|
|
Circuit Parameters Measurement by S parameters - Laboratory Experiment
Karniš, David ; Láčík, Jaroslav (referee) ; Urbanec, Tomáš (advisor)
Bachelor thesis describes a method of measuring impedance suitable for determining the properties of RF and microwave circuits. The main objective is to get acquainted with S parameters, method of measuring them with vector analysis and with equivalent circuits of passive elements. Further is discussed the issue of calibration and its parts. The following section describes the product design process, concluded by verification of measuring method and design.
|
|
|
Circuit Parameters Measurement by S parameters - Laboratory Experiment
Karniš, David ; Láčík, Jaroslav (referee) ; Urbanec, Tomáš (advisor)
Bachelor thesis describes a method of measuring impedance suitable for determining the properties of RF and microwave circuits. The main objective is to get acquainted with S parameters, method of measuring them with vector analysis and with equivalent circuits of passive elements. Further is discussed the issue of calibration and its parts. The following section describes the product design process, concluded by verification of measuring method and design.
|
|
|
Design of the device for magnetodynamic characterization of magnetic materials and nanostructures
Roučka, Václav ; Vaňatka, Marek (referee) ; Turčan, Igor (advisor)
Further development of magnonics, the field of study dealing with the phenomenon of spin waves, is connected to the research of novel materials and structures with useful magnetodynamic properties. One of the possible experimental techniques used to quantify these properties is the measurement of ferromagnetic resonance using vector network analyzer. This experimental technique is being dealt with in the presented bachelor thesis. At the beginning we shortly introduce the theoretical foundations of magnetization dynamics and the propagation of electromagnetic waves in microwave circuits. Then we describe the individual devices of the experimental apparatus and its overall design. Function of the device is demonstrated on a measurement of ferromagnetic resonance of a permalloy sample. Acquired data is processed using the methods mentioned in this thesis and at the end we present the resulting magnetodynamic properties of permalloy.
|
|
|
Radar receiver beamforming implementation in FPGA
Bárta, Jakub ; Dvořák, Vojtěch (referee) ; Bohrn, Marek (advisor)
This thesis deals with design and implementation of digital beamformer for 3D radar. The text of this thesis contains derivation of beamforming algorithm and detailed description of it’s implementation on development kit with Cyclone V circuit. At the end of the thesis the beamformer design is verified and it’s further usage is discused.
|
|
|
Wireless power transfer by inductive coupling for biomedical applications
Studený, Jakub ; Dřínovský, Jiří (referee) ; Mrnka, Michal (advisor)
The bachelor thesis deals with wireless power transfer implemented using a couple of inductively coupled planar coils. A procedure for designing planar coils using the Wheeler method is described as well as the process of simulating wireless transmission in a 3D electromagnetic field simulator. The conclusion of the thesis is devoted to the implementation of the designed coils with adaptive circuits, measurement of transmission by vector analyzer, investigation into the impact of coil distance, and mutual rotation of the coils and the materials interposed the between coils.
|
|
|
Radar receiver beamforming implementation in FPGA
Bárta, Jakub ; Dvořák, Vojtěch (referee) ; Bohrn, Marek (advisor)
This thesis deals with design and implementation of digital beamformer for 3D radar. The text of this thesis contains derivation of beamforming algorithm and detailed description of it’s implementation on development kit with Cyclone V circuit. At the end of the thesis the beamformer design is verified and it’s further usage is discused.
|
|
|
Design of the device for magnetodynamic characterization of magnetic materials and nanostructures
Roučka, Václav ; Vaňatka, Marek (referee) ; Turčan, Igor (advisor)
Further development of magnonics, the field of study dealing with the phenomenon of spin waves, is connected to the research of novel materials and structures with useful magnetodynamic properties. One of the possible experimental techniques used to quantify these properties is the measurement of ferromagnetic resonance using vector network analyzer. This experimental technique is being dealt with in the presented bachelor thesis. At the beginning we shortly introduce the theoretical foundations of magnetization dynamics and the propagation of electromagnetic waves in microwave circuits. Then we describe the individual devices of the experimental apparatus and its overall design. Function of the device is demonstrated on a measurement of ferromagnetic resonance of a permalloy sample. Acquired data is processed using the methods mentioned in this thesis and at the end we present the resulting magnetodynamic properties of permalloy.
|
|
|
Wireless power transfer by inductive coupling for biomedical applications
Studený, Jakub ; Dřínovský, Jiří (referee) ; Mrnka, Michal (advisor)
The bachelor thesis deals with wireless power transfer implemented using a couple of inductively coupled planar coils. A procedure for designing planar coils using the Wheeler method is described as well as the process of simulating wireless transmission in a 3D electromagnetic field simulator. The conclusion of the thesis is devoted to the implementation of the designed coils with adaptive circuits, measurement of transmission by vector analyzer, investigation into the impact of coil distance, and mutual rotation of the coils and the materials interposed the between coils.
|
|
|
Circuit Parameters Measurement by S parameters - Laboratory Experiment
Karniš, David ; Láčík, Jaroslav (referee) ; Urbanec, Tomáš (advisor)
Bachelor thesis describes a method of measuring impedance suitable for determining the properties of RF and microwave circuits. The main objective is to get acquainted with S parameters, method of measuring them with vector analysis and with equivalent circuits of passive elements. Further is discussed the issue of calibration and its parts. The following section describes the product design process, concluded by verification of measuring method and design.
|
|
|
Circuit Parameters Measurement by S parameters - Laboratory Experiment
Karniš, David ; Láčík, Jaroslav (referee) ; Urbanec, Tomáš (advisor)
Bachelor thesis describes a method of measuring impedance suitable for determining the properties of RF and microwave circuits. The main objective is to get acquainted with S parameters, method of measuring them with vector analysis and with equivalent circuits of passive elements. Further is discussed the issue of calibration and its parts. The following section describes the product design process, concluded by verification of measuring method and design.
|
guest ::
