Xida Deng scite author profile

Xida Deng

5Publications

4Citation Statements Received

64Citation Statements Given

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Affiliations

Tsinghua University, University of Electronic Science and Technology of China

Publications

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Compact switchable filter with three state modes using simple microstrip structure

Deng

2022

Micro & Optical Tech Letters

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This paper presents a compact multifunctional reconfigurable filter based on double coupled‐line structures with three different filtering modes. Three different working modes of the wideband bandpass filter (BPF), bandstop filter (BSF) and wideband filter with single notch can be switched. One prototype of the reconfigurable filter is constructed and measured. For the wideband BPF mode, the 3‐dB bandwidth is 84.5%with in‐band return loss (RL) higher than 21.5 dB and minimum insertion losses (IL) of 0.9 dB, and rejections for the upper stopband is higher than 22.5 dB. For the wideband filter with single notch mode, the 3‐dB bandwidth is 39.7% and 24.9%, with the minimum in‐band IL of 1.13 dB and 1.5 dB, respectively. The maximum rejections between the two bands are 32 dB, and the upper stop band rejections are higher than 19 dB. For the BSF mode, the 3‐dB bandwidth is 29.6%.

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A novel miniaturized waveguide bandpass filter using meta-material

Jin

Lin

Deng

et al. 2013

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Compact full Ka‐band waveguide directional coupler based on large aperture array

Deng

Wang

et al. 2016

Electron. lett.

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A compact full Ka-band waveguide directional coupler based on novel aperture array is presented. The broadband, good in-band coupling flatness and excellent return loss are achieved by using the proposed novel aperture array in the common broad wall of two paralleled waveguides. For verification purpose, a prototype of the proposed directional coupler has been designed, fabricated and measured. The experimental results show that the return loss and isolation of the proposed coupler are better than 28 and 30 dB, respectively, and coupling strength varies from −20.35 to −19.23 dB over the full waveguide bandwidth. The length of the coupling region is only 8.5 mm.Introduction: Directional couplers are widely used in many microwave and millimetre systems, which require certain power splitting specification. Waveguide structures are often used because of the low insertion loss and high power handling capabilities, especially in high frequency. As an example of many early proposed waveguide directional couplers, Bethe-hole coupler [1] has a single round hole at the centre of the common broad wall between two rectangular waveguides. However, it is difficult to achieve broadband and good coupling flatness. To meet the specifications of systems, many structures have been proposed to enlarge their operating bandwidth and achieve good coupling flatness, including multi-hole coupler [2], multi-aperture configurations [3], multi-port technology [4] and multiple branch structure [5]. These couplers widen the operating bandwidth effectively. However, they normally need several guided-wave lengths to realise broadband. It is difficult to obtain broadband and good coupling flatness in compact size.In this Letter, we will show how bandwidth of up to 41.3% and coupling strength varying in −19.79 ± 0.56 dB over full waveguide bandwidth can be achieved simultaneously in compact size by using the novel aperture array which is presented in Fig. 1. The characteristics and design processes of the proposed coupler are presented as follows. The coupling region (shown in Fig. 1a) is designed with length of only 8.5 mm, that is, 0.7 λ g (guided-wave length of centre frequency). The experimental results show that the return loss of the sample coupler is better than 28 dB in the operating bandwidth varying from 26.3 to 40 GHz, in which the S 21 -magnitude is around −0.35 dB and the isolation is higher than 30 dB. To the authors' knowledge, no such compact-size of 20 dB waveguide directional coupler with full Ka-band and good coupling flatness has ever been reported before. Table 1 compares the proposed coupler with some recently reported couplers [6][7][8][9].

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Compact Full Ka-Band Waveguide Directional Coupler Based on Rectangular Aperture Array with Stairs

2021

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This article presents a compact 3 dB waveguide directional coupler with full waveguide bandwidth. It consists of a pair of rectangular waveguides with stairs structures in the coupling region. The waveguides are placed parallel to each other along their broad wall, which has a rectangular aperture array. The compact size, broad bandwidth, good in-band coupling flatness, and good return loss are achieved by using the proposed structure. For verification purposes, a prototype of the proposed coupler was designed, manufactured, and measured. The experimental results show that over the full waveguide bandwidth a return loss of input port better than 17.46 dB, coupling strength varying between −2.74 dB and −3.80 dB, power-split unbalance within 0.76 dB, and an isolation better than 20.82 dB were obtained. The length of the coupling region was only 15.82 mm.

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Compact E-plane bandpass filter with high selectivity in Ka-band

Jin

Lin

Cheng

et al. 2013

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Xida Deng

Compact switchable filter with three state modes using simple microstrip structure

A novel miniaturized waveguide bandpass filter using meta-material

Compact full Ka‐band waveguide directional coupler based on large aperture array

Compact Full Ka-Band Waveguide Directional Coupler Based on Rectangular Aperture Array with Stairs

Compact E-plane bandpass filter with high selectivity in Ka-band

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