The capability of early visual performance evaluation of alternative driving schemes is a major issue for time-effective and low-cost design of driver circuits for liquid crystal displays (LCD). We implemented a platform-independent, high-level, fully-configurable LCD driver simulation environment. The software incorporates an accurate driver/LC circuit model for reliable frequency characterization of the display module behavior. We demonstrated its efficiency in elaborating an optimal driving configuration that yields crosstalk-free image representation. The tool has been integrated into industrial design flows.
A physical-level LCD driver model and simulator with application to pixel crosstalk suppression / Smorfa, Simone; Roberto, Mancuso; Olivieri, Mauro; Lienhardt, Martin. - In: IEEE TRANSACTIONS ON CONSUMER ELECTRONICS. - ISSN 0098-3063. - 52:3(2006), pp. 1027-1034. [10.1109/tce.2006.1706503]
A physical-level LCD driver model and simulator with application to pixel crosstalk suppression
SMORFA, SIMONE;OLIVIERI, Mauro;
2006
Abstract
The capability of early visual performance evaluation of alternative driving schemes is a major issue for time-effective and low-cost design of driver circuits for liquid crystal displays (LCD). We implemented a platform-independent, high-level, fully-configurable LCD driver simulation environment. The software incorporates an accurate driver/LC circuit model for reliable frequency characterization of the display module behavior. We demonstrated its efficiency in elaborating an optimal driving configuration that yields crosstalk-free image representation. The tool has been integrated into industrial design flows.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
