Compact UWB-MIMO Antenna With High Isolation and Triple Band-Notched Characteristics

Tang, Zhijun; Wu, Xiaofeng; Zhan, Jie; Hu, Shigang; Xi, Zengzhe; Liu, Yunxin

doi:10.1109/access.2019.2897170

Cited by 135 publications

(86 citation statements)

References 42 publications

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“…The lower the mutual coupling is, the higher the DG is and vice versa. The method of using the ECC to calculate DG is given by using the equation as follows [20].…”

Section: Experiments Resultsmentioning

confidence: 99%

Neutralization Line Decoupling Tri-Band Multiple-Input Multiple-Output Antenna Design

Liu

Zheng

et al. 2020

IEEE Access

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A pair of tri-band multiple-input-multiple-output (MIMO) antennas with high isolation is investigated in this paper. The proposed antenna consists of two monopole antenna elements with an edge to edge spacing of 4 mm (0.03 λ 0 at 2.3 GHz). The monopole antenna element chose the bending line structure that can operate in tri-band and realize miniaturization. To achieve compact dimension and high isolation, symmetrical distribution layout is adopted to decouple the low frequency band, the U-shaped neutralization line (NL) contacting with two microstrip lines, and it can to improve the isolation in high frequency band, and the inverted U-shaped NL contacting with two radiation patch can decoupling in the middle frequency band. And then study the envelope correlation coefficient is lower, and the radiation pattern in operation bands is quasi-omnidirectional. It indicates that the antenna has obtained a satisfactory diversity performance within the whole operation bands which can be a good candidate for some portable MIMO applications. INDEX TERMS Multiple-input-multiple-output, tri-band, high isolation, neutralization line.

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“…The lower the mutual coupling is, the higher the DG is and vice versa. The method of using the ECC to calculate DG is given by using the equation as follows [20].…”

Section: Experiments Resultsmentioning

confidence: 99%

Neutralization Line Decoupling Tri-Band Multiple-Input Multiple-Output Antenna Design

Liu

Zheng

et al. 2020

IEEE Access

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“…A Tee crossed structure diversity antenna with microstrip fed having a 32.6 × 46 ranges 1.8 to 12 GHz with S 21 < −15 dB observed and ECC is less than 0.2 observed in Reference . A compact UWB structure MIMO antenna occupied by 39 × 39 mm 2 ranging from 2.3 to 13.75 GHz produced a gain of 4.6 dBi observed in Reference . A compact structure of 40 × 40 mm designed antenna ranging from 3.18– to 11.50 GHz having an efficiency more than 85% at the resonant band of frequencies mentioned in Reference produced isolation greater than −30 dB.…”

Section: Introductionmentioning

confidence: 92%

Design of MIMO antenna to interference inherent for ultra wide band systems using defected ground structure

Babu¹,

Anuradha

2019

Micro & Optical Tech Letters

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“…Both presented in [12], [13] require a relatively complex manufacturing process. Differently, a separated staircase-shaped structure to reduce coupling was introduced in [14], and the designed UWB-MIMO antenna with four elements could perform well in miniaturization and high isolation. Koch fractal geometry was employed to achieve desired miniaturization and wideband phenomena for the designed UWB-MIMO antenna fabricated on the FR4 substrate in [15].…”

Section: Introductionmentioning

confidence: 99%

A Super-Wideband and High Isolation MIMO Antenna System Using a Windmill-Shaped Decoupling Structure

Yang

Chen

et al. 2020

IEEE Access

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In this paper, a novel super-wideband multiple-input multiple-output (SWB-MIMO) antenna system with high isolation has been proposed, each antenna element consisting of a spade-shaped radiation patch, a defected ground structure (DGS) as well as a windmill-shaped decoupling structure. The elliptical slot etched on the radiation patch and the rectangular DGS are jointly utilized to make better the radiation performance and impedance bandwidth. Both of four-element and eight-element SWB-MIMO antenna systems are simulated and analyzed, respectively. A prototype of the four-element SWB-MIMO antenna system with total dimensions of 58 mm × 58 mm × 1 mm was fabricated to verify the concept of design using an FR4 material substrate. Measurement and simulation results indicate that the proposed SWB-MIMO antenna system can work in the frequency band ranging from 2.9 to 40 GHz with a mutual coupling of lower than-17 dB. Also, excellent performance has been achieved with a low envelop correlation coefficient (ECC) of lower than 0.04, high multiplexing efficiency (ηmux) of more than-3.0 dB, stable gain of up to 13.5 dBi as well as quasi-omnidirectional radiation properties. This design provides an important guideline for obtaining a super-wide MIMO antenna. INDEX TERMS Multiple-input multiple-output (MIMO) antenna, high isolation, super-wideband (SWB), defected ground structure (DGS), windmill-shaped decoupling structure, meander technology.

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Compact UWB-MIMO Antenna With High Isolation and Triple Band-Notched Characteristics

Cited by 135 publications

References 42 publications

Neutralization Line Decoupling Tri-Band Multiple-Input Multiple-Output Antenna Design

Neutralization Line Decoupling Tri-Band Multiple-Input Multiple-Output Antenna Design

Design of MIMO antenna to interference inherent for ultra wide band systems using defected ground structure

A Super-Wideband and High Isolation MIMO Antenna System Using a Windmill-Shaped Decoupling Structure

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