• 한국조명전기설비학회지:조명전기설비
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• 제9권5호
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• pp.57-63
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• 1995

본 연구는 상전류가 상전압과 동위상에 가까운 정현파가 되도록 제어함으로써 배전선로의 고조파성분과 무효전력을 감소시킬 수 있는 3상 PWM AC/DC승압형 콘버터를 해석하고 안정된 제어방법을 제안하였다. 제어기의 실현에 있어서는 전류센서가 없는 순시전압 제어방식의 비교적 간단한 제어알고리즘을 도출하였고 순시전압 제어는 PWM방식을 아용하였다. 또한 스위칭손실을 줄이기 위하여 스위칭 주파수는 비교적 낮은 범위인 3[kHz]정도로 하였다. 부하가 능동부하일 경우 전원쪽으로 잉여전력의 회수가 가능한 4상한 동작 콘버터를 구성하였으며, 본 제어방식의 타당성을 시뮬레이션 및 실험을 통하여 확인 하였다.

• Journal of Power Electronics
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• 제13권5호
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• pp.877-883
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• 2013

This paper discussed a transformer-less shunt static synchronous compensator (STATCOM) with consideration of the following aspects: fast compensation of the reactive power, harmonic cancelation and reducing the unbalancing of the 3-phase source side currents. The STATCOM control algorithm is based on the theory of instantaneous reactive power (P-Q theory). A self charging technique is proposed to regulate the dc capacitor voltage at a desired level with the use of a PI controller. In order to regulate the DC link voltage, an off-line Genetic Algorithm (GA) is used to tune the coefficients of the PI controller. This algorithm arranged these coefficients while considering the importance of three factors in the DC link voltage response: overshoot, settling time and rising time. For this investigation, the entire system including the STATCOM, network, harmonics and unbalancing load are simulated in MATLAB/SIMULINK. After that, a 35KVA STATCOM laboratory setup test including two parallel converter modules is designed and the control algorithm is executed on a TMS320F2812 controller platform.

• 전력전자학회논문지
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• 제4권1호
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• pp.50-56
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• 1999

본 연구에서는 시간영역에서 전력이 해석되어지므로 이해하기 쉽고, 비교적 계측하기 용이한 상관함수에 의한 순시전력이론에 대해서 고찰하였다. 상관함수에 의한 순시전력이론은 시간영역에서 전압과 전류의 자기상관함수와 상호상관함수에 의해서 전력과의 전압과 상관성에 따라 상관전력과 비상관 전력으로 분해된다. 분해된 두 가지 전력성분으로부터 비선형 부항의 특성에 따라 전력과 전류를 유효성분, 기본파 무효성분 그리고 고조파성분 등 3성분으로 분해한다. 능동전력필터는 그 보상특성상 전력과 전류의 3성분만을 다루며, 실시간 제어를 위해 그외의 여러 복잡한 그리고 구현의 어려움이 있는 전력모델은 경제적이지 못하다. 상관함수적인 순시전력이론에 의해 분석된 전력성분들의 타당성을 입증하기 위해서 전압형 DSP능동전력필터를 제작하였다. 싸이리스터 제어 유도전동기 구동시스템의 전력을 제안된 순시전력이론에 의해 3성분으로 분해한 후, 이들 성분중에서 보상기준전류로 고조파성분과 기본파 무효성분을 각각 제어하여 그 보상결과로부터 타당성을 입증하였다.

• 대한전기학회:학술대회논문집
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• 대한전기학회 2005년도 제36회 하계학술대회 논문집 B
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• pp.1480-1482
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• 2005

The major causes of power quality deterioration are harmonic current through semiconductor switching device, due to use of nonlinear loads such as diodes rectifier or thyristor rectifiers. In response to this concerns, this paper presents a new control method of single-phase active power filter(APF) for the compensation of harmonic current components in nonlinear loads. In order to make the complex calculation to be possible, the single-phase system that has two phases was made by constructing a imaginary second-phase giving time delay to load currents. In the conventional method, a imaginary-phase lagged to the load current T/4(here T is the fundamental cycle) was made. But in this proposed method, the new signal, which has the delayed phase through the filter, using the phase-delay property of low-pass filter, was used as the second phase. As this control method is applied to the system of single phase, an instantaneous calculation was done rather by using the rotating reference frames that synchronizes with source-frequency than by applying instantaneous reactive power theory that uses the conventional fixed reference frames.

• 전력전자학회논문지
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• 제8권6호
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• pp.576-584
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• 2003

본 논문에서는 비 선형 단상부하에 의해 발생하는 전류 고조파를 보상하기 위한 단상능동전력필터의 새로운 제어방법을 제안한다. 부하전류에 시간지연을 주어 임의의 두 번째 상을 생성한 후 단상시스템을 두 상을 갖는 시스템으로 만들어 복소계산을 가능하게 한다. 기존의 방법은 부하전류를 1/4 T(T는 기본파의 주기) 만큼 지연시켜서 가상의 상을 만들었지만, 본 논문에서 제안하는 방법은 저역통과필터가 상 지연의 특성을 가지는 것을 이용하여 필터를 통과한 지연된 위상을 가진 새로운 신호를 두 번째 상으로 이용하였다. 두 개의 위상이 다른 상이 존재하므로 고조파 전류의 순시계산이 가능하게 된다. 기존의 고정좌표계를 이용하여 순시무효전력이론을 적용하지 않고, 본문에서는 전원주파수에 동기하는 회전좌표계를 사용하여 순시계산을 하였고, 보상전류 지령치를 구하였다. 전류원으로 사용되는 RL부하에 대하여 시뮬레이션과 실험을 수행하였고, 제안된 제어법의 유효성을 입증하였다.

• Journal of Power Electronics
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• 제15권1호
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• pp.190-201
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• 2015

This paper uses the switching function approach to present a simple state model of the Vienna-type rectifier. The approach introduces the relationship between the DC-link neutral point voltage and the AC side phase currents. A novel direct power control (DPC) strategy, which is based on the sliding mode control (SMC) for Vienna I rectifiers, is developed using the proposed power model in the stationary ${\alpha}-{\beta}$ reference frames. The SMC-based DPC methodology directly regulates instantaneous active and reactive powers without transforming to a synchronous rotating coordinate reference frame or a tracking phase angle of grid voltage. Moreover, the required rectifier control voltages are directly calculated by utilizing the non-linear SMC scheme. Theoretically, active and reactive power flows are controlled without ripple or cross coupling. Furthermore, the fixed-switching frequency is obtained by employing the simplified space vector modulation (SVM). SVM solves the complicated designing problem of the AC harmonic filter. The simplified SVM is based on the simplification of the space vector diagram of a three-level converter into that of a two-level converter. The dwelling time calculation and switching sequence selection are easily implemented like those in the conventional two-level rectifier. Replacing the current control loops with power control loops simplifies the system design and enhances the transient performance. The simulation models in MATLAB/Simulink and the digital signal processor-controlled 1.5 kW Vienna-type rectifier are used to verify the fast responses and robustness of the proposed control scheme.

• Journal of Power Electronics
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• 제10권5호
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• pp.538-547
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• 2010

This paper deals with a stand-alone wind energy conversion system (WECS) with an isolated asynchronous generator (IAG) and voltage and frequency (VF) control feeding three-phase four-wire loads. The reference generator currents are estimated using the instantaneous symmetrical component theory to control the voltage and frequency of an IAG system. A three-leg voltage source converter (VSC) with an isolated star/delta transformer is used as an integrated VSC. An integrated VSC with a battery energy storage system (BESS) is used to control the active and reactive powers of the WECS. The WECS is modeled and simulated in MATLAB using the Simulink and the Sim Power System (SPS) toolboxes. The proposed VF controller functions as a voltage and frequency regulator, a load leveler, a load balancer and a harmonic eliminator in the WECS. A comparison is made on the rating of the VSC with and without ac capacitors connected at the terminals of an IAG. Simulation and test results are presented to verify the control algorithm.

• Journal of international Conference on Electrical Machines and Systems
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• 제3권2호
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• pp.162-168
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• 2014

Use of nonlinear loads, such as power converters, fluorescent lamps and adjustable speed motor drives, is expected to grow rapidly. All of these loads inject harmonic currents. This paper presents the active filtering of the harmonic distortion generated by the compact fluorescent lamps (CFL). The Instantaneous active and reactive power theory (the p-q Theory) is used to design the control of parallel active filter. The control scheme has been verified using Matlab/Simulink with SimPower Systems through a set of simulation tests under different load conditions. Also, the tuning of the active power filter is performed to improve the quality of the electrical power supply.

• Journal of Power Electronics
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• 제8권1호
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• pp.91-100
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• 2008

The d-q harmonic detecting algorithms are dominant methods to generate current references for active power filters (APF). They are often implemented in the synchronous frame and time domain. This paper researches the frequency characteristics of d-q synchronous transformations, which are closely related to the analysis and design issues of control system. Intuitively, the synchronous transformation is explained with amplitude modulation (AM) in this paper. Then, the synchronous filter is proven to be a time-invariant and linear system, and its transfer function matrix is derived in the stationary frames. These frequency-domain models imply that the synchronous transformation has an equivalent effect of frequency transformation. It is because of this feature, the d-q method achieves band-pass characteristics with the low pass filters in the synchronous frame at run time. To simplify these analytical models, an instantaneous positive-negative sequence frame is proposed as expansion of traditional symmetrical components theory. Furthermore, the synchronous filter is compared with the traditional bind-pass filters based on these frequency-domain analytical models. The d-q harmonic detection methods are also improved to eliminate the inherent coupling effect of synchronous transformation. Typical examples are given to verify previous analysis and comparison. Simulation and experimental results are also provided for verification.

• 전력전자학회:학술대회논문집
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• 전력전자학회 2013년도 전력전자학술대회 논문집
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• pp.244-245
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• 2013

This paper proposes a control algorithm for permanent magnet synchronous generator with a back-to-back three-level neutral-point clamped voltage source converter in a medium-voltage offshore wind power system under unbalanced grid conditions. The proposed control algorithm particularly compensates for the unbalanced grid voltage at the point of common coupling in a collector bus of offshore wind power system. This control algorithm has been formulated based on the symmetrical components in positive and negative rotating synchronous reference frames under generalized unbalanced operating conditions. Instantaneous active and reactive power are described in terms of symmetrical components of measured grid input voltages and currents. Negative sequential component of ac input current is injected to the point of common coupling in the proposed control strategy. The amplitude of negative sequential component is calculated to minimize the negative sequential component of grid voltage under the limitation of current capability in a voltage source converter. The proposed control algorithm makes it possible to provide a balanced voltage at the point of common coupling resulting in the generated power of high quality from offshore wind power system under unbalanced network conditions.