Design and Fabrication of Wideband Millimeter-Wave Directional Couplers With Different Coupling Factors Based on Gap Waveguide Technology

Zarifi, Davoud; Farahbakhsh, Ali; Zaman, Ashraf Uz

doi:10.1109/access.2019.2926233

Cited by 25 publications

(11 citation statements)

References 27 publications

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“…The pin dimensions and groove width need to be designed correctly for appropriate stop bandwidth. Here, we consider w = 3.7 mm, a = 0.5 mm, p = 1.5 mm, h = 1.35 mm, and g = 0.2 mm to achieve a stop-band from 40 to 80 GHz [16].…”

Section: Ggw Structurementioning

confidence: 99%

“…More recently, broadband GGW based directional couplers with coupling values between 10 and 30 dB have been introduced for 60-GHz frequency band applications [16]. Design procedure for achieving 3-dB coupling value and broadband coupling flatness in this type of couplers requires using many coupling apertures that increases the structure length dramatically.…”

Section: Introductionmentioning

confidence: 99%

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A Wideband 3-dB Directional Coupler in GGW for Use in V-Band Communication Systems

2020

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In this article, a broadband 3-dB directional coupler is proposed using groove gap waveguide (GGW) structures. Gap waveguide technology has been introduced to overcome manufacturing and assembling challenges of different millimeter-wave components and devices. The presented coupler has wideband coupling flatness with low return loss in 60-GHz frequency band and can be easily adapted to other frequency ranges. Experimentally, a sample prototype of the proposed 3-dB coupler has been designed and fabricated. The measured return loss and isolation are better than 20 dB and the power-split unbalance within ±0.5 dB is obtained over the frequency range from 57 to 74 GHz (26% BW). The proposed structure has the capability of easily integrating with other millimeter-wave components. INDEX TERMS Gap waveguide technology, directional coupler, branch-guide.

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Section: Ggw Structurementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A Wideband 3-dB Directional Coupler in GGW for Use in V-Band Communication Systems

2020

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“…With the increasing interest in millimeter-wave frequency bands applications, this technology has caught the attention of many researchers, and many examples of designs can be found in literature. From filters [144]- [147] to feeding networks [148]- [154] and couplers [155]- [157], the different versions of gap waveguide have found many implementations.…”

Section: Gap Waveguide Technologymentioning

confidence: 99%

Single-Layer Dual-Band Leaky Wave Antennas Design Methodology with Directivity Control

Memeletzoglou

Rajo‐Iglesias

Blanco

2018

2018 IEEE International Symposium on Antennas and Propagation &Amp; USNC/URSI National Radio Science Meeting

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While this journey comes to an end, I couldn't be more grateful for all the people that supported me during these years. First of all, I would like to thank my advisor Eva, for always being there to help me when I needed her, for the knowledge she shared with me, and for always trying to make the best out of everything.I would also like to thank Oskar Dalhberg and Qiao Chen from KTH Royal Institute of technology for the antenna measurements in the anechoic chamber.Of course I would never be able to reach this point, if I didn't have the help of my parents and their support towards any decision I made. Special thanks to my brother Χάρης who made me laugh even in difficult times. I am grateful for my close friends who were always there for me. Last but not least, my greatest thanks to Ignacio for encouraging me and giving me strength. I could never do this without his 24/7 support during all these years.Σας ευχαριστώ όλους και τον καθένα ξεχωριστά, χωρίς εσάς δεν θα είχα φτάσει ως εδώ. Ναυσικά vi vii ContentsAcknowledgements v Related Publications xiiiResumen xixxx de frecuencias mucho más bajas, puede utilizarse también en aplicaciones de sistemas radar. En la segunda parte, se han desarrollado e implementado diseños innovadores de antenas y arrays usando la tecnología gap waveguide en particular su versión groove. En ellos, se han diseñado novedosas redes de alimentación y sistemas de corrección de fase que proporcionan bajas pérdidas y alta eficiencia.

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“…There is a clear need to develop GWT that not only maintains the advantages of other technologies but also addresses the above mentioned fabrication and assembly challenges, especially at millimetre-wave frequency range. According to the review of literature, GWT has been used to design a wide range of microwave and highfrequency components, such as planar array antenna [18][19][20][21][22], filter [23][24][25][26], coupler [27][28][29][30], phase shifter [31,32] and switch [33,34].…”

Section: Introductionmentioning

confidence: 99%

Design and development of broadband gap waveguide‐based 0‐dB couplers for Ka‐band applications

Zarifi

Farahbakhsh

Zaman

2022

IET Microwaves Antenna & Prop

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The design and fabrication of a wideband millimetre‐wave 0‐dB coupler is proposed in this paper using gap waveguide technology for low‐loss and high‐power applications in 30‐GHz frequency band. To overcome the fabrication challenges in millimetre‐wave frequencies, the gap waveguide technique is utilised. Two gap waveguide‐based coaxial‐ and waveguide‐fed 0‐dB couplers are designed with broadband performance, high return loss, acceptable coupling flatness and high isolation. For verifying the performance of the proposed structures, a prototype of the waveguide‐fed 0‐dB coupler is manufactured and measured. The measurement results show that the return and insertion losses and the isolation of the fabricated 0‐dB coupler is better than 18 dB, 0.5 and 18 dB, respectively, in the specified frequency range from 26.2 to 34 GHz. Moreover, the breakdown power level of the proposed millimetre‐wave structures is in kW orders to satisfy the high‐power requirements.

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Design and Fabrication of Wideband Millimeter-Wave Directional Couplers With Different Coupling Factors Based on Gap Waveguide Technology

Cited by 25 publications

References 27 publications

A Wideband 3-dB Directional Coupler in GGW for Use in V-Band Communication Systems

A Wideband 3-dB Directional Coupler in GGW for Use in V-Band Communication Systems

Single-Layer Dual-Band Leaky Wave Antennas Design Methodology with Directivity Control

Design and development of broadband gap waveguide‐based 0‐dB couplers for Ka‐band applications

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