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채널 등화기를 내장한 2.0GS/s 5비트 전류 모드 ADC 기반 수신기
문종호,정우철,김진태,권기원,전영현,전정훈,Moon, Jong-Ho,Jung, Woo-Chul,Kim, Jin-Tae,Kwon, Kee-Won,Jun, Young-Hyun,Chun, Jung-Hoon 대한전자공학회 2012 전자공학회논문지 Vol.50 No.8
본 논문에서는 고속 직렬 링크에 사용할 수 있는 5비트 2.0GS/s 2-way time interleaved 파이프라인 ADC 기반의 수신기를 소개한다. 샘플링 주파수를 높이기 위해, ADC 각 단은 트랙킹과 증폭이 동시에 수행되는 전류 모드 구조를 사용하였다. 또한 ADC 각단에 1-tap FIR 등화기를 탑재하여 별도의 디지털 후처리 없이 채널의 ISI를 감소시켰다. 제안한 수신기는 110nm 공정을 사용하여 설계하였다. 메모리를 제외한 수신기는 $0.58{\times}0.42mm^2$의 크기를 갖고, 동작전압 1.2V에서 91mW의 전력을 소모한다. 시뮬레이션 결과 2.0GS/s 샘플링 주파수에서 20MHz의 입력 주파수와 Nyquist 주파수인 1.0GHz 입력신호에 대하여 동일하게 26.0dB의 SNDR과 4.0비트의 ENOB특성을 확보하였다. In this paper, a 5-bit 2-GS/s 2-way time interleaved pipeline ADC for high-speed serial link receiver is demonstrated. Implemented as a current-mode amplifier, the stage ADC simultaneously processes the tracking and residue amplification to achieve higher sampling rate. In addition, each stage incorporates a built-in 1-tap FIR equalizer, reducing inter-symbol-interference (ISI)without an extra digital post-processing. The ADC is designed in a 110nm CMOS technology. It comsumes 91mW from a 1.2-V supply. The area excluding the memory block is $0.58{\times}0.42mm^2$. Simulation results show that when equalizer is enabled, the ADC achieves SNDR of 25.2dB and ENOB of 3.9bits at 2.0GS/s sample rate for a Nyquist input signal. When the equalizer is disengaged, SNDR is 26.0dB for 20MHz-1.0GHz input signal, and the ENOB of 4.0bits.
문종호(Moon, Jong-Ho),배지한(Bae, Ji-Han),이상진(Lee, Sang-Jin),정종태(Chung, Jong-Tae),이창하(Lee, Chang-Ha) 한국신재생에너지학회 2006 한국신재생에너지학회 학술대회논문집 Vol.2006 No.11
With the steady depletion off fossil fuel reserves, hydrogen based energy sources become increasingly attractive. Therefore hydrogen production or separation technologies, such as Bas separation membrane based on adsorption technology, have received enormous attention in the industrial and academic fields. In this study, the transport mechanisms of the MTES (methyltriethoxysilane) templating silica/a-alumina composite membrane were evaluated by using unary, binary and quaternary hydrogen gas mixtures permeation experiments at unsteady- and steady-states. Since the permeation flux in the MTES membrane, through the experimental and theoretical study, was affected by molecular sieving effects as well as surface diffusion properties, the kinetic and equilibrium separation should be considered simultaneously in the membrane according to molecular properties. In order to depict the transient multi-component permeation on the templating silica membrane, the GMS (generalized Maxwell-Stefan) and DGM (dust Bas model) were adapted to unsteady-state material balance
유기템플레이팅 실리카막을 이용한 이성분 및 사성분 수소 분리
문종호(Moon, Jong-Ho),배지한(Bae, Ji-Han),정종태(Chung, Jong-Tae),이재욱(Lee, Jae-Wook),이창하(Lee, Chang-Ha) 한국신재생에너지학회 2007 한국신재생에너지학회 학술대회논문집 Vol.2007 No.06
The transport mechanisms of the MTES (methyltriethoxysilane) templating silica/a-alumina composite membrane were evaluated by using four binary and one quaternary hydrogen mixtures through permeation experiments at unsteady- and steady-states. Since the permeation flux in the MTES membrane, through the experimental and theoretical studies, was affected by molecular sieving effects as well as surface diffusion properties, the kinetic and equilibrium separation should be considered simultaneously according to molecular properties. In order to depict the transient multi-component permeation on the templating silica membrane, the GMS (generalized Maxwell-Stefan) and DGM (dust gas model) were adapted to unsteady-state material balance.