Optimizacija frekvenčno moduliranega teraherčnega sistema za uporabo v ekstremnih pogojih

KRMAC, TADEJ

Optimizacija frekvenčno moduliranega teraherčnega sistema za uporabo v ekstremnih pogojih
ID KRMAC, TADEJ (Avtor), ID Sešek, Aleksander (Mentor) Več o mentorju... Povezava se odpre v novem oknu

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Izvleček

V doktorski disertaciji je predstavljena optimizacija frekvenčno moduliranega teraherčnega sistema za uporabo v ekstremnih pogojih. V prvem delu disertacije je predstavljeno osnovno delovanje teraherčnih sistemov in njihova uporaba. Največji poudarek je na razlagi uporabe frekvenčne modulacije kot načina uporabe teraherčnega sistema v radarski konfiguraciji za detekcijo razdalje opazovanega objekta. V glavnem delu doktorske disertacije sta predstavljeni zasnova in izdelava teraherčnega sistema, ki meri razdaljo do opazovanega objekta v ekstremnih pogojih, kot so visoka temperatura, veliko prahu in dima ter neprekinjeni tresljaji v okolici sistema. Največkrat so taki pogoji v težki industriji. V našem primeru je sistem izdelan za uporabo v težki industriji za detekcijo količine nanosa prahu za mazanje kalupa, v katerem je tekoča kovina. Pri zasnovi teraherčnega sistema je bila naloga, razdeljena na dva podsistema. Prvi podsistem, ki predstavlja oddajnik, je vir teraherčnega valovanja. Sestavljajo ga sintetizator osnovne frekvence, množilniki frekvence ter valovodna lijakasta antena. V ta podsistem spadajo tudi leče za fokusiranje teraherčnega valovanja. Drugi podsistem je odgovoren za sprejemanje in obdelavo teraherčnega signala, ki ga sestavlja detektor signala, analogno-digitalni pretvornik napetostnega signala ter mikrokontroler, ki pošilja merilne podatke računalniku za nadaljnjo obdelavo in njihov prikaz. Izbira teraherčnega senzorja je pogojena z izbranim načinom generacije teraherčne frekvence. V našem primeru smo za detektor signala uporabili mikrobolometer. Pomemben del sistema je tudi njegovo ohišje. Zaradi ekstremnih pogojev okolice, v kateri se sistem nahaja, je ohišje izdelano iz kovine. Za hlajenje celotnega sistema je poskrbljeno na industrijski ravni z uporabo sistema »vortex«. Razvoj in izdelava mikrobolometra poteka v laboratoriju že veliko let. Poleg tega so bile za sistem načrtane tudi leče in valovodna lijakasta antena, vendar je bilo možno v laboratoriju izdelati le leče, valovodna antena pa je bila izdelana pri zunanjem izvajalcu. Ostali deli vira in strojna oprema so bili kupljeni, vsa tiskanavezja in povezave med podsistemi, namenjene pravilnemu delovanju sistema, pa so bili načrtovani v laboratoriju. Pri vsakem razvojnem koraku so bile opravljene testne meritve za opazovanje izboljšav sistema. Za testiranje je bil uporabljen laboratorijski sistem. Meritev je bilo veliko, zato so v doktorski disertaciji prikazane le končne meritve z laboratorijskim sistemom, s katerim je bila programska ter strojna oprema izpopolnjena. Po optimizaciji testnega sistema je bil izdelan končni sistem za uporabo pri realnih ekstremnih pogojih. Ta je bil najprej testiran v laboratorijskem približku realnih pogojev, predvsem za končne prilagoditve, ki jih pri testnem sistemu ni bilo moč opaziti. Po optimizaciji v simuliranih ekstremnih pogojih je bil sistem preizkušen še v realnih industrijskih pogojih. Sistem je v ekstremnih pogojih deloval brez težav, testiranje delovanja je bilo uspešno.

Jezik:	Slovenski jezik
Ključne besede:	THz senzor, frekvenčna modulacija, ekstremni pogoji
Vrsta gradiva:	Doktorsko delo/naloga
Organizacija:	FE - Fakulteta za elektrotehniko
Leto izida:	2022
PID:	20.500.12556/RUL-137776
COBISS.SI-ID:	113451779
Datum objave v RUL:	30.06.2022
Število ogledov:	793
Število prenosov:	82
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Sekundarni jezik

Izvleček:
Jezik:	Angleški jezik
Naslov:	Optimisation of frequency modulated terahertz system for usage in extreme conditions
The doctoral dissertation presents the optimization of a frequency-modulated terahertz system for use in extreme conditions. The first part of the dissertation presents the basic operation of terahertz systems and their use. The biggest emphasis is on the explanation of the use of frequency modulation as a way of using the terahertz system in the radar configuration to detect the distance of the observed object. The main part of the doctoral dissertation presents the design and construction of a terahertz system that measures the distance to the observed object in extreme conditions such as: high temperature, considerable amount of dust and smoke, and continuous vibrations around the system. Most often such conditions are found in heavy industry. In our case, the system is designed for use in the heavy industry to detect the amount of powder applied to lubricate a liquid metal mold. In designing the terahertz system, the task was divided into two subsystems. The first subsystem that represents the transmitter is the terahertz wave source. The source of terahertz waves consists of a frequency synthesizer, frequency multipliers and a waveguide feed horn antenna. This subsystem also includes lenses for focusing terahertz waves. The second subsystem is responsible for receiving and processing the terahertz signal of which it consists, a signal detector, an analog-to-digital voltage converter, and a microcontroller that sends measurement data to a computer for further signal processing and display. The choice of the terahertz sensor is conditioned by the chosen method of terahertz frequency generation. In our case, we used a microbolometer for the signal detector. An important part of the system is also its housing. Due to the extreme environmental conditions in which the system is located, the housing is made of metal. Cooling of the entire system is provided at the industrial level using a "vortex" system. The development and production of the microbolometer has been done in the laboratory for many years. In addition, lenses and a feed horn antenna were designed for the system, but only lenses could be made in the laboratory, and the horn antenna was outsourced. Other parts of the source and hardware were purchased, and all printed circuit boards and connections between the subsystems intended for proper system operation were designed in the laboratory. At each stage of development, test measurements were performed to observe system improvements. A laboratory system was used for testing. There were many measurements, so only the final measurements with the laboratory system are shown in the doctoral dissertation, where the software and hardware were improved. After optimizing the test system, the final system for use in real extreme conditions was developed. This system was firstly tested in a laboratory approximation of real conditions, mainly for final adjustments that could not be observed in the test system. After optimization in simulated extreme conditions, the system was tested in real industrial conditions. The system worked smoothly in extreme conditions, and the performance testing was successful.
Ključne besede:	THz sensor, Frequency modulation, extreme conditions

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