A new configuration and control of doubly fed induction generator (UPQC-WG)

Jayanti, N.G.; Basu, Malabika; Gaughan, Kevin; Conlon, Michael

doi:10.1109/iecon.2008.4758280

Cited by 5 publications

(3 citation statements)

References 13 publications

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“…However, the cutoff frequency of these LPF or HPF can affect the dynamic performance of the controller. The UPQC controller based on three-phase pq can be found in [14], [16], [17], [27], [32], [52], [98], [104], [109], [113], [114], and [126], while dq method based controller can be found in [12], [18], [19], [22], [25], [26], [33], [45], [47], [68], [75], [81], [84], [88], [89], [95], [105], [111], [112], [114], [117], [121], [128], [135], [143], [152], [153], [158], [161], and [167]. The original three-phase pq theory exhibits limitations when the supply voltages are distorted and/or unbalanced.…”

Section: Control Techniques For Upqcmentioning

confidence: 99%

“…During the system dynamic conditions, for example, sudden load change, voltage sag, the dc-link feedback controller should respond as fast as possible to restore the dc-link voltage at set reference value, with minimum delay as well as lower overshoot. The proportional-integral (PI)-regulator-based dc-link voltage controller is simple to implement and hence widely used by the researches [12]- [14], [16]- [20], [22], [23], [26]- [33], [36], [38], [40], [42], [46]- [48], [50], [54], [56], [60], [61], [64], [67], [68], [75]- [77], [81]- [84], [88]- [90], [92], [94], [95], [100], [103]- [105], [108], [109], [111]- [114], [116], [117], [119], [122], [124], [126]- [128], [130]- …”

Section: Upqc-state Of the Artmentioning

confidence: 99%

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Enhancing Electric Power Quality Using UPQC: A Comprehensive Overview

Khadkikar¹

2012

IEEE Trans. Power Electron.

623

275

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This paper presents a comprehensive review on the unified power quality conditioner (UPQC) to enhance the electric power quality at distribution levels. This is intended to present a broad overview on the different possible UPQC system configurations for single-phase (two-wire) and three-phase (three-wire and four-wire) networks, different compensation approaches, and recent developments in the field. It is noticed that several researchers have used different names for the UPQC based on the unique function, task, application, or topology under consideration. Therefore, an acronymic list is developed and presented to highlight the distinguishing feature offered by a particular UPQC. In all 12 acronyms are listed, namely, UPQC-D, UPQC-DG, UPQC-I, UPQC-L, UPQC-MC, UPQC-MD, UPQC-ML, UPQC-P, UPQC-Q, UPQC-R, UPQC-S, and UPQC-VA m in . More than 150 papers on the topic are rigorously studied and meticulously classified to form these acronyms and are discussed in the paper.Index Terms-Active power filter (APF), harmonic compensation, power quality, reactive power compensation, unified power quality conditioner (UPQC), voltage sag and swell compensation.

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Section: Control Techniques For Upqcmentioning

confidence: 99%

Section: Upqc-state Of the Artmentioning

confidence: 99%

Enhancing Electric Power Quality Using UPQC: A Comprehensive Overview

Khadkikar¹

2012

IEEE Trans. Power Electron.

623

275

View full text Add to dashboard Cite

show abstract

“…The synchronous reference frame (SRF) theory is developed in time-domain based reference current/voltage generation technique. The SRFT is performing the operation in steady-state or transient state as well as for generic voltage and current and capable of controlling the active power filters in real time system [15] , [18], [20], [21], [27], [28], [51], [54], [57], [58], [76], [77], [82], [104], [106], [111], [115], [120], [121], [125], [127], [128], [130], [131], [133], [134], [137], [141], [142], [150], [153], [155], [160], [167], [177], [178], [179], [180], [182], [187], [189], [190], [195], [204], [203], [207],…”

Section: Synchronous Reference Frame (Srf) Theorymentioning

confidence: 99%

Mitigation of Power Quality Problems Using Custom Power Devices: A Review

Prasad

Akella

2017

IJEEI

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Electrical power quality (EPQ) in distribution systems is a critical issue for commercial, industrial and residential applications. The new concept of advanced power electronic based Custom Power Devices (CPDs) mainly distributed static synchronous compensator (D-STATCOM), dynamic voltage restorer (DVR) and unified power quality conditioner (UPQC) have been developed due to lacking the performance of traditional compensating devices to minimize power quality disturbances. This paper presents a comprehensive review on D-STATCOM, DVR and UPQC to solve the electrical power quality problems of the distribution networks. This is intended to present a broad overview of the various possible DSTATCOM, DVR and UPQC configurations for single-phase (two wire) and three-phase (three-wire and four-wire) networks and control strategies for the compensation of various power quality disturbances. Apart from this, comprehensive explanation, comparison, and discussion on D-STATCOM, DVR, and UPQC are presented. This paper is aimed to explore a broad prospective on the status of D-STATCOMs, DVRs, and UPQCs to researchers, engineers and the community dealing with the power quality enhancement. A classified list of some latest research publications on the topic is also appended for a quick reference.

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Combined Operation of Renewable Energy Sources and Active Power Filter: A Review

Al-Shamma’a

Addoweesh

2017

2017 9th IEEE-GCC Conference and Exhibition (GCCCE)

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A new configuration and control of doubly fed induction generator (UPQC-WG)

Cited by 5 publications

References 13 publications

Enhancing Electric Power Quality Using UPQC: A Comprehensive Overview

Enhancing Electric Power Quality Using UPQC: A Comprehensive Overview

Mitigation of Power Quality Problems Using Custom Power Devices: A Review

Combined Operation of Renewable Energy Sources and Active Power Filter: A Review

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