1,056 results
Search Results
2. Control of DC-Fault-Resilient Voltage Source Converter-Based HVDC Transmission System Under DC Fault Operating Condition.
- Author
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Yousefpoor, Nima, Narwal, Ajit, and Bhattacharya, Subhashish
- Subjects
CONVERTERS (Electronics) ,IDEAL sources (Electric circuits) ,ELECTRIC circuit breakers ,DIRECT current power transmission ,CAPACITORS - Abstract
Voltage source converter (VSC)-based high-voltage direct current (HVDC) transmission systems have attractive advantages compared to classical thyristor-based HVDC transmission systems. However, VSC-based HVDC transmission systems are vulnerable to dc side fault, and expensive dc circuit breakers are required to protect them against dc fault. This paper proposes a control method of a dc fault-resilient VSC which can be protected against dc fault without using expensive dc circuit breakers. In the VSC configuration, several H-bridge modules are connected in cascade, so the voltage balancing control of several floating dc capacitors is required. In this paper, an appropriate control structure with the capacitor voltage balancing controller is proposed. The appropriate control algorithm for dc fault operation and recovery after dc fault is also proposed. PSCAD simulation results are presented to validate the proposed control structure under normal and dc fault operating conditions. Real-time-digital-simulator results are also presented to verify the control structure. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
3. Quarter-Turn Transformer Design and Optimization for High Power Density 1-MHz LLC Resonant Converter.
- Author
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Liu, Yu-Chen, Chen, Kai-De, Chen, Chen, Syu, Yong-Long, Lin, Guan-Wei, Kim, Katherine A., and Chiu, Huang-Jen
- Subjects
POWER density ,POWER transformers ,POWER resources ,ELECTRIC transformers ,PRINTED circuits ,CONVERTERS (Electronics) ,ELECTRIC power conversion - Abstract
In this paper, quarter-turn planar transformer structure is proposed and implemented in an LLC resonant converter for server power supply applications. Main power losses of high-frequency resonant converters are secondary-side winding loss and transformer core loss. Conventional transformer winding structures limit the minimum number of turns on the primary and secondary sides, such that the core size and secondary-side conduction loss cannot be reduced by increasing the frequency. To achieve high efficiency and high power density, a fractional-turn transformer structure can reduce core volume and conduction loss in the windings. The optimized transformer design also enables the turn ratio of the fractional-turn to achieve normal coupling of primary and secondary sides without generating flux imbalance. The effects of different fractional-turn windings on efficiency are examined, and Maxwell simulation results are used to verify the structure and operation of the planar transformer. The printed circuit board layout is analyzed using Q3D Extractor to reduce the uneven current generated by parasitic components on the secondary-side windings. Wide-bandgap switches are utilized to implement a resonant converter with 1-MHz operating frequency, 380-V input voltage, 12-V output voltage, 1-kW output power, 37.6-W/cm3 power density, and 97% maximum efficiency. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
4. Novel Topologies of Power Electronics Converter as Active Magnetic Bearing Drive.
- Author
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Jiang, Dong, Li, Tian, Hu, Zaidong, and Sun, Hongbo
- Subjects
POWER electronics ,CONVERTERS (Electronics) ,MAGNETIC bearings ,ELECTRIC network topology ,MAGNETIC suspension ,TOPOLOGY ,HIGH-speed machining - Abstract
Active magnetic bearing is a core technology for high-speed rotational machines. Power electronics converter as the active magnetic bearing drive is the actuation unit and its topology highly impacts the performance of the bearing system. This paper introduces the progress of topology of active magnetic bearing drive. The initial topology of an H-bridge does not sufficiently utilize the power electronics devices. The topology with half-bridge and shared phase-leg has been proposed as the fundamental topology. In this paper, two approaches of novel magnetic bearing drive topology modification have been developed on the basis of the fundamental topology. In the first approach, central phase-leg for multiaxis magnetic bearing drive can be further shared and the power electronic devices can be globally optimized in the whole system. Further, a topology with current in the reverse direction can reduce the central phase-leg current rating and power losses. In the second approach, fault-tolerant magnetic bearing drive topology has been developed on the basis of the fundamental topology, too. It can ride-through the open-circuit fault of power electronics switch-in operation and keep levitation for the magnetic bearing. The series work of novel topologies can improve the performance of an active magnetic bearing system in application. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
5. Multilevel Inverter Scheme for Performance Improvement of Pole-Phase-Modulated Multiphase Induction Motor Drive.
- Author
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Umesh, B. S. and Sivakumar, K.
- Subjects
INDUCTION motors ,CONVERTERS (Electronics) ,VOLTAGE dividers ,ELECTRIC circuits ,FINITE element method - Abstract
Pole-phase modulation (PPM) is one of the effective speed and torque control techniques for multiphase induction motor (MIM) drives. Performance of the drive in low-pole high-speed mode for steady run is good even with two-level voltage excitation due to the inherent advantages of high phase number. The drive operation under high-pole high-torque starting mode suffers degradation in performance due to reduction in phase number in a way to increase number of poles. Extending conventional multilevel converter topologies for performance improvement of MIMs increases the device count and control complexity considerably. In this paper, a simple technique to generate multilevel voltage across the phase of a pole-phase-modulated induction motor (PPM IM), for improving the performance of the drive under high-pole operation is presented. The technique requires least changes in the control scheme and no additional switches for the power circuit. Exploiting the advantages of equal voltage profile coils (EVPCs) for carrier phase-shifted PWM control is the main focus of this paper. In addition, generalization of PPM is revisited in this paper to add a small constraint on the pole ratio to avoid unequal pole width for some pole-phase combinations. The effectiveness of the proposed scheme is shown through simulation with finite-element method (FEM) model of nine-phase squirrel cage induction motor and two-level nine-phase inverter cosimulated in Ansys Maxwell two-dimensional (2-D) and Simplorer environment. Experimental validation is also done on 5 hp nine-phase two-level induction motor drive controlled using Spartan6 FPGA board. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
6. Real-Time Diagnosis for Open-Circuited and Unbalance Faults in Electronic Converters Connected to Residential Wind Systems.
- Author
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Kamel, Tamer, Biletskiy, Yevgen, and Chang, Liuchen
- Subjects
CONVERTERS (Electronics) ,CASCADE converters ,SPECTRUM analysis ,ELECTRIC inverters ,ROBUST control ,MATHEMATICAL models - Abstract
This paper presents real-time diagnosis for open-circuited (O-C) and unbalance faults in power electronic converters (PECs) connected to residential small wind systems grid-tied. The spectrum analysis along with the dc components of the voltage and current measurements available in the converter is utilized for the O-C fault detection, classification and localization of the power switching devices in the PEC, as well as the identification of the unbalance input voltage to the converter. The proposed methodologies in this paper require much fewer inputs compared to the previous researches; therefore, they avoid any additional sensors or hardware which include further costs and expenses on such systems. The experimental evaluations for the proposed algorithms are provided and demonstrate the effectiveness and the robustness of the proposed diagnostic algorithms in this paper. The PEC under study consists of three main subsystems: uncontrolled three-phase rectifier, boost chopper, and single-phase inverter. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
7. Improved MIMO Modeling and Enhanced Transient Performance of Phase-Locked Loop During Grid Fault.
- Author
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Kkuni, Kanakesh Vatta, Yang, Guangya, Hong, Qiteng, and Booth, Campbell
- Subjects
PHASE-locked loops ,HARDWARE-in-the-loop simulation ,IDEAL sources (Electric circuits) ,FAULT currents ,VOLTAGE-frequency converters ,DC-to-DC converters ,POWER distribution networks ,CONVERTERS (Electronics) ,MAXIMUM power point trackers - Abstract
A phase-locked loop (PLL) is commonly used in grid-connected power converter for synchronization. A single input single output (SISO) linear model of PLL with the phase angle of the point of common coupling (PCC) voltage as input and the estimated phase angle as the output is generally used in the PLL analysis and design. However, an undesirable coupling between the magnitude and phase of the input voltage is present when a filtering stage is incorporated before the control loop, which a SISO model cannot capture, and could result in a significant disturbance in the PLL estimated phase during grid faults. This paper proposes a generalized multi-input multi-output (MIMO) linear model that captures the complete PLL dynamics during symmetrical faults for a PLL equipped with any prefilter. Furthermore, a compensation method that decouples the magnitude dynamics of the input voltage from the phase dynamics is proposed in this paper. The proposed compensation improves the PLL's phase tracking performance by ensuring that the prefiltered PLL acts only on the PCC voltage phase changes. A vital application of the proposed compensation method for PLL is during a grid fault case, wherein the converters are expected to contribute to the fault current, which requires an accurate measurement of the PCC voltage phase. The compensation method's effectiveness is demonstrated using power hardware in the loop simulation of a hardware voltage source converter interfaced to a distribution system simulated in real-time. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
8. An Optimized Switching Strategy for a Ripple-Canceling Boost Converter.
- Author
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Soriano-Rangel, Carlos Abraham, Rosas-Caro, Julio Cesar, and Mancilla-David, Fernando
- Subjects
CAPACITORS ,CONVERTERS (Electronics) ,ELECTRIC power conversion ,PULSE width modulation transformers ,DIRECT currents ,EQUIPMENT & supplies - Abstract
A hybrid switched-capacitor/interleaved boost converter able to provide a high voltage gain and to cancel the input current ripple at a preselected duty cycle was recently presented in the literature. This paper extends that work by proposing an optimized switching strategy for operating conditions at other values of duty cycle. The switching strategy effect on the converter's voltage gain and input current ripple is quantified and compared against the performance under the conventional switching strategy. The approach is validated in the laboratory through hardware prototyping. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
9. Single-Inductor Dual-Output DC–DC Converter With Capability of Feeding a Constant Power Load in Open-Loop Manner.
- Author
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Azadeh, Yalda, Babaei, Ebrahim, Tarzamni, Hadi, and Sabahi, Mehran
- Subjects
ELECTRIC inductors ,CONVERTERS (Electronics) ,ELECTRIC potential ,DIODES ,ELECTRIC switchgear - Abstract
In this paper, a single-inductor dual-output (SIDO) dc–dc converter is proposed. The significant feature of the proposed converter is feeding a constant power load in low-voltage side (LVS) port, where even feeding a variable load at LVS does not have any cross regulation to high-voltage side port with the desired approximation. Magnificently, both merits are obtained in open-loop manner, which is an outstanding characteristic in comparison with that of the existed converters. In this paper, soft commutation and soft switching of switches and diodes are investigated along with the aforementioned main novelty. Moreover, detailed theoretical analyses of the proposed SIDO dc–dc converter in continuous conduction mode are presented besides the comparisons with some other structures. Finally, theoretical analyses are verified through a 1500 W experimental prototype results. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
10. Series-Capacitor-Based Buck PFC Converter With High Power Factor and Ultrahigh Step-Down Conversion Ratio.
- Author
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Chen, Zhangyong, Chen, Yong, Zhang, Chenyu, Wu, Yunfeng, and Zhang, Changhua
- Subjects
CAPACITORS ,CONVERTERS (Electronics) ,POWER factor measurement ,ELECTRIC capacity ,ELECTRIC potential - Abstract
In this paper, a series-capacitor-based interleaving buck power factor correction (PFC) converter is proposed, the intermediate energy storage capacitance of which is operated at discontinuous capacitor voltage mode (DCVM), and automatic power factor (PF) correction for this converter is obtained. Moreover, the voltage across the series capacitor of the proposed PFC converter is clamped at the input voltage, and thus peak voltage stress existed in the traditional DCVM buck PFC could be relieved. By effectively regulating the charge/discharge time for the series capacitor, ultrahigh step-down conversion ratio of the proposed converter is achieved, the conversion ratio of which is independent of the duty cycle and only related to the switching frequency and circuit parameters. Therefore, high PF can be obtained due to very narrow deadtime of the input current. Meanwhile, the proposed PFC converter can realize the soft turn-on of part power switch and soft turn-off of part power diodes. In addition, comparing with the traditional discontinuous inductor current mode PFC, the input current of the proposed PFC converter is continuous so that the peak value and root-mean-square value of input current can be reduced. The operational principle, performance analysis, and parameter design principle are given in this paper. The analysis results show that the PF and total harmonic distortion are also independent of the duty cycle. Finally, a 220-Vac input, 60 W/15 V output experimental prototype is built to verify the validity of the theoretical analysis. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
11. Isolated Soft Switching Current Fed LCC-T Resonant DC–DC Converter for PV/Fuel Cell Applications.
- Author
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Vakacharla, Venkata R and Rathore, Akshay Kumar
- Subjects
SWITCHING circuits ,CONVERTERS (Electronics) ,ELECTRIC potential ,FUEL cells ,DIODES ,ELECTRIC transformers - Abstract
This paper proposes an “isolated soft switching current fed LCC-T resonant dc–dc converter for PV/fuel cell applications.” This converter is able to achieve zero voltage switching for front-end inverter switches and zero-current switching for voltage doubler diodes. The majority of dc–dc converters have compact capacitive (C) filter in output, but high harmonic currents through transformer makes them bulky. The proposed converter attempts to improve harmonic content through a transformer under wide load and input variations as well as it can significantly reduce required turns ratio of transformer to achieve required output voltage. For the above reasons, the proposed converter can offer better footprints and therefore it can be a potential candidate for PV/fuel cell applications. This paper presents basic operating principal, detailed analysis, control, and design of the proposed converter with the help of an example. This converter operates in two modes, i.e., constant duty cycle mode and constant frequency mode, depending on load demand, and is explained through operating curves. Finally, experimental results are included for justifying the proposed theory. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
12. An Auxiliary-Capacitor-Based Active Phase Converter With Reduced Device Current Stress.
- Author
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Adapa, Anil K and John, Vinod
- Subjects
CONVERTERS (Electronics) ,CAPACITORS ,SEMICONDUCTOR devices ,REACTIVE power ,TOPOLOGY - Abstract
Reduced switch active phase converters (APC) are cost-effective solutions for running three-phase loads from single-phase grids. This paper proposes a novel auxiliary-capacitor-based APC (AC-APC) for this application. The combination of the topological location of the auxiliary capacitor and the control of the AC-APC reduces current stress on the semiconductor devices. In this paper, a selection criterion for the optimal auxiliary capacitor value is formulated to reduce the device currents in such a way that the overall efficiency is enhanced. This paper presents a comparative analysis of converter volt-ampere (VA) rating and device power loss for conventional H-bridge active front-end and inverter-based topology, APC, and AC-APC. To evaluate the efficacy of the proposed AC-APC, an experimental study is conducted on the APC and the AC-APC feeding a 3-hp three-phase induction motor. At a full load of $\text{2.5}\,\text{kW}$ and $\text{0.8 } \text{power factor}$ , the measured maximum efficiency of the AC-APC is $2\%$ higher than that of the APC. Analytical evaluation of converter currents and device power loss are in close agreement with experimental observations. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
13. Modeling and Hierarchical Structure Based Model Predictive Control of Cascaded Flying Capacitor Bridge Multilevel Converter for Active Front-End Rectifier in Solid-State Transformer.
- Author
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Kim, Si-Hwan, Jang, Yeong-Hyeok, and Kim, Rae-Young
- Subjects
PREDICTIVE control systems ,CAPACITORS ,CONVERTERS (Electronics) ,ELECTRIC transformers ,DIGITAL control systems - Abstract
This paper introduces modeling and control of a cascaded flying capacitor bridge (CFCB) multilevel converter for a solid-state transformer. The finite control set-model predictive control (FCS-MPC) is easy and simple to implement for many applications. However, the computational complexity increases with the increase in the number of switches. Furthermore, as the number of control variables increases, the weighting factors also increase. Thus, it is difficult to apply to a system with a large number of switches and variables to be controlled similar to a CFCB multilevel converter. In this paper, the proposed method divides variables such as current, dc-link voltage, and flying capacitor voltage into layers. The proposed method reduces the number of states to be considered in the control, which shortens the computational time and simplifies expansion of the flying capacitor bridge. In addition, since weighting factors are not used, there is no tradeoff between current quality and voltage quality, and there is no difficulty in selecting weighting factors. Algorithms that include a method for compensating for the distortion caused by the delay of the digital control system are also described. The effectiveness of the proposed method is verified via experiments using a two-cell CFCB multilevel converter. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
14. A Bidirectional Two-Switch Flyback Converter With Cross-Coupled LCD Snubbers for Minimizing Circulating Current.
- Author
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Mukhtar, Nurhakimah Mohd and Lu, Dylan Dah-Chuan
- Subjects
LIQUID crystal displays ,ELECTRIC inductors ,POWER transistors ,TOPOLOGY ,CONVERTERS (Electronics) - Abstract
This paper proposes a novel isolated bidirectional two-switch flyback converter with two integrated non-dissipative inductor–capacitor–diode (LCD) snubbers. In the proposed topology, the main flyback transformer and the LCD snubbers are cross coupled to minimize circulating current that would occur in the non-cross-coupled case, in addition to recycle leakage energy and protect the power transistors. The same current circulation issue also occurs in the bidirectional flyback converter with conventional resistor–capacitor–diode (RCD) snubbers. The main objective of this paper is to illustrate this issue and propose an alternate circuitry to reduce the current circulation and improve the conversion efficiency. The experimental results of a laboratory prototype are reported to verify the design. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
15. An FPGA-Based IGBT Behavioral Model With High Transient Resolution for Real-Time Simulation of Power Electronic Circuits.
- Author
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Bai, Hao, Liu, Chen, Rathore, Akshay Kumar, Paire, Damien, and Gao, Fei
- Subjects
POWER electronics ,ELECTRIC circuits ,FIELD programmable gate arrays ,INSULATED gate bipolar transistors ,CONVERTERS (Electronics) - Abstract
This paper presents a novel insulated gate bipolar transistor (IGBT) behavioral model on the field programmable gate array (FPGA), which is suitable for the real-time simulation of fast transients in power electronics circuits. In this model, the static and dynamic behaviors of the IGBT switch are described and modeled separately. The static IGBT model is represented by the saturation region of output characteristic and is a part of the circuit network model. The dynamic IGBT model is combined with the static one to describe the fast switching transient behaviors by using the IGBT equivalent circuit model. The presented dynamic model in this paper does not involve any iterative solving algorithm and can be designed with highly pipelined structures on FPGA. Therefore, the IGBT switching transient waveforms can be generated precisely with a 5 ns resolution. The proposed model is tested with two cases—a four-phase floating interleaved boost converter and a three-phase five-level modular multilevel converter. The effectiveness and accuracy of the model are validated by comparing the real-time simulation results with offline simulation software. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
16. Variable-Voltage Bus Concept for Aircraft Electrical Power System.
- Author
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Yeoh, Seang Shen, Rashed, Mohamed, Sanders, Mike, and Bozhko, Serhiy
- Subjects
HYBRID electric airplanes ,VOLTAGE control ,DIRECT currents ,CONVERTERS (Electronics) ,ELECTRIC power systems - Abstract
This paper deals with the innovative “variable-voltage” bus concept for future more-electric aircraft platforms. Using new functionalities and opportunities offered by innovative sources actively controlled by power electronics, there is an opportunity for a significant increase of their output power (within powertrain capabilities, machine thermal limits, and power converter maximum current) to supply increased load demands under certain conditions. This paper investigates applications of this concept to satisfy power demands for the wing ice-protection system for business jet. The study includes a detailed study into the control challenges of the proposed approach and suggests corresponding theoretical solutions. Furthermore, the controller design aspects are explored with considerations to achieve stable operation. The concept is tested in simulation environment and validated through experimental studies. This paper might be of interest for the researchers and engineers focused on innovative solutions for future aircraft platforms. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
17. A Dimmable Offline LED Driver With OOK-M-FSK Modulation for VLC Applications.
- Author
-
Salmento, Marlon Lucas Gomes, Soares, Guilherme Marcio, Alonso, Jose Marcos, and Braga, Henrique A. C.
- Subjects
LIGHT emitting diodes ,DIGITAL communications ,ELECTRIC potential ,VISIBLE spectra ,CONVERTERS (Electronics) - Abstract
This paper proposes a visible light communication (VLC) system consisting of a single-stage buck–boost power factor correction converter operating in the discontinuous conduction mode with dimming capability. Additionally, this paper proposes the on–off M-frequency shift keying modulation for the VLC system. This modulation allows for the transmission of more than a single bit for each switching period without affecting the dimming characteristics of the light-emitting diode luminaire. The design of the whole system is discussed in detail, including both transmitter and receiver modules. A 20-W laboratory prototype was built in order to verify the proposed modulation scheme. The experimental evaluation showed a good performance of the transmitter, which was able to perform simultaneously the desired functions, namely power factor correction, dimming, and data transmission. The receiver also achieved the desired performance with a low bit error rate (BER). The results showed that the proposed system was able to transfer data between emitter and receiver with a bit rate of 1.11 Mb/s at a frequency of up to 375 kHz over a distance of 10 m, and with a BER lower than $10^{-3}$ under the influence of external lighting sources with illuminance levels up to 500 lx. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
18. PV Module Fault Diagnosis Based on Microconverters and Day-Ahead Forecast.
- Author
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Leva, Sonia, Mussetta, Marco, and Ogliari, Emanuele
- Subjects
CONVERTERS (Electronics) ,PHOTOVOLTAIC power systems ,MACHINE learning ,DEBUGGING ,MATHEMATICAL models ,FORECASTING - Abstract
The employment of solar microconverter allows a more detailed monitoring of the photovoltaic (PV) output power at the single module level; thus, machine learning techniques are capable to track the peculiarities of modules in the PV plants, such as regular shadings. In this way, it is possible to compare in real time the day-ahead forecast power with the actual one in order to better evaluate faults or anomalous trends that might have occurred in the PV plant. This paper presents a method for an effective fault diagnosis; this method is based on the day-ahead forecast of the output power from an existing PV module, linked to a microconverter, and on the outcome of the neighbor PV modules. Finally, this paper also proposes the analysis of the most common error definitions with new mathematical formulations, by comparing their effectiveness and immediate comprehension, in view of increasing power forecasting accuracy and performing both real-time and offline analysis of PV modules performance and possible faults. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
19. A Switched-Capacitor DC–DC Converter With Variable Number of Voltage Gains and Fault-Tolerant Operation.
- Author
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Stala, Robert, Waradzyn, Zbigniew, Penczek, Adam, Mondzik, Andrzej, and Skala, Aleksander
- Subjects
CAPACITOR switching ,CONVERTERS (Electronics) ,FAULT tolerance (Engineering) ,ZERO current switching ,SIMULATION methods & models - Abstract
This paper presents research results of voltage gain number control methods of a power electronic resonant zero-current switching dc–dc switched-capacitor (SC) voltage multiplier (SCVM) in a topology with fault tolerance capability (FSCVM). The converters operated under the basic switching patterns are constant-voltage-gain dc–dc series-parallel resonant SC converters. However, this paper presents a method for the output voltage regulation by a special switching strategy. A variable voltage gain is made possible by selecting the number of active switching cells, using an appropriate control method. This creates a set of voltage ratio ranges. In addition, the proposed topology and method of control enable a fault-tolerant operation of the FSCVM under various failures of the device. The paper presents an analysis of the concept, simulation results and an experimental verification in a three-cell FSCVM dc–dc resonant boost converter operating at a 200-watt charge. Issues regarding the selection of components related to the problem of inrush currents that can occur during the voltage ratio increase are also analyzed in this paper, and the design for low inrush currents is demonstrated. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
20. A New Pulse Generator With High Voltage Gain and Reduced Components.
- Author
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Khosravi, Reza and Rezanejad, Mohammad
- Subjects
CAPACITOR switching ,CONVERTERS (Electronics) ,SYNCHRONOUS capacitors ,HIGH voltages ,ELECTROMAGNETIC pulses ,POWER supply circuits - Abstract
This paper proposes a new developed switched-capacitor converter to achieve high-voltage pulses with adjustable voltage level and frequency. The proposed topology generates repetitive high-voltage pulses by using low-voltage power supply with reduced number of components, including power semiconductors and capacitor. Therefore, a converter based on switched-capacitor units with high voltage gain and high efficiency can be achieved. Operation principles and design steps of the converter as well as comparative study with conventional converters are described in this paper. Finally, simulation and experimental results of a two-stage structure of the proposed circuit validate the operation principles and features of this topology. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
21. Decoupled Power Control for a Modular-Multilevel-Converter-Based Hybrid AC–DC Grid Integrated With Hybrid Energy Storage.
- Author
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Zhang, Lei, Tang, Yi, Yang, Shunfeng, and Gao, Feng
- Subjects
ENERGY storage ,CONVERTERS (Electronics) ,REACTIVE power control ,ELECTRIC controllers ,ELECTRIC batteries - Abstract
This paper presents a decoupled power control strategy for a modular multilevel converter (MMC)-based hybrid ac–dc grid integrated with a hybrid energy storage system. This system can mitigate the active power fluctuations caused by intermittent renewable generation and also realize reactive power compensation as required by voltage regulation. The proposed hybrid ac–dc system has a novel configuration in which batteries and supercapacitors are distributed into the upper arm and the lower arm of the MMC, respectively. Therefore, it is possible to design fully decoupled power control and simultaneously optimize the performances of batteries and supercapacitors. First, the system modeling and operational principles of the MMC are briefly introduced in this paper. On the basis of these analyses, the power decoupling between the upper arm and the lower arm is presented to realize different control objectives. Moreover, battery state-of-charge balancing control and supercapacitor voltage control are also presented, which are crucial for ensuring the normal operation of these energy storage components and the proposed MMC-based hybrid ac–dc grid. Finally, the proposed system and its control strategies are verified by laboratory experimental results. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
22. Analytical Evaluation and Reduction of Torque Harmonics in Induction Motor Drives Operated at Low Pulse Numbers.
- Author
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Tripathi, Avanish and Narayanan, G.
- Subjects
INDUCTION motors ,ELECTRIC inverters ,TORQUE ,CONVERTERS (Electronics) ,HARMONIC analysis (Mathematics) ,PULSE width modulation transformers - Abstract
Induction motor drives operated with a low ratio of the switching frequency to the fundamental frequency (i.e., pulse number) are prone to have high magnitudes of low-order torque harmonics. This paper proposes a method to analytically evaluate the harmonic torque spectrum based on the pulsewidth-modulated voltage waveforms for low pulse number operation. The predicted torque harmonic spectra for different pulsewidth-modulated waveforms are validated through simulations and experiments. This paper also reports optimal switching angles to minimize the total rms value of torque harmonics of order 6, 12, 18 $,\dots,$ $6(N-1)$ , considering the number of switching angles per quarter ($N$) to be 4 and 5. Compared to sine triangle pulsewidth modulation and selective harmonic elimination pulsewidth modulation with the same pulse number, the proposed optimal switching angles significantly reduce the total rms value of all harmonic torques of order lower than $6N$. Extensive simulation and experimental results on a 3.7-kW induction motor drive are presented to demonstrate the superior performance of the proposed optimal pulsewidth modulation. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
23. Soft-Switched Nonisolated High Step-Down Converter.
- Author
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Cheshmdehmam, Dariush, Adib, Ehsan, and Farzanehfard, Hosein
- Subjects
CONVERTERS (Electronics) ,ZERO current switching ,CAPACITORS ,SEMICONDUCTOR devices ,SEMICONDUCTOR diodes - Abstract
In this paper, a new nonisolated high step-down dc–dc converter with ultrahigh step-down conversion ratio is proposed. Advantages of the proposed converter are high step-down ratio, extended duty cycle, reduced switching losses by a converter operation under zero-voltage switching (ZVS) conditions, reduced reverse reco-very losses of diodes by achieved zero-current switching turn-off condition, and reduced voltage spikes by the inherent active-clamping structure of the converter. In this converter, series capacitors and coupled inductors have been used in power path to achieve the low voltage gain and extended duty cycle. By the inherent active-clamping structure of the proposed converter, the leakage inductance energy is totally recovered in the output; therefore, the high voltage spike across the semiconductor devices is suppressed. The switches of the proposed converter can operate under ZVS conditions, which cause reduced switching losses and improved efficiency. In this paper, the converter operating modes are discussed, and a prototype circuit is implemented. Experimental results are presented to verify the theoretical analysis. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
24. Multifrequency Single-Phase Islanded Grids.
- Author
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Bruske, Sebastian, Buticchi, Giampaolo, and Liserre, Marco
- Subjects
ELECTRON tube grids ,FREQUENCY response ,ELECTRIC potential ,WAVE analysis ,SINGLE-phase alternating currents ,CONVERTERS (Electronics) - Abstract
Islanded grids operate isolated from the main grid and they allow the use of ac with a different frequency from the main grid. In this paper, it is proposed to use more than one frequency at the same time in such autonomous systems. The grid voltage amplitude at the fundamental frequency can be increased while the voltage peak is constant by adding odd harmonics to the voltage waveform. The grid currents and the power converter currents are decreased for the same power level, which leads to reduced losses in the system. The currents can be minimized if waveform shaping is additionally applied to the current waveforms. The approach also offers the possibility of mitigating the influence of low power factor in single-phase systems. This paper presents the impact of multifrequency power transfer on single-phase converters and grid components such as power cables and protection, and verifies the results with analysis, simulations, and experiments. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
25. Model Predictive Torque Control for Torque Ripple Compensation in Variable-Speed PMSMs.
- Author
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Mora, Andres, Orellana, Alvaro, Juliet, Jorge, and Cardenas, Roberto
- Subjects
PREDICTIVE control systems ,COST functions ,ELECTRICAL harmonics ,CONVERTERS (Electronics) ,TORQUE control - Abstract
This paper presents a new and simple finite-control set model predictive control strategy to reduce the torque ripple in permanent-magnet synchronous machines (PMSMs). The method is based on minimizing a cost function that considers the flux linkage torque harmonics obtained from a discrete-time model of the machine. The power converter switching state that minimizes this cost function is selected and applied during a whole sampling period. Additionally, it is proposed to mitigate the other source of torque ripple, known as cogging-torque, using a feed-forward signal applied to the torque control loop. A hybrid method that uses the output information from an observer and look-up table is presented to obtain a good cogging-torque estimation and thus an accurate mitigation of this disturbance torque at low rotational speed. Experimental results demonstrate the good performance of the torque ripple compensation methods presented in this paper. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
26. Simulation-Based Gradient-Descent Optimization of Modular Multilevel Converter Controller Parameters.
- Author
-
Debnath, Suman and Saeedifard, Maryam
- Subjects
INSULATED gate bipolar transistors ,CONVERTERS (Electronics) ,ALGORITHMS ,DIODES ,OPTIMAL control theory ,PARAMETERS (Statistics) - Abstract
One of the main technical challenges associated with the modular multilevel converter (MMC) for any application is the optimal control of its states. Optimal control of the MMC requires determination of the following: 1) an accurate MMC model, 2) the MMC states to be controlled and their corresponding reference trajectories, and 3) an appropriate controller type/form and its parameters. The aforementioned tasks lead to the formulation of a multistate control optimization problem, which is tackled in this paper. This paper enhances the accuracy of the existing MMC state-space model by including the following: 1) a piecewise affine insulated-gate bipolar transistor/diode model and 2) the impact of dead time. This paper also proposes a simulation-based gradient-descent optimization algorithm (cosimulation) to optimize the controller gains, given the controller type/form and the reference state trajectory. The theoretical proofs of the gradients required in the optimization algorithm are also provided. The aforementioned optimization algorithm is applied to a variable-frequency MMC-based drive system. Experimental results on a scaled-down prototype and simulation results on a real-world application are provided to validate the accuracy of the proposed MMC model and to show the effectiveness of the proposed optimization algorithm. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
27. A Uniform Control Strategy for the Interlinking Converter in Hierarchical Controlled Hybrid AC/DC Microgrids.
- Author
-
Wang, Junjun, Jin, Chi, and Wang, Peng
- Subjects
SMART power grids ,CONVERTERS (Electronics) ,ELECTRIC potential ,ELECTRIC power systems ,MICROGRIDS - Abstract
This paper presents a uniform control strategy for the bidirectional ac/dc interlinking converter (BIC) in hierarchical controlled hybrid microgrid. The uniform control strategy unifies different control structures for multifunctional BIC in terms of power management, ac and dc voltage support. With the unified control structure, various triggering mechanisms for BIC mode-switch are not compulsory in response to the relevant scenario changes in the power network. Therefore, the negative consequences, such as unsmooth transition and system collapse due to the inaccurate or slower mode switch, can be avoided. Moreover, the uniform control strategy is also applicable for the hierarchical controlled hybrid microgrid, whose control architecture is typically comprised of the centralized and decentralized levels. This enables the communication fault ride-through capability and the impact from the communication failures can thus be mitigated. To sum up the above two features, the proposed control strategy is able to provide a smooth operation for the BIC without control mode switch in the event of unintentional scenario changes in power or communication network. To verify the validity of the proposed uniform control strategy, the controller hardware-in-the-loop experimental results have been provided in this paper. [ABSTRACT FROM PUBLISHER]
- Published
- 2018
- Full Text
- View/download PDF
28. Validation of Lifetime Prediction of IGBT Modules Based on Linear Damage Accumulation by Means of Superimposed Power Cycling Tests.
- Author
-
Choi, Ui-Min, Ma, Ke, and Blaabjerg, Frede
- Subjects
POWER electronics ,CONVERTERS (Electronics) ,INSULATED gate bipolar transistors ,ELECTRIC potential ,NUMERICAL analysis - Abstract
In this paper, the lifetime prediction of power device modules based on the linear damage accumulation is studied in conjunction with simple mission profiles of converters. Superimposed power cycling conditions, which are called simple mission profiles in this paper, are made based on a lifetime model in respect to junction temperature swing duration. This model has been built based on 39 power cycling test results of 600-V 30-A three-phase-molded IGBT modules. Six tests are performed under three superimposed power cycling conditions using an advanced power cycling test setup. The experimental results validate the lifetime prediction of the IGBT modules based on the linear damage accumulation by comparing the test results with the predicted lifetime from the lifetime model. Furthermore, the test results show the importance of the junction temperature swing duration effect for the lifetime prediction of IGBT modules under power converter applications. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
29. A Special Application Criterion of the Nine-Switch Converter With Reduced Conduction Loss.
- Author
-
Ali, Kawsar, Das, Pritam, and Panda, Sanjib Kumar
- Subjects
CONVERTERS (Electronics) ,ELECTRIC power conversion ,ELECTRIC potential ,COMPUTER simulation ,MATHEMATICAL models - Abstract
The nine-switch converter is a multiport converter having two three-phase terminals and a dc-link, just like a 12-switch back-to-back (BTB) converter, but with 25% reduction of active switch count. However, the reduction from 12-switch to 9-switch may not always be an efficient choice considering losses in the switches. Only the load–source combination for the ac–ac common frequency mode and the source–source combination for the ac–dc different frequency (ac–dc DF) mode have been reported, so far, to yield relatively lower loss for the nine-switch converter. This paper shows that the nine-switch converter can have relatively lower loss even with a load–source combination, instead of only source–source combination in its ac–dc DF mode—when the upper terminal is connected to a dc load and the lower terminal is connected to an ac source. Mathematical proof is presented with derivation of the particular operating parameters for which the nine-switch converter will have comparatively lower losses. The analysis is validated with simulation and experimental results of a 1-kW system. Finally, the benchmark of the application criteria of the nine-switch converter for having lower conduction loss than the BTB converter is updated in this paper. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
30. An Improved Phase-Shifted Full-Bridge Converter With Wide-Range ZVS and Reduced Filter Requirement.
- Author
-
Zhao, Lei, Li, Haoyu, Wu, Xiao, and Zhang, Jin
- Subjects
CONVERTERS (Electronics) ,ZERO voltage switching ,POWER density ,ELECTRIC current converters ,ELECTRIC circuits - Abstract
The phase-shifted full-bridge (PSFB) converter is widely employed in high-power applications. However, circulating current, narrow range of zero-voltage switching (ZVS), duty-cycle loss, and secondary parasitic oscillation are the main drawbacks of the traditional PSFB converter. This paper proposes an improved full-bridge converter to solve the drawbacks of the traditional PSFB converter. In the proposed converter, a coupled inductor with three windings is introduced to adjust the available ZVS energy and to transfer power to the output side during freewheeling period. Due to this structure, output filter requirement, circulating current, the required ZVS energy, and secondary voltage oscillation can be reduced. Thus, the proposed converter can obtain higher conversion efficiency than the traditional PSFB converter. In this paper, the detailed operation principles and experimental results are presented. [ABSTRACT FROM PUBLISHER]
- Published
- 2018
- Full Text
- View/download PDF
31. Comparison of SiC Voltage Source Inverters Using Synchronous Rectification and Freewheeling Diode.
- Author
-
Yin, Shan, Liu, Yitao, Liu, Yong, Tseng, King Jet, Pou, Josep, and Simanjorang, Rejeki
- Subjects
ELECTRIC potential ,CONVERTERS (Electronics) ,CONDUCTION electrons ,DIODES ,ELECTRIC inverters - Abstract
For power converters with inductive loads, a freewheeling path is needed for the current due to reactive power. The
MOSFET synchronous rectification (SR) is widely used to reduce the conduction loss during the freewheeling period. Due to the wide band gap of silicon carbide (SiC), the intrinsic body diode of SiCMOSFET exhibits a high voltage drop. Hence, an antiparallel SiC Schottky diode is normally implemented to eliminate its conduction. However, the external SiC Schottky diode is not fully utilized as it only works during the dead time. In this paper, the hard-switching SR is investigated in an SiC three-phase inverter and compared with a conventional inverter using freewheeling diode (FWD). An improved power loss model for the two inverters has been developed. It is found that the inverter using SR has higher efficiency due to the smaller switching loss. A 7-kW prototype of SiC three-phase inverter is built, which achieves a peak efficiency of 98.8% ($\pm$ 0.15%) and 98.5% ($\pm$ 0.15%) at 40 kHz using SR and FWD, respectively. This paper confirms that the SiCMOSFET is an ideal candidate for the SR. [ABSTRACT FROM PUBLISHER]- Published
- 2018
- Full Text
- View/download PDF
32. DC–DC MMC for HVdc Grid Interface of Utility-Scale Photovoltaic Conversion Systems.
- Author
-
Rojas, Christian A., Kouro, Samir, Perez, Marcelo A., and Echeverria, Javier
- Subjects
PHOTOVOLTAIC power systems ,ELECTRIC transformers ,HIGH-voltage direct current transmission ,MAXIMUM power point trackers ,CONVERTERS (Electronics) - Abstract
This paper explores a utility-scale photovoltaic (PV) plant configuration based on a dc–dc stage interfaced directly to a modular multilevel converter (MMC) used for an HVdc power station. Since PV systems are dc by nature, the proposed solution has several advantages, such as full dc operation and step-up transformers avoidance with modular and reliable configuration. The contributions of this paper are the experimental validation of the proposed utility-scale configuration, while the conventional modulation stage has been further enhanced by including an adaptive phase-shifted modulation allowing improved voltage and current waveforms injected to dc grid under unbalanced power string operation. The enhanced performance is obtained by reducing the carrier frequency component of the converter voltage, generating an improved voltage ripple. Finally, experimental validation during steady-state and dynamic operation are presented to illustrate the behavior of the dc–dc MMC converter managed by the proposed modulation and control scheme. [ABSTRACT FROM PUBLISHER]
- Published
- 2018
- Full Text
- View/download PDF
33. Space Vector Modulation for DC-Link Current Ripple Reduction in Back-to-Back Current-Source Converters for Microgrid Applications.
- Author
-
Guo, Xiaoqiang, Xu, David, Guerrero, Josep M., and Wu, Bin
- Subjects
CONVERTERS (Electronics) ,ELECTROMAGNETIC interference ,ELECTRIC power conversion ,IDEAL sources (Electric circuits) ,INTERCONNECTED power systems - Abstract
Back-to-back converters have been typically used to interconnect microgrids. For a back-to-back current-source converter, the dc-link current ripple is one of the important parameters. A large ripple will cause electromagnetic interference, undesirable high-frequency losses, and system instability. Conventionally, with a given switching frequency and rated voltage, the current ripple can be reduced by increasing the dc-link inductor, but it leads to bulky size, high cost, and slow dynamic response. To solve this problem, this paper reveals that the current ripple can be significantly reduced by adjusting the gate patterns of space vector modulation between the rectifier and the inverter in a back-to-back converter. The experimental results verify the effectiveness of the proposed method. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
34. Synthesis and Analysis of Double-Input Single-Output DC/DC Converters.
- Author
-
Yang, Ping, Tse, Chi K., Xu, Jianping, and Zhou, Guohua
- Subjects
DC-to-DC converters ,CONVERTERS (Electronics) ,ELECTRIC power conversion ,ELECTRIC power distribution ,FLOWGRAPHS - Abstract
This paper describes a systematic procedure using power flow graphs for generating all possible double-input single-output (DISO) dc/dc converters. To maximize the generality of applications, the input ports can possibly be connected with voltage source(s) or current source(s), and the output port can be connected with a voltage load or current load. The control methods are described in this paper. A DISO converter with two voltage sources and one voltage load is taken as an example to analyze a few key properties of practical relevance, including input voltage range, efficiency, power distribution, and switching stress. A popular application of DISO converters involves the use of a battery as storage element, and for this specific case, possible choices for the converters, the control method, and the attainable efficiency are discussed. Finally, experimental results are presented to verify the analytical results. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
35. A Novel Stabilization Method of LC Input Filter With Constant Power Loads Without Load Performance Compromise in DC Microgrids.
- Author
-
Wu, Mingfei and Lu, Dylan Dah-Chuan
- Subjects
DIRECT currents ,ELECTRIC power distribution grids ,ELECTRIC resistors ,CONVERTERS (Electronics) ,HYDRAULIC drive ,EQUIPMENT & supplies - Abstract
In dc microgrids, it is common that constant power loads (CPLs) exhibit negative incremental resistance. They degrade the stability margin of operation with their LC input filters and, thus, the whole system. In traditional active-damping methods, the extra stabilizing current is injected into CPLs to modify its input impedance to fulfill stability criteria. However, this injected current may cause undesirable performance of the loads, e.g., fluctuation in rotating speed of tightly regulated motors. There is always a compromise between stability margin and load performances. In order to overcome this drawback, this paper proposes a method that stabilizes the system from source-side converters, instead of from CPL themselves. In the proposed method, a virtual resistance is built in the source-side converter. This virtual resistor is effective around the resonant frequency of the LC input filter and thus can indirectly reduce its output impedance to fulfill Middlebrook's stability criterion. This paper also proves, both analytically and experimentally, that, in dc microgrids, resonant frequencies of LC filters of paralleled CPLs have to be different to maintain system stability. Simulation and experimental results are reported to verify the effectiveness of the proposed idea. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
36. Voltage-Oriented Input–Output Linearization Controller as Maximum Power Point Tracking Technique for Photovoltaic Systems.
- Author
-
Espinoza-Trejo, Diego R., Barcenas-Barcenas, Ernesto, Campos-Delgado, Daniel U., and De Angelo, Cristian H.
- Subjects
PHOTOVOLTAIC cells ,MAXIMUM power point trackers ,CLOSED loop systems ,CONVERTERS (Electronics) ,ROBUST control - Abstract
This paper presents a robust input–output linearization controller as maximum power point tracking (MPPT) technique in a photovoltaic (PV) buck dc–dc converter with applications to dc microgrids, solar vehicles, or stand-alone systems. Due to the control structure proposed in this paper, the MPPT control system is able to track very fast irradiance changes. Meanwhile, the internal stability of the overall closed-loop system is guaranteed for different load scenarios. A sector condition is only required for the load current, which is satisfied for most of the current PV applications. In turn, this condition implies the robustness against oscillations in the dc bus voltage. Finally, the MPPT control system is validated through experimental results, where the closed-loop performance is evaluated under abrupt irradiance and set-point changes, parametric uncertainty, and dc bus load variations. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
37. A Network Tearing Technique for FPGA-Based Real-Time Simulation of Power Converters.
- Author
-
Ould-Bachir, Tarek, Blanchette, Handy Fortin, and Al-Haddad, Kamal
- Subjects
FIELD programmable gate arrays ,CONVERTERS (Electronics) ,ELECTRIC switchgear ,COMMUTATION (Electricity) ,FLOATING-point arithmetic - Abstract
The realm of hardware-in-the-loop simulation resorts to field-programmable gate arrays to achieve time steps below 1 \mu\s . Such low time steps are of importance for the aerospace and automotive industries, where power converters have their switching frequencies in the 10- to 200-kHz range. This paper proposes a network tearing technique that allows subsets of switches to be treated independently, alleviates embedded memory requirements, and reduces the computational burden. An iterative algorithm is used to determine the state of naturally commutated switches, thus offering a realistic model of the power converter, independently of its operation mode or topology. A Gauss-Jordan processing unit is implemented to solve interface voltages/currents from the torn circuit. Custom floating-point operators are used to ensure good accuracy, high-frequency operation, and low computational latency. A neutral-point-clamped converter case study is presented to demonstrate the effectiveness of the method. Simulation results are validated against a reference model at a 750-ns time step and a 30-kHz sine pulsewidth modulation switching frequency. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
38. A New Active Fault-Tolerant SVPWM Strategy for Single-Phase Faults in Three-Phase Multilevel Converters.
- Author
-
Li, Xiong, Dusmez, Serkan, Akin, Bilal, and Rajashekara, Kaushik
- Subjects
PULSE width modulation ,CONVERTERS (Electronics) ,FAULT tolerance (Engineering) ,RELIABILITY in engineering ,RENEWABLE energy source research - Abstract
Multilevel converters have been well studied for high-voltage high-power renewable energy applications. Owing to the multibranch structure, these converters can be operated under fault conditions in case of a loss of a branch or voltage cell. In this regard, this paper proposes a new active fault-tolerant space vector pulsewidth modulation strategy for single-phase faults in three-phase multilevel converters. The proposed modulation strategy treats the multilevel converter as a two-level converter by introducing an offset vector. A generalized approach is proposed to search for the offset vector and to adjust the modulation of the converter online under different fault operation conditions. Several short- and open-circuit faults have been demonstrated on a seven-level hybrid input-switched converter to prove the effectiveness of the proposed fault-tolerant scheme. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
39. A Switched-Capacitor Three-Phase AC–AC Converter.
- Author
-
Lazzarin, Telles B., Andersen, Romero L., and Barbi, Ivo
- Subjects
SWITCHED capacitor circuits ,CAPACITOR switching ,CONVERTERS (Electronics) ,ELECTRIC power conversion ,ENERGY conversion - Abstract
This paper proposes a bidirectional three-phase direct ac–ac converter, with only capacitors and switches in its power circuit and with its operation based on the switched-capacitor principle. The converter presents fixed gain, it keeps the frequencies of the output and input voltages equal, and it operates in open loop with constant switching frequency and duty cycle. The main advantages of the proposed converter are the absence of magnetic elements in the power circuit, the higher efficiency, the higher power density, the higher specific power, the lower cost, and the fact that it can convert ac–ac voltages within a wide frequency range, including dc voltage. Therefore, it is suitable to replace the conventional three-phase autotransformer in industrial, commercial, and residential applications, and it can be designated as a magnetic-less three-phase solid-state autotransformer. The principle of operation, a qualitative and quantitative analysis, the design methodology, and a fabricated example are described in this paper. In order to verify the converter in the laboratory, a prototype with the following characteristics was designed and fabricated: 6 kW, 1.35 kW/kg, 380/110 V, and switching frequency of 100 kHz. The measured efficiency at rated power was 96.3%, and other relevant experimental results are reported herein. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
40. Reduction of Output Common Mode Voltage Using a Novel SVM Implementation in Matrix Converters for Improved Motor Lifetime.
- Author
-
Espina, Jordi, Ortega, Carlos, de Lillo, Liliana, Empringham, Lee, Balcells, Josep, and Arias, Antoni
- Subjects
VOLTAGE control ,INDUCTION motors ,LEAK detectors ,SPACE vehicle accidents ,CONVERTERS (Electronics) - Abstract
This paper presents the study of an alternative space vector modulation (SVM) implementation for matrix converters (MCs), which reduces the output common mode (CM) voltage. The strategy is based on replacing the MC zero vectors with rotating ones. In doing this, the CM voltage (CMV) can be reduced, which, in turn, reduces the CM leakage current. By reducing the CM current, which flows inside the motor through the bearings and windings, the induction motor (IM) deterioration can be slowed down. This paper describes the SVM pattern and analyzes the CMV and the leakage current paths. Simulation and experimental results based on an MC-IM drive are provided to corroborate the presented approach. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
41. Min-Type Control Strategy of a DC–DC Synchronous Boost Converter.
- Author
-
Sferlazza, Antonino, Albea-Sanchez, Carolina, Martinez-Salamero, Luis, Garcia, Germain, and Alonso, Corinne
- Subjects
ROTARY converters ,VOLTAGE control ,AC DC transformers ,CONVERTERS (Electronics) ,MICROPROCESSORS ,HYSTERESIS - Abstract
This paper presents the analysis and design of a min-type strategy to control a synchronous boost converter in continuous conduction mode. The strategy uses a nonlinear switching surface to establish the change of topology in the converter and is analyzed by means of a sliding-mode control approach. Subsequently, the min-type strategy is modified by a hybrid control formulation, which introduces a hysteresis width and a dwell-time to obtain a finite switching frequency in the start-up and steady-state, respectively. The hybrid control formulation is implemented digitally by means of a microprocessor which processes the samples of inductor current and capacitor voltage to provide the control signal that activates the power switch. Experimental results in a prototype validate the proposed control strategy and show its potential in transient time and steady-state. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
42. Bidirectional DC–DC Converter for Modular Residential Battery Energy Storage Systems.
- Author
-
Chub, Andrii, Vinnikov, Dmitri, Kosenko, Roman, Liivik, Elizaveta, and Galkin, Ilya
- Subjects
WESTERN countries ,BATTERY storage plants ,CONVERTERS (Electronics) ,ELECTRIC current rectifiers ,ROTARY converters ,CLOSED loop systems ,AC DC transformers - Abstract
A novel bidirectional dc–dc converter based on the quasi-Z-source (qZS) topology is presented in this paper. During battery discharge, it operates as the conventional qZS full-bridge converter with a synchronous voltage doubler rectifier. During battery charging, it operates as the half-bridge converter with a synchronous full-bridge rectifier and LC filter. A relay is used for reconfiguration between those two modes. The operation principle is explained, and design guidelines are provided. A prototype with a nominal power of 300 W is used for verification of steady-state regulation characteristics and efficiency measurements in the input voltage range compatible with an eight-cell LiFePO4 battery. Closed-loop control system for the converter application in dc microgrids is presented and tested in two control scenarios: dc-bus signaling and direct reference defined by a master controller through a communication channel. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
43. Weighting Factor Design in Model Predictive Control of Power Electronic Converters: An Artificial Neural Network Approach.
- Author
-
Dragicevic, Tomislav and Novak, Mateja
- Subjects
ARTIFICIAL neural networks ,UNINTERRUPTIBLE power supply ,ELECTRONIC control ,ELECTRIC network topology ,CONVERTERS (Electronics) ,POWER electronics ,PREDICTION models - Abstract
This paper proposes the use of an artificial neural network (ANN) for solving one of the ongoing research challenges in finite set-model predictive control (FS-MPC) of power electronics converters, i.e., the automated selection of weighting factors in cost function. The first step in this approach is to simulate a detailed converter circuit model or run experiments numerous times using different weighting factor combinations. The key performance metrics [e.g., average switching frequency ($f_{{\rm sw}}$) of the converter, total harmonic distortion, etc.] are extracted from each simulation. This data is then used to train the ANN, which serves as a surrogate model of the converter that can provide fast and accurate estimates of the performance metrics for any weighting factor combination. Consequently, any arbitrary user-defined fitness function that combines the output metrics can be defined and the weighting factor combinations that optimize the given function can be explicitly found. The proposed methodology was verified on a practical weighting factor design problem in FS-MPC regulated voltage source converter for uninterruptible power supply system. Designed weighting factors for two exemplary fitness functions turned out to be robust to load variations and to yield close to expected performance when applied both to detailed simulation model (less than 3% error) and to experimental test bed (less than 10% error). [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
44. Full-State Feedback Control of Back-to-Back Converters Based on Differential and Common Power Concepts.
- Author
-
Rodriguez-Cabero, Alberto, Prodanovic, Milan, and Roldan-Perez, Javier
- Subjects
REACTIVE power control ,CONVERTERS (Electronics) ,CASCADE control ,POWER transmission ,PHASE-locked loops ,ELECTRONIC feedback - Abstract
The back-to-back (BTB) converter is one of the most popular converter topologies for the control of electrical machines, power transmission systems, and power quality applications. The conventional cascade control structure is commonly used due to its simple design procedure and reliable operation. However, the bandwidth of the dc-link voltage controller has to be limited in order to avoid instability issues and be restrictive in high-performance applications. This paper presents a differential- and common-current (power)-based state-feedback control for BTB converters. This controller features a fast control of active and reactive powers, and a stiff regulation of the dc-link voltage. A theoretical analysis of the proposed controller along with a strategy for current limiting is presented. Its robustness was tested against variations of the filter parameters, the dc capacitance, the grid inductance, and the grid voltage values. The controller was experimentally validated under nominal operation, voltage sags, and connected to a weak grid by using a 15-kVA BTB converter in a laboratory test network. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
45. A Novel Transformerless Interleaved High Step-Down Conversion Ratio DC–DC Converter With Low Switch Voltage Stress.
- Author
-
Pan, Ching-Tsai, Chuang, Chen-Feng, and Chu, Chia-Chi
- Subjects
CONVERTERS (Electronics) ,CAPACITORS ,ELECTRIC potential ,VOLTAGE dividers ,MOTHERBOARDS ,BATTERY chargers - Abstract
In this paper, a novel transformerless interleaved high step-down conversion ratio dc–dc converter with low switch voltage stress is proposed. In the proposed converter, two input capacitors are series-charged by the input voltage and parallel-discharged by a new two-phase interleaved buck converter for providing a much higher step-down conversion ratio without adopting an extreme short duty cycle. Based on the capacitive voltage division, the main objectives of the new voltage-divider circuit in the converter are for both storing energy in the blocking capacitors for increasing the step-down conversion ratio and reducing voltage stresses of active switches. As a result, the proposed converter topology possesses the low switch voltage stress characteristic. This will allow one to choose lower voltage rating MOSFETs to reduce both switching and conduction losses, and the overall efficiency is consequently improved. Moreover, due to the charge balance of the blocking capacitor, the converter features automatic uniform current sharing characteristic of the interleaved phases without adding extra circuitry or complex control methods. The operation principles and relevant analysis of the proposed converter are presented in this paper. Finally, a 400-V input voltage, 25-V output voltage, and 400-W output power prototype circuit is implemented in the laboratory to verify the performance. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
46. Active Common-Mode Filter for Ground Leakage Current Reduction in Grid-Connected PV Converters Operating With Arbitrary Power Factor.
- Author
-
Barater, Davide, Buticchi, Giampaolo, Lorenzani, Emilio, and Concari, Carlo
- Subjects
STRAY currents ,PHOTOVOLTAIC power systems ,CONVERTERS (Electronics) ,HARMONIC distortion (Physics) ,SURFACE photovoltage - Abstract
This paper proposes a solution for reducing the ground leakage current in transformerless single-phase grid-connected photovoltaic converters. This is obtained with the introduction of an active common-mode filter able to compensate for variations of the output common-mode voltage of the power converter. The active common-mode filter is applied to a widespread and efficient full-bridge driven by a three-level pulse width modulation, allowing the power converter to operate with low ground leakage current and with an arbitrary power factor. After showing the desired voltage waveform for common-mode voltage compensation, this paper presents the design guidelines for the needed additional magnetic component together with the power loss considerations for all the devices added for the proposed solution. Experimental results show the performance of the proposed solution in terms of ground leakage current reduction, effectiveness of dead-time compensation, total harmonic distortion of the injected grid current, and power losses. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
47. Calculation of Output Voltage Ripple and Design Considerations of SEPIC Converter.
- Author
-
Babaei, Ebrahim and Seyed Mahmoodieh, Mir Esmaeel
- Subjects
CONVERTERS (Electronics) ,ELECTRIC power conversion ,ELECTRIC potential ,SWITCHING circuits ,ELECTRIC currents - Abstract
In this paper, a design method is proposed for finding the equivalent inductance and capacitance of the single-ended primary-inductor converter (SEPIC). The relations of the output voltage ripple (OVR) of the SEPIC converter are obtained in complete inductor supply mode–continuous conduction mode (CISM-CCM), incomplete inductor supply mode-CCM (IISM-CCM), and IISM-discontinuous conduction mode (IISM-DCM). The maximum of OVR (MOVR) is investigated for a specified range of the input voltage and load resistance. This value of the MOVR is obtained for the minimum values of input voltage and load resistance. In this paper, the minimum values of the equivalent inductance and capacitance are calculated in obtaining the minimum value of the MOVR. One of the other performed studies in this paper is calculation of the switch peak current in CCM and DCM. In addition, the converter is designed based on the minimum values of the MOVR and stress of the switching current. Experimental and simulation results are used to prove the validity of the presented theoretical subjects. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
- Full Text
- View/download PDF
48. Highly Efficient and Reliable SiC-Based DC–DC Converter for Smart Transformer.
- Author
-
Costa, Levy Ferreira, Buticchi, Giampaolo, and Liserre, Marco
- Subjects
ELECTRIC transformers ,CONVERTERS (Electronics) ,MATRIX converters ,METAL oxide semiconductor field-effect transistors ,RELIABILISM (Theory of knowledge) - Abstract
The series-resonant converter (SRC) has been used in several application and it recently became popular for smart transformers (STs). In this application, the efficiency and reliability are of paramount importance. Although many papers have addressed the design challenges to improve the converter efficiency, discussions about the reliability are still missing in the literature. In this context, this paper presents a design procedure focusing on the efficiency and reliability improvement of the SRC for ST application. High efficiency is achieved through the use of silicon-carbide MOSFETs, reducing conduction and switching losses, and the detail design procedure based on accurate losses modeling. High reliability is achieved through a fault-tolerant topology and reliability-oriented design of the resonant circuit passive components. Experimental results obtained for the optimized 10 kW SRC has shown an efficiency of 98.61%. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
49. Improve Control to Output Dynamic Response and Extend Modulation Index Range With Hybrid Selective Harmonic Current Mitigation-PWM and Phase-Shift PWM for Four-Quadrant Cascaded H-Bridge Converters.
- Author
-
Moeini, Amirhossein, Zhao, Hui, and Wang, Shuo
- Subjects
PULSE width modulation transformers ,POWER transformers ,PULSE width modulation ,CONVERTERS (Electronics) ,ELECTRIC inductance ,ELECTRODYNAMICS - Abstract
The selective harmonic current mitigation pulsewidth modulation (SHCM-PWM) technique can be used in cascaded multilevel converters to extend the harmonic reduction spectrum, reduce the coupling inductance and increase the efficiency. The offline SHCM-PWM technique has small number of switching transitions as its switching angles can only change once in a fundamental cycle and relatively long time delays because it uses FFT. As a result, its dynamic response has a lot to desire. As it will be proven in this paper, in four-quadrant power converters, to have a good transient dynamic response, both active and reactive power must be controlled at least two times in a fundamental cycle. In this paper, a hybrid modulation technique is introduced. The proposed technique uses SHCM-PWM under steady state and phase-shift PWM (PSPWM) under transient. In addition, in order to extend the modulation index range and ensure that SHCM-PWM can process four-quadrant active and reactive power, the constraints of the switching angles for the SHCM-PWM are modified. Simulations and experiments are conducted on a seven-level cascaded H-bridge converter to verify the proposed technique. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
50. Single-Perturbation-Cycle Online Battery Impedance Spectrum Measurement Method With Closed-Loop Control of Power Converter.
- Author
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Qahouq, Jaber A. Abu and Xia, Zhiyong
- Subjects
IMPEDANCE converters ,CONVERTERS (Electronics) ,ELECTRIC impedance ,PERTURBATION theory ,APPROXIMATION theory - Abstract
This paper presents a method for an online real-time electrochemical impedance spectroscopy (EIS) measurement of batteries using closed-loop control of power converter. Unlike the previously proposed method which allows the measurement of the ac impedance for a single frequency, the presented method in this paper allows for obtaining the EIS for a spectrum of frequencies by using the information included in a single perturbation cycle, or a few cycles of perturbation to obtain a more accurate EIS with a very wide frequency range. This will result in faster EIS measurement for a spectrum of frequencies and under the same battery operating conditions. The presented method utilizes closed-loop control operation for the EIS measurement functionality, which allows for better control of the output voltage and for upgrading the concept to be able to achieve no added perturbation ripple at the output of the system. The presented online real-time EIS measurement method utilizes a power converter with closed-loop control in order to create an output voltage step-function perturbation at a given frequency to generate battery voltage and current responses. By applying Fourier analysis to these responses, an EIS can be obtained for a range of frequencies equal or higher than the perturbation frequency of the step function. In addition, this paper presents a method to eliminate the added perturbation ripple when two or more power converters are used. The theoretical basis and experimental prototype results are provided to illustrate and validate the presented method. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
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