Design of Wideband Microstrip to SICL Transition for Millimeter-Wave Applications

Krishna, Idury Satya; Mukherjee, Soumava

doi:10.1109/access.2019.2962905

Cited by 9 publications

(7 citation statements)

References 15 publications

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“…The cavity is symmetrical along its diagonal plane symmetry AA’ and BB. The radially outward vector electric field distribution asserts the presence of coaxial like TEM based fundamental mode in the proposed planar cavity 25 . The lateral area of the cavity is reduced by 50% by creating a magnetic wall along the diagonal symmetry BB’ and the half‐field distribution of the cavity is preserved at same frequency as depicted by electric field in the half‐mode SICL cavity in Table 1.…”

Section: Analysis Of Sicl Based Bandpass Filtermentioning

confidence: 76%

“…The radially outward vector electric field distribution asserts the presence of coaxial like TEM based fundamental mode in the proposed planar cavity. 25 The lateral area of the cavity is reduced by 50% by creating a magnetic wall along the diagonal symmetry BB' and the half-field distribution of the cavity is preserved at same frequency as depicted by electric field in the half-mode SICL cavity in Table 1. On contrary to SIW half-mode, the open end of the central conductor is shielded in SICL half-mode cavity by the via wall of the outer conductor which helps to reduce radiation loss and improves Q factor.…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, other commonly practiced techniques such as etching slots 23 on the ground plane of SIW cavity for size reduction and dual‐band operation may cause radiation loss and affect the shielded nature of structure. With advancements in PCB fabrication, substrate integrated coaxial line (SICL) 24 technology has gained popularity for ease of integration, 25 and low group delay over a wide bandwidth 26 due to its unimodal

italicTEM

based propagation. Contrary to the notion of metallic vias in SICL being only useful of lateral shielding, a novel perturbation technique has been demonstrated utilizing the metallic vias to design highly selective low loss

K_{u}

‐ band BPF 27 …”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Fully shielded and self‐packaged compact quarter‐mode substrate integrated coaxial line bandpass filter for X and K ‐band

Krishna

Mukherjee

2022

Int J RF Mic Comp-Aid Eng

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In this work, a dual-mode substrate integrated coaxial line (SICL) bandpass filter supporting single-band and dual-band operation for widely spaced passbands located in X and K -band is proposed. Firstly, a cavity conceived with shorted half-wavelength SICL line is investigated. For enhanced miniaturization, a new SICL cavity is developed from the short-circuited half-wavelength SICL line which is bisected along the fictitious magnetic wall to derive its halfmode and quarter-mode counterparts. A fully shielded compact dual-mode dual-band filter is realized by coupling two quarter-mode cavities. The proposed SICL based filter realized using standard PCB fabrication process demonstrates ease of design and enhanced flexibility in exciting the higher order mode to attain the second-passband. The experimental results indicate widely spaced passbands with 3-dB bandwidth of 3.18 GHz and 0.27 GHz centered at 9.61 GHz and 19.12 GHz, respectively. The proposed compact SICL based quarter-mode filter occupies only 0.15 λ 2 g lateral area.

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Section: Analysis Of Sicl Based Bandpass Filtermentioning

confidence: 76%

Section: Introductionmentioning

confidence: 99%

italicTEM

K_{u}

‐ band BPF 27 …”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Fully shielded and self‐packaged compact quarter‐mode substrate integrated coaxial line bandpass filter for X and K ‐band

Krishna

Mukherjee

2022

Int J RF Mic Comp-Aid Eng

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“…Once the impedance matching condition is satisfed, the dimensions of the tapered slot can be determined with the well-studied method [24][25][26][27][28][29][30][31][32][33]: Firstly, the length of the tapered slot line (l ts ) is determined. A typical value is 3λ 0 ∼ 8λ 0 , where λ 0 is the free-space wavelength.…”

Section: Design Of the Radiating Elementmentioning

confidence: 99%

A Millimeter-Wave Antipodal Linearly Tapered Slot Antenna Array for 5G Wireless Communication

Ni¹,

Wang

Zheng³

et al. 2023

International Journal of Antennas and Propagation

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This paper presents an antipodal linearly tapered slot antenna (ALTSA) array with the newly emerging substrate-integrated coaxial line (SICL) technology. Each element of the proposed array consists of two vertically stacked antipodal tapered slot antennas (TSA) with the inner conductor of a SICL as the shared fin. The vertical symmetry of this radiating element structure significantly suppresses the cross-polarization level. By employing a SICL-based power splitter with differential outputs, a two-element array with horizontal symmetry is formed. With the inner conductors of two parallel SICLs combined as the flaring metal shared by adjacent tapered slots, the main beam squint is effectively suppressed. Experimental results show an actual −10-dB impedance bandwidth (BW) of 24.5∼34.4 GHz, and the realized gain range measured is 16.1∼18.7 dBi. The cross-polarization levels are −39.4 dB/−40.7 dB at 30 GHz for the E-/H-planes. The measured results agree well with the simulated data which demonstrates the feasibility of the proposed SICL-based ALTSA scheme in the potential 5 G·millimeter-wave (mmWave) applications.

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“…Recently several research works on antenna and circuit design in the novel Substrate Integrated Coaxial Line (SICL) technology for 5G applications have been proposed by several research groups across the world. Millimeter wave SICL transitions [9], [10], compact half mode cavity resonator based filter [11] have been reported. 28 GHz SICL based cavity backed slot antenna and dual band operation at 28/ 38 GHz has been studied in [8] and [12].…”

Section: Introductionmentioning

confidence: 99%

A Novel Half Mode SICL Based Dual Beam Antenna Array for Ka-Band Application

Baghel

Mukherjee

2023

IEEE Access

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In this paper, we propose a novel Half Mode Substrate Integrated Coaxial Line (HMSICL) cavity fed monopole antenna at 28 GHz. A SICL cavity is bisected along its symmetric magnetic wall (PMC) to create an open-ended Half Mode SICL (HMSICL) cavity. The proposed HMSICL cavity is used to excite a tapered monopole antenna to radiate in endfire direction with a gain of 6.4 dBi at 28 GHz. For dual beam application, it is integrated with unidirectional broadside Half Mode Substrate Integrated Waveguide (HMSIW) antenna exhibiting a gain of 5.1 dBi that provides spatial diversity to the proposed design. To achieve high gain, two co-located 1 × 4 linear HMSICL and HMSIW array are placed sideby-side such that the proposed design produces simultaneous endfire and broadside beams for In-Band Full Duplex (IBFD) applications. The proposed passive Signal Interference Cancellation (SIC) technique is utilized to minimize the overlap of simultaneous dual beam at 28 GHz by orienting the two antennas within a compact footprint. The full duplex antenna array achieves a gain of 10.8 dBi in endfire and 10.3 dBi in broadside direction with high isolation below 45 dB over 500 MHz bandwidth. The presented antenna array is a potential candidate for relay where the transmitting and receiving signals are in two different directions. INDEX TERMS Half mode SICL (HMSICL), half mode SIW (HMSIW), high isolation.The associate editor coordinating the review of this manuscript and approving it for publication was Sotirios Goudos .transmission and reception through a relay at base stations. Communication in urban cities is possible through an efficient multi-hop link between Non-Line-of-Sight (NLOS) end-users. Relays with simultaneous dual beam establish a communication link between two end users for NLOS communication [1] as shown in Fig. 1. An In-Band Full Duplex (IBFD) antenna array used in streetlight deployment and over building is the upcoming easy cost-effective solution for deployment in Ka-band for faster Vehicle-to-Vehicle communication. However, IBFD antennas have been regarded impractical in the past due to the strong Self Interference (SI). Several active and passive suppression techniques such as passive suppression through antenna isolation, active suppression via analog and digital cancellation [2] have been proposed to compensate for self interference. The basic passive suppression technique is the physical separation of the

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Design of Wideband Microstrip to SICL Transition for Millimeter-Wave Applications

Cited by 9 publications

References 15 publications

Fully shielded and self‐packaged compact quarter‐mode substrate integrated coaxial line bandpass filter for X and K ‐band

Fully shielded and self‐packaged compact quarter‐mode substrate integrated coaxial line bandpass filter for X and K ‐band

A Millimeter-Wave Antipodal Linearly Tapered Slot Antenna Array for 5G Wireless Communication

A Novel Half Mode SICL Based Dual Beam Antenna Array for Ka-Band Application

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