• Title/Summary/Keyword: Electrode face

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Fabrication of Parylene Buffered $H:LiNbO_3$ Optical Modulator (Parylene 버퍼층 구조 $H:LiNbO_3$ 광변조기 제작)

  • Huh, Hyun;Kim, Hee-Ju;Kang, Dong-Sung;Pan, Jae-Kyung
    • Journal of the Korean Institute of Telematics and Electronics D
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    • v.36D no.3
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    • pp.85-91
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    • 1999
  • $H:LiNbO_3$ optical modulator with Cu/parylene electrode layer, which has a merits in the bandwidth, power consumption and fabrication conditions as compared with conventional Au/Cr/$SiO_2$, is proposed and fabricated. Analysis and design of optical modulator is performed by finite element calculation. Various unit processes for fabricating the proposed modulator, 1550nm $H:LiNbO_3$ optical waveguide, parylene buffer layer, and CPW Cu electrode, were developed, After dicing and end-face polishing of fabricated modulator chip, optical modulation responses as sawtooth electrical driving voltage has been measured at low frequencies. Properties of optical waveguide had not been changed before and after Cu/parylene electrode processes, which make confirm the reproducible fabrication of optical modulator.

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A Study on Applicability of Electrical Resistivity Survey in Mechanized Tunnelling Job-sites (TBM 현장에서 전기비저항 탐사의 적용성에 관한 연구)

  • Lee, Kang-Hyun;Park, Jin-Ho;Park, Jiho;Lee, In-Mo
    • Journal of the Korean GEO-environmental Society
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    • v.19 no.3
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    • pp.35-45
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    • 2018
  • It is essential to predict ground conditions ahead of the tunnel face during tunnel excavation. Various studies on tunnel prediction method of the ground condition ahead of the tunnel face have already been done and applied to in mechanized tunnelling job sites. So, all the methods used in mechanized tunnelling to predict ground conditions ahead of the tunnel face were reviewed. A questionnaire surveying Tunnel Boring Machine (TBM) operators with at least 10 years' experience in TBM operation was used to determine the requirements for prediction methods as well as the distance from the tunnel face that must be assessed. Based on the result of questionnaire survey, the most feasible prediction methods applicable to mechanized tunnelling job-sites are suggested. One of the prediction methods applicable to mechanized tunnelling job-sites might be the electrical resistivity survey by utilizing the disk cutter on the cutterhead as electrode. So, in this study, laboratory tests were performed to evaluate the feasibility of prediction method utilizing electrical resistivity survey at mechanized tunnelling job-sites. It was found that geological condition ahead of 0.3 times of TBM's diameter from tunnel face could be predicted.

Geometric Modeling of Electrodes for Injection Mold based on a Solid Modeler (솔리드 모델러를 기반으로 한 사출 금형용 전극 형상의 모델링)

  • 이철수;박광렬;이태경
    • Korean Journal of Computational Design and Engineering
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    • v.6 no.1
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    • pp.9-16
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    • 2001
  • Electrical discharge machining(EDM) is an important process of machining the injection mold. This paper includes efficient design processes of electrodes for EDM. Based on the solid modeler, electrodes can be created by boolean and offset operations with core/cavity models. The built-in offset operations of the solid modeler may occur unexpected results due to the limitations of the solid modeler. We proposed the multi-step and moving-face offset processes in order to apply the EDM clearances. The proposed design processes are implemented with Unigraphics Vl5 API functions and C language and tested on Windows NT 4.0.

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Development of Interface device with EOG Signal (EOG(Electro-oculogram) 신호를 이용한 Interface 장치 개발)

  • Kim, Su-Jong;Ryu, Ho-Sun;Kim, Young-Chol
    • Proceedings of the KIEE Conference
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    • 2006.07d
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    • pp.1821-1823
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    • 2006
  • This paper presents a development of interface device for electro-oculogram(EOG) signal and it's application to the wireless mouse of wearable PC. The interface device is composed of five bio-electrodes for detecting oculomotor motion, several band-pass filters, instrumentation amplifier and a microprocessor. we have first analyzed impedance characteristics between skin and a bio-electrode. since the impedance highly depends on human face, it's magnitude differs from person. this interface device was applied to develop a wireless mouse for wearable PC, as a Bio Machine Interface(BMI). Where in the prompt on PC monitor is controlled by only EOG signals. this system was implemented in a Head Mount Display(HMD) unit. experimental results show the accuracy of above 90%.

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A study on the Corona Electrification Phenomena for Polyvinyl chloride (PVC) (폴리염화비닐(PVC)의 코로나 대전현상에 관한 연구)

  • 박구범;황명환;조기선;이덕출;임헌찬
    • Journal of the Korean Society of Safety
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    • v.7 no.2
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    • pp.57-62
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    • 1992
  • In this thesis, the electrification phenomenon was studied by measurement of charging current and discharging current in polymers when the carriers generated by corona discharge were supplied to the surface of polymers. Corona charging current of PVC, polar and noncrystalline polymer, was larger than that of nonpolar and amorphous polymers. Corona charging current on the specimen of naked upper surface (CIM) was larger than charging current on the specimen of electrode made. Carrier injection differed from interfacial phase of polymer surFace. The transfer phenomenon vaned with chemical structure of polymer and then the polar effect of PVC was remarkable because of large electron affinity of Cl. In the characteristics of discharging current of PVC, the abnormal current was observed. It was supposed that this phenomena presented the trap of injected carriers in PVC and that static electricity phenomenon was generated by trap.

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Derivation and verification of electrical resistivity theory for surrounding ground condition prediction of TBM (TBM 주변 지반상태예측을 위한 전기비저항 이론식 유도 및 검증)

  • Hong, Chang-Ho;Lee, Minhyeong;Cho, Gye-Chun
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.22 no.1
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    • pp.135-144
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    • 2020
  • Since the depth of tunneling with tunnel boring machine (TBM) becomes deeper and deeper, the expense for site investigation for coring and geophysical survey increases to obtain the sufficient accuracy. The tunnel ahead prediction methods have been introduced to overcome this limitation in the stage of site investigation. Probe drilling can obtain the core and borehole images from a borehole. However, the space in TBM for the probe drilling equipment is restricted and the core from probe drilling cannot reflect the whole tunnel face. Seismic methods such as tunnel seismic prediction (TSP) can forecast over 100 m ahead from the tunnel face though the signal is usually generated using the explosive which can affect the stability of segments and backfill grout. Electromagnetic methods such as tunnel electrical resistivity prospecting system (TEPS) offer the exact prediction for a conductive zone such as water-bearing zone. However, the number of electrodes installed for exploration is limited in small diameter TBM and finally the reduction of prediction ranges. In this study, the theoretical equations for the electrical resistivity survey whose electrodes are installed in the face and side of TBM to minimize the installed electrodes on face. The experimental tests were conducted to verify the derived equations.

The PWM Control Which used Microprocessor for Intensity Control of Acid Ion Water (산성이온수 농도제어를 위한 Microprocessor를 이용한 PWM 제어)

  • Kwon, Yunjung;Nam, Sangyep
    • Journal of the Institute of Electronics and Information Engineers
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    • v.50 no.7
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    • pp.269-274
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    • 2013
  • We are used with the alkaline ion water which an application field does to object for drinking water compare with the alkaline ion water which asked ion acid electrolysis so as to be very different. This is used with sterilization disinfection use by residual chlorine in case of strong acidity according to ph intensity, and in case of middle acidity use by washing and face washing, and mix with meal materials in case of weak acidity widely usable in cooking. Acid ion water generates as we electrolyze water. Chlorine gas and sodium hydroxide etc. was generated at electrolysis process, and we have toward sterilizing power. Derelicts such as chlorine, phosphorus, sulfur etc. are gathered from a negative ion, and we make acid ion water to + electrode direction in electrolysis. We used a diaphragm in order to disconnect too acid water and alkaline water. We implemented so that the acid water which it came down to three kinds of PWM voltage to PWM (pulse width modulation) control, and implementation method of ph intensity change authorized ph intensity between weak acidity to electrode in strong acidity as we used Microprocessor, and intensity was adjusted successively by PWM control was generated.

Thermoelectric properties of individual PbTe nanowires grown by a vapor transport method

  • Lee, Seung-Hyun;Jang, So-Young;Lee, Jun-Min;Roh, Jong-Wook;Park, Jeung-Hee;Lee, Woo-Young
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2009.04b
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    • pp.7-7
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    • 2009
  • Lead telluride (PbTe) is a very promising thermoelectric material due to its narrow band gap (0.31 eV at 300 K), face-centered cubic structure and large average excitonic Bohr radius (46 nm) allowing for strong quantum confinement within a large range of size. In this work, we present the thermoelectric properties of individual single-crystalline PbTe nanowires grown by a vapor transport method. A combination of electron beam lithography and a lift-off process was utilized to fabricate inner micron-scaled Cr (5 nm)/Au (130 nm) electrodes of Rn (resistance of a near electrode), Rf (resistance of a far electrode) and a microheater connecting a PbTe nanowire on the grid of points. A plasma etching system was used to remove an oxide layer from the outer surface of the nanowires before the deposition of inner electrodes. The carrier concentration of the nanowire was estimated to be as high as $3.5{\times}10^{19}\;cm^{-3}$. The Seebeck coefficient of an individual PbTe nanowire with a radius of 68 nm was measured to be $S=-72{\mu}V/K$ at room temperature, which is about three times that of bulk PbTe at the same carrier concentration. Our results suggest that PbTe nanowires can be used for high-efficiency thermoelectric devices.

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Synthesis of Carbon Nanotubes Supported PtCo Electrocatalysts and Its Characterization for the Cathode Electrode of PEMFC (탄소나노튜브에 담지된 PtCo 촉매 제조 및 PEMFC Cathode 전극 특성)

  • Jung, Dong-Won;Park, Soon;Kang, Jung-Tak;Kim, Jun-Bom
    • Korean Journal of Materials Research
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    • v.19 no.5
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    • pp.233-239
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    • 2009
  • The electrocatalytic behavior of the PtCo catalyst supported on the multi-walled carbon nanotubes (MWNTs) has been evaluated and compared with commercial Pt/C catalyst in a polymer electrolyte membrane fuel cell(PEMFC). A PtCo/MWNTs electrocatalyst with a Pt:Co atomic ratio of 79:21 was synthesized and applied to a cathode of PEMFC. The structure and morphology of the synthesized PtCo/MWNTs electrocatalysts were characterized by X-ray diffraction and transmission electron microscopy. As a result of the X-ray studies, the crystal structure of a PtCo particle was determined to be a face-centered cubic(FCC) that was the same as the platinum structure. The particle size of PtCo in PtCo/MWNTs and Pt in Pt/C were 2.0 nm and 2.7 nm, respectively, which were calculated by Scherrer's formula from X-ray diffraction data. As a result we concluded that the specific surface activity of PtCo/MWNTs is superior to Pt/C's activity because of its smaller particle size. From the electrochemical impedance measurement, the membrane electrode assembly(MEA) fabricated with PtCo/MWNTs showed smaller anodic and cathodic activation losses than the MEA with Pt/C, although ohmic loss was the same as Pt/C. Finally, from the evaluation of cyclic voltammetry(CV), the unit cell using PtCo/MWNTs as the cathode electrocatalyst showed slightly higher fuel cell performance than the cell with a commercial Pt/C electrocatalyst.

Fabrication of Boron-Doped Activated Carbon for Zinc-Ion Hybrid Supercapacitors (아연-이온 하이브리드 슈퍼커패시터를 위한 보론 도핑된 활성탄의 제조)

  • Lee, Young-Geun;Jang, Haenam;An, Geon-Hyoung
    • Korean Journal of Materials Research
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    • v.30 no.9
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    • pp.458-464
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    • 2020
  • Zinc-ion hybrid supercapacitors (ZICs) have recently been spotlighted as energy storage devices due to their high energy and high power densities. However, despite these merits, ZICs face many challenges related to their cathode materials, activated carbon (AC). AC as a cathode material has restrictive electrical conductivity, which leads to low capacity and lifetime at high current densities. To overcome this demerit, a novel boron (B) doped AC is suggested herein with improved electrical conductivity thanks to B-doping effect. Especially, in order to optimize B-doped AC, amounts of precursors are regulated. The optimized B-doped AC electrode shows a good charge-transfer process and superior electrochemical performance, including high specific capacity of 157.4 mAh g-1 at current density of 0.5 A g-1, high-rate performance with 66.6 mAh g-1 at a current density of 10 A g-1, and remarkable, ultrafast cycling stability (90.7 % after 10,000 cycles at a current density of 5 A g-1). The superior energy storage performance is attributed to the B-doping effect, which leads to an excellent charge-transfer process of the AC cathode. Thus, our strategy can provide a rational design for ultrafast cycling stability of next-generation supercapacitors in the near future.