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Optično povezan pulzno-širinski modulator za krmiljenje naprav pri preverjanju elektromagnetne združljivosti : magistrsko delo
ID Amon, Martin (Author), ID Jankovec, Marko (Mentor) More about this mentor... This link opens in a new window

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Abstract
Cilj magistrske naloge je bil izdelati optično vzbujan pulzno-širinski modulator, namenjen za uporabo kot del pomožne opreme pri preverjanju elektromagnetne združljivosti komponent, namenjenih vgradnji v avtomobile. Zaradi uporabe v testni komori je modulator zgrajen iz dveh enot, ki sta med seboj povezani z optičnim vlaknom. Glede na namen uporabe je morala biti notranja enota skladna s standardi za področje avtomobilske industrije. Z namenom da bi se ugotovilo odzivanje notranje enote pri izpostavitvi enakim testnim pogojem, kot veljajo za testiranje vzorcev, je morala biti tudi ta enota preizkušena pri enakih pogojih. V ta namen je bila notranja enota obremenjena z bremenom 50 Ω, pri čemer je breme simuliralo testni vzorec. Narejeni so bili naslednji testi: BCI (angl. Bulk Current Injection), odpornost na sevana elektromagnetna polja in meritev sevalnih emisij, ki jih med svojim delovanjem povzroča notranja enota. Izkazalo se je, da je notranja enota odporna na vsiljene motnje na celotnem frekvenčnem področju od 1 MHz do 6 GHz, saj je prestala testa BCI in odpornost na sevana elektromagnetna polja brez vsakršnega odstopanja v delovanju. Pri meritvi emisij pa se je izkazalo, da so le-te previsoke glede na limitno vrednost. Narejene so bile še dodatne meritve, ki so vključevale spremembe na vezju in v testni postaviti. Dobljeni rezultati so pokazali, da so visoke sevalne emisije posledica prevodnih motenj protifaznega tipa na vhodnih in izhodnih linijah, prav tako pa so rezultati potrdili tudi domnevo o vplivu časov naraščanja in padanja izhodnega signala na emisije.

Language:Slovenian
Keywords:pulzno-širinski modulator, notranja enota, frekvenca, obratovalni cikel, preizkušanje, elektromagnetna združljivost
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FE - Faculty of Electrical Engineering
Place of publishing:Ljubljana
Publisher:[M. Amon]
Year:2021
Number of pages:XVII, 83 str.
PID:20.500.12556/RUL-127907 This link opens in a new window
UDC:621.375.5(043.3)
COBISS.SI-ID:68516611 This link opens in a new window
Publication date in RUL:28.06.2021
Views:1154
Downloads:124
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Secondary language

Language:English
Title:Optically connected pulse-width modulator for controlling appliances during electromagnetic compatibility testing : magistrski študijski program druge stopnje Elektrotehnika
Abstract:
The aim of the master's thesis was to design an optically driven pulse-width modulator to be used as part of auxiliary equipment during testing of electromagnetic compatibility of components intended to be built in vehicles. Due to the application in a test chamber, the modulator is designed as composed of two separate units connected by optical fibre. For the intended purpose, the inner unit had to be compliant with standards for automotive industry. In order to see the inner unit's response when exposed to the same testing conditions as applied for tested samples, it had to be tested under the same conditions. For this purpose, the inner unit was loaded with 50 Ω load, which simulated the tested sample. The tests performed comprised: BCI (Bulk current injection), immunity to radiated electromagnetic fields and measurement of radiated emissions produced by inner unit while operating. The results of the BCI and the immunity to radiated electromagnetic fields tests have shown that the inner unit is immune to disturbances produced in a frequency range from 1 MHz to 6 GHz, since during the tests there were no deviatons in the output signal of the inner unit. The measurement of radiated emissions produced by the inner unit while operating, however, showed that emissions were too high compared to the limit. Therefore additional measurements of emissions were done, which included changes in the circuit and test set up. Additional results have shown that high emissions are caused by differential conducted disturbances on input and output lines; furthermore, the results have also shown the correlation between the rise/fall times of the output signal and the produced emissions.

Keywords:pulse-width modulator (PWM), inner unit, frequency, duty-cycle, testing, electromagnetic compatibility

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