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Realizacija logičnega analizatorja in osciloskopa z vgrajenim sistemom
ID Kocjančič, Mitja (Author), ID Rozman, Robert (Mentor) More about this mentor... This link opens in a new window

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Abstract
Pri izdelovanju programske opreme za vgrajene sisteme se velikokrat srečujemo z različnimi signali. Pri tem gre za signale, ki so po svoji vsebini lahko analogni ali digitalni. Napravi, ki omogočata prepoznavo, sledenje, opazovanje in analiziranje obeh vrst signalov, sta logični analizator in osciloskop. V tem delu je najprej predstavljeno delovanje obeh naprav kot samostojnih produktov, v nadaljevanju pa je opisana enostavnejša zasnova in realizacija obeh naprav z vgrajenim sistemom v obliki cenovno dostopne razvojne plošče STM32H750B-DK. Opisan je tudi razvoj ustrezne programske opreme za vizualizacijo zajetih podatkov. Rezultat dela v nalogi sta osciloskop in logični analizator na cenovno dostopni opremi. Preizkusi so pokazali, da lahko z obema funkcionalnostima hitro in učinkovito analiziramo vse vrste enostavnejših signalov, ki jih običajno srečujemo pri razvoju vgrajenih sistemov.

Language:Slovenian
Keywords:mikrokrmilnik, stm32, logični analizator, osciloskop
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FRI - Faculty of Computer and Information Science
Year:2023
PID:20.500.12556/RUL-149969 This link opens in a new window
COBISS.SI-ID:166540291 This link opens in a new window
Publication date in RUL:12.09.2023
Views:1056
Downloads:70
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Secondary language

Language:English
Title:Implementation of Logic Analyzer and Oscilloscope with Embedded System
Abstract:
When developing software for embedded systems, we often encounter various signals. These signals can be either analogue or digital, depending on their content. The logic analyzer and the oscilloscope are devices that can identify, track, observe, and analyze both types of signals. This thesis first presents the operation of both devices as stand-alone products and then describes a simpler design and implementation of both devices using an embedded system in the form of an affordable STM32H750B-DK development board. The development of the corresponding software for visualization of the acquired data is also described. The outcome of this work is an oscilloscope and a logic analyzer on affordable equipment. Tests have shown that both functionalities can quickly and efficiently analyze all types of simpler signals commonly encountered in the development of embedded systems.

Keywords:microcontroller, stm32, logical analyzer, osciloscope

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