Relevant bibliographies by topics / Six-pulse rectifier

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  1. Journal articles
  2. Dissertations / Theses
  3. Conference papers

Academic literature on the topic 'Six-pulse rectifier'

Author: Grafiati
Published: 4 June 2021
Last updated: 12 June 2025

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Journal articles on the topic "Six-pulse rectifier"

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Xiao-Qiang, Chen, Hao Chun-Ling, Qiu Hao, and Li Min. "Thirty-six pulse rectifier scheme based on zigzag auto-connected transformer." Archives of Electrical Engineering 65, no. 1 (2016): 117–32. http://dx.doi.org/10.1515/aee-2016-0009.

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AbstractIn this paper, a low kilo-volt-ampere rating zigzag connected autotransformer based 36-pulse rectifier system supplying vector controlled induction motor drives (VCIMD) is designed, modeled and simulated. Detailed design procedure and magnetic rating calculation of the proposed autotransformer and interphase reactor is studied. Moreover, the design process of the autotransformer is modified to make it suitable for retrofit applications. Simulation results confirm that the proposed 36-pulse rectifier system is able to suppress less than 35thharmonics in the utility line current. The influence of load variation and load character is also studied to demonstrate the performance and effectiveness of the proposed 36-pulse rectifiers. A set of power quality indices at AC mains and DC link are presented to compare the performance of 6-, 24- and 36-pulse AC-DC converters.
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Abdollahi, Rohollah. "Pulse doubling in zigzag–connected autotransformer–based 12–pulse ac–dc converter for power quality improvement." Journal of Electrical Engineering 63, no. 6 (2012): 357–64. http://dx.doi.org/10.2478/v10187-012-0053-3.

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This paper presents a pulse doubling technique in a 12-pulse ac-dc converter which supplies direct torque controlled motor drives (DTCIMDs) in order to have better power quality conditions at the point of common coupling. The proposed technique increases the number of rectification pulses without significant changes in the installations and yields in harmonic reduction in both ac and dc sides. The 12-pulse rectified output voltage is accomplished via two paralleled six-pulse acdc converters each of them consisting of three-phase diode bridge rectifiers. An autotransformer is designed to supply the rectifiers. The design procedure of magnetics is in a way such that makes it suitable for retrofit applications where a six-pulse diode bridge rectifier is being utilized. Independent operation of paralleled diode-bridge rectifiers, i.e. dc-ripple re-injection methodology, requires a Zero Sequence Blocking Transformer (ZSBT). Finally, a tapped interphase reactor is connected at the output of ZSBT to double the pulse numbers of output voltage up to 24 pulses. The aforementioned structure improves power quality criteria at ac mains and makes them consistent with the IEEE-519 standard requirements for varying loads. Furthermore, near unity power factor is obtained for a wide range of DTCIMD operation. A comparison is made between 6-pulse, 12-pulse, and proposed converters from view point of power quality indices. Results show that input current total harmonic distortion (THD) is less than 5% for the proposed topology at various loads.
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Abdollahi, Rohollah. "Study of delta/polygon-connected transformer-based 36-pulse ac-dc converter for power quality improvement." Archives of Electrical Engineering 61, no. 2 (2012): 277–92. http://dx.doi.org/10.2478/v10171-012-0023-1.

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Study of delta/polygon-connected transformer-based 36-pulse ac-dc converter for power quality improvementDesign of a delta/polygon-connected autotransformer based 36-pulse ac-dc converter is presented in this paper. The 36-pulse topology is obtained via two paralleled eighteen-pulse ac-dc converters each of them consisting of a nine-phase (nine-leg) diode bridge rectifier. For independent operation of paralleled diode-bridge rectifiers, two interphase transformers (IPT) is designed and implemented. A transformer is designed to supply the rectifier. The design procedure of magnetics is in a way such that makes it suitable for retrofit applications where a six-pulse diode bridge rectifier is being utilized. The proposed structure has been implemented and simulated using Matlab/Simulink software under different load conditions. Simulation results confirmed the significant improvement of the power quality indices (consistent with the IEEE-519 standard requirements) at the point of common coupling. Furthermore, near unity power factor is obtained for a wide range of DTCIMD operation. A comparison is made between 6-pulse and proposed converters from view point of power quality indices. Results show that input current total harmonic distortion (THD) is less than 4% for the proposed topology at variable loads.
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Setiadi, Herlambang, Akbar Swandaru, and Teguh Aryo Nugroho. "Design feedback controller of six pulse three phase rectifier based on differential evolution algorithm." Indonesian Journal of Electrical Engineering and Computer Science 22, no. 2 (2021): 670. http://dx.doi.org/10.11591/ijeecs.v22.i2.pp670-677.

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<span id="docs-internal-guid-b9128c38-7fff-a778-f2e1-7959fee15cb3"><span>The application of power electronics devices is increasing significantly in this past few year. This condition could happen due to the development of semiconductor technology. The application of power electronics is varied from power plant application to vehicles application. One of the power electronics devices that becoming popular is rectifier. Rectifier can be used to transform AC electricity to DC. This paper presents fully controlled six pulse three phase rectifier which designed to stabilize the DC voltage output on a certain loads variation. PID controller is used as the close loop controller system of the rectifier. To get optimal coordination differential evolution algorithm is used to tune the parameter of PID controller. simulation is carried out in MATLAB/SIMULINK environment. From the simulation results, it is found that the performance of six pulse three phase rectifier can be enhanced significantly by using PID controller based on differential evolution algorithm.</span></span>
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Abdollahi, Rohollah. "A Simple Harmonic Reduction Method in 20-Pulse AC–DC Converter." Journal of Circuits, Systems and Computers 28, no. 01 (2018): 1950013. http://dx.doi.org/10.1142/s0218126619500130.

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This paper proposes a simple and passive harmonic reduction method at dc link of 20-pulse rectifier. The 20-pulse topology is obtained via two paralleled 10-pulse ac–dc converters, each of them consisting of a five-phase (five-leg) diode bridge rectifier. For independent operation of the paralleled diode-bridge rectifiers, a zero sequence blocking transformer (ZSBT) is designed and implemented. Connection of a tapped inter-phase transformer (IPT) at the output of the ZSBT results in doubling the number of the output voltage pulses. The application of the pulse doubling technique with a low power rating (2% of the load power rating) results in a simpler and more economical configuration of the whole system and increased number of pulses. The design is suitable for retrofit applications where a six-pulse diode bridge rectifier is being utilized. The proposed structure is simulated using Matlab/Simulink software under different loading conditions. The simulation results confirm the significant improvement of the power quality indices (IEEE-519 standard requirements) at the point of common coupling (PCC). Experimental results are obtained using the designed and constructed laboratory prototype of the proposed converter to validate the design procedure and the simulation results. The VA rating of the magnetic circuit is calculated to confirm the savings in space, volume, weight and cost of the proposed configuration.
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Abdollahi, Rohollah. "Reduced Rating 30-pulse AC-DC Converter for Power Quality Improvement." International Journal of Applied Power Engineering (IJAPE) 6, no. 3 (2017): 199. http://dx.doi.org/10.11591/ijape.v6.i3.pp199-210.

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This paper presents the design and analysis of a novel polygon connected autotransformer based 30-phase ac-dc converter which supplies Direct Torque Controlled Induction Motor Drives (DTCIMD’s) in order to have better power quality conditions at the point of common coupling. The proposed converter output voltage is accomplished via three paralleled 10- pulse ac-dc converters each of them consisting of 5-phase diode bridge rectifier. An autotransformer is designed to supply the rectifiers. The proposed converter requires only three inter-phase transformers in the dc link that leads to the reduced kilovolt ampere rating, size, weight, and cost of the proposed rectifier. The design procedure of magnetics is in a way such that makes it suitable for retrofit applications where a six-pulse diode bridge rectifier is being utilized. The aforementioned structure improves power quality criteria at ac mains and makes them consistent with the IEEE-519 standard requirements for varying loads. Furthermore, near unity power factor is obtained for a wide range of DTCIMD operation. A comparison is made between 6-pulse and proposed converters from view point of power quality indices. Results show that input current Total Harmonic Distortion (THD) is less than 3% for the proposed topology at variable loads.
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Abdollahi, Rohollah. "Design and Experimental Verification of 20-Pulse AC–DC Converter for Retrofit Applications and Harmonic Mitigation." Journal of Circuits, Systems and Computers 26, no. 10 (2017): 1750147. http://dx.doi.org/10.1142/s021812661750147x.

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This paper presents the design and analysis of a polygon-connected autotransformer based 20-pulse AC–DC converter which supplies direct torque-controlled induction motor drives (DTCIMDs) in order to have better power quality conditions at the point of common coupling. The proposed converter output voltage is accomplished via two paralleled 10-pulse AC–DC converters each of them consisting of five-phase diode bridge rectifier. An autotransformer is designed to supply the rectifiers. The design procedure of magnetics is in such a way that makes it suitable for retrofit applications where a six-pulse diode bridge rectifier is being utilized. The proposed structure improves power quality criteria at AC mains and makes them consistent with the IEEE-519 Standard requirements for [Formula: see text]. Furthermore, near-unity power factor is obtained for a wide range of DTCIMD operations. A comparison is made between six-pulse and proposed converters from the viewpoint of power quality indices. Results show that input current total harmonic distortion (THD) is less than 8% for the proposed topology at variable loads. A laboratory prototype of the proposed polygon-connected autotransformer-based 20-pulse AC–DC converter is developed and test results are presented to validate the developed design procedure and the simulation models of this AC–DC converter under varying loads.
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Dewan, S., and E. Shahrodi. "Design of input filter for the six-pulse bridge rectifier." IEEE Transactions on Magnetics 21, no. 5 (1985): 1729–31. http://dx.doi.org/10.1109/tmag.1985.1063931.

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Dewan, S. B., and Ebrahim B. Shahrodi. "Design of an Input Filter for the Six-Pulse Bridge Rectifier." IEEE Transactions on Industry Applications IA-21, no. 5 (1985): 1168–75. http://dx.doi.org/10.1109/tia.1985.349520.

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Conde-Enríquez, J., J. S. Benítez-Read, J. L. Durán-Gómez, and J. O. Pacheco-Sotelo. "Three-phase six-pulse buck rectifier with high quality input waveforms." IEE Proceedings - Electric Power Applications 146, no. 6 (1999): 637. http://dx.doi.org/10.1049/ip-epa:19990639.

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Dissertations / Theses on the topic "Six-pulse rectifier"

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Murali, Pandarinath. "Dynamic modeling of six-pulse rectifier for short-circuit current characterization." Thesis, 2011. http://hdl.handle.net/2152/ETD-UT-2011-12-4401.

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Existing models describing the dynamic behavior of a six-pulse rectifier during a short-circuit fault condition are derived from switch models using time-domain average value parametric functions. Unlike these models, novel non-parametric dynamic models have been developed using analytical average-value modeling approach in this work. In this modeling approach, depending upon the number of switches conducting during a switching cycle, the operating point of the rectifier is brought into one of three modes of operation of a six-pulse rectifier. The model for each mode is represented by a differential equation. During output current calculation for the rectifier the operating model is selected based on firing angle and overlap angle functions derived in this paper. They completely characterize the dynamic behavior of current flowing through the dc inductor for a wide range of operating conditions with the exception of harmonics and asymmetrical currents which are dominant for faults occurring at the terminals of the rectifier upstream of the smoothing inductor. The results from the average value model and few other simple models have been applied for Thevenin ac source and synchronous generator supplied rectifier models to determine the characteristics of short circuit current from the rectifier.<br>text
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Conference papers on the topic "Six-pulse rectifier"

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Arvindan, A. N., M. A. Arshad Mohamed, and AravindKumar R. "Power Quality Analysis Of Six- And Twelve-Pulse Rectifiers As Series Cascaded Topologies Of The Three-Pulse Rectifier." In 2019 2nd International Conference on Power and Embedded Drive Control (ICPEDC). IEEE, 2019. http://dx.doi.org/10.1109/icpedc47771.2019.9036517.

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Xu, Kaili, Kala Meah, and S. Ula. "A Novel Technique to Reduce Harmonics in a Six Pulse Rectifier." In 2007 IEEE Region 5 Technical Conference. IEEE, 2007. http://dx.doi.org/10.1109/tpsd.2007.4380322.

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Kulkarni, Raunak, Suyash Gangurde, Yash Pant, R. D. Kulkarni, and Madhwi Kumari. "Design and Simulation of Three Phase Six Pulse Thyristor Controlled Rectifier." In 2019 International Conference on Nascent Technologies in Engineering (ICNTE). IEEE, 2019. http://dx.doi.org/10.1109/icnte44896.2019.8945883.

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Murali, Pandarinath, and Surya Santoso. "Dynamic modeling of short-circuit behavior of a six-pulse rectifier." In 2011 IEEE Electric Ship Technologies Symposium (ESTS). IEEE, 2011. http://dx.doi.org/10.1109/ests.2011.5770921.

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Lotekar, Rutuja T., R. D. Kulkarni, and Gaurava Deep Srivastava. "Design, Analysis and Simulation of Six-Pulse Thyristorised Rectifier using Digital Controller." In 2020 International Conference for Emerging Technology (INCET). IEEE, 2020. http://dx.doi.org/10.1109/incet49848.2020.9153987.

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Hasan, Muhammad Mahmudul, M. A. Munaim Hossain, Farhana Afrin Eirin, Md Mohaiminul Haque Mahim, and Md Ali Azam Khan. "Voltage Sag Reduction & Harmonics Suppression of Uncontrolled Six Pulse Rectifier Electric Vehicle Charger." In 2019 2nd International Conference on Innovation in Engineering and Technology (ICIET). IEEE, 2019. http://dx.doi.org/10.1109/iciet48527.2019.9290580.

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Arvindan, A. N., and Sridhar Sreeramulu. "Correlation of line current distortion, DC voltage ripple frequency and pulse number in six-pulse bridges cascaded multipulse rectifier topologies." In 2014 International Conference on Advanced Communication, Control and Computing Technologies (ICACCCT). IEEE, 2014. http://dx.doi.org/10.1109/icaccct.2014.7019447.

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Hamad, M. S., K. H. Ahmed, and B. W. Williams. "Selective harmonic filtering of a medium voltage six-pulse line commutated rectifier using an adaptive active power filter." In IECON 2011 - 37th Annual Conference of IEEE Industrial Electronics. IEEE, 2011. http://dx.doi.org/10.1109/iecon.2011.6119437.

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Soomro, D. M., S. C. Chong, Z. A. Memon, and A. M. Soomro. "Identification of harmonics of three-phase six-pulse rectifier with different kind of loads in MATLAB and fabrication model." In 2016 IEEE International Conference on Power and Energy (PECon). IEEE, 2016. http://dx.doi.org/10.1109/pecon.2016.7951556.

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Nasir, Usman, Minxiao Han, Farukh Abbas, Akif Nadeem, and Danish Khan. "Effects of open and closed loop system of a six-pulse three phase controlled rectifier on variation in load, firing angle and source inductances." In 2014 16th International Power Electronics and Motion Control Conference (PEMC). IEEE, 2014. http://dx.doi.org/10.1109/epepemc.2014.6980654.

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