• The Magazine for Energy Service Companies
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• s.26
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• pp.62-66
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• 2004

전미ESCO협회는 현재 미국 내에서 ESCO에 의해 사용되고 있는 M&V방식에 대해 질의하였다. 오늘날 측정평가(M&V)에 있어서 가장 기본적인 방법은 에너지 결정 변수 중의 하나가 측정되는 또는 어쩌면 하나도 측정되지 않는 ''A형 옵션''일 것이다. 이러한 프로젝트에서 절약 보증을 결정하는 데는 사전 설치분석법이 사용되고 있다. 그러나 요구 절감 가치에 대한 분쟁이 발생하는 상황에서 ''A형 옵션''은 상황을 ''조용히'' 해결하는 데 불충분한 정보를 제공할 수 있다. 계약에 충실히 따르는 인기있는 접근법은 설비별 계산서 분석 소프트웨어를 사용하여 건물 전체의 에너지를 분석하는 ''C형 옵션''이다. M&V를 단순화하는 이유는 조명프로젝트의 절약에 대한 이해가 클수록, 신규 설비 위주 프로젝트를 선호하는 고객과 에너지절감 위주 프로젝트를 선호하는 고객간의 대립으로 인한 M&V를 실행하는 비용과 위험성을 감안한 듯 하다.

• Journal of Energy Engineering
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• v.23 no.4
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• pp.123-129
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• 2014

ESCO industry should guarantee the energy saving performance with M&V such as developed countries. The application of the ESCO M&V is a necessary condition on energy saving performance. This study recommends a goal, direction, and order of application and suggests selection of M&V between option A, option B, option C, option D by energy conservation technology in Korea, with reference to the examples from IPMVP and applied in US and Japan. In the future, it is needed to study on the guideline for plan report and result report of M&V based on a goal, direction, and selection of M&V option.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.46 no.8
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• pp.31-40
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• 2009

This paper presents a design of a high performance DC-DC boost converter as a power module for SOC designs. It applied to this chip that reduced inductor and capacitor for integrating on a chip, and it operates with a switching frequency of 100MHz. It has reliability and stability in high switching frequency. The controller of DC-DC boost converter is designed by voltage-mode control method and compensated properly. The designed DC-DC converter is fabricated with the 0.18${\mu}m$ standard CMOS technology with a thick-gate oxide option. The overall die size is 8.14$mm^2$, and controller size is 1.15$mm^2$. The converter has the maximum efficiency over 76% for the output voltage of 4V and load current larger 300mA. The load regulation is 0.012% (0.5mV) for the load current change of 100mA.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.43 no.9 s.351
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• pp.23-30
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• 2006

This paper presents a design of a high-efficiency CMOS DC-DC boost converter using a current-sensing feedback method. High-precision current-sensing circuity is incorporated in order to sense the current flowing in the inductor, which determines the switching scheme of the pulse-width modulation. The external components or large chip area for the frequency compensation can be avoided while maintaining the stable operations of the converter. Various input/output voltage levels can be available through the external resistor strings. The designed DC-DC converter is fabricated in a 0.18-um CMOS technology with a thick-gate oxide option. The converter shows the maximum efficiency over 90% for the output voltage of 3.3V and load current larger than 200mA. The load regulation is 1.15% for the load current change of 100mA.