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NTIS 바로가기IEEE transactions on industry applications, v.52 no.1, 2016년, pp.493 - 501
Ray-Lee Lin , Jhong-Yan Tsai , Buso, David , Zissis, Georges
This paper presents an organic light-emitting diode (OLED) equivalent circuit model with a temperature coefficient and an intrinsic capacitor. In order to precisely describe the OLED nonlinear V-I characteristic at different ambient temperatures, four parameters, i.e., the maximum operating point, t...
Zhao, Bohua, Huang, Ran, Bu, Jianhui, Lü, Yinxue, Wang, Yiqi, Ma, Fei, Xie, Guohua, Zhang, Zhensong, Du, Huan, Luo, Jiajun, Han, Zhengsheng, Zhao, Yi. A new OLED SPICE model for pixel circuit simulation in OLED-on-silicon microdisplay design. Journal of semiconductors, vol.33, no.7, 075007-.
Kowal, J., Hente, D., Sauer, D.U.. Model Parameterization of Nonlinear Devices Using Impedance Spectroscopy. IEEE transactions on instrumentation and measurement, vol.58, no.7, 2343-2350.
Lopez Varo, P., Jimenez Tejada, J.A., Lopez Villanueva, J.A., Deen, M.J.. Space-charge and injection limited current in organic diodes: A unified model. Organic electronics, vol.15, no.10, 2526-2535.
Electronic Processes in Ionic Crystals mott 1940
Gill, W. D.. Drift mobilities in amorphous charge-transfer complexes of trinitrofluorenone and poly-n-vinylcarbazole. Journal of applied physics, vol.43, no.12, 5033-5040.
Ray-Lee Lin, Yi-Chun Chang, Chia-Chun Lee. Optimal Design of LED Array for Single-Loop CCM Buck–Boost LED Driver. IEEE transactions on industry applications, vol.49, no.2, 761-768.
ORBEOS CDW-031 datasheet 0
Nowy, Stefan, Ren, Wei, Elschner, Andreas, Lövenich, Wilfried, Brütting, Wolfgang. Impedance spectroscopy as a probe for the degradation of organic light-emitting diodes. Journal of applied physics, vol.107, no.5, 054501-.
Castro, F. A., Bueno, P. R., Graeff, C. F. O., Nüesch, F., Zuppiroli, L., Santos, L. F., Faria, R. M.. Crossover from capacitive to pseudoinductive charge-relaxation in organic∕polymeric light-emitting diodes. Applied physics letters, vol.87, no.1, 013505-.
Kordt, Pascal, van der Holst, Jeroen J. M., Al Helwi, Mustapha, Kowalsky, Wolfgang, May, Falk, Badinski, Alexander, Lennartz, Christian, Andrienko, Denis. Modeling of Organic Light Emitting Diodes: From Molecular to Device Properties. Advanced functional materials, vol.25, no.13, 1955-1971.
Proc NSTI Nanotechnol Conf Trade Show A novel SPICE compatible current model for OLED circuit simulation li 0 3 103
Tsai, Mei-Na, Chang, T.C., Liu, Po-Tsun, Ko, Chung-Wen, Chen, Che-jen, Lo, Kang-mien. Short-diode like diffusion capacitance of organic light emission devices. Thin solid films, vol.498, no.1, 244-248.
Haldi, A., Sharma, A., Potscavage Jr., W. J., Kippelen, B.. Equivalent circuit model for organic single-layer diodes. Journal of applied physics, vol.104, no.6, 064503-.
Buso, David, Bhosle, Sounil, Yang Liu, Ternisien, Marc, Renaud, Cedric, Yuming Chen. OLED Electrical Equivalent Device for Driver Topology Design. IEEE transactions on industry applications, vol.50, no.2, 1459-1468.
Kim, Seong Hyun, Choi, Kang-Hoon, Lee, Hyang-Mok, Hwang, Do-Hoon, Do, Lee-Mi, Chu, Hye Yong, Zyung, Taehyoung. Impedance spectroscopy of single- and double-layer polymer light-emitting diode. Journal of applied physics, vol.87, no.2, 882-888.
Understanding losses in OLEDs: Optical device simulation and electrical characterization using impedance spectroscopy nowy 0
Nenna, G., Barra, M., Cassinese, A., Miscioscia, R., Fasolino, T., Tassini, P., Minarini, C., della Sala, D.. Insights into thermal degradation of organic light emitting diodes induced by glass transition through impedance spectroscopy. Journal of applied physics, vol.105, no.12, 123511-.
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