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New Areas of the Ultrasonic Application in Microelectronics Technology
Buršík, Martin ; Pietriková, Alena (referee) ; Králová,, Iva (referee) ; Szendiuch, Ivan (advisor)
Doctoral thesis deals with the deposition of special thixotropic materials for microelectronic technology. The aim of the work is the development of the new method optimizing the dosing process in order to achieve a print resolution of better than 100 microns. The work includes the development of a special dispensing head (UZD) using the influence of ultrasonic energy. These results demonstrate the possibility of a newly developed method that is able to print thixotropic materials with a resolution of 65 microns. Compared to other methods achieves these results with the commonly used materials for thick film technology with particle size up to 5 microns.
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Non-conventional Applications in Thick Film Technology
Krejčí, Pavel ; Řezníček, Michal (referee) ; Szendiuch, Ivan (advisor)
This work deals with issues of application of the thick film technology in the non-conventional field. It includes the essential core of this technology, the overview of producers focusing on manufacturing thick film pastes and concrete examples of application. The general aim is to present growing opportunity of non-conventional application of thick film to the reader and to stimulate the imagination towards inventing new applications. In the experimental part of this work a design of a planar inductor on organic and anorganic substrate is carried out using thick film technology, screen and paste for high resolution.
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Application of Thick Films in the Modern Electronics
Somer, Jakub ; Urban, František (referee) ; Szendiuch, Ivan (advisor)
Tato diplomová práce se zabývá technologií tlustých vrstev a jejím možným použitím pro nekonvenční aplikace. První část práce je rešeršní a zaměřuje se především na aplikace tlustovrstvé technologie v různých oblastech použití. V teoretické části práce je dále popsána technologie LTCC, včetně technologických postupů výroby. V praktické části jsou řešeny dvě aplikace v tlustovrstvé technologii. Jedná se návrh a výrobu vysokofrekvenčního filtru a optického senzoru tlaku technologií LTCC. V závěru práce jsou provedena měření a jsou zhodnoceny dosažené výsledky.
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Cutting module implementation into the Aurel ALS 300 trimming laser software
Štrympl, Martin ; Kosina, Petr (referee) ; Prášek, Jan (advisor)
is project deals with the implementation of a cutting module for trimming laser system Aurel ALS 300. The conversion programme designed to convert the Gerber format into the input laser format was written in C language. Integration of the conversion programme to the control programme of PROTOMAT laser was implemented in Visual Basic 6. The first part of the semester work describes the basic thick-film technology and the use of thick-film resistors trimming. An analysis of allowed input formats PostScript, DWG and Gerber follows. The Gerber format, which is analyzed in detail here, was selected as the input format for conversion. Input data of the laser Aurel ALS 300 are also analyzed. Finally the way of creation of the converstion programme and its use described here too.
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Non conventional applications of HIC´s
Grund, Pavel ; Švecová, Olga (referee) ; Szendiuch, Ivan (advisor)
Within the frame of this bachelor’s thesis was carried out given circuit, a capacitive probe. Topology was created during the semester project. The realized hybrid integrated circuit combines two technologies – thick film technology and surface mount technology using SMD components. The bachelor’s thesis is divided on the theoretical part, which contains a description of the theoretical design and production of hybrid integrated circuit, also owns a design capacitive probe in hybrid form with a selection of components and calculates the size of the substrate thick film resistors, and a practical part. The practical part is described in detail the production of our HIC, including verification of functionality.
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Non-conventional Applications in Thick Film Technology
Krejčí, Pavel ; Řezníček, Michal (referee) ; Szendiuch, Ivan (advisor)
This work deals with issues of application of the thick film technology in the non-conventional field. It includes the essential core of this technology, the overview of producers focusing on manufacturing thick film pastes and concrete examples of application. The general aim is to present growing opportunity of non-conventional application of thick film to the reader and to stimulate the imagination towards inventing new applications. In the experimental part of this work a design of a planar inductor on organic and anorganic substrate is carried out using thick film technology, screen and paste for high resolution.
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Cutting module implementation into the Aurel ALS 300 trimming laser software
Štrympl, Martin ; Kosina, Petr (referee) ; Prášek, Jan (advisor)
is project deals with the implementation of a cutting module for trimming laser system Aurel ALS 300. The conversion programme designed to convert the Gerber format into the input laser format was written in C language. Integration of the conversion programme to the control programme of PROTOMAT laser was implemented in Visual Basic 6. The first part of the semester work describes the basic thick-film technology and the use of thick-film resistors trimming. An analysis of allowed input formats PostScript, DWG and Gerber follows. The Gerber format, which is analyzed in detail here, was selected as the input format for conversion. Input data of the laser Aurel ALS 300 are also analyzed. Finally the way of creation of the converstion programme and its use described here too.
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Cutting module implementation into the Aurel ALS 300 trimming laser software
Štrympl, Martin ; Kosina, Petr (referee) ; Prášek, Jan (advisor)
is project deals with the implementation of a cutting module for trimming laser system Aurel ALS 300. The conversion programme designed to convert the Gerber format into the input laser format was written in C language. Integration of the conversion programme to the control programme of PROTOMAT laser was implemented in Visual Basic 6. The first part of the semester work describes the basic thick-film technology and the use of thick-film resistors trimming. An analysis of allowed input formats PostScript, DWG and Gerber follows. The Gerber format, which is analyzed in detail here, was selected as the input format for conversion. Input data of the laser Aurel ALS 300 are also analyzed. Finally the way of creation of the converstion programme and its use described here too.
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