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전주산업단지 및 주변지역 VOCs 및 악취물질 모니터링
김용문,박비오,고영삼,심재정,송병식,양고수 전북대학교 공학연구원 ( 구 전북대학교 공업기술연구소 ) 2002 工學硏究 Vol.33 No.-
Important main odorous compounds and VOCs(volatile organic compounds) possibly emitted from the Jeon-Ju Industrial Sites were identified and measured in amount through making air sampling over Jeon-Ju Industrial Sites and analyzing them with the sate of the art analytical instrument. Sampling sites were chosen 8 points by considering the industrial characteristics for the 1,2 Industrial Sites and 2 points for the 3 Industrial. Site Sampling times were two times, the first one was March. 2002 - April. 2002, and the second was May. 2002 - July. 2002. Canister sampling units and polyester bags were used to collect 6 liters air samples during 1hour or 3minutes for VOCs and polyester bags were used to sample 10 - 50 liters of air for 3 minutes depending on analytic characteristics of odor compounds. The important main VOCs were measured as acetone, ethyl benzene, n-hexane, m,p-xylene, toluene, M.E.K.(methyl ethyl ketone), isopropanol, ethyl acetate, o-xylene, n-butyl acetate, ethanol, benzene as in order of average concentration for the Industrial Sites. The main odorous compounds were COS, H2S, CS2, MM(methyl mercaptan), form aldehyde, acetaldehyde for the 1,2 Industrial Sites and COS, H2S, form aldehyde, acetaldehyde were measured as main species for the 3 Industrial Site. NH3 was measured as below the detection limit of the instrument. The concentrations of sulfide compounds for the 1,2 Industrial Sites were relatively higher than ones for the 3 Industrial Site. Among aldehydes, form aldehyde, acetaldehyde were detected very highly as 0.1- 1ppm over all the Industrial Sites.
Level Shifter Circuit with Fast Delay and Low-Power Consumption
O-Sam Kwon,Kyeong-Sik Min 대한전자공학회 2007 ITC-CSCC :International Technical Conference on Ci Vol.2007 No.7
A new level shifter is proposed in this paper that mitigates the contention problem between its pull-up and pull-down switches without suffering the delay penalty. Comparing this new one with two conventional shifters (CLS-1 and CLS-2) indicates that CLS-1 and CLS-2 have the delay times which are 308% and 26% slower than the proposed shifter when VDDL/VDDH=0.3 and the fan-out=2, respectively. In addition, the comparison of power-delay products shows CLS-2 consumes 28.5% more energy than the proposed shifter. For the layout area, the proposed shifter needs only 15% more than CLS-2.