Design of Low-Profile Dual-Band Printed Quadrifilar Helix Antenna With Wide Beamwidth for UAV GPS Applications

Liu, Hongmei; Shi, Mingke; Wang, Zhongbao

doi:10.1109/access.2020.3018906

Cited by 16 publications

(8 citation statements)

References 21 publications

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“…Table 1 compares the proposed QHA and previously reported QHAs: although a few reported QHAs achieve high performance, they are of large sizes 12,16‐18 . Certain reported QHAs are compact, yet their frequency ratios and sizes cannot satisfy the required parameters 10,14,15,19 . Loading IUSHSs and the cross‐shape strip enables the proposed antenna to achieve high broadside gain, small AR, and compact electrical size with a smaller frequency ratio.…”

Section: Discussionmentioning

confidence: 98%

“…12,[16][17][18] Certain reported QHAs are compact, yet their frequency ratios and sizes cannot satisfy the required parameters. 10,14,15,19 Loading IUSHSs and the cross-shape strip enables the proposed antenna to achieve high broadside gain, small AR, and compact electrical size with a smaller frequency ratio. Furthermore, it provides costeffective solutions to spaceborne antennas by avoiding dependence on space-specific dielectric materials to realize miniaturization.…”

Section: Antenna Measurementsmentioning

confidence: 99%

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Spaceborne miniaturized UHF dual band helix antenna with a small frequency ratio

Xue

Liao

Zhu³

et al. 2021

Micro & Optical Tech Letters

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This study proposes a novel miniaturized circularly polarized (CP) ultrahigh frequency (UHF) quadrifilar helix antenna for spaceborne applications. The dual‐band operation is realized using four inverted‐U shaped helical strips (IUSHSs) that are rotated and alternately arranged on the four faces of a hollow polyimide cuboid in a sequential rotation manner, which effectively reduces the size of the antenna. Furthermore, the four IUSHSs are connected by a cross‐shape strip at the top of the antenna to control the dual resonant frequencies, resulting in a small dual‐band frequency ratio. The proposed antenna is both lightweight and robust when compared with the conventional miniaturized CP antennas operating at similar bands with similar performance. In particular, its compact radiator provides effective miniaturized spaceborne solution without the need of high‐dielectric coefficient materials. A device for spaceborne application that operates at 402/505 MHz is designed, fabricated, measured, and in‐orbit tested with a weight of 651 g and an effective size of 0.161 × 0.161 × 0.228 λ3402MHz (λ402MHz is the wavelength at 402 MHz). The measured gain and axial ratio of the proposed antenna are better than 5.32 dBi and 2.18 dB, respectively, within 2 and 12 MHz bandwidth for the two bands. The test results proved that the methods used to design the proposed antenna are effective.

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Section: Discussionmentioning

confidence: 98%

Section: Antenna Measurementsmentioning

confidence: 99%

Spaceborne miniaturized UHF dual band helix antenna with a small frequency ratio

Xue

Liao

Zhu³

et al. 2021

Micro & Optical Tech Letters

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“…Several microstrip patch antenna are presented in the literature for GPS applications [15][16][17][18][19][20][21][22][23]. [17] proposed an antenna for a GPS system based on an open-loop resonator, a split rectangular slot, and a stub at the non-radiating edge to generate three operating bands.…”

Section: Introductionmentioning

confidence: 99%

Design and Study of a Microstrip Patch Antenna for GPS Application

Ayad¹,

Saoudi²,

Alharbi³

et al. 2022

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A microstrip patch antenna for Global Positioning System (GPS) application is presented in this study. It has a rectangular shape with two notched slots. The notched slots are introduced to improve the adaptation between the microstrip line and the antenna. The antenna was designed and simulated by CST using FR-4 material as the substrate with relative permittivity of 4.3. The proposed microstrip antenna is designed to operate in the GPS band frequency from 1.555 GHz to 1.595 GHz. The performance analysis of the proposed antennas has been carried out in terms of return loss (dB), gain (dB), and VSWR.

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“…3 The axial mode with circular polarization at the endfire direction is widely investigated and favorably used owing to its simple structure as well as wide bandwidth. [4][5][6][7] A low-profile dual-band printed quadrifilar helical antenna loaded with circular metal strips on the top of helical metal strips was proposed in Reference [6]. It achieved dual polarization with a cost of a complex feeding network.…”

Section: Introductionmentioning

confidence: 99%

“…It is well known that a helical antenna has two modes, the axial mode and the normal mode 3 . The axial mode with circular polarization at the endfire direction is widely investigated and favorably used owing to its simple structure as well as wide bandwidth 4–7 . A low‐profile dual‐band printed quadrifilar helical antenna loaded with circular metal strips on the top of helical metal strips was proposed in Reference [6].…”

Section: Introductionmentioning

confidence: 99%

Circularly polarized Yagi array with small size and symmetric pattern by using counter‐wound helix

Huang

Chen

et al. 2022

Int J RF Mic Comp-Aid Eng

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A circularly polarized Yagi array with a compact structure, small size, and symmetric pattern is reported in this paper. It consists of four 3-segment counter-wound helices, one driven element, one director, and two reflectors, for a moderate gain and front-to-back ratio. Similar to conventional Yagi with linear polarization, all helical elements have different but close resonant frequencies. The driven element has a resonant frequency higher than that of the reflectors but lower than that of the director. Owing to the uniform pattern of the counter-wound helical element, a very symmetric pattern with circular polarization at the endfire direction is achieved. A prototype of the 4-element array is fabricated and tested. Measured results show that an impedance bandwidth with jS 11 j < À10 dB from 1.345 to 1.42 GHz (5.42%) and a 3-dB AR band from 1.34 to 1.43 GHz (6.5%) are obtained, showing an overlapped bandwidth of 5.42%. A realized gain up to 7.03 dBi and an offset angle within 3 are also realized. The overall size of the array is as small as 0.66λ 0 Â 0.107λ 0 Â 0.40λ 0 , showing possibility of further being formed to large scanning or multi-beam arrays.

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Design of Low-Profile Dual-Band Printed Quadrifilar Helix Antenna With Wide Beamwidth for UAV GPS Applications

Cited by 16 publications

References 21 publications

Spaceborne miniaturized UHF dual band helix antenna with a small frequency ratio

Spaceborne miniaturized UHF dual band helix antenna with a small frequency ratio

Design and Study of a Microstrip Patch Antenna for GPS Application

Circularly polarized Yagi array with small size and symmetric pattern by using counter‐wound helix

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