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Merilnik ekvivalentne serijske upornosti kondenzatorjev
ID JERAM, GAŠPER (Author), ID Jankovec, Marko (Mentor) More about this mentor... This link opens in a new window

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Abstract
Diplomsko delo obravnava merjenje ekvivalentne serijske upornosti kondenzatorjev v frekvenčnem območju med 8 kHz in 10 MHz. Za izvedbo meritve se je načrtovalo in izdelalo tiskano vezje, ki vsebuje naslednje potrebne funkcijske bloke: programirljiv vir sinusne napetosti, prilagoditev nivojev, Howlandov tokovni vir, ojačevalnik in detektor temenske vednosti. Princip delovanja vezja je, da Howlandov tokovni vir vsiljuje izmenični tok v merjeni kondenzator, zaradi katerega se na kondenzatorju generira izmenična napetost. Za prilagoditev nivoja signala za konverzijo v analogno-digitalnem pretvorniku se ta napetost najprej ojači z neinvertirajočimi ojačevalniki, ki imajo nastavljivo ojačenje med 2 in 2727, nakar se izmeri njegova temenska vrednost z detektorjem temenske vrednosti napetosti, le-to se vzorči z vgrajenim analogno-digitalnim pretvornikom mikrokrmilnika. Izmerjeni rezultati nekoliko odstopajo od resničnih vrednosti zaradi vpliva karakteristik funkcijskih blokov, vpliv katerih se je karakteriziral.

Language:Slovenian
Keywords:Elektronski elementi, kondenzator, ekvivalentna serijska upornost, operacijski ojačevalniki, prelet frekvenc, Howlandov tokovni vir, MiŠKo2
Work type:Bachelor thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2023
PID:20.500.12556/RUL-149952 This link opens in a new window
COBISS.SI-ID:164978435 This link opens in a new window
Publication date in RUL:12.09.2023
Views:454
Downloads:65
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Secondary language

Language:English
Title:Measurement device of equivalent series resistance of capacitors
Abstract:
The thesis addresses the measurement of equivalent series resistance of a capacitor, using a frequency sweep ranging from 8 kHz to 10 MHz. To achieve a successful measurement, we designed and manufactured a printed circuit board containing the following functional blocks: a programmable sine wave generator, a voltage level adjuster, a Howland current source, and lastly an amplifier and peak detector. The theory of operation is that the Howland current source drives alternating current to flow through the measured capacitor, resulting in the generation of an alternating voltage across the capacitor. For the purpose of adjusting the signal level for conversion in an analog-to-digital converter, the voltage is first amplified using noninverting amplifiers with an adjustable gain ranging between 2 and 2727. Subsequently, a peak detector is used to measure the peak voltage, which is then sampled by the built-in analog-to-digital converter of the microcontroller. The measured results deviate somewhat from the true values due to the influence of the characteristics of the functional blocks, the influence of which has been characterized.

Keywords:Electrical components, capacitor, equivalent series resistance, operational amplifier, frequency sweep, Howland current source, MiŠKo2

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