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Increase of operation frequency of printed antennas
Havlík, Vojtěch ; Láčík, Jaroslav (referee) ; Raida, Zbyněk (advisor)
The thesis is focused on the design of a slot antenna integrated into a textile substrate. In the thesis, antennas operating at the frequency 5.8 GHz and 24.125 GHz (ISM bands) were designed. Functionality of the antennas was verified by simulation performed in the program CST Microwave Studio. The antennas consist of a textile integrated waveguide and a coplanar waveguide which adapts the waveguide characteristic impedance to 50 of the input coaxial connector. As a substrate, we used a 3D textile material.
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Multilayer textile antenna array
Hermány, Roman ; Tobola, Pavel (referee) ; Raida, Zbyněk (advisor)
Thesis focuses on the design and development of three possible methods to power the serial patch array and optimization of the chosen design. The antenna array is conceived as a multi-layered structure formed on a 3D textile substrate. The objective of this work is to identify the best possible configuration of antenna array for the use in automotive and aerospace industry. The first concept – array coupled by near microstrip line – proved in the case of the more serial elements as non-functional. The second concept – aperture coupled array – is unsuitable for use in close proximity to the electrically conductive shell of the aircraft. The third concept – array coupled with textile integrated waveguide – seems like the best possible solution. The design of the array coupled with textile integrated waveguide was optimized in consideration of the production process. The impedance bandwidth of this proposed three elements antenna is 890 MHz, the gain in the main lobe direction is 11.8 dBi.
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Multilayer textile antenna array
Hermány, Roman ; Tobola, Pavel (referee) ; Raida, Zbyněk (advisor)
Thesis focuses on the design and development of three possible methods to power the serial patch array and optimization of the chosen design. The antenna array is conceived as a multi-layered structure formed on a 3D textile substrate. The objective of this work is to identify the best possible configuration of antenna array for the use in automotive and aerospace industry. The first concept – array coupled by near microstrip line – proved in the case of the more serial elements as non-functional. The second concept – aperture coupled array – is unsuitable for use in close proximity to the electrically conductive shell of the aircraft. The third concept – array coupled with textile integrated waveguide – seems like the best possible solution. The design of the array coupled with textile integrated waveguide was optimized in consideration of the production process. The impedance bandwidth of this proposed three elements antenna is 890 MHz, the gain in the main lobe direction is 11.8 dBi.
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Increase of operation frequency of printed antennas
Havlík, Vojtěch ; Láčík, Jaroslav (referee) ; Raida, Zbyněk (advisor)
The thesis is focused on the design of a slot antenna integrated into a textile substrate. In the thesis, antennas operating at the frequency 5.8 GHz and 24.125 GHz (ISM bands) were designed. Functionality of the antennas was verified by simulation performed in the program CST Microwave Studio. The antennas consist of a textile integrated waveguide and a coplanar waveguide which adapts the waveguide characteristic impedance to 50 of the input coaxial connector. As a substrate, we used a 3D textile material.
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