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Higher-order improved dendriform fractal ultra-wideband trapped wave antenna with load hole

A notch antenna and loading hole technology, applied in antenna coupling, antenna grounding device, radiating element structure and other directions, can solve the problem of less research on the band resistance performance of C-band communication systems, failure to accurately suppress frequency bands, and blindness of antenna notch frequency bands. and other problems, to achieve the effect of satisfying ultra-wideband communication, simple structure, and suppressing interference frequency bands

Inactive Publication Date: 2015-03-04
XIAMEN UNIV
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  • Claims
  • Application Information

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Problems solved by technology

[0003] The research on ultra-wideband antennas has achieved a lot of results, but at present, the research is mainly on the band-stop performance of ultra-wideband antennas in the WLAN802. Resistance performance, and the notch frequency band of the antenna is relatively blind, and it cannot accurately suppress unnecessary frequency bands, which affects the use of other frequency bands

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  • Higher-order improved dendriform fractal ultra-wideband trapped wave antenna with load hole
  • Higher-order improved dendriform fractal ultra-wideband trapped wave antenna with load hole
  • Higher-order improved dendriform fractal ultra-wideband trapped wave antenna with load hole

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Embodiment Construction

[0029] The present invention will be further described below in conjunction with the embodiments and accompanying drawings.

[0030] see figure 1 and figure 2 ,exist figure 1 In , mark 1 is a dielectric substrate with a dielectric constant of 3.2 and a tangent loss of 0.002. Its length is 40mm, width is 32mm, and height is 1.5mm. The upper and lower surfaces of the dielectric substrate are covered with an upper surface conductive layer and a lower surface conductive layer (made of copper), and the upper surface conductive layer 2 is a third-order T-shaped tree-like fractal patch array loaded with circular array holes 3 The copper clad layer, in which the horizontal width and vertical length of the first-order T-shaped vertical trunk are 2.8±0.6mm and 8±1mm respectively, and the horizontal length and vertical width of the horizontal branches are 18±2mm and 2mm± 0.2mm; A T-shaped structure is added to both ends of the first-order T-shaped horizontal branches to form a second...

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Abstract

The invention discloses a higher-order improved dendriform fractal ultra-wideband trapped wave antenna with a load hole and relates to an ultra-wideband antenna. The antenna is provided with a medium substrate and an SMA interface, wherein an upper surface conducting layer is paved on the upper surface of the medium substrate; a higher-order dendriform fractal patch array loaded with a round array hole is arranged on the upper surface conducting layer and is formed by adding two metal sides to each top end of a higher-order T-shaped dendriform fractal patch; a round hole is added to each of the two ends and the middle of a higher-order T-shaped dendriform fractal transverse tree branch; the round holes are the same in size and are symmetrically added; the diameter of the round holes is 80 percent of the width of the T-shaped tree branch; the round holes are used for generating electromagnetic coupling with the higher-order T-shaped dendriform array; a lower surface conducting layer is paved on the lower surface of the medium substrate; a rectangular slot structure is arranged in the middle of the lower surface conducting layer; and the SMA interface is connected with the upper surface conducting layer and the lower surface conducting layer of the medium substrate. The antenna is appropriate in size, simple in structure, large in impedance bandwidth, low in return loss and high in gain, and effectively prevents C wave band.

Description

technical field [0001] The invention relates to an ultra-wideband antenna, in particular to a high-order improved tree-shaped fractal ultra-wideband notch antenna suitable for a C-band ultra-wideband communication system. Background technique [0002] Ultra-wideband (Ultra-WideBand, UWB) technology is one of the hot topics in current research, especially after the FCC specified the 3.1-10.6GHz frequency band as a civil frequency band in 2002, it has attracted extensive attention from researchers at home and abroad. UWB technology is increasingly showing its superior performance in many fields such as communications, military applications, and radar systems, and has broad application prospects. Since the 1990s, in order to adapt to the development of wireless communication technology, the research trend of UWB antennas has been planarization and miniaturization, and some new UWB planar antennas have emerged continuously. At the same time, the UWB system still has compatibili...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01Q1/38H01Q1/48H01Q1/52
Inventor 游佰强迟语寒黄天赠周建华
Owner XIAMEN UNIV
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