• Title/Summary/Keyword: Micro channel

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Design of DGMOSFET for Optimum Subthreshold Characteristics using MicroTec

  • Jung, Hak-Kee;Han, Ji-Hyeong
    • Journal of information and communication convergence engineering
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    • v.8 no.4
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    • pp.449-452
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    • 2010
  • We have analyzed channel doping and dimensions(channel length, width and thickness) for the optimum subthreshold characteristics of DG(Double Gate) MOSFET based on the model of MicroTec 4.0. Since the DGMOSFET is the candidate device to shrink short channel effects, the determination of design rule for DGMOSFET is very important to develop sub-100nm devices for high speed and low power consumption. As device size scaled down, the controllability of dimensions and oxide thickness is very low. We have analyzed the short channel effects for the variation of channel dimensions, and found the design conditions of DGMOSFET having the optimum subthreshold characteristics for digital applications.

The Effect of Karman Vortex for Mixing in a Micro-channel with an Oscillating Micro-stirrer (진동 교반기가 있는 미소채널에서 혼합에 대한 Karman 와의 영향)

  • An, Sang-Joon;Maeng, Joo-Sung;Kim, Yong-Dae
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.30 no.2 s.245
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    • pp.144-152
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    • 2006
  • In order to consider the effect of Karman vortex for mixing, mixing indices are calculated for 4 models of micro channel flows driven from the combinations of a circular cylinder and a oscillating stirrer. And their results are compared to that of a simple straight micro channel flow(model I). The mixing rate is improved 5.5 times by Karman vortex (model II) and 11.0 times by the stirrer(model III) respectively. In case of successive mixing by the cylinder and the stirrer(model IV), $27\%$ of shortening the channel length for the complete mixing as well as 1.37 times improvement of mixing efficiency then model III. And then, variation of mixing indices are much stable comparing with the others. Thus, it is found that the Karman vortex plays a good role as a pre-mixing method. The D2Q9 Lattice Boltzmann methods are used.

NUMERICAL STUDY OF UNSTEADY HEAT TRANSFER ON MICRO HEATER UNDER HALF-CYCLE SINUSOIDAL HEAT LOAD (마이크로히터에서 반주기 정현곡선의 열부하에 의한 비정상 열전달 연구)

  • Kim, M.J.;Lee, H.J.
    • Journal of computational fluids engineering
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    • v.19 no.4
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    • pp.1-7
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    • 2014
  • A numerical study of transient conjugate heat transfer on micro heater in a micro-channel substrate under a sinusoidal heat load was conducted. It was found that the time constant is not affected by the maximum heating magnitude of the sinusoidal heat load. However, the time constant increases with low duration of the sinusoidal heating period and low Reynolds number. Moreover, there is a threshold where a heater temperature do not reach to time constant at low thermal diffusivity, low flow rate, and low pulse duration of the sinusoidal heating. The time constant should be considered for transient convective heat transfer under transient sinusoidal heat load in a micro heat sink.

Experimental Study on Flow Characteristics in a Micro-stenosis Inside a Microchannel (마이크로 채널내부 미세 협착 부위의 유동특성에 대한 실험적 연구)

  • Ji Ho-Seong;Lee Sang-Joon
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.30 no.3 s.246
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    • pp.255-261
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    • 2006
  • Flow characteristics of DI water in a microchannel with a stenosis were investigated using .a micro PIV system with varying flow rate. The width and depth of the PDMS micro-channel were $100{\mu}m\;and\;50{\mu}m$, respectively. To Investigate flow characteristics in the micro-stenosis, the same experiment was carried out in a straight microchannel under the same flow rate. The measured mean velocity fields were almost symmetric with respect to the channel centerline. The experimental results are well agreed with the theoretical Hagen-Poiseuille profile. In the contraction part of the micro-stenosis, the oncoming flow is accelerated rapidly and the maximum velocity occurs at the throat, almost 4.99 time faster than that without the stenosis.

Fabrication of PMMA Micro CE Chip Using IPA Assisted Low-temperature Bonding (IPA 저온 접합법을 이용한 PMMA Micro CE Chip의 제작)

  • Cha, Nam-Goo;Park, Chang-Hwa;Lim, Hyun-Woo;Cho, Min-Soo;Park, Jin-Goo
    • Korean Journal of Materials Research
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    • v.16 no.2
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    • pp.99-105
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    • 2006
  • This paper reports an improved bonding method using the IPA (isopropyl alcohol) assisted low-temperature bonding process for the PMMA (polymethylmethacrylate) micro CE (capillary electrophoresis) chip. There is a problem about channel deformations during the conventional processes such as thermal bonding and solvent bonding methods. The bonding test using an IPA showed good results without channel deformations over 4 inch PMMA wafer at $60^{\circ}C$ and 1.3 bar for 10 minutes. The mechanism of IPA bonding was attributed to the formation of a small amount of vaporized acetone made from the oxidized IPA which allows to solvent bonding. To verify the usefulness of the IPA assisted low-temperature bonding process, the PMMA micro CE chip which had a $45{\mu}m$ channel height was fabricated by hot embossing process. A functional test of the fabricated CE chip was demonstrated by the separation of fluorescein and dichlorofluorescein. Any leakage of liquids was not observed during the test and the electropherogram result was successfully achieved. An IPA assisted low-temperature bonding process could be an easy and effective way to fabricate the PMMA micro CE chip and would help to increase the yield.

Novel Fabrication Process for Micro-Fluidic Channels and the Effect of the Surface States on the Fluid Flow (미세유로채널의 새로운 제작공정 및 표면상태가 유동에 미치는 영향)

  • 박미석;김진산;성인하;김대은;신보성
    • Journal of the Korean Society for Precision Engineering
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    • v.21 no.1
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    • pp.87-93
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    • 2004
  • Recently, with the development of bio-technology the interests in the micro-fluidic devices for analysis in the fields of biology and medical science have been steadily increasing. Although polymer is considered as one of the best materials for micro-fluidic devices. glass or silicon molds fabricated by photo-lithographic technique have been commonly used. However, it is generally perceived that the conventional photolithographic technique has the limitation for fabricating micro-channels for micro-fluidic devices. In this work, the possibility of fabrication of micro-fluidic channels on PDMS by using the mechano-chemical process and the effect of surface states on the fluid flow were investigated. Experimental results revealed that PDMS mold fabricated by the mechano-chemical process could be used effectively to replicate micro-fluidic channels with high reproducibility and dimensional accuracy. It was also found that the fluid flow generation and flow speed were largely affected by the hydrophilicity and the surface roughness of the micro-channel surfaces.