is compared with the total dc voltage divided by the total number of dc capacitors (12 in case of the six‐phase PMSG).…”

Section: Control Systemmentioning

confidence: 99%

Series‐connected multi‐half‐bridge modules converter for integrating multi‐megawatt wind multi‐phase permanent magnet synchronous generator with dc grid

Elserougi¹,

Daoud

Abdel‐Khalik³

et al. 2017

IET Electric Power Applications

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In this study, a new transformerless wind energy conversion system to integrate high-power multi-phase permanent magnet wind generators to medium-voltage local grids is presented. The proposed converter topology consists of multi-half-bridge modules with a high ac-direct current (dc) boosting capability. Each phase of an open winding multi-phase generator is connected to the ac side of a half-bridge module, whereas the dc sides of the halfbridge modules are connected in series forming the high-voltage dc-link output. The proposed architecture facilitates the employment of semiconductor switches with a relatively low-voltage rating, which equals the dc-link voltage divided by the number of generator phases. A detailed analysis of the proposed architecture along with the required closed-loop control is presented. The proposed architecture is simulated under different operating conditions using a typical 2 MW system, while the experimental validation is carried out using a low-scale prototype converter.

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Section: Control Systemmentioning

confidence: 99%

Series‐connected multi‐half‐bridge modules converter for integrating multi‐megawatt wind multi‐phase permanent magnet synchronous generator with dc grid

Elserougi¹,

Daoud

Abdel‐Khalik³

et al. 2017

IET Electric Power Applications

Self Cite

View full text Add to dashboard Cite

show abstract

“…The HVDC shunt taps can be classified mainly into two main types. In the first type, a three-phase HVDC-AC converter followed by a low-frequency transformer is employed [5,[11][12][13][14]. In the second type, a DC-DC step-down converter followed by a medium-voltage three-phase DC-AC converter is utilised [9,15].…”

Section: Introductionmentioning

confidence: 99%