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In-System Programmer for ICSP Interface of Pic Microcontrollers
Doležal, Pavel ; Strnadel, Josef (referee) ; Šimek, Václav (advisor)
This thesis is dealing with a design of programming device with the expected use for Microchip PIC 16F and 18F microcontrollers. Individual chapters are dedicated to aspects of circuitry, printed circuit board design and user software tools. The proposed device is based on PIC18F67J50 microcontroller, graphic LCD diplay, and memory card interface. Design can be easily adjusted in order to support wide range of devices. Microchip's In-Circuit Serial Programming protocol is described with focus on previously mentioned family of devices. Working prototype of the programmer is attached to this thesis as a demonstration of a practical outcome.
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Laboratory Pulse Power Supply Controlled by Microcontroller
Chytil, Jiří ; Kubíček, Michal (referee) ; Šebesta, Jiří (advisor)
This project deals with design of switching laboratory supply controled by PIC microcontroler. It consist of three modules: control unit and couple of power modules. Each of the modul is controled by PIC18 microcontroler. Device should work autonomicaly or it can be connected with PC via USB. Output paremeters 0-20 V, 0-1 A. The device has been designed with regard to minimal power consumption.
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Electronic Log Book with GPS
Rzyman, Daniel ; Žaloudek, Luděk (referee) ; Bartoš, Pavel (advisor)
This Bachelor's Thesis made opportunity to design, build and program a device that uses global positioning system to simplify the way of logging rides in the companies. The core of whole application is sixteen bit microcontroller from PIC24F family, which receives information (based on NMEA communication protocol) about the location and time from the GPS module, for further processing. Device displays information about journey on the LCD display. The USB interface is placed in the device for persistent journey records on the USB discs. The visualization of collected data is illustrative. It's using application Google Earth and KML files to log journeys directly on the map.
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In-System Programmer for ICSP Interface of Pic Microcontrollers
Doležal, Pavel ; Strnadel, Josef (referee) ; Šimek, Václav (advisor)
This thesis is dealing with a design of programming device with the expected use for Microchip PIC 16F and 18F microcontrollers. Individual chapters are dedicated to aspects of circuitry, printed circuit board design and user software tools. The proposed device is based on PIC18F67J50 microcontroller, graphic LCD diplay, and memory card interface. Design can be easily adjusted in order to support wide range of devices. Microchip's In-Circuit Serial Programming protocol is described with focus on previously mentioned family of devices. Working prototype of the programmer is attached to this thesis as a demonstration of a practical outcome.
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Electronic Log Book with GPS
Rzyman, Daniel ; Žaloudek, Luděk (referee) ; Bartoš, Pavel (advisor)
This Bachelor's Thesis made opportunity to design, build and program a device that uses global positioning system to simplify the way of logging rides in the companies. The core of whole application is sixteen bit microcontroller from PIC24F family, which receives information (based on NMEA communication protocol) about the location and time from the GPS module, for further processing. Device displays information about journey on the LCD display. The USB interface is placed in the device for persistent journey records on the USB discs. The visualization of collected data is illustrative. It's using application Google Earth and KML files to log journeys directly on the map.
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Laboratory Pulse Power Supply Controlled by Microcontroller
Chytil, Jiří ; Kubíček, Michal (referee) ; Šebesta, Jiří (advisor)
This project deals with design of switching laboratory supply controled by PIC microcontroler. It consist of three modules: control unit and couple of power modules. Each of the modul is controled by PIC18 microcontroler. Device should work autonomicaly or it can be connected with PC via USB. Output paremeters 0-20 V, 0-1 A. The device has been designed with regard to minimal power consumption.
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