• Title/Summary/Keyword: High power module

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Cascaded Volume Bragg Grating for Narrow Spectral Linewidth in High-power Laser Diodes

  • Lee, Dong-Jin;Shim, Gyu-Beom;Jeong, Ji-Hun;O, Beom-Hoan
    • Current Optics and Photonics
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    • v.6 no.3
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    • pp.282-287
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    • 2022
  • Narrowing the spectral linewidth and improving the wavelength stability of high-power laser diodes (HPLDs) are both in high demand for rapidly maturing industrial laser applications. In this study, we investigate the spectral behavior of a commercial HPLD bar module composed of 19 laser diodes (LDs) in a single-layered bar with a built-in volume Bragg grating (VBG) and an additional cascaded VBG. Optical loss due to the extra cascaded VBG is kept below 5% when the optical output is 5 W or more. The full width at half maximum of the Fabry-Perot peak from the cascaded VBG is reduced to about 12.4% and 29.1% at the edge (1st LD) and center (10th LD) of the HPLD bar module respectively, compared to using only a built-in VBG at an optical power of 10 W or more. In addition, fine wavelength tuning is achieved by temperature control of the extra VBG, and the obtained wavelength-tuning range amounts to about 10.6 pm/K.

A New PWM-Controlled Quasi-Resonant Converter for a High Efficiency PDP Sustaining Power Module

  • Lee, Woo-Jin;Choi, Seong-Wook;Kim, Chong-Eun;Moon, Gun-Woo
    • Journal of Power Electronics
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    • v.7 no.1
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    • pp.28-37
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    • 2007
  • A new PWM-controlled quasi-resonant converter for a high efficiency PDP sustaining power module is proposed in this paper. The load regulation of the proposed converter can be achieved by controlling the ripple of the resonant voltage across the resonant capacitor with a bi-directional auxiliary circuit, while the main switches are operating at a fixed duty ratio and fixed switching frequency. Hence, the waveforms of the currents can be expected to be optimized from the view-point of conduction loss. Furthermore, the proposed converter has good ZVS capability, simple control circuits, no high voltage ringing problem of rectifier diodes, no DC offset of the magnetizing current and low voltage stresses of power switches. In this paper, operational principles, features of the proposed converter, and analysis and design considerations are presented. Experimental results demonstrate that the output voltage can be controlled well by the auxiliary circuit using the PWM method.

Junction Temperature Prediction of IGBT Power Module Based on BP Neural Network

  • Wu, Junke;Zhou, Luowei;Du, Xiong;Sun, Pengju
    • Journal of Electrical Engineering and Technology
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    • v.9 no.3
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    • pp.970-977
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    • 2014
  • In this paper, the artificial neural network is used to predict the junction temperature of the IGBT power module, by measuring the temperature sensitive electrical parameters (TSEP) of the module. An experiment circuit is built to measure saturation voltage drop and collector current under different temperature. In order to solve the nonlinear problem of TSEP approach as a junction temperature evaluation method, a Back Propagation (BP) neural network prediction model is established by using the Matlab. With the advantages of non-contact, high sensitivity, and without package open, the proposed method is also potentially promising for on-line junction temperature measurement. The Matlab simulation results show that BP neural network gives a more accuracy results, compared with the method of polynomial fitting.

Analysis of Power Characteristics of High-Power Shingled Photovoltaic Module with Color Application (고출력 슁글드 태양광 모듈 컬러 적용에 따른 출력 특성 분석)

  • Kim, Juhwi;Lee, Jaehyeong
    • Current Photovoltaic Research
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    • v.10 no.3
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    • pp.73-76
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    • 2022
  • BIPV (Building Integrated Photovoltaic) supplemented the minimum area problem required when installing existing solar modules. However, in order to apply it to buildings, research was needed to increase the aesthetics of solar modules and use them as a design. Accordingly, modules with color applied to the entire surface of the photovoltaic module were being developed, but there was a disadvantage of low power. Therefore, by dividing and bonding the cell strips, it was possible to improve the output power by applying a shingled technology in which other divided cells overlap in a busbar region where light couldn't be received. Shingled technology was advantageous for color modules because the front busbar part that degrades aesthetics was removed. In this research, four color shingled solar modules (Green, Yellow, Blue, Gray) were manufactured and power degradation was analyzed by measuring transmittance and reflectance. Gray color had 80.83% transmittance, which was 31.31% higher than Yellow, resulting in a power difference of 4.45 W.

Development and evaluation of a model-based HSE risk assessment module for HSE management in offshore wind power (해상풍력발전의 HSE 관리를 위한 모델기반 HSE 위험성 평가 모듈 개발 및 평가)

  • Seong Rae Kim;Keon Woo Nam;Tae Kyong Lee;Dae Young Kang;Joon Young Kim
    • Journal of the Korean Society of Systems Engineering
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    • v.19 no.2
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    • pp.74-91
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    • 2023
  • This study provides an in-depth comparison and analysis of various risk assessment models widely used in modern industries, and proposes the most suitable model for risk assessment of offshore wind power in Korea. The assessment models were selected by considering various factors such as the purpose of risk assessment, stakeholder requirements, and characteristics of offshore wind power. We also emphasized the importance of using different risk assessment models in combination in situations of high uncertainty. To systematize the combination of risk assessment models, we used systems engineering which is effective to develop a new system. Systems engineering was used to define the complete, traceable functions from site requirements, and model-based systems engineering was used to manage the design information from requirements to detailed functions in a single model. The developed risk assessment module provide automatic conversion between risk assessment models to enable risk assessment suitable for offshore wind power. The functionality and usability of the offshore wind risk assessment module were verified by the evaluation of three wind power experts.

The analysis of Photovoltaic Power using Terrain Data based on LiDAR Surveying and Weather Data Measurement System (LiDAR 측량 기반의 지형자료와 기상 데이터 관측시스템을 이용한 태양광 발전량 분석)

  • Lee, Geun-Sang;Lee, Jong-Jo
    • Journal of Cadastre & Land InformatiX
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    • v.49 no.1
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    • pp.17-27
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    • 2019
  • In this study, we conducted a study to predict the photovoltaic power by constructing the sensor based meteorological data observation system and the accurate terrain data obtained by using LiDAR surveying. The average sunshine hours in 2018 is 4.53 hours and the photovoltaic power is 2,305 MWh. In order to analyze the effect of photovoltaic power on the installation angle of solar modules, we installed module installation angle at $10^{\circ}$ intervals. As a result, the generation time was 4.24 hours at the module arrangement angle of $30^{\circ}$, and the daily power generation and the monthly power generation were the highest, 3.37 MWh and 102.47 MWh, respectively. Therefore, when the module arrangement angle is set to $30^{\circ}$, the generation efficiency is increased by about 4.8% compared with the module angle of $50^{\circ}$. As a result of analyzing the influence of the seasonal photovoltaic power by the installation angle of the solar module, it was found that the photovoltaic power was high in the range of $40^{\circ}{\sim}50^{\circ}$, where the module angle was large from November to February when the weather was cold. From March to October, it was found that the photovoltaic power amount is $10^{\circ}{\sim}30^{\circ}$ with small module angle.

A Study on Thermal Performance of an Impinging Cooling Module for High Power LEDs (고출력 LED에 적용한 분사냉각모듈의 열성능에 관한 연구)

  • Lee, Dong Myung;Park, Sang Hee;Kim, Dongjoo;Kim, Kyoungjin
    • Journal of the Semiconductor & Display Technology
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    • v.11 no.1
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    • pp.13-19
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    • 2012
  • Thermal performance of an impinging cooling module for 150 W class high power LEDs have been investigated numerically and experimentally. Parametric studies were performed to compare the effect of several design parameters such as nozzle number, nozzle spacing, coolant flow rate, and impinging distance. The experiments were also carried out in order to validate the numerical results and the comparison between the experimental and numerical results showed good agreement. It is found that the overall thermal resistance of impinging cooling module strongly depends on the nozzle number, nozzle spacing, flow rate, and impinging distance. This results showed the optimized operating condition when number of nozzles is 25, nozzles spacing is 4mm, flow rate is 2.70 lpm, distance between nozzles and impinging surface is 2 mm.

HPA MMIC to W/G Antenna Transition Loss Analysis and Development Results of W-band Transmitter Module

  • Kim, Wansik;Jung, Juyong;Lee, Juyoung;Kim, Jongpil
    • International Journal of Advanced Culture Technology
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    • v.7 no.4
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    • pp.236-241
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    • 2019
  • This paper will read about a multichannel frequency-modulated continuous wave (FMCW) radar sensor with switching transmit (TX) antennas is developed at W-band. To achieve a high angular resolution, a uniform linear array consisting of 5 switching-TX and 12 receive (RX) antennas is employed with the digital beamforming technique. The overall radar front-end module comprises a W-band transceiver and TX/RX antennas. A multichannel transceiver module consists of 5 up-conversion and 12 down-conversion channels, where one of the TX channels is sequentially switched ON. For developing transmitter, we developed an HPA (high power amplified) MMIC chip for W-band radar system and fabricated a transmitter module using this chip. In order to develop the W-band transmitter, we analyzed the important antenna transition structure from HPA MMIC line to W/G (Waveguide)antenna via M/S(microstrip) and fabricated it with 5 transmission channels. As a result, the output power of the transmitter was within 1 dB of the error range after analysis and measurement under normal temperature and environmental conditions.

Characteristic analysis and design of single-phase Vienna rectifiers (단상 비엔나 정류기의 특성 해석 및 설계)

  • Jeong, Garam;Seol, Won-Kyu;Yun, Jin;Chung, Se-Kyo
    • Proceedings of the KIPE Conference
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    • 2019.07a
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    • pp.269-270
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    • 2019
  • Vienna rectifier is used for telecom power applications because of its simple structure, high efficiency and high power density. This rectifier is also suitable to obtain a high voltage DC output. This paper describes the analysis and design of a single-phase module of a Vienna rectifier to obtain 750VDC output. The simulation and experimental results are provided to verify the theoretic analysis and design.

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Power-saving Module using Ferroelectric Ceramics for Electronic Ballast (강유전체 세라믹스를 이용한 전자식 안정기용 절전모듈)

  • Shin, Hyun-Yong
    • Journal of the Korea Computer Industry Society
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    • v.6 no.5
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    • pp.741-748
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    • 2005
  • Power saving module which is consisted of ferroelectric ceramic capacitor and time delay switching circuit was installed into electronic ballast in order to enhance energy efficacy and extend life time of fluorescent lamp. The impedance matching of negative resistance characteristics of F/L was optimized with the characteristics of ferroelectric ceramics capacitor to increase the light efficiency of the electronic ballast. The high efficiency of the electronic ballast was achieved by minimizing wasted power at the filament of F/L during the lighting by using the switching function of time delay circuit from preheating mode to non-preheating mode. The life time of F/L was also extended by eliminating the reverse electromotive force using time delay circuits to minimize the impacts to the filament of F/L from unwanted high voltage peaks during light-up period. As the results, the electronic ballast with the first grade energy efficiency was developed using ferroelectric ceramics and time delay module.

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