Unbalanced-/Balanced-to-Unbalanced Diplexer Based on Dual-Mode Dielectric Resonator

Xu, Lin; Yu, Wei; Chen, Jianxin

doi:10.1109/access.2021.3070328

Cited by 11 publications

(8 citation statements)

References 36 publications

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“…Table I summarizes a comparison between the proposed diplexer and similar designs, featuring a very compact structure, higher quality factor, spurious-free band better than 1.9 GHz (lower spurious 2.82 GHz, upper spurious 7.07 GHz), and high power levels up to 5200 W. Furthermore, the planar coupling configuration of the presented diplexer brings highly desirable advantages of easy assembly, integration, and tuning where the operation frequencies and inter-resonator couplings of the diplexer channels can be tuned independently. The isolation of the diplexer prototype is higher than 31 dB which is better than [5] and comparably similar to [6] and [8]. Alternatively, single-mode resonators can be added at the outputs to enhance the isolation similar to [2].…”

Section: Resultsmentioning

confidence: 90%

“…For example, [1] presented an L-band combline diplexer for space applications with input power up to 1800 watts. Also, a couple of dielectric diplexers were introduced to offer more size compactness and lower losses than coaxial ones based on triple-mode resonators [5], customized corner-cut [6], oval [7] dual-mode HE resonators, and TM 010 mode resonators [8], [9]. Among all, TM 010 dielectric resonators have highly desirable advantages of substantial volume-saving, mechanical stability, enhanced high-power performance, and wider spurious-free bands.…”

Section: Introductionmentioning

confidence: 99%

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Very Compact Diplexer Based on Dual-Mode Dielectric TM-Mode Resonators

Widaa

Höft

2023

IEEE Microw. Wireless Tech. Lett.

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A very compact in-line C-band diplexer is reported in this paper based on dual-mode dielectric TM-mode resonators in planar coupling configuration. In addition to the advantages of substantial volume-saving and easy assembly, the proposed diplexer features high quality factor, enhanced spurious performance, high-power handling, and efficient tuning process with independent control of each passband. For verification purposes, a C-band diplexer is designed, implemented, and tested. The final assembled diplexer unit has a compact overall volume of 43×40×15.9 mm 3 . It operates at 4.73 GHz and 5.03 GHz with same bandwidth of 24 MHz, an insertion loss better than 0.9 dB, and a return loss higher than 21 dB. Additionally, highpower breakdown analysis shows that the introduced diplexer can handle high levels of input power up to 5200 watts.

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Section: Resultsmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Very Compact Diplexer Based on Dual-Mode Dielectric TM-Mode Resonators

Widaa

Höft

2023

IEEE Microw. Wireless Tech. Lett.

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“…When port 1 is excited, the proposed BFCLC achieves a matching bandwidth, including 10 To connect to balanced ports, the slotline-tomicrostrip transition adopted between the coupled microstrip-slotline and the port introduces a linear phase variation in Figure 3C, as its phase response does not match exactly that of the balanced port. The linear phase variation is eliminated in Work II by eliminating the slotline-to-microstrip transition.…”

Section: Simulation and Measurementmentioning

confidence: 99%

“…Owing to the requirement of immunity to environmental noise, balanced circuits have attracted quite a lot of attention. [6][7][8][9][10][11][12][13] Coupled microstrip-slotline was extensively utilized in broadband microwave devices due to its quasiindependent paths for odd and even modes. [14][15][16][17][18] The recently designed coupler in Nasr and Safwat 15 used the coupled microstrip-slotline to improve the coupling and directivity of PCLCs.…”

Section: Introductionmentioning

confidence: 99%

A wideband balanced filtering coupled‐line coupler with improved directivity based on coupled microstrip–slotline

Zhou,

Xu,

Wei

et al. 2024

Micro & Optical Tech Letters

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In this article, a wideband balanced filtering coupled‐line coupler (BFCLC) with improved directivity is designed. By using coupled microstrip–slotline, the proposed BFCLC realizes tight coupling while maintaining good isolation. A lattice equivalent circuit is introduced for the coupled microstrip–slotline. Good differential‐mode transmission and high common‐mode suppression are achieved through the application of microstrip/slotline transition structures. Additional stubs are taken to compensate for the odd‐ and even‐mode phase velocities of the coupled microstrip–slotline. Transmission zeros can also be adjusted to improve selectivity. Based on the proposed BFCLC, a coupler with a smaller size using solely the slotline is designed. Two proposed couplers are manufactured to validate the theoretical design, and a good agreement between the simulation and measurement is presented.

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“…This idea was recently applied to designing the coaxial diplexers with the characteristics of low loss and high isolation [22]. Other dual-mode resonator with high quality factors, such as the MWC [23] and the DR [24], were also utilized to design the low-loss diplexers. Similar to the BPFs, the microstrip diplexers own high losses, while the diplexers by using the coaxial resonators, the MWCs or the DRs were heavy.…”

Section: Introductionmentioning

confidence: 99%

Bandpass Filter and Diplexer Based on Dual-Mode Dielectric Filled Waveguide Resonators

et al. 2022

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This paper presents the designs of a bandpass filter (BPF) and a diplexer based on the TM210 mode and the TM120 mode of the dielectric filled waveguide resonators (DFWRs). The DFWR is designed by integrating a dielectric main body and a printed circuit board (PCB) cover. The PCB cover is electrically connected with the top surface of the dielectric body. For each mode, metallized blind holes can be set at its maximum electric-field points to excite or extract it and the other mode will not be influenced. Microstrip lines on the PCB are utilized to connect different pairs of the metallized blind holes to form the internal and external coupling structures. For verification, a BPF and a diplexer are designed, fabricated and measured based on the DFWRs. In measurement, the BPF is with a frequency band of 2.515 GHz -2.675 GHz, an insertion loss of 0.6 dB, and a return loss of 20 dB. The two frequency bands of the proposed diplexer are 3.3 GHz -3.4 GHz and 3.7 GHz -3.8 GHz. For the two frequency bands, the measured insertion losses are 0.9 dB / 0.85 dB and the isolations are better than 40 dB / 50 dB.INDEX TERMS Dielectric filled waveguide resonator (DFWR), printed circuit board (PCB), dual-mode, bandpass filter, diplexer.

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Unbalanced-/Balanced-to-Unbalanced Diplexer Based on Dual-Mode Dielectric Resonator

Cited by 11 publications

References 36 publications

Very Compact Diplexer Based on Dual-Mode Dielectric TM-Mode Resonators

Very Compact Diplexer Based on Dual-Mode Dielectric TM-Mode Resonators

A wideband balanced filtering coupled‐line coupler with improved directivity based on coupled microstrip–slotline

Bandpass Filter and Diplexer Based on Dual-Mode Dielectric Filled Waveguide Resonators

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