• Title/Summary/Keyword: Input Impedance

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Computation of Underwater Acoustic Field Using Acoustic Impedance as an Input Parameter for the Ocean Bottom (음향 임피던스를 해저면 입력인자로 이용하는 수중음장 계산)

  • Lee Seongwook;Oh Taekhwan;Na Jungyul;Lee Phil-Ho;Yoon Jong Rak
    • The Journal of the Acoustical Society of Korea
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    • v.25 no.1
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    • pp.1-6
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    • 2006
  • The Possibility of using acoustic impedance as an input Parameter for computation of underwater acoustic field in shallow waters was investigated. Analysis of the acoustic reflection from the ocean bottom with shear wave effect showed that acoustic impedances below the critical grazing angle have nearly angle-independent property and could be approximated with a single value of near-grazing impedance $Z_0$. Computations of the Propagation loss based on the concept of 'effective depth' indicate that near-grazing bottom acoustic impedances could be used as an input parameter for simulation of the acoustic fields in shallow waters.

A Study on the Oscillation Region and the Variation of Negative Resistance in Transistor Oscillators (트란지스터 발진기의 발진영역과 부저항의 변화에 관한 연구)

  • 이종각
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.8 no.3
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    • pp.15-26
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    • 1971
  • The paper presents a new method for analyzing oscillation regions of transistor oscillators. In transistor feedback oscillators oscillation region appears as a circle in feedback impedance complex plane. When the resistive component of feedback impedance is fixed and the reactive component of feedback impedance is varied or vice versa, the locus of maximum negative output conductance becomes hyperbola. In transistor crystal oscillators oscillation region is determined by two circles which make real part and imaginary part of input impedance zero in load impedance complex plane. When the resistive compoment of load impedance is fixed and the reactive colnponent of load impedance is varied or vice versa, the loci of maximum or minimum resistive component of input impedance become straight lines.

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Impedance Tuning and Matching Characteristics of UHF RFID Tag for Increased Reading Range (인식거리 향상을 위한 UHF 대역 RFID 태그 임피던스 정합 설계)

  • Lee, Jong-Wook;Kwon, Hong-Il;Lee, Bom-Son
    • Proceedings of the Korea Electromagnetic Engineering Society Conference
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    • 2005.11a
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    • pp.279-284
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    • 2005
  • We investigated the impedance matching characteristics of UHF-band RFID tag antenna and tag chip for increased reading range. A voltage multiplier designed using 0.4 $\mu$m zero-$V_T$ MOSFET showed that DC output voltage of about 2 V can be obtained using standard CMOS process. The input impedance of the voltage multiplier was examined to achieve impedance matching to the RFID tag antenna using analytical and numerical approaches. The input impedance of the voltage multiplier could be varied in a wide range by selecting the size of MOSFET and the number of multiplying stages, and thus can be impedance matched to a tag antenna in presence of other tag circuit blocks. A meander line inductively-coupled RFID tag antenna operating at UHF band also shows the feasibility of impedance matching to tile RFID tag chip.

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Improved Impedance Matching of Dual-Frequency Microstrip Printed-Dipole Antenna with Conductor Back

  • Tangjitjesada, M.;Anantrasirichai, N.;Wakabayashi, T.
    • 제어로봇시스템학회:학술대회논문집
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    • 2003.10a
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    • pp.1668-1671
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    • 2003
  • A novel dual-frequency microstrip printed-dipole antenna operating at 5 GHz and 10 GHz is presented. This antenna is designed for wireless and mobile communication. The balance step coplanar strip is used to be a transmission line at the center of dipole with matching impedance at 50 ohm. Using the conductor strip align on the other side of antenna and adjust the width of step coplanar strip line to improved input impedance matching. By modification for matching impedance of dual frequency antenna are not affected to the radiation patterns. The Finite Difference Time Domain (FDTD) technique is applying to analyze the basic characteristic properties such as $S_{11}$ , input impedance , VSWR and radiation patterns. And these parameters are discussed. The analyze problem space are $51{\times}197{\times}175$ cells and cell dimension are ${\Delta}x=0.3\;mm$ and ${\Delta}y={\Delta}z=0.15\;mm$.

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Effect of input current patterns on dynamic electrical impedance imaging of two-phase flows (이상유동의 동적 전기 임피던스 가시화에 대한 전류패턴의 영향)

  • Chung, Soon-Il;ljaz, U.Z.;Khambampati, A.K.;Kim, Sin;Kim, Kyung-Youn;Kim, Min-Chan
    • 유체기계공업학회:학술대회논문집
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    • 2006.08a
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    • pp.475-478
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    • 2006
  • In electrical impedance tomography (EIT) an array of electrodes is attached on the boundary of an object and small alternating currents are injected through these electrodes, and then the resulting voltages are measured. An estimation for the cross-sectional resistivity distribution in the object is obtained by using these current and voltage data in a nondestructive manner. In this paper, the electrical impedance imaging of two-phase flows undergoing rapid transient is considered with a special emphasis on the effect of the current pattern on the image reconstruction. The trigonometric current pattern, which is commonly used in the conventional static electrical impedance imaging, shows poor performance in case of the dynamic imaging considered in this work. Extensive numerical experiments are conducted with various kinds of current patterns and their effects on the image reconstruction performance are examined.

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New bootstrapping circuit and transmission line modeling for bioimpedance measurement (생체임피던스 측정을 위한 새로운 부트스트래핑 회로와 전송선로 모델링)

  • Kim, Young-Feel;Kwoon, Suck-Young;Hwang, In-Duk
    • Proceedings of the KIEE Conference
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    • 2003.11b
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    • pp.179-182
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    • 2003
  • A simulation on bootstrapping circuit has been performed by modelling a coaxial cable as a transmission line. It is shown that the bootstrapping circuit could be unstable due to the transmission line effect though an ideal amplifier is used. While the conventional bootstrapping circuit does not cancel the input capacitance of the input buffer, a new bootstrapping circuit that cancels input capacitance of the input buffer has been proposed. The proposed bootstrapping circuit consists of the input buffer of which gam is larger than 1 and a feedback resistor to control the loop gain. The proposed bootstrapping circuit has higher input impedance than that of the conventional circuit.

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Impedance Characteristics of Overhead Medium-Voltage Power lines for Power Line Communication (전력선통신을 위한 고압 배전선로의 임피던스 특성)

  • Chun Dong-wan;Park Young-jin;Kim Kwan-ho;Shin Chull-chai
    • Journal of the Institute of Electronics Engineers of Korea TC
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    • v.42 no.11
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    • pp.67-78
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    • 2005
  • In this paper, impedance characteristics of overhead medium-voltage (MV) power line for power line communication (PLC) is analyzed. For analysis, a two-port equivalent network model of MV power lines is derived. By applying the equivalent model and basic transmission line theory, input impedance at the signal induction part is calculated. And also calculated input impedance of power line itself that the medium voltage coupler and coaxial cable effect are removed. For verification, impedance of power lines is measured at a test field for an MV PLC. The results show that impedance of MV power line itself is between $200\;{\Omega}\;and\;300\;{\Omega}$ and converges to a half of their characteristic impedance with increasing frequency. And also measured data is very similar to calculated data.

Analysis of the Periodic Microstrip Phased Array Antenna (주기적 마이크로스트립 위상 배열의 특성 해석)

  • 조영수;김동현이상설
    • Proceedings of the IEEK Conference
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    • 1998.10a
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    • pp.335-338
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    • 1998
  • This paper presents calculated results for the infinite phased arrays of the probe-fed rectagualr microstrip patches. A numerical model that is based on a rigorous Green's function and galerkin solutionsis is described. In an arbitrary scan plane, the input impedance and the input reflection coefficient versus the scand angle are calculated. The effects of substrate parameters on the phased arry antenna are considered. The scan blindness phenomenon due to the surface wave is observed and the input impedance bandwidth in the arbitrary scan plane is calculated.

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Numerical Calculation for Input Impedance of a Conductor Located in the Loss Media (손실 매질에 위치한 도체의 입력임피던스 수치계산)

  • Ahn, Chang-Hwan
    • Journal of the Institute of Electronics and Information Engineers
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    • v.50 no.3
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    • pp.230-236
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    • 2013
  • This paper presents the numerical calculation for input impedance of a conductor located in the loss media by using the program with MATLAB. The input impedances of the conductor were numerically calculated with the moment of method. To increase an accuracy of results, the Galerkin's method which both the basic function and the weight function are the triangle function was applied. And by applying the modified image method, image sources of the conductor located in air were considered. According to the comparison between the current distributions at the conductor which were calculated with the MATLAB program and the NEC program, the reliability of the self-made program with MATLAB was obtained. In case of the conductor located in soil, which length are 1 m and 2 m, the input impedance were simulated as a function of both a conductivity and a frequency. Finally, input impedances and phases of the conductor located in soil were measured, and those results were compared with simulated results which calculated under the same conditions.

New negative capacitance front-end for bioimpedance measurements (생체 임피던스 측정을 위한 새로운 네가티브 커패시턴스 프론트 엔드)

  • 권석영;김영필;황인덕
    • Proceedings of the IEEK Conference
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    • 2003.07c
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    • pp.2753-2756
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    • 2003
  • A convenient, tunable loop-gain negative impedance circuit that increases input impedance of a front-end in a bioimpedance measurement has been proposed. Since the proposed circuit comprises wide-band operational amplifiers, selecting operational amplifiers is easy, while an operational amplifier of proper bandwidth should be chosen to use conventional circuit. Also, since loop-gain can be controlled by a feedback resistor connected serially with a feedback capacitor, loop-gain is tunable with a potentiometer. The input impedance of the proposed circuit is two times larger than that of the conventional circuit. Furthermore, closed loop phase response of the proposed circuit is better than that of the conventional circuit or without a negative capacitance circuit. The implemeted, proposed circuit showed stable operation and a zero input capacitance.

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