• Title/Summary/Keyword: PWM rectifiers

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Integrative Control of Series Active Power Filters for Source Voltage Unbalance Compensation and Power Factor Correction (전원 불평형과 역률을 보상하는 직렬형 능동전력필터의 통합적 제어)

  • Jang, Jeong-Ik;Seok, Jul-Ki;Lee, Dong-Choon
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.55 no.5
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    • pp.258-264
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    • 2006
  • This paper presents an integrative control scheme for series-type active power filters combined with shunt passive filters not only to compensate for the source voltage unbalance and current harmonics but also to correct the power factor. To reduce the power capacity of the active filters, passive filters are connected in parallel. Diode rectifiers are replaced by the PWM converters in order to feed the real power back to the source. Power factor control is performed by changing the phase of the load voltage so that the phase of the source current coincides with that of the source voltage. The resultant voltage reference is the addition of the voltage component compensating for the source voltage unbalance and harmonic currents and the voltage component correcting the power factor. The validity of the proposed algorithm has been verified by experimental results.

Life Estimation of Electrolytic Capacitors for Inverters (인버터용 전해커패시터의 수명 추정)

  • Lee, Dong-Choon;Kim, Hyung-Jin
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.50 no.7
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    • pp.338-346
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    • 2001
  • In this paper, dc link currents for the three-phase diode rectifiers and PWM inverters are analyzed and an algorithm of estimating the life of dc link electrolytic capacitors using the analyzed ripple current is presented. Since the capacitor life is dependent on the operating temperature, the power dissipation in capacitors should be calculated. For this, the ESR(equivalent series resistance) model of the capacitor is derived and ripple currents through the capacitor are analyzed. Relating the power dissipation and the heat transfer equation, the internal operating temperature is calculated. Then, the capacitor life can be predicted by using Arrhenius's equation. An example for applications is given for the practical system.

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Inverter Air-conditioner Power System with Low Power Dissipation Type using Micro-controller

  • Mun, Sang-Pil;Shu, Ki-Young;Kim, Ju-Yong;Kim, Kwang-Tae
    • Proceedings of the Korean Institute of IIIuminating and Electrical Installation Engineers Conference
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    • 2004.05a
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    • pp.492-496
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    • 2004
  • When using a conventional power factor correction circuit, a comparatively huge capacitor is used to boost-up output voltage. It has a large amount of harmonic distortion in the input current waveform. To improve the input current waveform of diode rectifiers, we propose a new operating principle for the power factor correction circuit. Due to the fact that the proposed circuit uses smaller ones and a smaller reactor, the output voltage increases and obtains higher input current waveforms. These are suitable for the harmonics guidelines. The proposed circuit is able to obtain higher power factor and efficiency. Also, it has reduced switching loss and held over-shooting by using an inverter of eliminated dead-time HPWM that has non-linear impedance circuits to make up diodes, capacitance and a reactor. We compared the conventional PWM inverter and proposed HPWM inverters and found that a high input power factor of 97[%] and an efficiency of 98[%] were also obtained.

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Design and Control of DC/AC Converters in Parallel with Diode Rectifiers for Regenerative Applications

  • Gao, Zhigang;Li, Rui;Lu, Qi
    • Journal of Power Electronics
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    • v.17 no.4
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    • pp.1071-1087
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    • 2017
  • This paper introduces a DC/AC converter, which can be connected in parallel with a diode rectifier for regenerative applications. The DC/AC converter is supposed to transmit regenerative energy to the power grid when a motor is braking. Isolation transformers are not needed in the topology, which can reduce the size and cost. An analysis of the zero-order current existing in the system is carried out. In addition, algorithms to minimize the zero-order current, control the power factor and keep the DC bus voltage stable are discussed. A 55kW industrial prototype is built to verify the proposed analysis and control strategies.

A Study on Harmonic Correction of Air-Conditioner Power Conversion Equipment (에어컨 전력변환장치의 고조파 개선에 관한 연구)

  • Mun, Sang-Pil;Suh, Ki-Young;Lee, Hyun-Woo;Jung, Sang-Hwa
    • Journal of the Institute of Electronics Engineers of Korea SC
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    • v.39 no.5
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    • pp.43-50
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    • 2002
  • To improve the current waveform of diode rectifiers, we propose a new operating principle for the voltage -doubler diode rectifiers. In the conventional voltage-doubler rectifier circuit, relatively large capacitors are used to boost the output voltage, while the proposed circuit uses smaller ones and a small reactor not to boost the output voltage but improve the input current waveform. A high input power factor of 97[%] and an efficiency of 98[%] are also obtained. The harmonic guide lines of proposed rectifier is no interfered with inverter switching, resulting in a simple, reliable and low-cost ac-to dc converters in comparison with the boost-type current-improving circuits.It compared conventional pulse-widthmodulated(PWM)inverter with half pulse-widthmodulated (HPWM) inverter. Proposed HPWM inverter eliminated dead-time by lowering switchingloss and holding over-shooting.

Module-Type Switching Rectifier for Cathodic Protection of Underground and Maritime Metallic Constructions (지하매설 및 해양 금속구조물 음극방식용 모듈 타입 스위칭 정류기)

  • 문상호;김보경;김인동;노의철;권영원;정성우;임헌호
    • The Transactions of the Korean Institute of Power Electronics
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    • v.7 no.6
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    • pp.570-578
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    • 2002
  • Cathodic protection is widely used to prevent corrosion of steel materials buried in the underground and sea. As a rectifier for cathodic protection, the conventional phase-controlled rectifiers have been used so far in spite of such shortcomings as large volume, heavy weight and floor power factor. In order to overcome such disadvantages, this paper proposes a new module-type switching rectifier for cathodic protection, which is composed of two parts, namely, AC/DC converter and module- type DC/DC converter. The AC/DC converter is a single-phase IGBT PWM rectifier, thus resulting in almost unity power factor and controlled DC output voltage. The module-type DC/DC converter operates under ZVS/ZCS switching condition to permit high frequency switching operation. It enables to use high-frequency transformer for electrical isolation, thus reducing volume and weight of overall system and improving system efficiency. It should be anticipated that the proposed rectifier techniques apply to the similar technical areas.

Three-phase Three-level Boost-type Front-end PFC Rectifier for Improving Power Quality at Input AC Mains of Telecom Loads

  • Saravana, Prakash P.;Kalpana, R.;Singh, Bhim
    • Journal of Power Electronics
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    • v.18 no.6
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    • pp.1819-1829
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    • 2018
  • A three-phase, three-switch, and three-level boost-type PWM rectifier (Vienna rectifier) is proposed as an active front-end power factor correction (PFC) rectifier for telecom loads. The proposed active front-end PFC rectifier system is modeled by the switching cycle average model. The relation between duty ratios and DC link capacitor voltages is derived in terms of the system input currents. Furthermore, the feasible switching states are identified and applied to the proposed system to reduce the switching stress and DC ripples. A detailed equivalent circuit analysis of the proposed front-end PFC rectifier is conducted, and its performance is verified through simulations in MATLAB. Simulation results are verified using an experimental setup of an active front-end PFC rectifier that was developed in the laboratory. Simulation and experimental results demonstrate the improved power quality parameters that are in accordance with the IEEE and IEC standards.

Utilization of Active Diodes in Self-powered Sensorless Three-phase Boost-rectifiers for Energy Harvesting Applications

  • Tapia-Hernandez, Alejandro;Ponce-Silva, Mario;Olivares-Peregrino, Victor Hugo;Valdez-Resendiz, Jesus Elias;Hernandez-Gonzalez, Leobardo
    • Journal of Power Electronics
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    • v.17 no.4
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    • pp.1117-1126
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    • 2017
  • The main contribution of this paper is the use of sensorless active diodes to generate the gate signals for a three-phase boost-rectifier with a self-powered control scheme. The sensorless operation is achieved making use of the gate control signals generated by the active diode schemes on each of the switching devices using a pulse width half-controlled boost rectifier modulation technique (PWM-HCBR). The proposed scheme synchronizes the gate control signals with a three phase voltage supply. Autonomous operation is obtained making use of the output DC bus to feed the control circuitry, the active diodes and the driver circuitry. The three-phase boost-rectifier is supplied by a three-phase permanent magnet electric generator powered by a solar concentrator dish with variable voltage and variable frequency conditions. Experimental results report an efficiency of up to 94.6% for 25 W and an input of 3.6 V peak per phase with 450.

A PI Control Algorithm with Zero Static Misadjustment for Tracking the Harmonic Current of Three-Level APFs

  • He, Yingjie;Liu, Jinjun;Wang, Zhaoan;Zou, Yunping
    • Journal of Power Electronics
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    • v.14 no.1
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    • pp.175-182
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    • 2014
  • Tracking harmonic current quickly and precisely is one of the keys to designing active power filters (APF). In the past, the current state feedback decoupling PI control was an effective means for three-phase systems in the current control of constant voltage constant frequency inverters and high frequency PWM reversible rectifiers. This paper analyzes in detail the limitation of the conventional PI conditioner in the APF application field and presents a novel PI control method. Canceling the delay of one sampling period and the misadjustment for tracking the harmonic current is the key problem of this PI control. In this PI control, the predictive output current value is obtained by a state observer. The delay of one sampling period is remedied in this digital control system by the state observer. The predictive harmonic command current value is obtained by a repetitive predictor synchronously. The repetitive predictor can achieve better predictions of the harmonic current. By this means, the misadjustment of the conventional PI control for tracking the harmonic current is cancelled. The experiment results with a three-level NPC APF indicate that the steady-state accuracy and dynamic response of this method are satisfying when the proposed control scheme is implemented.