一种用于5G应用的低损耗紧凑型负群延迟微带双工器

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY Pub Date : 2023-08-25 DOI:10.14500/aro.11237
Leila Nouri, S. Yahya, A. Rezaei, F. Hazzazi, B.N. Nhu
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引用次数: 1

摘要

微带双工器在现代无线通信系统中起着重要的作用。提出了一种基于螺旋单元的小型微带双工器。所提出的谐振器主要由连接到一对耦合线的两条螺旋细线组成。对这种新型谐振器进行了数学分析,以找到其行为并轻松调整最终布局的尺寸。利用所分析的谐振腔,设计了两个带通滤波器。然后,通过对这两种bpf的设计和集成,得到了一种新型的高性能微带双工器。所提出的双工器第一和第二通道的中心频率分别为1.86 GHz和4.62 GHz。所提出的双工器具有0.004 λg2的非常小的尺寸,并且具有平坦的通道,第一和第二通道的插入损耗分别仅为0.048 dB和0.065 dB。S21和S31的最大群延迟分别为0.31 ns和0.86 ns,这对于现代通信系统来说是很好的值。同时,在某些频率范围内,其群时延为负。因此,使用这种双工器可以降低信号的色散。第1和第2通带较宽,分别为47.3%和47.1%分数带宽(FBW)。因此,该双工器可以方便、成功地用于设计高性能射频通信系统。
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A Compact Negative Group Delay Microstrip Diplexer with Low Losses for 5G Applications
Microstrip Diplexers play an important role in modern wireless communication systems. In this paper, a novel compact microstrip diplexer based on spiral cells is presented. The proposed resonator primarily consists of two spiral thin lines connected to a pair of coupled lines. This novel resonator is analyzed mathematically to find its behavior and tune the dimensions of the final layout easily. Using the analyzed resonator, two bandpass filters (BPFs) are designed. Then, a novel high-performance microstrip diplexer is obtained by designing and integrating these two BPFs. The center frequencies of the first and second channels of the proposed diplexer are 1.86 GHz and 4.62 GHz, respectively. The proposed diplexer boasts a remarkably small size of 0.004 λg2 and features flat channels with low insertion losses of only 0.048 dB and 0.065 dB for the first and second channels, respectively. The maximum group delays of S21 and S31 are 0.31 ns, 0.86 ns, respectively, which are good values for a modern communication system. Meanwhile, inside its passbands for some frequency ranges, its group delays are negative. Thus, using this diplexer can decrease the signal dispersion. The 1st and 2nd passbands are wide with 47.3% and 47.1% fractional bandwidths (FBW), respectively. Therefore, this diplexer can be easily and successfully used in designing high-performance RF communication systems.
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来源期刊
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY MULTIDISCIPLINARY SCIENCES-
自引率
33.30%
发文量
33
审稿时长
16 weeks
期刊最新文献
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