• Title/Summary/Keyword: Return loss

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A 3-stage Wideband Q-band Monolithic Amplifier for WLAN

  • Kang, Dong-Min;Lee, Jin-Hee;Yoon, Hyung-Sup;Shim, Jae-Yeob;Lee, Kyung-Ho
    • Proceedings of the IEEK Conference
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    • 2002.07b
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    • pp.1054-1057
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    • 2002
  • The design and fabrication of Q-band 3-stage monolithic microwave integrated circuit(MMIC) amplifier for WLAN are presented using 0.2$\square$ AIGaAs/lnGaAs/GaAs pseudomorphic high electron mobility transistor (PHEMT). In each stage of the MMIC, a negative feedback is used for both broadband and good stability. The measurement results are achieved as an input return loss under -4dB, an output return loss under -10dB, a gain of 14dB, and a PldB of 17dBm at Q-band(36~44GHz). These results closely match with design results. The chip size is 2.8${\times}$1.3mm$^2$. This MMIC amplifier will be used as the unit cell to develop millimeter-wave transmitters for use in wideband wireless LAN systems.

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Design and manufacture of Bow-Tie antenna for wireless LAN (무선 LAN용 Bow-Tie안테나의 설계 및 제작)

  • Kim, Jin;Park, Kyoung-Soo;Lee, Hee-Bock;Lim, Young-Hwan;Ko, Young-Ho
    • Proceedings of the Korea Electromagnetic Engineering Society Conference
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    • 2000.11a
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    • pp.341-344
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    • 2000
  • There are many researches to increase bandwidth of the microstrip patch antenna for wireless LAN. In spite of broad bandwidth, Bow-Tie microstrip patch antenna, broadband microstrip patch antenna, has disadvantages that are low gain and big size. In this paper, stacked Bow-Tie microstrip patch antenna for wireless LAN is designed in 5.725~5.825GHz band. This antenna has characteristics that are broadband bandwidth, high gain and small size compared with microstrip patch antenna. In simulated results, the return loss is -34.2dB at 5.78GHz and bandwidth is 11.345% for VSWR is 2:1 and 7.75% for VSWR is 1.5:1. In measured results, the return loss is -38-45dB at 5.78GHz and bandwidth is 13% for VSWR is 2:1 and 5.6% for VSWR is 1.5:1.

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Design of a New Harmonic Noise Frequency Filtering Down-Converter in InGaP/GaAs HBT Process

  • Wang, Cong;Yoon, Jae-Ho;Kim, Nam-Young
    • Journal of electromagnetic engineering and science
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    • v.9 no.2
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    • pp.98-104
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    • 2009
  • An InGaP/GaAs MMIC LC VCO designed with Harmonic Noise Frequency Filtering(HNFF) technique is presented. In this VCO, internal inductance is found to lower the phase noise, based on an analytic understanding of phase noise. This VCO directly drives the on-chip double balanced mixer to convert RF carrier to IF frequency through local oscillator. Furthermore, final power performance is improved by output amplifier. This paper presents the design for a 1.721 GHz enhanced LC VCO, high power double balance mixer, and output amplifier that have been designed to optimize low phase noise and high output power. The presented asymmetric inductance tank(AIT) VCO exhibited a phase noise of -133.96 dBc/Hz at 1 MHz offset and a tuning range from 1.46 GHz to 1.721 GHz. In measurement, on-chip down-converter shows a third-order input intercept point(IIP3) of 12.55 dBm, a third-order output intercept point(OIP3) of 21.45 dBm, an RF return loss of -31 dB, and an IF return loss of -26 dB. The RF-IF isolation is -57 dB. Also, a conversion gain is 8.9 dB through output amplifier. The total on-chip down-converter is implanted in 2.56${\times}$1.07 mm$^2$ of chip area.

Ring type non-invasive glucose sensor (민감도가 향상된 링 형태의 비 침습식 혈당 센서)

  • Lee, Ki-Hyuck;Lee, Kook-Joo;Lee, Dong-Ho;Kim, Moon-Il;Park, Gil-Hong
    • Journal of IKEEE
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    • v.11 no.4
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    • pp.293-296
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    • 2007
  • A novel sensitive and non-invasive ring-type glucose probe was designed and measured. The magnitude and phase of return loss change with different concentration of the glucose solution inside the loop structure. Ring type probe is more advantageous than open ended probe to measure electrical characteristics under the skin. The maximum difference of return loss was 0.94 for the concentration difference of 0% and 20% at 285MHz and more sensitive in low frequency.

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Tx/Rx Isolation enhancement of the Planar Patch Antenna at 5.8GHz ISM band (5.8GHz ISM 대역 평면안테나의 송수신분리도 개선)

  • Yun, Gi-Ho
    • Journal of IKEEE
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    • v.17 no.3
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    • pp.385-392
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    • 2013
  • In this paper, microstrip antenna to enhance the isolation between transmitting port and receiving port under the proximity objects is proposed, and applied to the Doppler radar sensor working at 5.8GHz ISM band which detects vital signals of a human body. Two 3dB quadrature hybrids are placed around radiation patch to form a balanced structure between transmitting port and receiving port, such that it consistently provides enhanced Tx/Rx isolation and excellent return loss over nearby objects. It is theoretically analyzed and simulated to verify the validity of the proposed application. The fabricated antenna that is 2mm away from the human body, has more than 16 dB return loss and at least 30dB isolation over ISM frequency band of 5.8GHz.

A Superconducting $Y_1Ba_2Cu_3O_{7-\delta}$ Square Spiral Microstrip Antenna

  • Jung, Sung-H.;Song, Ki-Y.
    • Progress in Superconductivity
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    • v.2 no.1
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    • pp.51-55
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    • 2000
  • A $Y_1Ba_2Cu_3O_{7-\delta}$ square spiral microstrip antenna (YBCO antenna) was epitaxially grown on a $LaAlO_3$ substrate by laser ablation. Also fabricated was a gold square spiral microstrip antenna (gold antenna) having the same structure as that of the YBCO antenna in order to compare the properties of both antennas. Both the YBCO antenna and the gold antenna were operated in Ku (12-18 GHz) band, and their properties such as the return loss, SWR, power gain, and radiation patterns were investigated at 77 K. The return loss below -10 dB was obtained in two frequency ranges, i.e., 14.05-14.90 GHz, and 16-18 GHz for the YBCO antenna at 77 K (YBCO superconducting antenna), and in the frequency range of 15.05-17.60 GHz for the gold antenna at 77 K. The SWR bandwidths are 0.85 GHz and 2 GHz for the YBCO superconducting antenna, and 2.55 GHz for the gold antenna at 77 K. The gain improvement of the superconducting YBCO antenna over the gold antenna at 77 K was about 10 dB in the frequency range of 16 GHz to 18 GHz. The radiation patterns show the YBCO superconducting antenna has the omni-directional property of a spiral antenna.

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A Study on the Microstrip Patch Antenna Using FDTD Method (유한 차분 시간법을 이용한 마이크로스트립 패치 안테나에 관한 연구)

  • 장용웅;박상규;신철재
    • Journal of Broadcast Engineering
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    • v.2 no.1
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    • pp.1-7
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    • 1997
  • In this paper, a microstrip patch antenna was analyzed by using FDTD method. Firstly, the electric field in the microstrip patch antenna was obtained by approximating a Maxwell's equation to a finite difference equation by means of Yee's algorithm. In this case, Mur's 1st approximation and dispersive boundary condition(BBC) were applied to an absorbing boundary condition. We also analyzed a single microstrip patch antenna by using the FDTD method, then calculating the propagative process in the wave of a return loss. Also, as the result that FDTD was applied to 2-array antenna designed to increase the gain of antenna, the measured results was in relatively good accordance with the values calculated by the FDTD method. The calculated impedance, return loss and VSWR were comparatively good. And these results were In relatively good accordance with the measured values.

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A Study on the Characteristics of the Corrugated Feed-Horn Antenna Using FDTD Method (FDTD 방법을 이용한 Corrugated Feed-Horn Antenna 의 특성에 대한 연구)

  • 박혁균;성혁제;손병문;구연건
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.11 no.4
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    • pp.619-626
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    • 2000
  • The electromagnetic fields of the corrugated annular feed-horn antenna have been analyzed exactly by using the finite-difference time-domain (FDTD) technique. The radiation pattern and return loss characteristics of the antenna were obtained as a function of the impedance of feeding coaxial line at 11.8GHz. The return loss was determined to be less than -25dB at 30$\Omega$. It was confirmed that the phase error is less compared to that of the antenna without corrugation, but the directivity of the radiation pattern needs to be improved.

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Design and Implementation of the GHz-Band Wide(6 GHz~18 GHz) Linear Equalizer (GHz-대역폭(6 GHz~18 GHz) 선형 등화기의 설계 및 구현)

  • Kahng, Sung-Tek;Ju, Jeong-Ho;Moon, Won-Gyu
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.18 no.2 s.117
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    • pp.105-110
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    • 2007
  • In this paper, a microstripline-type linear amplitude equalizer is implemented to achieve the linearity of the slope of the amplitude over $6{\sim}18$ GHz with resistors inserted between their immediate pairs of a TX-line and a stub. The values of resistors and stubs are explored to have the optimal linear slope and return loss performance. Experiments reveal the slope of around 9 dB variation and return loss of less than 10 dB desired over $6{\sim}18$ GHz and validate the design methodology.

Design and Characterization of HTS antenna array with sequential rotation array (순차적 순환배열을 이용한 고온초전도 배열 안테나 설계 및 특성해석)

  • Chung, D.C.;Hwang, J.S.;Kim, Y.M.;Choi, H.S.
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2006.05a
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    • pp.77-81
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    • 2006
  • We report the performance of a four-element, 11.67 GHz, high-Tc superconducting (HTS) microstrip antenna array with corporate feed network and circular polarization for direct broadcasting satellite (DBS) system. Our array antennas were designed and built on a 0.5 mm thick MgO substrate. To compare the superconducting antennas with normal conducting counterpart, One antenna pattern was fabricated from gold thin film, and a second pattern was fabricated from $YBa_2Cu_3O_{7-x}$ (YBCO) superconducting thin film. To improve the axial ratio of circularly polarized arrays, sequential rotation technique were used. Efficiency, radiation pattern, return loss and bandwidth were measured for both antennas at room temperature and at cryogenic temperature. The array produced good circular polarization, and the gain of the array at 77 K, relative to a copper array at room temperature was approximately 1.54 dB. The measured return loss of our HTS antenna array was 35.79 dB at the resonant frequency of 11.67 GHz and The total effective bandwidth was about 3.4 %. The results showed that high-temperature superconductors, when used in microstrip arrays, improved the efficiency of the HTS antenna array for circularly polarization.

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