• Proceedings of the KIEE Conference
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• 2006.07b
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• pp.974-975
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• 2006

본 논문에서는 대용량 전력 변환 장치이며 출력 전압 가변이 가능한 H-브릿지 멀티레벨 인버터의 제어 알고리즘을 제안한다. H-브릿지 멀티레벨 인버터는 독립적으로 절연된 직류 부를 갖는 저압의 단상 인버터(셀 유닛)를 다수 직렬 접속하여 고압 3상 전압을 출력하는 Cascaded H-bridge 전압형 인버터이다. 다수의 독립 절연 직류부를 만들기 위해 입력 측에 다권선 변압기를 사용하여 입력 측 고조파 함유율을 축소시킬 수 있다. 인버터를 사용하는 제어방법 중 가장 오래되고 일반적인 방법으로 출력전압과 출력 주파수의 비를 일정하게 제어하여 전동기의 자속 크기를 일정하게 제어하고, 별도의 센서 없이도 운전이 가능한 V/F 제어모드는 저속 모드에서 제어 성능이 떨어지는 것을 실험을 통해 확인할 수 있었다. 정격용량 180kVA이고 출력 전압 480V인 H-브릿지 멀티 레벨 인버터 실험을 통해 벡터제어와 센서리스 벡터제어를 구현하여 저속 모드에서 제어 성능의 향상을 입증하였다.

• The Transactions of the Korean Institute of Electrical Engineers
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• v.41 no.4
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• pp.369-378
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• 1992

This paper proposes a utility parallel processing inverter system, which consists of a voltage source PWM inverter, isolation transformer and a reactor linking the inverter to utility line. This system realizes following functions : (1) voltage phase frequency and amplitude synchronization between inverter and utility line at stand-alone mode. (2) current phase synchronization between inverter and load at parallel mode. Therefore, despite sudden increase in load current over setting point at stand-alone mode, inverter system can be transferred into parallel mode immediately without transient current. Furthermore, high frequency(18KHz) PWM control and sinusoidal filtering improve the inverter output waveform by eliminating high order harmonic components as well as low order. As a switching device, IGBT is used for high frequency switching and large current capacity.

• Proceedings of the KIPE Conference
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• 2009.11a
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• pp.188-190
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• 2009

본 연구에서는 독립운전 검출기법의 능동적 기법 중 AFDPF 기법을 IEEE Std 929-2000에 제시된 독립운전 시험 조건하에서 위상동기기법 영점검출방식(Zero Crossing PLL)을 적용하여 독립운전 시 chopping fraction에 따른 PCC(Point of Common Coupling)의 주파수 변동 특성을 PSIM을 통하여 분석하였다

• The Transactions of the Korean Institute of Power Electronics
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• v.15 no.1
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• pp.43-51
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• 2010

This paper proposes an analysis of voltage delay and compensation for current control in H-Bridge Multi-Level (HBML) inverters for a medium voltage motor drive with vector control. It is shown that the expansion and modularization capability of the HBML inverter is improved in case of using Phase-Shifted Pulse Width Modulation (PSPWM) since individual inverter modules operate more independently. But, the PSPWM of HBML has a phase difference between reference voltage and real voltage, which can cause instability in the current regulator at high speed where the ratio of the sampling frequency to the output frequency is insufficient. This instability of the current regulator is removed by adding a proposed method which compensate a phase difference between reference voltage and real voltage. The proposed method is suitable for HBML inverter controlled by PSPWM with low switching frequency and high speed motor drive. The validity of the proposed method is verified experimentally on 6,600[V] 1,400[kW] induction motor fed by an 13-level HBML inverter.

• 전기의세계
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• v.43 no.1
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• pp.5-12
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• 1994

교류 송전선로를 통해 전송되는 전력은 선로의 임피던스, 송/수전단 전압의 크기와 위상에 대해 함수관계를 갖는다. 따라서 이 세 독립 변수를 신속 정확하게 제어할 수 있다면 송전선로를 통해 전송되는 전력을 융통성 있게 조정할 수 있고, 결과적으로 최대전력의 전송, 계통의 과도안정도 증가 그리고 계통의 저주파공진 감쇄 등의 효과를 얻을 수 있다. 최근 대용량 GTO(Gate-Turn-Off) 다리이스터 개발에 힘입어 초대현 전압원 인버터의 제작이 가능해지면서, 이를 이용해 위의 세 변수를 제어하는 연구가 미국과 일본에서 활발히 진행중에 있다. 현재 이들 국가에서는 이미 야지시험(field test)을 위해 초대형 무효전력 보상장치(static condensor)를 제작 완료 했거나 제작중에 있어, 앞으로 이 분야의 연구는 계속 가속화될 것으로 보인다[1,2,7,8]. 본 해설에서는 먼저 위의 세 변수를 제어하기 위해 이론적으로 어떠한 보상법이 가능한가 알아보고, 이 보상법이 최대전력 전송과 계통 성능에 어떠한 개선을 주는지 기술하며, 마지막으로 이 보상법을 실행하는데 전압원 인버터가 어떻게 사용될 수 있는지를 설명하고자 한다.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.21 no.6
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• pp.662-671
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• 2020

Recently, for the purposes of reducing carbon dioxide(CO₂) emissions in the island area, countermeasures to decrease the operation rate of diesel generator(DG) and to increase one of renewable energy sources(RES) is being studied. In particular, the demonstration and installation of stand-alone micro-grid(MG) system which is composed of DG, RES and energy storage system(ESS) has been implemented in some island areas such as Gapa-do, Gasa-do and Ulleung-do island. However, many power quality(PQ) problems may be occurred due to an intermittent output of RES including photovoltaic(PV) system and wind power(WP) system in a normal operating of constant voltage & constant frequency(CVCF) inverter-based MG system. Therefore, this paper presents a modeling of the 30kW scale MG system using PSCAD/EMTDC, and also implements a 30kW scale CVCF inverter-based MG system as test devices to analyze normal operating characteristics of MG system. From the simulation and test results, it is confirmed that the proposed methods are useful and practical tools to improve PQ problems such as under-voltage, over-voltage and unbalanced load in CVCF inverter-based MG system.

• The Transactions of the Korean Institute of Power Electronics
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• v.13 no.4
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• pp.278-286
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• 2008

This paper investigates the fault generation type and the cause of output interruptionsin bulky with $30^{\sim}500[KVA]$ double conversion UPS, and proposes the fault detection method to improve the reliability of power supply used in the critical load in industry. Identifies its existing way of detecting a quality of inverter output it to bypass when exceeds its expectation. Under a UPS managing system, when an inner (Power device, Controller, CPU) fault occurs it disrupts the power supply and these occurrences has been verified by the results of experiments and application results. To overcome these problems, the proposed method constructs independently a fault-detection, a bypass-control device and a triple power supply apart from the conventional UPS operation. Also the detection point is changed to the preceding of a circuit breaker, a reference of fault detection is modified to avoid any clash and the breaking equipment is attached to intercept a spread of accident. As a result of applications of these developed systems to 242 UPS which was installed purposefully to the communication power supply, the service errors has not occurred in the UPS for two years since 2006.