Global ETD Search

1	Analýza USB rozhraní / USB communication protocol analysis Zošiak, Dušan January 2009 (has links) Tato práce je zaměřena na zpracování a analýzu USB komunikačního protokolu a implementace jeho jednotlivých částí do FPGA obvodu s využitím programovacího jazyka VHDL. Ve finální podobě by měla práce představovat souhrnný a ucelený dokument popisující principy USB rozhraní a jeho komunikace doplněných praktickým návrhem v jazyce VHDL, který by byl schopen převést data do USB.
2	Towards a USB control area network Golchin, Ahmad 01 February 2024 (has links) Cyber-physical systems are computers equipped with sensors and actuators that enable them to interact with their surrounding environments. Ground vehicles, drones, and manufacturing robots are examples of such systems that require timing guarantees in addition to functional correctness to achieve their mission objectives. These systems often use multiple microcontroller boards for workload distribution and physical redundancy. The emergence of PC-class embedded systems featuring high processing capabilities and abundant resources presents an opportunity to consolidate separate microcontroller boards as software-defined functions into fewer computer systems. For instance, current automotive systems utilize upwards of 100 electronic control units (ECUs) for chassis, body, power-train, infotainment, and vehicle control services. Consolidation saves manufacturing costs, reduces wiring, simplifies packaging in space-limited situations, and streamlines software update delivery to end-users. However, consolidating functions on PC-class hardware does not address the real-time I/O challenges. A fundamental problem in such real-time solutions is the handling of device input and output in a timely manner. For example, a control system might require input data from a sensor to be sampled and processed regularly so that output signals to actuators occur within specific delay bounds. Input/output (I/O) devices connect to the host computer using different types of bus interfaces not necessarily supported by PC-class hardware natively. Examples of such interfaces include Controller Area Network (CAN) and FlexRay, which are prominent in the automotive world, but are not found in PC-class embedded systems. Universal Serial Bus (USB) is now ubiquitous in the PC-class domain, in part due to its support for many classes of devices with simplified hardware needed to connect to the host, and can be utilized to bridge this gap. USB provides the throughput and delay capabilities for next-generation high bandwidth sensors to be integrated with actuators in control area networks. However, typical USB host controller drivers suffer from potential timing delays that affect the delivery of data between tasks and devices. This Ph.D. thesis examines the use of Universal Serial Bus (USB) as the physical fabric for host-to-device and host-to-host communication, without special switching hardware or protocol translation logic, and through a unified programming interface. Combined with the real-time scheduling framework of the Quest RTOS, this work investigates how to form networks of I/O devices and computing nodes over USB with end-to-end timing guarantees. The main contribution of this thesis is a USB-centric design solution for real-time cyber-physical systems with distributed computing nodes. Computer science Computer networking Input/Output Partitioning hypervisor Real-time operating system Universal Serial Bus Virtualization
3	Numerická klávesnice / Numeric keyboard Hladký, Pavel January 2020 (has links) This thesis deals with design of numeric keyboard, which can be connected to personal computer or laptop through USB interface. This numeric keyboard can be also configured using application for operating system Windows. Backlight pattern generator is also part of this application. Theoretic part deals with various types of keyboards, switches and closer description of USB interface. Practical part deals with sole design of circuit that detects keystrokes and sends information about active switches through USB, description of used components, description of microcontroller service routine and description of the application for backlight pattern generating. At the end of this thesis are described results of measurements which were made to choose mechanical switches with shortest debounce time and keyboard response to key press.
4	Řízení komunikace po sběrnici USB / Control of the communication on the USB Hlavica, Zdeněk January 2008 (has links) The aim of Master’s thesis Control of the communication on the USB is realization hardware and software designed for microcontroller C8051F120 what is enabling recording of data on memory medium Flash drive. It includes study of USB, transfer protocols, which are needed and file system. The thesis deals about host type USB controllers and about USB controller MAX3421E fy Maxim, which has been choosen for development of software. It is required ability to create directories and files including recording data to file and ability of reading data from files in the file system FAT16.
5	Joystick Radar Control : Implementing joystick control of a radar rig using single board micro-controllers by emulating generic mouse and keyboard commands / Joystickstyrning av radar : Implementering av joystickstyrning på en radarrigg med hjälp av enkortsdatorer Gustafsson, Christopher January 2021 (has links) The Swedish Defence Materiel Administration provides tests and evaluations of military Aircrafts and their systems as well as provide services in connection with military exercises. Testing aircraft against a radar antenna and training crews with this radar is part of that offering. The radar is deployed in a container rig and controlled by a computer running Windows 2000. The current option to control this computer is a mouse and keyboard. In this thesis, a system will be designed that is able to improve the ease of use of this rig while minimizing any need to modify the radar rig’s already established hardware and software. The resulting system designed used a commercially available joystick and off the shelf single board micro-controllers in combination with a graphical user interface to supply the radar rig with a converted input from the joystick in the form of mouse and keyboard commands, simplifying the end-user experience. / Försvarets materielverk tillhandahåller test och evaluering av militära flygsystem. De tillhandahåller även tjänster rörande militära övningar såsom belysning av flygplan med en radar för att öva piloter. Denna radar är monterad i en container och kontrolleras av en styrdator som kör operativsystemet Windows 2000. Denna dator styrs med hjälp av en mus och tangentbord. I denna rapport kommer ett system designas som kan förbättra användarupplevelsen av denna dator samtidigt som förändringar av hårdvara eller mjukvara i styrdatorn undviks. Resultatet av rapporten var ett system bestående av en kommersiellt tillgänglig joystick och två microkontrollers i kombination med ett grafiskt användargränssnitt som omvandlar knapptryck och styrutslag från joysticken till mus och tangentbords kommandon i styrdatorn. single board micro-controllers joystick USB Universal Serial Bus SPI Serial Peripheral Interface Arduino Elektroteknik och elektronik
6	Počítačové řízení klimatické komory / Computerized Climatic Test Chamber Control Pálka, Václav January 2017 (has links) Diplom work describes a proposal and the design of the device for controlling the temperature test in a climatic chamber Heraeus and the creation of software for operating equipment. Work describes in detail the design and construction interface for the climate chamber, with which will be able to run automated test sequences and the development of the firmware and the operating software to start the temperature test.
7	Laboratorní zdroj s rozhraním USBTMC / USBTMC bench power supply Sehnálek, Lubomír January 2016 (has links) This thesis was selected due to establishing of universal platform for USBTMC remote instrumentation and constructing a laboratory DC power supply for hobby use. This thesis is focused on design and realization of regulated linear DC power supply. At first thesis mentions kinds of DC power supplies and kinds of interfaces used for test and measurement instruments. Thesis continues by describing of blocks of a developed linear DC power supply with an USB interface following the USBTMC specification for remote control. Thesis ends by realization of the regulated linear DC power supply with USBTMC interface. It was achieved acceptable results. Communication between PC and Control module works well as same as communication between Control module and Power supply module. Maximum output ranges of voltage and current are 40V and 3A. Big interference on auxiliary supply rail decreases accuracy.
8	Fiber optic USB 3.2 link with backwards compatibility : A pre-study / Fiberoptisk USB 3.2 länk med bakåtkompabilitet : En förstudie Blomqvist, Olle January 2024 (has links) This thesis is a pre-study for the design of a fiber optic transceiver system capable of transmitting Universal Serial Bus (USB) 3.2 and 2.0 signals over an optic medium. The added benefit of such a system is that transmission can potentially be achieved over longer distances than what is allowed by the Universal Serial Bus standards. Beneficial scenarios are industrial applications, media production applications or in electromagnetically noisy environments. Currently there exists transceiver systems capable of transmitting Universal Serial Bus 2.0 and the slowest of Universal Serial Bus 3.2 operating modes, but not the higher speed Universal Serial Bus 3.2 modes. The transmission of these higher speed modes with retained capability of transmitting the slower modes is the subject of investigation for this thesis. This project was kept at a theoretical level and takes into account electronics, fiber optics, data structures, networking and system design. General considerations and challenges with designing a transceiver system in question are put forward. Challenges such as the half-duplex to full-duplex conversion necessary for transceiving Universal Serial Bus 2.0 over fiber, propagation delay, single ended zeroes and low speed signaling carried out by Universal Serial Bus 3.2. Then, two architectures for fiber transceivers and their basic respective structures are proposed: parallel and serial. They are then discussed with regards to their challenges, strengths and weaknesses. It is concluded that since there are no technological limitations, both architectures are plausible to implement. The parallel architecture being the easier to implement because it features a more complex optical module. Therefore reducing the complexity of the interfacing and packeting to the optical module when compared to the serial architecture. / Detta examensarbete är en förstudie för design utav ett fiberoptiskt mediakonverterarsystem kapabelt att konvertera signaler från Universal Serial Bus (USB) 3.2 och 2.0 mellan elektriska och optiska medium. Nyttan av ett sådant system kan materialiseras i till exempel en utökning av avstånden Universal Serial Bus kan användas. Scenarion som kan gagnas av en sådan utökning av avstånd är till exempel industritillämpningar, mediaproduktion eller elektromagnetiskt brusiga miljöer. För närvarande existerar det fiberoptiska mediakonverterarsystem som är kapabla att konvertera Universal Serial Bus 2.0 samt det långsammaste läget av Universal Serial Bus 3.2 men inte de snabbare lägena av Universal Serial Bus 3.2. Konverteringen och sändandet av dessa lägen med högre datahastigheter med bibehållen kapacitet för det långsamma läget samt Universal Serial Bus 2.0, är vad detta examensarbete undersökt. Arbetet behölls på en teoretisk nivå och tar hänsyn till elektronik, fiberoptik, datastrukturer, nätverksteknik samt systemdesign. Denna rapport presenterar allmänna beaktanden och utmaningar med att designa och konstruera ett fiberoptiskt mediakonverterarsystem i fråga. Utmaningar såsom konvertering av halv-duplex till full-duplex för att kunna skicka och mottaga Universal Serial Bus 2.0 över ett optiskt medium, propagationfördröjningar, transmission av enkeländade nollor samt det låghastighetsprotokoll som används av Universal Serial Bus 3.2. Efter att allmänna beaktanden samt utmaningar har presenterats, läggs två olika förslag fram på arkitekturer för mediakonverterare. De två arkitekturerna är parallell samt seriell. Deras respektive grundläggande struktur redogörs för och de diskuteras sedan med hänsyn till deras specifika utmaningar, styrkor och svagheter. Slutsatsen är att eftersom det inte finns några grundläggande tekniska hinder, är det rimligt att kunna implementera båda arkitekturerna. Slutsatsen är också att den parallella arkitekturen är den enklare att implementera. Detta på grund utav en mer kapabel och komplex optisk modul som därmed reducerar implementationsinsatsen för den parallella arkitekturen, då den kräver mindre komplexa konverteringar än vad den seriella arkitekturen kräver. USB Universal Serial Bus 3.2 Protocol Fiber Optics Communication Transceiver Backwards Compatibility 2.0 Duplex Printed circuitboard Computer Peripherals Bandwidth Gigabit Pre-study USB Universell Seriell Buss 3.2 Protokoll Fiberoptik Kommunikation Transceiver Bakåtkompatibilitet 2.0 Duplex Kretskort Kringutrustning Bandbredd Gigabit Förstudie Embedded Systems Inbäddad systemteknik Annan elektroteknik och elektronik Elektroteknik och elektronik

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