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Razvoj gonilnika močnostnega vira in etalonskega merilnika pogreška
ID POLIČAR, TIM (Author), ID Dobrišek, Simon (Mentor) More about this mentor... This link opens in a new window

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Abstract
V dobi razvoja in avtomatizacije vsa industrijska podjetja stremijo k boljši učinkovitosti in hitrejši proizvodnji izdelkov. Za realizacijo tega cilja so potrebni dobro programsko orodje in sodobne elektronske naprave, ki to omogočajo. Eden glavnih dejavnikov za avtomatizacijo je upravljanje elektronskih naprav s programsko kodo. Od zagona do uporabe temeljnih funkcionalnosti vsakega elektronskega instrumenta skrbi gonilnik naprave. To je programska oprema, ki z dobro grajenim programskim vmesnikom omogoča komuniciranje in upravljanje naprave z računalnikom. Gonilniki se uporabljajo predvsem pri standardnih napravah, kot so monitor, računalniška miška, tiskalnik, lahko pa jih izvedemo tudi na bolj specifičnih oziroma nestandardnih napravah, med katere uvrščamo laboratorijsko in posebno testno opremo. Izvedba gonilnika mora biti skrbno načrtovana, saj lahko vsaka sprememba v programski kodi kritično vpliva na njegovo delovanje. Je kot steber v zgradbi; če je slabo načrtovan, je le vprašanje časa, kdaj se bo zgradba porušila. Vsebuje vsa temeljna opravila, kot so – v primeru močnostnega vira in etalonskega merilnika pogreška – povezovanje, pisanje v napravo in branje iz nje, nastavljanje in tudi prekinitev komunikacije. Na tem se lahko gradijo vse druge funkcije, ki pripomorejo k bolj specifičnim nalogam in zagotavljajo, da delo poteka na daljavo, hitro in brez človekovega posega, saj je to tudi namen avtomatizacije.

Language:Slovenian
Keywords:gonilnik, močnostni vir, etalonski merilnik pogreška, avtomatizacija
Work type:Bachelor thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2019
PID:20.500.12556/RUL-108524 This link opens in a new window
Publication date in RUL:05.07.2019
Views:863
Downloads:185
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Secondary language

Language:English
Title:Development of a Power Source and Standard Error Meter Driver
Abstract:
In the era of development and automation, all industrial companies strive for better efficiency and faster production of their products. For making this goal happen, however, a good and adequate software framework and modern electronic devices are needed. One of the factors that are of quintessence is the management of these instruments with program code. The device driver takes care of booting and all the applications of the basic functionalities. It is a software that, with a well-built software interface, allows users to communicate and manage a distinct device with a computer. Device drivers are mostly used for standard devices such as: monitors, computer mouse, printers, etc., but we can also implement its functionalities on more specific non-standard devices such as laboratory and special test equipment. The implementation of such project must be meticulously and thoughtfully designed, since any further changes in the main-code can cause error in its operation . It is like a pillar in the building, if it is poorly designed, it is just a matter of time before it collapses. The driver contains all basic functions (in this case a power supply and standard error meter) such as: connection, data transfer to the device itself, data receiving, setting values from the devices buffer and also closing its ports and breaking communication. All other functions stem from this concept and contribute to more specific tasks and allow us to communicate with these devices remotely, quickly and without human intervention, as this is also the point of automation.

Keywords:device driver, power supply, standard error meter, automation

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