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Embedded system for supply voltage converter of organic lightemitting diode with extended functionality

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PL
Wbudowany system przetwornicy napięcia zasilającego organicznych diod elektrycznych o rozszerzonej funkcjonalności
Języki publikacji
EN
Abstrakty
EN
The work is dealing with the problem of developing an embedded system for supply voltage converter of Organic Light-Emitting Diode (OLED) with advanced functionality, namely - with an embedded ability to measure the Volt-Ampere (V – A) characteristics of structures directly during their operation. The measurement of the V – A characteristics of OLED structures is performed on the transient processes of voltage generation in the drivers boost circuits. Model researches show the operating conditions of the boost OLED power driver with in-situ measurement of its V – A characteristics. In accordance with the results of model researches and requirements for the implementation of modern electronics devices, an embedded system of voltage converter for OLED structure has been developed. The basis of the developed converter is a programmable system on chip PSoC of 5LP Family Cypress Semiconductor Corporation.
PL
Praca dotyczy problemu opracowania wbudowanego systemu przetwornika napięcia zasilania organicznej diody elektroluminescencyjnej (OLED) z zaawansowaną funkcjonalnością, mianowicie - z wbudowaną możliwością bezpośredniego pomiaru charakterystyk woltoamperowych (W – A) struktur. podczas ich eksploatacji. Pomiar charakterystyki W – A struktur OLED wykonywany jest na przejściowych procesach generowania napięcia w obwodach doładowania sterowników. Badania modelowe pokazują warunki pracy zasilacza boost OLED z pomiarem in-situ jego charakterystyk W – A. Zgodnie z wynikami badań modelowych oraz wymaganiami dla implementacji nowoczesnych urządzeń elektronicznych, opracowano wbudowany system przetwornika napięcia dla struktury OLED. Podstawą opracowanego konwertera jest układ programowalny na chipie rodziny PSoC 5LP Cypress Semiconductor Corporation.
Rocznik
Strony
68--72
Opis fizyczny
Bibliogr. 17 poz., rys.
Twórcy
  • Lviv Polytechnic National University, Department of Electronic Devices, 12 Bandery str., Lviv, Ukraine
autor
  • Lviv National Medical University, Medical informatics department, 69 Pekarska str., Lviv, Ukraine
  • Lviv Polytechnic National University, Department of Electronic Devices, 12 Bandery str., Lviv, Ukraine
  • Lviv Polytechnic National University, Department of Electronic Devices, 12 Bandery str., Lviv, Ukraine
  • Lviv National Medical University, Medical informatics department, 69 Pekarska str., Lviv, Ukraine
  • Lviv Polytechnic National University, Department of Electronic Devices, 12 Bandery str., Lviv, Ukraine
  • Lviv Polytechnic National University, Department of Electronic Devices, 12 Bandery str., Lviv, Ukraine
Bibliografia
  • [1] Barylo G., Boyko O., Gelzynskyy I., Holyaka R., Hotra Z., Marusenkova T., Khilchuk M., Michalska M., Hardware and software means for electronic components and sensors research IAPGOŚ Informatyka, Automatyka, Pomiary W Gospodarce I Ochronie Środowiska, 10 (2020), No 1, 66-71
  • [2] Barylo H., Boyko O., Helzhynskyy I., Holyaka R., Marusenkova T., Ivakh M., Universal Hardware and Software System of Signal Converting for Integrated Sensor Devices Implementation. In 2021 IEEE 16th International Conference on the Experience of Designing and Application of CAD Systems (CADSM), 2021, 58-62.
  • [3] Yuan Z. M., Liu B., Ong C. L., Leong S. H., Ang S., In-Situ FH Measurement From Arbitrary Data Pattern, IEEE Transactions on Magnetics, 48 (2012), No. 11, 4452 – 4454
  • [4] Lee S. W., Choe H. J., Yun J. J. Performance Improvement of a Boost LED Driver With High Voltage Gain for Edge-Lit LED Backlights, IEEE Transactions on Circuits and Systems II: Express Briefs, 65 (2018), No. 4, 481 – 485
  • [5] Abdelmessih G. Z., Alonso J. M., Spode N. D. S., Dalla Costa M. A. Electrolytic-Capacitor-less Off-Line LED Driver based on Integrated Parallel Buck-Boost and Boost Converter, IEEE Industry Applications Society Annual Meeting. (2020), 1-7
  • [6] Eguchi K., Shibata A., Asadi F., Ishibashi T., Harada Y., Oota I. Design of an LED Sink Driver Using a Switched-Inductor and Switched-Capacitor Buck-Boost Converter with High Voltage Gains. In 2020 2nd International Conference on Smart Power & Internet Energy Systems (SPIES), (2020), 33-38.
  • [7] Castro I., Vazquez A., Aller D. G., Arias M., Lamar D. G., Sebastian J. On supplying LEDs from very low DC voltages with high-frequency AC-LED drivers. IEEE Transactions on Power Electronics, 34 (2018), No.6, 5711-5719.
  • [8] Che F., Wu L., Hussain B., Li X., Yue C. P. A fully integrated IEEE 802.15.7 Visible Light Communication Transmitter With On-Chip 8-W 85% efficiency boost LED driver. Journal of Lightwave Technology, 34 (2016), No.10, 2419-2430.
  • [9] Bamgboje D. O., Harmon W., Tahan M., Hu T. Low cost high performance LED driver based on a self-oscillating boost converter. IEEE Transactions on Power Electronics, 34 (2019), No.10, 10021-10034.
  • [10] Liu X., Wan Y., Dong Z., He M., Zhou Q., Chi K. T. Buck– Boost–Buck-Type Single-Switch Multistring Resonant LED Driver With High Power Factor and Passive Current Balancing. IEEE Transactions on Power Electronics, 35 (2019), No.5, 5132-5143.
  • [11] Gobbato C., Kohler S. V., de Souza I. H., Denardin G. W., de Pelegrini Lopes J. Integrated topology of DC–DC converter for LED street lighting system based on modular drivers. IEEE Transactions on Industry Applications, 54 (2018), No.4, 3881- 3889.
  • [12] Chang C.K., Su C.H., Kao Y.H., Yu M.H., Sauter T., Chao P. C.P. A new single inductor bipolar multiple output (SIBMO) boost converter using pulse frequency modulation (PFM) control for OLED drivers and optical transducers. In Sixteenth International Symposium on Quality Electronic Design, (2015), 552-555.
  • [13] Chesterman F., Piepers B., Kimpe T., De Visschere P., Neyts K Impact of long-term stress on the light output of a WRGB AMOLED display. Journal of Display Technology, 12 (2016), No.12, 1672-1680.
  • [14] Rostami A., Soofi H. Modeling of effective host mobility for the simulation of polymeric host-guest light emitting diodes. Journal of lightwave technology, 32 (2014), No.5, 959-965.
  • [15] Wen J., Lam H.M., Li C., Zhang D., Zeng W., Lin H., Zhang M. Design of a peripheral-circuit-compensation adjustable-gammavoltage driving chip for OLED-on-silicon microdisplay. In 2019 IEEE International Conference on Electron Devices and Solid- State Circuits (EDSSC) (2019), 1-3.
  • [16] Ashtiani S.J., Nathan A. A driving scheme for active-matrix organic light-emitting diode displays based on current feedback. Journal of Display Technology, 2 (2006), No.3, 257- 264.
  • [17] PSoC® 5LP: CY8C52LP Family Datasheet: Programmable System-on-Chip. http://www.cypress.com/documentation/datasheets/psoc-5lpcy8c52lp- family-datasheet-programmable-system-chip-psoc.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3175dc6e-7e94-4caf-b16a-704cfa0c6533
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