Liquid crystal based tunable spurline filters with notch frequencies at 50 and 85 GHz

Economou, Evangelos; Lovejoy, James; Harward, Ian; Nobles, Jason E.; Kula, Przemysław; Herman, Jakub; Glushchenko, Anatoliy; Celinski, Zbigniew

doi:10.1002/mop.31034

Cited by 7 publications

(5 citation statements)

References 29 publications

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“…The transition also contains cutouts on the CPW ground planes and the microstrip groundplane (outlined in green) to match impedance across the LC boundary. This arrangement was based on similar designs reported in other publications [26,27].…”

Section: Phased Array Antenna Assembly Design and Constructionmentioning

confidence: 96%

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Eight-element liquid crystal based 32 GHz phased array antenna with improved time response

et al. 2021

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Phased array radar systems are used for a wide variety of applications including the precise tracking of airborne craft for air traffic control and providing accurate atmospheric condition information important in weather forecasting. Reducing the cost and size of these radar systems will open new fields to the use of this technology. Using phase control implemented through liquid crystal materials we have created a compact, phased array radar system operating in the microwave range. We report on the construction and testing of a linear, eight element phased array antenna system operating at 32 GHz with element phase controlled by a dual frequency nematic liquid crystal media used as a tunable dielectric. The system was designed using CST Design Studios and Ansys HFSS software. Dual frequency liquid crystals are used to improve beam steering response times. We demonstrate 42 millisecond beam switching times, defined as the time to change the beam focus from one point to another point, controllable beam formation, and beam steering profiles consistent with analytical results and simulation models. The device footprint is a square with sides 9.5 cm long and a thickness less than 2.5 mm. Such a module is easily stackable to create an 8 × 8 phased array system. Our design incorporates a modular construction using PCB for the antennas and input circuitry and a liquid crystal phase control cell with microwave glass substrates. This design simplifies design, construction, and testing as compared to on-glass designs. The device shows an improvement in point-to-point scanning speeds by a factor of 3 as compared to similar liquid crystal based devices and provides continuously variable tuning. Such a device can be used in a system for reduced visibility, directional range finding suitable for automobile collision avoidance systems and rotary wing aircraft landing aids.

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Section: Phased Array Antenna Assembly Design and Constructionmentioning

confidence: 96%

“…The design parameters shown in Table 2 were used for modeling the LC section of the device. The epsilon values were determined for 30 GHz using a method developed by Economou et al [26].…”

Section: Phased Array Antenna Assembly Design and Constructionmentioning

confidence: 99%

Eight-element liquid crystal based 32 GHz phased array antenna with improved time response

et al. 2021

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“…A constant volume of a single liquid of varying permittivity can be used. These liquid crystals have been used in microwave applications such as: Tunable band-pass filters [14][15][16][17], Tunable band-stop/notch filters [18][19][20], reconfigurable reflectarray [21,22]. Nevertheless, the tuning potential of such systems essentially depends on the permittivity range achievable by the liquid crystals used.…”

Section: Introductionmentioning

confidence: 99%

RF MEMS filter based on dual liquid variations

Habbachi¹,

Besbes²

2022

J. Micromech. Microeng.

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This paper discusses the behavior of RF MEMS tunable microwave filter. We have modeled the distribution of magnetic field and electric current density in order to reveal the comportment of each device and to evaluate the relation between the frequency response and the microwave performances. From several modelling and simulations, we catch the resonance phenomenon for magnetic and electric fields at different conditions. Hence, in order to develop a reconfigurable MEMS ensuring a function of tunable band-pass filters, we have identified conditions allowing to vary the resonance frequency from Fres = 0.42 GHz to Fres = 1.85 GHz ensuring a large total variation of Tr = 340.5%. The structure is fabricated using SU-8 resin for circulating microchannels and sealing layers. The extracted parameters from measurements results and retro-simulation reveal a diminution of the total tuning range.

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“…Metasurfaces have attracted great attention thanks to their unique properties, and are widely applied in different areas due to their potential to control electromagnetic (EM) waves [1][2][3]. Among them, manipulating the polarization state of EM waves in the microwave frequency range is essential for applications such as antennas [4][5][6], wireless communication [7][8][9], and radar wave absorption [10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Low-profile linear polarization conversion metasurfaces using degenerate modes for high selectivity

Du¹,

Deng²,

Qiu³

et al. 2022

J. Phys. D: Appl. Phys.

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In this paper, two ultrathin polarization conversion metasurfaces (PCMs) were designedfor linear polarization of electromagnetic waves. A method of controlling degenerate modes was applied for enhanced selectivity. The surface resonator is a square patch etched with orthogonal cross-slots. Adjustment of the cross-slot size is beneficial as it introduces a perturbation factor and controls the splitting of the degenerate modes. The constructed dual-mode single-band and four-mode dual-band PCMs with different pairs of degenerate modes can efficiently reflect linear polarized waves to the orthogonal polarization counterpart in the range of 5.89–6.4 GHz and 5.88–6.30 GHz/8.19–8.59 GHz, respectively. Current distribution and an equivalent circuit model were studied to reveal the polarization conversion mechanism. Finally, experiments were implemented to verify the near unity cross-polarization conversion efficiency at the corresponding bands. Given the PCM’s advanced performance of low profile and high selectivity, it has great potential applications in controlling the polarization state of microwaves.

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Liquid crystal based tunable spurline filters with notch frequencies at 50 and 85 GHz

Cited by 7 publications

References 29 publications

Eight-element liquid crystal based 32 GHz phased array antenna with improved time response

Eight-element liquid crystal based 32 GHz phased array antenna with improved time response

RF MEMS filter based on dual liquid variations

Low-profile linear polarization conversion metasurfaces using degenerate modes for high selectivity

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