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FREKVENČNO NASTAVLJIVA ANTENA Z VISOKIM IZKORISTKOM NA FEROELEKTRIKU
ID FURLAN, VLADIMIR (Author), ID Vidmar, Matjaž (Mentor) More about this mentor... This link opens in a new window

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PID: 20.500.12556/rul/4114a10d-fa29-4175-88e8-1b6c8628fdd3

Abstract
Cilj raziskave je bil oblikovati frekvenčno in polarizacijsko prilagodljivo anteno, ki temelji na diodah z spremenljivo kapacitivnostjo (varaktorji) na podlagi tankega filma feroelektričnega materiala. Antena mora biti frekvenčno in polarizacijsko nastavljiva, poleg tega pa mora pokrivati frekvenčni pas od 7,8 GHz do 8,3 GHz, da je primerna za satelitsko komunikacijo. Frekvenčno in polarizacijsko nastavljiva antena je zasnovana kot sistem, ki vsebuje dve anteni in napajalno mrežo. Napajalna mreža je sestavljena iz dveh vej, od katerih vsaka vsebuje nizko propustno sito in fazni sukalnik ter delilnika moči. Na koncu vsake veje je antena, ki skupaj z napajalno mrežo tvori antenski sistem, sposoben vsake možne polarizacije. Slika 0.1 prikazuje blok diagram antenskega sistema. Prva komponenta v sistemu je delilnik moči, ki razdeli signal na dva enaka signala. Nato gre signal skozi nizko propustno sito (LPF). LPF vklopi in izklopi pripadajočo anteno. Glede na to, skozi katero vejo napajalne mreže signal poteka, je antenski sistem horizontalno ali vertikalno polariziran. Po situ gre signal skozi fazne sukalnike z zamikom faze med 0° in 90°. Propustnost LPF za RF signal ter fazni zamik vsake posamezne antene določata polarizacijo signala. Frekvenčno prilagodljivost antene smo dosegli s spreminjanjem impedance antene s pomočjo varaktorjev, izdelanih na podlagi tankih plasti feroelektričnih materialov.

Language:Slovenian
Keywords:FREQUENCY-AGILE, HIGHLY-EFFICIENT ANTENNA ON FERROELECTRIC SUBSTRATE
Work type:Doctoral dissertation
Organization:FE - Faculty of Electrical Engineering
Year:2016
PID:20.500.12556/RUL-80185 This link opens in a new window
COBISS.SI-ID:11284564 This link opens in a new window
Publication date in RUL:09.02.2016
Views:2347
Downloads:767
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Secondary language

Language:English
Title:FREQUENCY-AGILE, HIGHLY-EFFICIENT ANTENNA ON FERROELECTRIC SUBSTRATE
Abstract:
The objective of this research was to design a frequency and polarization agile antenna based on varactors made on ferroelectric thin film. Frequency agility was obtained by changing antenna impedance with ferroelectric based varactor. To obtain polarization agility a system comprising power splitter, tunable filter, phase shifter, and two antennas was designed. BaxSr1-xTiO3 (BST) was chosen for a ferroelectric thin film. Before attempting to implement BST filter, phase shifter, and antenna, interdigital capacitors (IDC) based on various BST compositions and thicknesses have been developed and characterized. Dielectric permittivity and tangent loss of BaxSr1-xTiO3 with x=0.3, 0.4, and 0.5 and thickness between 170 nm and 500 nm were measured at kHz and GHz range. IDC based on ferroelectric thin film substrate were simulated, fabricated and measured. Simulations and measurements were compared, discrepancies validated and possible improvements suggested. Measurement proved that Ba0.3Sr0.7TiO3 with thickness of 240 nm has an optimal balance between tangent loss and tunability and it was chosen to be the substrate for the tunable devices. Using BST thin films deposited on a Alumina (Al2O3) as a substrate, three antennas (two dipoles and a slot antenna), a phase shifter and a low pass filter have been designed and manufactured. All devices have ferroelectric based varactors integrated in theirs structure in order to obtain frequency agility. Ferroelectric varactors are designed as IDC on BST thin film. Two dipole antennas and a slot antenna were designed with IDC integrated into the feed line or the antenna structure. Coplanar waveguide (CPW) fed dipole antenna has tuning range of 300 MHz and microstrip fed dipole antenna is not tunable at all. Slot antenna has similar tuning characteristics as the CPW fed dipole but because of its broadband characteristic, it satisfies the required resonant frequency range. Antennas radiation diagram, polarization pattern and higher order signals were measured. Filter was designed as a 5th order low pass Chebyshev filter. By applying bias voltage, its cut-off frequency changes by 500 MHz, which is according to the requirements, but because of divergence between simulations and measurements, it is below the required frequency. Phase shifter is designed as a loaded line phase shifter. It has a 90 ° phase shift 19 at 8 GHz, return loss better than -10 dB and insertion loss better than -2 dB at the whole frequency range. The nonlinear response of the phase shifter and filter was investigated with two-tone intermodulation distortion (IMD) measurement.

Keywords:BST, reconfigurable antenna, ferroelectric thin film, microwave filter, phase shifter, computer simulation

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