• 제목/요약/키워드: Band Notch

검색결과 88건 처리시간 0.027초

Design of a UWB Antenna with Band-Notch Function

  • Fanli, Zeng;Lee, Jae-Won;Kim, Chul-Hee;Choi, Jae-Hoon
    • Journal of electromagnetic engineering and science
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    • 제10권1호
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    • pp.39-44
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    • 2010
  • In this paper, a compact wideband antenna with a band-notch function is proposed. It operates over the UWB band with a band-stop characteristic. To increase the impedance bandwidth, a ring-shaped radiator is used. By attaching a circular stub to the ring-shaped radiator, the band-notch performance is obtained. The proposed antenna operates over a frequency range from 2.7 GHz to 11 GHz to satisfy the 10-dB return-loss requirement and provides band-stop performance in the frequency band from 5.15 GHz to 6.1 GHz. Experimental results reveal that the proposed antenna exhibits good radiation performance and is suitable for UWB applications.

WLAN 노치 대역 특성을 갖는 UWB 육각형 패치 안테나 (Design of UWB Hexagon Patch Antenna with WLAN Notch Band Characteristic)

  • 김영진
    • 한국통신학회논문지
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    • 제42권1호
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    • pp.286-290
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    • 2017
  • 본 논문에서는 노치 대역 특성을 갖는 UWB 육각형 패치 안테나를 제안하였다. 노치 대역은 WLAN의 5.15 ~ 5.85 GHz 대역이며, 원형 슬릿을 패치에 삽입하여 유도하였다. 제안된 안테나의 임피던스 대역폭은 3.1 ~ 11.85 GHz 대역으로 UWB 통신 시스템의 대역폭을 만족하였으며, 5.2 ~ 5.8 GHz 대역에서 노치 대역 특성을 보였다. 안테나의 방사패턴은 XZ-plane에서 $0^{\circ}$$180^{\circ}$에서 지향성의 패턴을 보이며, YX-plane에서 무지향성 패턴을 보인다. 또한, 주파수가 증가할수록 안테나 이득도 증가하며, 노치 대역 구간에서는 안테나 이득이 감소하였다. 제안된 안테나는 두께 1.62 mm, 손실 탄젠트 0.0035, 유전율 4.5를 갖는 TRF-45 기판에 설계되었으며, 설계는 Ansys사의 HFSS를 사용하였다.

A Compact UWB Planar Antenna with WLAN Band-Notch Characteristic

  • Park, Dong-Kook;Kwak, Byung-Haw
    • Journal of Advanced Marine Engineering and Technology
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    • 제31권7호
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    • pp.857-862
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    • 2007
  • A novel compact ultra wideband(UWB) antenna for UWB application is proposed in this paper. The proposed antenna with $22mm{\times}26mm{\times}1.6mm$ covers the entire UWB bandwidth and has band notch characteristic for the frequency band of $5.15{\sim}5.825GHz$ limited by WLAN. The antenna has a concaved ground plane and staircase shape patch to achieve the wide bandwidth, and has an U shape slot with $\lambda/4$ length to notch the band. The return loss and group delay of the proposed antenna are measured.

Controllable Band-Notched Slot Antenna for UWB Communication Systems

  • Kueathaweekun, Weerathep;Anantrasirichai, Noppin;Benjangkaprasert, Chawalit;Nakasuwan, Jintana;Wakabayashi, Toshio
    • ETRI Journal
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    • 제34권5호
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    • pp.674-683
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    • 2012
  • We propose a slot antenna consisting of a rectangular slot on the ground plane, fed by a microstrip line with a rectangular-ring-shaped tuning stub that can be deployed in ultra-wideband (UWB) communication systems to avoid interference with wireless local area network (WLAN) communication. Our antenna can achieve a single band-notched property from the 5 GHz frequency to the 6 GHz frequency owing to a controllable band notch that uses L- and J-shaped parasitic elements. The antenna characteristics can be modified to tune the band-notched property (4 GHz to 5 GHz or 6 GHz to 7 GHz) and the bandwidth of the band notch (1 GHz to 2 GHz). Furthermore, the shifted notch with enhanced width of the band notch from 1 GHz to 1.5 GHz is described in this paper. The UWB slot antenna and L- and J-shaped parasitic elements also provide the band-rejection function for reference in the WiMAX (3.5 GHz) and WLAN (5 GHz to 6 GHz) regions of the spectrum. Experiment results evidence the return loss performance, radiation patterns, and antenna gains at different operational frequencies.

A Fast Algorithm for Real-time Adaptive Notch Filtering

  • Kim, Haeng-Gihl
    • Journal of information and communication convergence engineering
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    • 제1권4호
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    • pp.189-193
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    • 2003
  • A new algorithm is presented for adaptive notch filtering of narrow band or sine signals for embedded among broad band noise. The notch filter is implemented as a constrained infinite impulse response filter with a minimal number of parameters, Based on the recursive prediction error (RPE) method, the algorithm has the advantages of the fast convergence, accurate results and initial estimate of filter coefficient and its covariance is revealed. A convergence criterion is also developed. By using the information of the noise-to-signal power, the algorithm can self-adjust its initial filter coefficient estimate and its covariance to ensure convergence.

주파수 대역 저지 특성을 갖는 초광대역 안테나 (Ultra-Wideband Antenna Having a Frequency Band Notch Characteristic)

  • 최우영;정지학;정경호;최재훈
    • 한국전자파학회논문지
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    • 제16권2호
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    • pp.199-203
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    • 2005
  • 본 논문에서는 Ultra-Wideband(UWB)통신을 위한 새로운 소형 주파수 대역 저지 안테나를 설계 및 제작한다. 설계된 안테나는 초광대역 특성을 만족하면서, IEEE 802.11a와 HIPERLAN/2에 의해 사용이 제한된 $5.15\~5.825\;GHz$에서 주파수 대역 저지 특성을 갖는다. 안테나의 광대역 특성을 얻기 위해서 요철 모양의 접지면을 구현하였고, 또한 제한된 주파수 대역에서 저지 특성을 갖기 위해 U모양의 얇은 슬랏을 사각형 복사 패치 위에 구현 하였다. 제작된 안테나는 저지 대역인 $4.92\~5.866\;GHz$을 제외하고 $2.95\~11.7\;GHz$ 대역에서 정재파비 2 이하를 만족하는 광대역 특성을 나타낸다.

고차 대역통과 및 대역저지 타원 필터의 최대 동적구역을 실현하기 위한 새로운 접근법 (A New Approach to the Maximum Dynamic Range of the High Order Band-Pass and Band-Reject Elliptic Filters)

  • 박민식;이문호;김동용
    • 한국통신학회논문지
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    • 제10권5호
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    • pp.250-257
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    • 1985
  • 고차 필터는 각 2차 함수를 종속연결함으로써 실현화한다. 본 논문에서는 다원함수의 고차 대여통과와 대역서지 필터 실현화에 있어서 전 동적범위를 향상시키기 위한 방법을 제시하였으며 고역통과 놋치, 저역통과 놋치 그리고 대칭 놋치등 각 2차함수들의 최적배열을 다원함수의 대역통과와 대역저지 필터에 적용하였다.

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노치 기능을 가지는 반원 형태의 UWB 안테나 (A planar half-disk UWB antennas having a notch function)

  • 이효경;장미희;이윤정;박종권
    • 한국전자파학회:학술대회논문집
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    • 한국전자파학회 2005년도 종합학술발표회 논문집 Vol.15 No.1
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    • pp.205-210
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    • 2005
  • In this paper, a planar half-circle shape ultra-wideband(UWB) antenna fed by CPW is designed, fabricated and measured for UWB communications. Within the UWB band(3.1 GHz $\sim$ 10.6 GHz), 5.15 GHz $\sim$ 5.825 GHz frequency band is used by IEEE 802.lla WLAN applications. It may be necessary to notch out this band to avoid interference with IEEE 802.lla WLAN. Therefore, we have proposed three kinds of UWB antennas having a notch function, such as a rectangular slot, a hat-shaped slot, a circle-shaped slot. The notch frequency of the proposed antenna can be adjusted by controlling the slot length or slot width. From the measured results, the proposed antennas show a good gain flatness except the IEEE 802.lla WLAN frequency band and have a reasonable agreement with simulated results.

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Design of a Multiple Band-notched Wideband Circular Slot Antenna with Arc-shaped Slots

  • Yeo, Junho;Park, Cheol-Young
    • 한국산업정보학회논문지
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    • 제18권1호
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    • pp.11-17
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    • 2013
  • A design method to achieve multiple band-rejection characteristics in a wideband circular slot antenna is presented. First, a wideband circular slot antenna fed by a coplanar waveguide is designed to operate in the frequency range between 2.3 and 11GHz, which covers WLAN, WiBro, WiMAX, and UWB frequency bands. Next, resonant frequency variations of rejection bands are examined with respect to different slot locations and lengths when slots are inserted on the ground conductor and the circular patch of the antenna. When arc-shaped slots are placed close to the circular transition from a feeding part, multiple notch bands are obtained. In this case, a half of the guided wavelength of the first notch band corresponds to the slot length and other notch bands are integer-multiple of the first band. Single notch band can be obtained when the slot is located off the transition part. Based on this study, a wideband circular slot antenna with five band-rejection frequency bands at 2.45, 3.5, 4.9, 7.35, and 9.8GHz is designed and fabricated. The first arc-shaped slots are located in the ground conductor close to the circular transition from a feeding part to generate notch bands at 2.45, 4.9, 7.35, and 9.8GHz, while the second slot for 3.73 GHz is placed on top side in the circular patch. The proposed design method is validated by good agreement between the simulated and measured results.

A Compact LTCC Dual-Band WLAN Filter using Two Notch Resonators

  • Park, Jun-Hwan;Cheon, Seong-Jong;Park, Jae-Yeong
    • Journal of Electrical Engineering and Technology
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    • 제8권1호
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    • pp.168-175
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    • 2013
  • This paper presents compact dual-band WLAN filter and filter module. They were developed by embedding all of the passive lumped elements into a LTCC substrate. In order to reduce the size/volume of the filter and avoid EM parasitic couplings between the passive elements, the proposed filter was designed using a 3rd order Chebyshev circuit topology and J-inverter transformation technology. The 3rd order Chebyshev bandpass filter was firstly designed for the band-selection of the 802.11b and was then transformed using finite transmission zeros technologies. Finally, the dual-band filter was realized by adding two notch resonators to the 802.11b filter circuit for the band-selection of the 802.11a/g. The maximum insertion losses in the lower and higher passbands were better than 2.0 and 1.3 dB with minimum return losses of 15 and 14 dB, respectively. Furthermore, the filter was integrated with a diplexer to clearly split the signals between 2 and 5 GHz. The maximum insertion and minimum return losses of the fabricated module were 2.2 and 14 dB at 2.4 - 2.5 GHz, and 1.6 and 19 dB at 5.15 - 5.85 GHz, respectively. The overall volume of the fabricated filter was $2.7{\times}2.3{\times}0.59mm^3$.