Relevant bibliographies by topics / Active Phase Converter (APC)

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Active Phase Converter (APC)'

Author: Grafiati
Published: 6 September 2023

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Journal articles on the topic "Active Phase Converter (APC)"

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Jing, Wei, and Ran Ding. "Loss Analysis of Three-Level Active Neutral Point Clamped Converter under Fault Tolerance Operation." Advanced Materials Research 588-589 (November 2012): 847–50. http://dx.doi.org/10.4028/www.scientific.net/amr.588-589.847.

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Compared with traditional three-level neutral-point-clamped (NPC) converter, the recently proposed three-level active NPC (ANPC) converter has the ability to overcome the unbalanced loss distribution, and therefore result in increased output power or switching frequency. In industrial applications, fault tolerance ability of power converters is very important considering system availability, safety and reliability. This paper introduced the control schemes to get stable and continuous output under single device fault for both open-circuit and short-circuit fault cases. By analyzing the phase relationship of reference voltage and load current, the loss calculation method under fault tolerant operation was proposed. Calculation results show that the devices junction temperatures under fault tolerant operation are within the safe operation area (SOA) even they are a little bit higher compared to normal operation, which also confirm the effectiveness of the fault tolerant control schemes.
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Reusser, Carlos A., and Hector Young. "Four-Level Quasi-Nested Inverter Topology for Single-Phase Applications." Electronics 10, no. 3 (January 20, 2021): 233. http://dx.doi.org/10.3390/electronics10030233.

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In this paper, a novel four-level single-phase multilevel converter is introduced, consisting of six active switches arranged in a quasi-nested configuration. The proposed topology synthesizes its output voltage levels with respect to a floating neutral point, using four cascaded capacitors with identical voltage levels. The proposed converter contains a reduced number of components compared to the neutral point clamped (NPC) or active-NPC topologies (ANPC) for the same number of output voltage levels, since it does not require diode or active switch clamping to a neutral point. Moreover, no floating capacitors with asymmetric voltage levels are employed, thereby simplifying the capacitor voltage balancing. The switching operation principles, modulation technique and control scheme for supplying a single-phase resistive-inductive load are addressed in detail. The proposed four-level inverter allows generating an additional output voltage level with the same semiconductor count as conventional three-level inverters such as NPC and ANPC which allows a superior waveform quality, with a THDv reduction of 32.69% in comparison the clamped inverters. Experimental tests carried out in a laboratory-scale setup verify the feasibility of the proposed topology.
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Teston, Silvio Antonio, Kaio Vinicius Vilerá, Marcello Mezaroba, and Cassiano Rech. "Control System Development for the Three-Ports ANPC Converter." Energies 13, no. 15 (August 1, 2020): 3967. http://dx.doi.org/10.3390/en13153967.

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This paper proposes a control system for the single-phase Three-Ports Active Neutral- Point-Clamped (ANPC-3P) converter, which can inject a sinusoidal current into the grid, balance the neutral point voltage, and regulate the energy storage system (ESS) current with reduced low-frequency ripple. Despite other applications, ANPC-3P inverter can be used in grid-tied renewable generation to allow the simultaneous connection of a photovoltaic (PV) energy source and an ESS to the AC grid. The ESS is connected directly to the inverter circuit without any auxiliary DC-DC converter, but due to the DC bus pulsed power, it can be subjected to low-frequency current ripple. This undesired current ripple is difficult to filter and can lead to shorter battery life. A control system based on well-known controllers is analyzed and designed. Theoretical analysis is validated experimentally using a single-phase 1-kW prototype.
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Lara, Jorge, Lesedi Masisi, Concepcion Hernandez, Marco A. Arjona, and Ambrish Chandra. "Novel Five-Level ANPC Bidirectional Converter for Power Quality Enhancement during G2V/V2G Operation of Cascaded EV Charger." Energies 14, no. 9 (May 5, 2021): 2650. http://dx.doi.org/10.3390/en14092650.

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This paper presents a novel single-phase (SP) active-neutral point clamped (ANPC) five-level bidirectional converter (FLBC) for enhancing the power quality (PQ) during the grid-to-vehicle (G2V) and vehicle-to-grid (V2G) operation of an electric vehicle (EV) charger connected in series. This EV charger is based on a dual-active half-bridge DC-DC converter (DAHBC) with a high frequency isolation transformer. Unlike the comparable ANPC topologies found in literature, the proposed one has two more switches, i.e., ten instead of eight. However, with the addition of these components, the proposed multilevel converter not only becomes capable of properly balancing the voltage of the DC-link split capacitors under various step-changing conditions but it achieves a better efficiency, a lower stress of the switching devices and a more even distribution of the power losses. The resulting grid-tied ANPC-SPFLBC and DAHBC are accurately controlled with a cascaded control strategy and a single-phase shift (SPS) control technique, respectively. The simulation results obtained with MATLAB-SimPowerSystems as well as the experimental results obtained in laboratory validate the proposed ANPC-SPFLBC for a set of exhaustive tests in both V2G and G2V modes. A detailed power quality analysis carried out with a Fluke 43B alike demonstrates the good performance of the proposed topology.
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Ying, Zi. "Three-level ANPC rectifier loss calculation and balance control method." Journal of Physics: Conference Series 2561, no. 1 (August 1, 2023): 012020. http://dx.doi.org/10.1088/1742-6596/2561/1/012020.

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Abstract Traditional three-level neutral-point clamped converter has the problem of the uneven loss distribution, which restricts the increase of converter capacity. Three-level active neutral-point clamped (3L-ANPC) converter can reduce the imbalance of power device loss distribution. At present, three traditional SPWM modulation strategies are used in single-phase three-level ANPC modulation. Considering the loss distribution, it is generally required to input the current and voltage sampling values in real-time and calculate the temperature of the switching device online for control or collect the temperature of the switching device in real-time for feedback control, which is more complicated to realize. This paper proposes a modulation scheme based on two carrier cycles, combined with traditional SPWM1 and 2, to analyze the switching conditions and loss characteristics of each switching device in this scheme. The simulation of a single-phase three-level ANPC rectifier was built, and the experiment was carried out on the Yuankuan HIL semi-physical platform. The results show that this scheme is simple, easy to implement, and can effectively reduce the loss distribution imbalance.
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Liu, Xin, Nan Jin, Xijun Yang, Khurram Hashmi, Dianguan Ma, and Houjun Tang. "A Novel Single-switch Phase Controlled Wireless Power Transfer System." Electronics 7, no. 11 (October 29, 2018): 281. http://dx.doi.org/10.3390/electronics7110281.

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Battery charging is a fundamental application of Wireless Power Transfer (WPT) systems that requires effective implementation of Constant Current (CC) and Constant Voltage (CV) power conduction modes. DC-DC converters used in WPT systems utilize large inductors and capacitors that increase the size and volume of the system in addition to causing higher DC losses. This work proposes a novel single-switch active rectifier for phase controlled WPT systems that is smaller in volume and weight as compared to conventional WPT topologies. The proposed method simplifies the control scheme using improved Digital Phase Control (DPC) and Analog Phase Control (APC) to realize the CC and CV power transfer modes. Furthermore, it prevents forward voltage losses in Silicon Carbide (SiC) switches and shoot through states with improved switching patterns. Simulation studies and experimental results are added to verify the effectiveness of the proposed methodology.
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Wang, Dong, Houquan Chen, Yunhui Huang, Xiangtian Deng, and Guorong Zhu. "Modeling and Stability Analysis of Weak-Grid Tied Multi-DFIGs in DC-Link Voltage Control Timescale." Energies 13, no. 14 (July 17, 2020): 3689. http://dx.doi.org/10.3390/en13143689.

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The DC-link voltage control (DVC) timescale (i.e., the frequency dynamics covering converter outer controls) instabilities in wind generation have gained increased attention recently. This paper presents DVC timescale modeling and stability analysis for multi doubly-fed induction generators (DFIGs) connected to weak AC grids. A reduced-order, small-signal model of a grid-tied multi-DFIG system, designed for DVC dynamics analysis, is firstly proposed. The model allows for the dynamic interactions among the DC-link voltage control, active power control (APC), terminal voltage control (TVC) and phase-locked loop (PLL). Eigenvalue and participation factor analyses are conducted to explore the potential instabilities and correlated critical factors for such a multi-machine system. The sensitivity studies find that instability can occur at high levels of power generations or low short-circuit ratio (SCR) conditions. In addition, the dominant mode is identified to be highly related to the PLL, and its modal damping is decreased when the bandwidths of PLLs in different generators are close. Detailed model-based time domain simulations verified the analysis above.
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Lv, Risheng, Qiang Fu, Liang Yin, Yuan Gao, Wei Bai, Wenbo Zhang, Yufeng Zhang, Weiping Chen, and Xiaowei Liu. "An Interface ASIC for MEMS Vibratory Gyroscopes with Nonlinear Driving Control." Micromachines 10, no. 4 (April 22, 2019): 270. http://dx.doi.org/10.3390/mi10040270.

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This paper proposes an interface application-specific-integrated-circuit (ASIC) for micro-electromechanical systems (MEMS) vibratory gyroscopes. A closed self-excited drive loop is employed for automatic amplitude stabilization based on peak detection and proportion-integration (PI) controller. A nonlinear multiplier terminating the drive loop is designed for rapid resonance oscillation and linearity improvement. Capacitance variation induced by mechanical motion is detected by a differential charge amplifier in sense mode. After phase demodulation and low-pass filtering an analog signal indicating the input angular velocity is obtained. Non-idealities are further suppressed by on-chip temperature drift calibration. In order for better compatibility with digital circuitry systems, a low passband incremental zoom sigma-delta (ΣΔ) analog-to-digital converter (ADC) is implemented for digital output. Manufactured in a standard 0.35 μm complementary metal-oxide-semiconductor (CMOS) technology, the whole interface occupies an active area of 3.2 mm2. Experimental results show a bias instability of 2.2 °/h and a nonlinearity of 0.016% over the full-scale range.
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Jeong, Da-Woom, Soo-Yeon Kim, Sung-Jun Park, and Dong-Hee Kim. "Study on the Capacity of an Active Phase Controller for Autonomous Grid Connection." Electronics 9, no. 8 (August 5, 2020): 1252. http://dx.doi.org/10.3390/electronics9081252.

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For the efficient power allocation of the distribution line, several studies on intelligent distribution management systems that enable connection or separation between distribution networks are being conducted. However, in case the systems are linked together and if the voltage and phase of each distribution network are different, uncontrolled circulating current and inrush current flow into the line. To resolve this, we introduced the active phase controller (APC) as a solution and performed an analysis using the capacity calculation method for the APC connected to each distribution network. When connecting lines between distribution networks, the phase of each contact was ensured to be the same. Specifically, the phase value compensated by each APC is different because the amounts of active power and reactive power to be controlled are also different. In this study, we analyzed the APC capacity according to the impedance state of the distribution line and calculated the APC output voltage for the phase matching of each distribution network at the connection point. As a result, the minimum design capacity of APC was derived; moreover, simulation results were used to validate the analysis.
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Liu, Jinxin, Liangdong Yang, Laihao Yang, Xingwu Zhang, and Xuefeng Chen. "Multiple-harmonic amplitude and phase control method for active noise and vibration reshaping." Journal of Vibration and Control 24, no. 14 (April 19, 2017): 3173–93. http://dx.doi.org/10.1177/1077546317701662.

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With the development of active noise and vibration control technology, there are increasing demands for active noise and vibration reshaping (ANVR) other than cancellation in the fields of active sound quality control, psychoacoustics, medical devices, military equipment, etc. The active noise equalizer (ANE) is one of the most popular ANVR methods. However, the ANE only controls (scales) the amplitude of the residual noise without considering the control of phase, and is unable to control frequency components that are excluded in primary noise. In this paper, we propose a more general and effective algorithm, called amplitude and phase control (APC), for ANVR, which can control amplitude and phase, simultaneously, of any interesting frequency component of the residual noise. Firstly, a modified active noise equalizer (MANE) algorithm with improved convergence is proposed based on the reference amplitude normalization and structure modification. Then, the APC algorithm is derived based on the MANE algorithm. Furthermore, numerical simulations and analytical investigations of the APC algorithm are conducted. Finally, case studies using experimental data are carried out. The multiple-harmonic primary noise was measured from a rotor test-platform and the secondary path model was identified according to a random vibration test on a shell structure. The results further verify the validity and robustness of the proposed APC algorithm.
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Dissertations / Theses on the topic "Active Phase Converter (APC)"

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Louganski, Konstantin. "Generalized Average-Current-Mode Control of Single-Phase AC-DC Boost Converters with Power Factor Correction." Diss., Virginia Tech, 2007. http://hdl.handle.net/10919/27331.

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The dissertation presents a generalized average-current-mode control technique (GACMC), which is an extension of the average-current-mode control (ACMC) for single-phase ac-dc boost converters with power factor correction (PFC). Traditional ACMC is generalized in a sense that it offers improved performance in the form of significant reduction of the current control loop bandwidth requirement for a given line frequency in unidirectional and bidirectional boost PFC converters, and additional functionality in the form of reactive power control capability in bidirectional converters. These features allow using a relatively low switching frequency and slow-switching power devices such as insulated-gate bipolar transistors (IGBTs) in boost PFC converters, including those designed for higher ac line frequencies such as in aircraft power systems (360â 800 Hz). In bidirectional boost PFC converters, including multilevel topologies, the GACMC offers a capability to supply a prescribed amount of reactive power (with leading or lagging current) independently of the dc load power, which allows the converter to be used as a static reactive power compensator in the power system.

A closed-loop dynamic model for the current control loop of the boost PFC converter with the ACMC has been developed. The model explains the structure of the converter input admittance, the current phase lead phenomenon, and lays the groundwork for development of the GACMC. The leading phase admittance cancellation (LPAC) principle has been proposed to completely eliminate the current phase lead phenomenon and, consequently, the zero-crossing distortion in unidirectional converters. The LPAC technique has been adapted for active compensation of the input filter capacitor current in bidirectional boost PFC converters.

The dynamic model of the current control loop for bidirectional boost PFC converters was augmented to include a reactive power controller. The proposed control strategy enables the converter to process reactive power and, thus, be used as a reactive power compensator, independently of the converter operation as an ac-dc converter.

Multiple realizations of the reactive power controller have been identified and examined in a systematic way, along with their merits and limitations, including susceptibility to the ac line noise. Frequency response characteristics of reactive elements emulated by means of these realizations have been described.

Theoretical principles and practical solutions developed in this dissertation have been experimentally verified using unidirectional and bidirectional converter prototypes. Experimental results demonstrated validity of the theory and proposed practical implementations of the GACMC.
Ph. D.
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Kim, Jong Wan. "Back to Back Active Power Filter for Multi-Generator Power Architecture with Reduced dc-link Capacitor." Diss., Virginia Tech, 2020. http://hdl.handle.net/10919/96638.

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Multi-pulse converters have been widely used for a multi-megawatt scale power generating system to comply with harmonic regulations. Among all types of multi-pulse converters, a 12-pulse converter is the most widely used due to the simple structure, which consists of a delta-delta and a delta-wye phase-shift transformer pair and it effectively mitigates undesirable harmonics from the nonlinear load. In the early 2000s, a shunt type passive front-end for a shipboard power system was proposed. By shunting the two gensets with 30° phase angle difference, a single phase-shift transformer effectively eliminates 5th and 7th harmonics. It achieves a significant size and weight reduction compared to a 12-pulse converter while keep the comparable harmonic cancellation performance. Recently, a hybrid type front-end was proposed. On top of the passive front-end, 3 phase active power filter was added and an additional harmonic cancellation was achieved to further eliminate 11th and 13th harmonics. However, the performance of both the passive and hybrid type front-end are highly dependent on the size of the line reactor in ac mains. A back to back active power filter is proposed in this dissertation to replace the phase-shift transformer in the multi-generator power architecture. The proposed front-end does not include phase-shift transformer and the size and the weight of the overall front-end can be significantly reduced. Due to the active harmonic compensation, the back to back front-end achieves better power quality and the line reactor dependency is improved. The number of required dc-link capacitors is reduced by half by introducing a back to back configuration and the capacitor size is reduced by adjusting the phase angle difference of genset to cancel out the most significant voltage harmonics in the shared dc-link bus. The overview of the existing shunt type front-end is provided and the concept of back to back active power filter is validated by simulation and prototype hardware. The comparison between existing front-end and the proposed front-end is provided to highlight the superior performance of back to back active front-end. The dc-link bus current and voltage ripple analysis is provided to explain the dc-link ripple reduction mechanism.
Doctor of Philosophy
The transportation electrification has gained more and more attention due to its smaller carbon dioxide emission, better fuel efficiency. The recent advances in power devices, microcontrollers, and transducers accelerate the electrification of transportation. This trend is shown in the propulsion system in marine transport as well and the electric propulsion system has been widely used to meet the strict environmental regulations. However, the non-linear circuit components such as capacitor and diode in the electric propulsion system draw non-linear current and significantly deteriorate power quality and lead to critical problems such as reduced life span of circuit components Accordingly, a front-end is required to improve power quality. Also, it is desired to have compact and lightweight front-end for installation flexibility and fuel efficiency improvement. In this dissertation, several front-ends using a phase-shift transformer are reviewed and a detailed analysis is provided to help understand the harmonic cancellation principle of the existing front-end through equivalent circuit analysis, quantitative analysis, and a phasor diagram representation. Based on the analysis of the existing front-ends and shipboard power architecture, lightweight and high-performance front-end is proposed and verified by simulation and prototype hardware. The performance, size comparison between existing front-end and the proposed front-end is provided to show the advantage of the proposed front-end.
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Macík, Tomáš. "Model trojfázové umělé sítě." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2020. http://www.nusl.cz/ntk/nusl-413220.

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The Diploma thesis deals with control of three-phase active rectifier and a three-phase DC/AC converter. It also explains phase-locked loop principle. The theoretical part including first three chapters lists several control approaches to three phase active rectifier and three phase DC/AC converter. Described control approaches to the active rectifier are control in dq frame and control in dq UVW frame. Listed control approaches to the DC/AC converter include cascaded control structure and a full state feedback control. The practical part is divided into last three chapters and includes mathematical description of phase-locked loop principle, model of active rectifier controlled in dq frame and a model of DC/AC converter controlled both by a cascaded control and a full¬ state feedback. The models are created in Matlab Simulink.
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Siddique, Hafiz Abu Bakar [Verfasser], Doncker Rik W. [Akademischer Betreuer] De, and Antonello [Akademischer Betreuer] Monti. "The three-phase dual-active bridge converter family : modeling, analysis, optimization and comparison of two-level and three-level converter variants / Hafiz Abu Bakar Siddique ; Rik W. de Doncker, Antonello Monti." Aachen : Universitätsbibliothek der RWTH Aachen, 2019. http://d-nb.info/1216175764/34.

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Rachmildha, Tri Desmana. "La commande hybride prédictive d’un convertisseur quatre bras." Thesis, Toulouse, INPT, 2009. http://www.theses.fr/2009INPT044H/document.

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Dans une large variété d'applications industrielles, il existe une demande croissante pour améliorer la qualité de l'énergie fournie par les systèmes électriques. En plus de la fiabilité et de la disponibilité d'énergie électrique, la qualité de la puissance fournie devient maintenant une question importante. Parmi les causes de la pauvre qualité de puissance, les harmoniques sont considérés comme la raison qui contribue à la majorité de pannes de courant. Beaucoup d'efforts ont été développés pour résoudre le problème des perturbations harmoniques comme, par exemple, installer des dispositifs spéciaux tels que les filtres actifs. Ce travail de thèse traite le développement d’une commande directe de puissance utilisant l'approche prédictive hybride. La commande hybride considère chaque vecteur de tension du convertisseur comme une entité discrète qui sera appliquée pour commander un système linéaire continu. Un critère pour calculer le vecteur optimal de tension à appliquer sera établi à partir d’un modèle prédictif. Le vecteur optimal de tension à appliquer pour chaque période de commutation, et le correspondant temps d'application seront utilisés pour approcher la valeur réelle des variables d'état du système au point de référence désiré. Deux théories de puissance instantanées seront employées, p-q et p-q-r, pour une application de filtre active parallèle de puissance dans un système triphasé de 4 fils. Ces théories instantanées de puissance ont été développées pour être appliquées aux systèmes non équilibrés utilisant les variables de puissance pour obtenir les courants qui devraient être injectés par le filtre actif. Le filtre actif produira la puissance réactive demandée par la charge et compensera la composante d'ondulation de la puissance active de sorte que la source livre seulement la puissance active constante
In a wide variety of industrial applications, an increasing demand exists to improve the quality of the energy provided by electrical systems. Besides the reliability and availability of electric power, the power quality is now becoming an important issue. Among the causes of the poor power quality, the harmonics are included as the reason which contributes the majority of power failures. Many efforts have been developed to solve the harmonics problem as, for instance, to install special devices such as active filters. This research work deals with the development of direct power control using the hybrid predictive control approach. The hybrid control considers each voltage vector of the converter as a discrete entity which will be applied to control a continuous linear system. One criterion to calculate the optimal voltage vector to apply will be established for the predictive control model. The optimal voltage vector to apply for each switching period, and the corresponding application time will be used to approach the actual value of the state variables of the system to the desired reference point. Two instantaneous power theories will be used, i.e. pq0 and pqr instantaneous power theory for a shunt active power filter application implemented in 3-phase 4-wire system. These instantaneous power theories have been developed to be applied to unbalanced systems using the power variables to obtain the currents that should be injected from active filters. The active filter will produce the required reactive power for the load and compensate the ripple component of active power so that the source only delivers constant active power
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Pittala, Lohith Kumar. "Hardware-in-the-loop implementation of single- and dual-phase shift control for dual active bridge converters in EV applications." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2021. http://amslaurea.unibo.it/24067/.

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Isolated DC-DC converters play a significant role in fast charging and maintaining the variable output voltage for EV applications. This study aims to investigate the different Isolated DC-DC converters for onboard and offboard chargers, then, once the topology is selected, study the control techniques and, finally, achieve a real-time converter model to accomplish Hardware-In-The-Loop (HIL) results. Among the different isolated DC-DC topologies, the Dual Active Bridge (DAB) converter has the advantage of allowing bidirectional power flow, which enables operating in both Grid to Vehicle (G2V) and Vehicle to Grid (V2G) modalities. Recently, DAB has been used in the offboard chargers for high voltage applications due to SiC and GaN MOSFETs; this new technology also allows the utilization of higher switching frequencies. By empowering soft switching techniques to reduce switching losses, higher switching frequency operation is possible in DAB. There are four phase shift control techniques for the DAB converter. They are Single Phase shift, Extended Phase shift, Dual Phase shift, Triple Phase shift controls. This thesis considers two control strategies; Single-Phase, and Dual-Phase shifts, to understand the circulating currents, power losses, and output capacitor size reduction in the DAB. Hardware-In-The-Loop (HIL) experiments are carried out on both controls with high switching frequencies using the PLECS software tool and the RT box supporting the PLECS. Root Mean Square Error is also calculated for steady-state values of output voltage with different sampling frequencies in both the controls to identify the achievable sampling frequency in real-time. DSP implementation is also executed to emulate the optimized DAB converter design, and final real-time simulation results are discussed for both the Single-Phase and Dual-Phase shift controls.
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Voss, Johannes [Verfasser], Doncker Rik W. [Akademischer Betreuer] De, and H. Alan [Akademischer Betreuer] Mantooth. "Multi-megawatt three-phase dual-active bridge dC-dC converter : extending soft-switching operating range with auxiliary-resonant commutated poles and compensating transformer saturation effects / Johannes Voss ; Rik W. de Doncker, H. Alan Mantooth." Aachen : Universitätsbibliothek der RWTH Aachen, 2019. http://d-nb.info/1217788972/34.

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Xie, Hailian. "Voltage Source Converters with Energy Storage Capability." Licentiate thesis, Stockholm : Division of electrical machines and power electronics, Royal Institute of Technology, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-4191.

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Xie, Hailian. "On Power-system Benefits, Main-circuit Design, and Control of StatComs with Energy Storage." Doctoral thesis, Stockholm : Skolan för elektro- och systemteknik, Kungliga Tekniska högskolan, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-10302.

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Лобко, Андрій Валерійович. "Енергозберігаючі напівпровідникові перетворювачі для перспективних систем електропостачання." Thesis, НТУ "ХПІ", 2016. http://repository.kpi.kharkov.ua/handle/KhPI-Press/22721.

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Дисертація на здобуття наукового ступеня кандидата технічних наук за спеціальністю 05.09.12 – напiвпровiдниковi перетворювачі електроенергії. − Національний технічний університет "Харківський політехнічний інститут", Харків, 2016. Дисертація присвячена розробці високоефективних та енергозберігаючих напівпровідникових перетворювачів для застосування в нових та перспективних системах електропостачання. Розроблено напівпровідниковий перетворювач з фазовий способом керування для перспективної системи електропостачання FREEDM, який виконує аналогічні функції наявного в цій системі перетворювача і дозволяє отримати кращі енергетичні показники за рахунок зниження комутаційних втрат за допомогою м'якої комутації на основній частоті 50 Гц. Запропонований фазовий спосіб керування заснований на симетричному розладі резонансу і введенні регульованого фазового зсуву між напругами на вході силового напівпровідникового комутатора і мережі змінного струму. У дисертаційній роботі запропонована методика розрахунку основних параметрів перетворювача, проаналізовано якість його роботи, за допомогою комп'ютерного моделювання досліджено однофазна і трифазні схеми перетворювача в різних режимах роботи, а також запропоновані способи захисту від аварійних режимів. Експериментальні дослідження на фізичної моделі підтвердили достовірність теоретичних результатів.
Dissertation on competition degree of candidate of technical sciences of speсiality 05.09.12 – Semiconductor converters of electric energy. – National Technical University "Kharkov Politechnical Institute", Kharkov, 2016. Dissertation is devoted to development of high-performance and energy-saving semiconductor converters for applications in new and perspective power systems. Developed semiconductor converter with phase control method for forwardlooking FREEDM electrical system is presented. It is shown that that converter performs the same functions available in the converter of this system and allows to obtain the best energy performance by reducing switching loss using soft switching at the fundamental frequency 50 Hz. It is demonstrated that the proposed phase control method is based on the symmetric detuning of the resonance and the introduction of a controlled phase shift between the voltages at the input of the power semiconductor switch and the AC mains. In the dissertation a method of calculating the basic converter settings is proposed. The quality of his work is analyzed. With the help of computer simulations single and three phase converter circuit in different operating modes are studied. The methods of protection from emergency modes are proposed. Experimental studies on the physical model confirmed the accuracy of the theoretical results.
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Book chapters on the topic "Active Phase Converter (APC)"

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Singh, Reena, Suresh Kumar Gawre, and Dyanamina Giribabu. "Modular Dual Active Bridge Converter Phase Control to Charge EV." In Lecture Notes in Electrical Engineering, 277–88. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-7788-6_19.

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Ansari, Mohmmed Rizwan, and D. K. Palwalia. "Dual-Active Bridge Converter with Single Phase-Shift Control for Distribution Solid-State Transformer." In ICT Analysis and Applications, 605–14. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-5224-1_61.

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Gowda, M. R. Harshith, and K. U. Vinayaka. "Three-Phase Shunt Active Filter for Cuk-Sepic Fused Converter with Solar–Wind Hybrid Sources." In Lecture Notes in Electrical Engineering, 1199–210. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-5802-9_103.

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Sha, Deshang, and Guo Xu. "A Current-Fed Dual Active Bridge DC–DC Converter Using Dual PWM Plus Double Phase Shifted Control." In High-Frequency Isolated Bidirectional Dual Active Bridge DC–DC Converters with Wide Voltage Gain, 149–71. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-0259-6_7.

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Oliveira, Catia F., Luis A. M. Barros, Joao L. Afonso, J. G. Pinto, Bruno Exposto, and Vitor Monteiro. "A Novel Single-Phase Shunt Active Power Filter Based on a Current-Source Converter with Reduced Dc-Link." In Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, 269–80. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45694-8_21.

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Guo, Zhiqiang, and Deshang Sha. "Hybrid Phase-Shift-Controlled Three-Level and LLC DC–DC Converter with Active Connection at the Secondary Side." In New Topologies and Modulation Schemes for Soft-Switching Isolated DC–DC Converters, 23–45. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-32-9934-4_2.

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Zhang, Xin, Li Xinze, Ma Hao, Huang Jingjing, and Zeng Zheng. "The Proposed Artificial-Intelligence-Based Triple Phase Shift Modulation for Dual Active Bridge Converter with Minimized Current Stress." In Automated Design of Electrical Converters with Advanced AI Algorithms, 153–82. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-0459-4_7.

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Nova, Bruno, Diogo Vaz, Paulo Passos, and Vítor Monteiro. "A Three-Phase Multilevel AC-DC Converter Operating as a Shunt Active Power Filter: Validation Considering an Industrial Environment." In Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, 141–53. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-97027-7_9.

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"AC/DC Conversion." In Technologies for Electrical Power Conversion, Efficiency, and Distribution, 50–97. IGI Global, 2010. http://dx.doi.org/10.4018/978-1-61520-647-6.ch004.

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Figure 1 displays a power electronic converter connected to the mains. In general, a power electronic converter is an electrical power converter – controlled or uncontrolled rectifier, AC regulator, compensator of reactive power, converter of phase number, active power filter. The converter supplies a load with power Pout, and in the same time it loads the mains with active power P and total power S.
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Abbadi, Amel, Fethia Hamidia, Abdelkader Morsli, Habiba Bellatrache, Djamel Boukhetala, and Lazhari Nazli. "Interval Type 2 Fuzzy-Logic-Based Solar Power MPPT Algorithm Connected to AC Grid." In Research Anthology on Clean Energy Management and Solutions, 891–903. IGI Global, 2021. http://dx.doi.org/10.4018/978-1-7998-9152-9.ch037.

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In this article, an interval type-2 fuzzy logic controller (IT2FLC) is used as a Maximum Power Point Tracker (MPPT) to supply a large scale interconnected grid. The IT2FLC has the advantage of being able to regulate the MPP in case of severe variations of the weather conditions. A photovoltaic array is connected to AC grid via a DC-DC boost converter and a three-phase three-level Voltage Source Converter (VSC). The duty cycle of the boost converter is switched by the IT2FLC. A three phase VSC converts the VDC link voltage to AC and keeps unity power factor. The VSC control system uses two control loops: an external control loop which regulates DC link voltage to alternative current and an internal control loop which regulates the active and the reactive grid currents. Vd and Vq voltage outputs of the current controller are converted to three modulating signals used by the PWM Generator.
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Conference papers on the topic "Active Phase Converter (APC)"

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Ngo, Tuan, Jehyuk Won, and Kwanghee Nam. "A single-phase bidirectional dual active half-bridge converter." In 2012 IEEE Applied Power Electronics Conference and Exposition - APEC 2012. IEEE, 2012. http://dx.doi.org/10.1109/apec.2012.6165960.

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Adapa, Anil K., and Vinod John. "Common mode filter for EMI mitigation in active phase converter." In 2018 IEEE Applied Power Electronics Conference and Exposition (APEC). IEEE, 2018. http://dx.doi.org/10.1109/apec.2018.8341072.

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Chen, Hui, Jinjun Liu, Shaodi Ouyang, Sixing Du, and Xianzao Li. "A Novel Three Phase LCL Dual Active Bridge Converter to Reduce RMS Phase Current." In 2022 IEEE Applied Power Electronics Conference and Exposition (APEC). IEEE, 2022. http://dx.doi.org/10.1109/apec43599.2022.9773630.

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Hata, Katsuhiro, Sadanori Suzuki, Kenichi Watanabe, Kenichi Nagayoshi, and Makoto Takamiya. "2-Phase Series Capacitor Synchronous Rectifier in Active Clamp Forward Converter." In 2023 IEEE Applied Power Electronics Conference and Exposition (APEC). IEEE, 2023. http://dx.doi.org/10.1109/apec43580.2023.10131436.

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Angkititrakul, S., H. Hu, and Z. Liang. "Active Inductor Current Balancing for Interleaving Multi-Phase Buck-Boost Converter." In 2009 Twenty-Fourth Annual IEEE Applied Power Electronics Conference and Exposition (APEC). IEEE, 2009. http://dx.doi.org/10.1109/apec.2009.4802708.

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Shi, C., M. Ma, J. Xu, K. Xin, and Y. Sun. "Research on phase shift control of dual-active-bridge converter." In The 16th IET International Conference on AC and DC Power Transmission (ACDC 2020). Institution of Engineering and Technology, 2021. http://dx.doi.org/10.1049/icp.2020.0115.

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Wen, H., and W. Xiao. "Bidirectional dual-active-bridge DC-DC converter with triple-phase-shift control." In 2013 IEEE Applied Power Electronics Conference and Exposition - APEC 2013. IEEE, 2013. http://dx.doi.org/10.1109/apec.2013.6520565.

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Molina, J. M., O. Garcia, R. Asensi, P. Alou, J. A. Oliver, and J. A. Cobos. "Adaptive control for ZVS three phase full active bridge converter with ARCN." In 2012 IEEE Applied Power Electronics Conference and Exposition - APEC 2012. IEEE, 2012. http://dx.doi.org/10.1109/apec.2012.6165991.

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Cha, Hanju, Jungwan Choi, Woojung Kim, and Vladimir Blasko. "A New Bi-directional Three-phase Interleaved Isolated Converter with Active Clamp." In 2009 Twenty-Fourth Annual IEEE Applied Power Electronics Conference and Exposition (APEC). IEEE, 2009. http://dx.doi.org/10.1109/apec.2009.4802909.

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Cacciato, Mario, and Alfio Consoli. "New regenerative active snubber circuit for ZVS phase shift Full Bridge converter." In 2011 IEEE Applied Power Electronics Conference and Exposition - APEC 2011. IEEE, 2011. http://dx.doi.org/10.1109/apec.2011.5744792.

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