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Nadgradnja uporabniškega vmesnika na inverterski varilni napravi
ID BIZJAK, ANŽE (Author), ID Zajec, Peter (Mentor) More about this mentor... This link opens in a new window

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Abstract
Diplomska naloga opisuje ozadje in tehniško izvedbo predelave uporabniškega vmesnika na inverterski varilni napravi. Razvoj novega uporabniškega vmesnika se je začel na obstoječi napravi tipa iMIG 250, kjer se želena izhodna moč in oblika (t.i. karakteristika) zvara nastavlja preko dveh vrtljivih potenciometrov brez zaslonskega prikaza. S predelavo se želimo izogniti potenciometrom, ki se v grobem delovnem okolju pogosto kvarijo. Prav tako želimo izboljšati uporabniško izkušnjo s prikazom nastavljenih želenih vrednosti. Ob tem naj se v čim manjši meri spreminja preostala krmilno-regulacijska vezja. Vrtljiv potenciometer je nadomeščen z rotacijskim enkoderjem in osem bitnim D/A pretvornikom. Namesto z zvezno nastavljivo napetostjo se sedaj izhodno moč naprave krmili z novim sklopom, ki generira omejeno število diskretnih vrednosti. Na podoben način se uravnava tudi kakovost zvara, le da je namesto digitalno-analognega pretvornika uporabljena uporovna veriga, katere upornost se nastavlja s štirimi biti. Za doseganje izboljšane funkcionalnosti se je vgradila nova strojna oprema, ki na podlagi uporabnikovih nastavitev generira ustrezne vrednosti želene napetosti. Regulacijo izhodne moči naprave izvaja analogno vezje, ki generira pulzno-širinsko moduliran signal (PWM). Nova strojna, ki zajema TFT zaslon in novo vezje CS3051 pa generira ustrezne krmilne signale. Pri nastavljanju želene vrednosti varilne napetost ali varilnega toka poteka sedaj komunikacija med TFT zaslonom in napravo po digitalnem vodilu. Modificiral in nadgradil se je obstoječ program, ki nadzira inverterski del naprave. Program je zgrajen v programskem okolju Realizer Gold. Obstoječ program je bil nadgrajen s kodo, ki krmili TFT zaslon. Prav tako so bile spremenjene ter nadgrajene določene spremenljivke in parametri, na podlagi katerih se generira ustrezen krmilni signal. V začetku je bila narejena ena testna naprava z oznako iMIG 250 GR, ki je še vedno v uporabi za namene testiranja in odpravljanja manjših napak. Te napake so v trenutni fazi le še programske narave. Po odpravljenih večjih napakah je bila izdelana vzorčna naprava in poslana kupcu za preizkusno uporabo.

Language:Slovenian
Keywords:inverterska varilna naprava, krmiljenje, uporabniški vmesnik
Work type:Bachelor thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2020
PID:20.500.12556/RUL-116894 This link opens in a new window
Publication date in RUL:15.06.2020
Views:1305
Downloads:208
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Secondary language

Language:English
Title:Upgrading the user interface of an inverter welding machine
Abstract:
The purpose of the thesis is to develop a new user interface for inverter welding device. The development of a new user interface began on an existing iMIG 250 device. In order for the device to function properly, it was first necessary to obtain values and shapes of control signals that control the power output of the device. Device allows welding in two different modes of operation. It was necessary to obtain the corresponding values of the control signals for each mode of operation. In case of output power control, the control signal is shown to be unidirectional and its value increases or decreases linearly. On a existing device the output power is controlled via a 4.7 kΩ resistive potentiometer, which has been replaced by rotary encoder and an eight bit D/A converter. Instead of continuous adjustable voltage, the output power of the device is now controlled by the new circuit that generates a limited number of discrete DC voltage. A 50 kΩ potentiometer is used to set the welding characteristic. The value of the potentiometer affects the shape of the weld. If the potentiometer value is lower, the weld is firmer, but if the potentiometer value is higher, then the weld is softer. When the welding machine was upgraded with new user interface, the 50 kΩ potentiometer was replaced by a resistor chain. This resistor chain consists of eight resistors and its desired total resistance is set of four-bits resolution by means of transistors and relays. The relays are used to vary the resistance of the entire circuit by short-circuiting appropriate resistors. Initially, new hardware, consisting of TFT display and new CS3051 circuit, was installed to generate appropriate control signals in order to comply with the user preferences. The output power of the device is controlled by an analog circuit that generates a pulse width modulated signal. When setting the desired value of the welding voltage or the desired value of the welding current, communication between the TFT screen and the device now takes place via the digital bus. The existing program which controls the inverter part of the device, was modified and upgraded. The program was created in the Realizer Gold software environment. The existing program was upgraded with a program code for the control of the TFT display. Certain variables and parameters were also modified and updated in order to generate the appropriate control signal. Initially, one iMIG 250 GR test rig was made and is still in use for testing purposes in order to identify and correct minor failures in functionality. In the current stage, these failures are corrected only by the modifications of the program. After major errors were rectified, another sample of welding machine was built and sent to the customer for a performance verification.

Keywords:inverter welding device, control, user interface

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