Category Ranking
98%
Total Visits
921
Avg Visit Duration
2 minutes
Citations
20
Article Abstract
In this paper, a new microstrip triplexer is designed to work at 2.5 GHz, 4.4 GHz and 6 GHz for mid-band 5G applications. All channels are flat with three low group delays (GDs) of 0.84 ns, 0.75 ns and 0.49 ns, respectively. Compared to the previously reported works, the proposed triplexer has the minimum group delay. The designed triplexer has 18.2%, 13.7%, 23.6% fractional bandwidths (FBW%) at 2.5 GHz, 4.4 GHz and 6 GHz, respectively. The obtained insertion losses (ILs) are low at all channels. These features are obtained without a noticeable increase in the overall size. A novel and simple resonator is used to design the proposed triplexer, which includes two pairs of coupled lines combined with a shunt stub. A perfect mathematical analysis is performed to find the resonator behavior and the layout optimization. The type of shunt stub is determined mathematically. Also, the smallness or largeness of some important physical dimensions is determined using the proposed mathematical analysis. Finally, the designed triplexer is fabricated and measured, where the measurement results verify the simulations.
Download full-text PDF |
Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11078388 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0302634 | PLOS |
Publication Analysis
Top Keywords
Similar Publications
Microwave Spectroscopy and Structure of the 1-Fluoronaphthalene···HO Complex: Two Hydrogen Bonds Make the Complex a Rigid Rotor.
J Phys Chem A
September 2025
Department of Inorganic and Physical Chemistry, Indian Institute of Science Bangalore, Bengaluru560012, India.
The microwave spectrum of the complex formed between 1-fluoronaphthalene and HO has been recorded using a chirped pulse Fourier transform microwave spectrometer within the frequency range of 2.0 to 8.0 GHz, with neon as the carrier gas.
View Article and Find Full Text PDFProposed Five-Electron Charge Quadrupole Qubit.
Phys Rev Lett
August 2025
University of Maryland Baltimore County, Department of Physics, Baltimore, Maryland 21250, USA.
A charge qubit couples to environmental electric field fluctuations through its dipole moment, resulting in fast decoherence. We propose the p-orbital (pO) qubit, formed by the single-electron, p-like valence states of a five-electron Si quantum dot, which couples to charge noise through the quadrupole moment. We demonstrate that the pO qubit offers distinct advantages in quality factor, gate speed, readout, and size.
View Article and Find Full Text PDFComparative study of spectral properties of the bovine serum albumin complexes with acridine orange and methylene blue under the effect of millimeter range electromagnetic waves.
Electromagn Biol Med
September 2025
Laboratory of Biophysics of Sub-Cellular Structures, Scientific-Research Institute of Biology, Chair of Biophysics, Faculty of Biology, Yerevan State University, Yerevan, Armenia.
Effect of millimeter range electromagnetic waves (MM EMW) with the frequency 51.8 GHz on the interaction of DNA-specific ligands-intercalators acridine orange (AO) and methylene blue (MB) with bovine serum albumin (BSA) has been studied. The measurements were implemented by the spectroscopic methods that open new opportunities for such goals.
View Article and Find Full Text PDFDual-band mixed-mode bandpass filter based on dual-layer substrate integrated waveguide resonator loaded with A capacitive patch.
PLoS One
September 2025
The School of Electrics and Information Engineering, Yunnan Minzu University, Kunming, China.
To address the growing demand for compact and high-performance microwave filters in modern communication systems, a mixed-mode bandpass filter is proposed in the article. A dual-layer substrate integrated waveguide resonator loaded with a capacitive patch (CP-DSIWR) is proposed and theoretically analyzed, with both patch modes and cavity modes existing. To construct the bandpass filter, two rows of metallic vias are designed in the CP-SIWR to enable coupling between the two types of the modes, with the structure being fed by microstrip line.
View Article and Find Full Text PDFPractical photonic bandgap structures for high frequency axion haloscopes.
Rev Sci Instrum
September 2025
Department of Nuclear Engineering, University of California, Berkeley, Berkeley, California 94720, USA.
Current and future searches for dark matter axions, based on their resonant conversion to photons in a magnetic field, span many orders of magnitude. A major impediment to designing resonators at the high end of this range, 5 GHz and above, is the proliferation of TE modes, which overwhelm and hybridize with the TM010 mode to which the axion couples, making the search impossible. We demonstrate that a photonic bandgap structure can be designed that completely suppresses the TE spectrum, even reducing the number of lattice periods to two or one and violating perfect lattice symmetry.
View Article and Find Full Text PDF