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김태성,여인선,이진,Kim, Tae-Seoung,Yeo, In-Seon,Lee, Jin 한국조명전기설비학회 1988 조명.전기설비 Vol.2 No.1
각종 전기설비용 절연재료로 주목받는 Epoxy는 경화제와의 가교반응으로 전기절연특성이 우수한 경화물질을 얻을 수 있으며, 경화제의 종류와 격자 형성에 형태에 따라 경화된 Epoxy의 특성이 결정된다. 본 연구는 Epoxy의 경화시 분위기의 온도를 변화시켜 격자형성의 진행형태를 변화시키고, 경화된 Epoxy의 제반특성을 조사하여 전기절연특성이 가장 우수하게 되는 경화온도를 얻고자 한다. Epoxy를 분위기 온도 $20~50[^{\circ}C]$사이에서 $5^[{\circ}C]$ 간격으로 변화하면서 경화시킨 결과, 분위기 온도 $30[^{\circ}C]$에서 경화된 Epoxy의 전기절연특성 및 기계적 강도가 가장 우수하다고 판명되었다. Epoxy, noticed as a new insulation material tor electrical installation, may become an excellent cured material from the crosslink reaction with some curing agents. The characteristics of cured Epoxy is determined by the kind of the curing agents and the method of lattice formation. The purpose of this paper, varing the process of lattice formation by various surrounding temperatures during the curing process, is to obtain the optimum curing temperature for electrical insulation from the results of investigation on the properties of cured Epoxy. In the experiment, Epoxy was cured at various temperatures between $20[^{\circ}C] and 50^[{\circ}C]$ which differ by $5^[{\circ}C]$, and then examined on the electrical insulation haracteristics as well as the thermal and mechanical stability. As a result, it is concluded that the optimum electrical insulation characteristis and mechanical strength of cured Epoxy can be obtained when cured at a surrounding temperature at $30[^{\circ}C]$.
宋相彬(Sang-Bin Song),呂寅善(In-Seon Yeo) 대한전기학회 2007 전기학회논문지 Vol.56 No.7
Although LEDs have been used in various applications with improving the brightness and luminous efficacy, the electrical and optical characteristics of high power LED varies at different temperature and starting time. In this paper, optimal heat sink and apparatus design were conducted using ill camera and ICEPAK on the LED bulb consisting with fourteen LED array. The temperatures of heat sink and LED device of the designed LED bulb without cooling pan were 74℃ and 96.8℃, respectively, showing in good thermal characteristics. For high efficiency driving circuit of LED array adopted optimal heat sink design, driving circuits of constant voltage and current circuits were suggested and fabricated. As a result the efficacy of all driving circuits showed more than 20 ㏐/W. Also, the constant current circuits are suitable for signal lamp, hallway lamp, and flash lamp having short operating time(about 30 min). On the other hand, a reading light and indoor lamp having long operating time can be controlled by constant voltage circuit.