Spelling suggestions: "subject:"protel"" "subject:"brotel""
1 |
A Design Methodology for Implementation of Serial Peripheral Interface Using VHDLKurapati, Jyothsna 17 July 2005 (has links)
In this thesis, an approach is proposed for the design and implementation of a serial peripheral interface using Complex Programmable Logic Devices, (CPLD's). The focus of this research was to develop an effective Serial Peripheral Interface. The Serial Peripheral Interface, (SPI), created by Motorola is also known as Microwire, which is a trademark of National Semiconductor. The SPI is a full-duplex, synchronous, serial data link that enables communication between a host processor and peripherals.
The Serial peripheral interface can be programmed in software or built strictly in hardware inside a microcontroller. However, Complex programmable logic devices offer a quicker and more customizable solution. This research investigated the Serial peripheral interface with respect to its implementation in a CPLD and the use of the Very High Speed Integrated Circuit Hardware Description language, (VHDL).
|
2 |
Videokort för VME-Bussen / Videocard for the VMEbusKingbäck, Andreas January 2003 (has links)
<p>Denna rapport behandlar konstruktion och tillverkning av ett videokort till Versa Module Eurocard (VME) bussen. Kortet skall användas vid laborationer i kurser där mikrodatorkort VM42 från PEP Modular Computer används. Grafikkortet klarar en upplösning på minst 640x480 punkter med 24-bitars färg. Hela konstruktionen är uppbyggd kring Lattice<sup>®</sup> MACH4A3-384/160. Designen av MACH kretsen är uppbyggd i Very High speed integrated hardware Description Language (VHDL) med hjälp av programmen ActiveHDL, Synplify Pro<sup>®</sup>, ispDesignExpert samt LatticePRO. </p> / <p>This report is about the construction and fabrication of a video card for the Versa Module Euro card (VME) bus. The card will be used as a platform in laborations in courses including the VM42 microcontroller from PEP Modular Computer. The card is able to display a resolution of at least 640x480 pixels with 24bit color. The heart in the construction is the Lattice<sup>®</sup> MACH4A3-384/160 Complex Programmable Logic Device (CPLD). All programming is done in Very High speed integrated hardware Description Language (VHDL) with the help of ActiveHDL, Synplify Pro<sup>®</sup>, ispDesignExpert and LatticePRO software tools.</p>
|
3 |
Hotelové systémy / Hotel systemsKunková, Kateřina January 2015 (has links)
The aim of this thesis is to analyze and compare hotel systems Hores and Protel. The first part highlights the application of the information and communication technologies in general in tourism. The second part focuses on hotel systems used both worldwide and in the Czech Republic. Subsequently, it concentrates in detail on Hores and Protel systems. In the last part, the beforehand chosen parameters are analyzed and evaluated. In addition, the results of carried out questionnaire are presented and assessed. Furthermore, a SWOT analysis evidences the negatives and positives of both systems. In the end, the thesis states the overall evaluation of the systems and presents proposed changes.
|
4 |
Videokort för VME-Bussen / Videocard for the VMEbusKingbäck, Andreas January 2003 (has links)
Denna rapport behandlar konstruktion och tillverkning av ett videokort till Versa Module Eurocard (VME) bussen. Kortet skall användas vid laborationer i kurser där mikrodatorkort VM42 från PEP Modular Computer används. Grafikkortet klarar en upplösning på minst 640x480 punkter med 24-bitars färg. Hela konstruktionen är uppbyggd kring Lattice® MACH4A3-384/160. Designen av MACH kretsen är uppbyggd i Very High speed integrated hardware Description Language (VHDL) med hjälp av programmen ActiveHDL, Synplify Pro®, ispDesignExpert samt LatticePRO. / This report is about the construction and fabrication of a video card for the Versa Module Euro card (VME) bus. The card will be used as a platform in laborations in courses including the VM42 microcontroller from PEP Modular Computer. The card is able to display a resolution of at least 640x480 pixels with 24bit color. The heart in the construction is the Lattice® MACH4A3-384/160 Complex Programmable Logic Device (CPLD). All programming is done in Very High speed integrated hardware Description Language (VHDL) with the help of ActiveHDL, Synplify Pro®, ispDesignExpert and LatticePRO software tools.
|
Page generated in 0.0337 seconds