Wideband dual circularly polarized beam‐scanning array for <scp>K</scp>a‐band satellite communications

Zhang, Long; Gao, Steven; Luo, Qi; Li, Wenting; Li, Qingxia

doi:10.1002/mop.30655

Cited by 3 publications

(4 citation statements)

References 10 publications

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“…Here, we consider the 551-element perturbed Penrose array in [12] as a reference. This array operates over a relative bandwidth of f / f L ∈ [1,5] and has a UWB grating lobe suppression capability of −10.35 dB at the highest frequency and −16.64 dB at the lowest frequency. The layout of the perturbed Penrose array is generated by genetic algorithm with the desired minimum element spacing of d min = 0.5λ L and the desired maximum array aperture of R max = 12λ L .…”

Section: Example IImentioning

confidence: 99%

“…Ultra-wideband (UWB) antenna arrays have been widely used in many applications such as radar imaging system, high-speed data transmission and radio astronomy [1,2]. Compared with narrowband arrays, UWB arrays generally require to have grating lobe suppression performance in a wide frequency band instead of a single frequency point, which results in UWB array synthesis being much more challenging.…”

Section: Introductionmentioning

confidence: 99%

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Design of Parameter-Optimized Spiral Arrays with Ultra-Wideband Grating Lobe Suppression

2023

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An effective method is presented to design the layout of spiral array with ultra-wideband (UWB) grating lobe suppression. In this method, the general array factor expression of spiral array is formulated. Then, the synthesis problem of spiral array layout is converted to an optimization problem of three geometric parameters: s, r and Δϕ. These parameters can determine the exact position of each element. The optimization problem is solved by particle swarm optimization (PSO) algorithm where the constraints of element spacing and array aperture are introduced. For different-sized spiral arrays, there are always only three variables that need to be optimized in the PSO algorithm, which allows the proposed method to handle the layout design of large-scale spiral arrays with UWB grating lobe suppression. Two examples with different synthesis requirements are conducted to verify the effectiveness and advantages of the proposed method.

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Section: Example IImentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Design of Parameter-Optimized Spiral Arrays with Ultra-Wideband Grating Lobe Suppression

2023

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“…In dielectric reflectarray antennae, shape flexibility is the major advantage as compared to microstrip reflectarray antennae, which enhances the performance of the array antenna. 20 In Zheng et al, 21 a 3D-printed fully metallic reflectarray antenna is illuminated by a conical dual band left hand circularly polarised horn antenna at 24 and 32 GHz. The unit cell consists of a metal brick and by rotating the top layer or by vertically adjusting it, the two phases are obtained.…”

Section: Introductionmentioning

confidence: 99%

High‐gain wideband all‐dielectric digital metasurface reflectarray antenna for millimeter‐wave applications

Bansal,

Singh,

Bashir

2023

Micro & Optical Tech Letters

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This paper presents an additive manufacturing technique to design and prototype a reflective metasurface antenna for Ka‐band applications. The dielectric cuboidal element with an air‐filled void is designed to act as a unit cell for designing a three‐dimensional (3D)‐printed phase‐graded metasurface reflector. The designed phase‐graded metasurface reflector is a 3‐bit quantized highly reflective surface, designed by rigorous unit cell optimizations. The quantized unit cells are distributed to provide a 45° phase gradient and wideband reflections operating from 24 to 38 GHz. The designed reflector is excited by a wideband 3D‐printed horn antenna placed at the optimized focal point. The simulated and measured results indicate the designed antenna achieves a maximum gain of 23.66 dBi with a gain enhancement of 60%. The designed antenna is found to have a 1 dB stable gain bandwidth of 4 GHz, from 28 to 32 GHz with a maximum gain of 23.66 dBi at 30 GHz.

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“…Ultra-wideband (UWB) antenna arrays have been broadly used in a variety of practical applications such as modern radar, radio astronomy, and wireless communication [1][2][3]. In particular, UWB arrays are different from narrowband arrays, and they need to consider the grating lobe suppression problem in a wide frequency band, which greatly increases the difficulty in the array synthesis.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of Large Ultra-wideband Sparse Circular Planar Arrays Based on Rotationally Symmetric Structure

Liu,

Wen,

Zhang

et al. 2023

Electronics

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This article aims to improve the synthesis efficiency and radiation performance of large ultra-wideband (UWB) rotationally symmetric sparse circular planar arrays by using a modified differential evolution algorithm (MDEA). In the proposed MDEA, we adopt a new encoding mechanism in which an individual represents an element position expressed in polar coordinates. Importantly, such an encoding mechanism can facilitate the multiplication calculation for the array factor in the individual being updated while making it easier to meet the given minimum element spacing constraint. Moreover, to cater to the new encoding mechanism, some low-dimensional evolution operators are introduced to avoid the prematurity. In particular, the UWB rotationally symmetric sparse planar array synthesis problem is transformed into the sidelobe suppression problem of the array pattern at the highest frequency under the given array aperture, and the minimum spacing constraints is used to guarantee enough space to place physical UWB antenna elements. Two synthesis examples of UWB sparse planar arrays based on rotationally symmetric structures are presented. The results show that the peak sidelobe level (PSL) obtained by the proposed MDEA is significantly lower than the results obtained by some existing algorithms in an acceptable CPU time, which proves the effectiveness and superiority of the proposed MDEA.

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Wideband dual circularly polarized beam‐scanning array for Ka‐band satellite communications

Cited by 3 publications

References 10 publications

Design of Parameter-Optimized Spiral Arrays with Ultra-Wideband Grating Lobe Suppression

Design of Parameter-Optimized Spiral Arrays with Ultra-Wideband Grating Lobe Suppression

High‐gain wideband all‐dielectric digital metasurface reflectarray antenna for millimeter‐wave applications

Synthesis of Large Ultra-wideband Sparse Circular Planar Arrays Based on Rotationally Symmetric Structure

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