DocumentCode
1567465
Title
Low Cost IGBT-Based Single-Sided Plasma Display Panel Driver
Author
Aguillon-Garcia, Jacobo ; Moon, Gun-Woo
Author_Institution
KAIST, Daejeon
fYear
2007
Firstpage
2953
Lastpage
2957
Abstract
Plasma display panel (PDP), has many desirable advantages over other display technologies and at the moment is expected to be the most promising flat panel display [1, 2], Due to the inherent capacitive characteristics between surface discharging electrodes X-Y and between opposed addressing electrodes within the PDP as well (fig. 1); high displacement current occurs during charging and discharging, causing a considerable energy loss [1-4]. Now, if an inductor is connected in series with the panel, then it can be charged and discharged through the inductor. Ideally, this would result in zero power dissipation since the inductor would store all the remaining energy in the panel and regenerate it back again [4], Typically, for this application, the previous circuit arrangement capacitor- inductor is called Energy-Recovery Circuit (ERC). Of course, this remedial strategy also suffers high stress and a high peak current in a real PDP drive. A new low cost full-soft switching approach IGBT-based, fulfilling the requirements for a Plasma Display driver and ERC schema is proposed. Simulation, experimental results based on a 42-inch AC PDP demonstrating the feasibility of such a structure, dynamics and total temperature-based looses [5-7], for an accurate benchmarking will be presented.
Keywords
flat panel displays; insulated gate bipolar transistors; invertors; plasma displays; energy-recovery circuit; flat panel display; single-sided plasma display panel driver; Circuits; Costs; Electrodes; Energy loss; Flat panel displays; Inductors; Insulated gate bipolar transistors; Plasma displays; Surface charging; Surface discharges; IGBT; Multilevel Inverter; Plasma Display; Plasma Display Panel;
fLanguage
English
Publisher
ieee
Conference_Titel
Power Electronics Specialists Conference, 2007. PESC 2007. IEEE
Conference_Location
Orlando, FL
ISSN
0275-9306
Print_ISBN
978-1-4244-0654-8
Electronic_ISBN
0275-9306
Type
conf
DOI
10.1109/PESC.2007.4342491
Filename
4342491
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