Patent ID: 8249294
Filing Date: 2012-08-21
Classification: G09G

Abstract:
1. A driving system that drives an electro-optic device including a plurality of pixel electrodes, a counter electrode, a plurality of storage capacitor elements whose first ends are each electrically connected to a corresponding pixel electrode of the plurality of pixel electrodes, and an electro-optic material driven in accordance with an electric field applied between the plurality of pixel electrodes and the counter electrode, the driving system comprising: a supply circuit that supplies one of a first voltage and a second voltage different from the first voltage to a second end of one or a plurality of first storage capacitor elements of the plurality of storage capacitor elements corresponding to a first horizontal line and supplies the other of the first voltage and the second voltage to a second end of one or a plurality of second storage capacitor elements of the plurality of storage capacitor elements corresponding to a second horizontal line subsequent to the first horizontal line; a switching circuit that switches, in sequence every predetermined period, each of the voltages to be supplied to the second end of the first storage capacitor element and the second end of the second storage capacitor element from the first voltage to the second voltage or from the second voltage to the first voltage; and a control circuit that electrically connects the second end of the first storage capacitor element and the second end of the second storage capacitor element to each other before the voltage switched by the switching circuit is supplied to the second end of at least one of the first storage capacitor element and the second storage capacitor element; wherein the electro-optic device includes data lines to which image signals are supplied and scanning lines to which scanning signals are supplied in sequence to control the electrical connection between the data lines and the plurality of pixel electrodes, the scanning signal being supplied to every one or more horizontal lines; the control circuit electrically connects the second end of the first storage capacitor element and the second end of the second storage capacitor element to each other at the timing responsive to the scanning signal supplied to the scanning line corresponding to a third horizontal line subsequent to the second horizontal line; the switching circuit switches each of the voltages supplied to the second end of the first storage capacitor element and the second end of the second storage capacitor element from the first voltage to the second voltage or from the second voltage to the first voltage so that, in the case where the scanning signal in the selected-state level is supplied to the scanning line corresponding to the first horizontal line, (i) when the potential of the data line corresponds to positive-polarity writing, the switching circuit shifts the potential of the second end of the first storage capacitor element to a high level and shifts the potential of the second end of the second storage capacitor element to a low level after the scanning signal supplied to the scanning line corresponding to the third horizontal line shifts to the non-selected-state level; and (ii) when the potential of the data line corresponds to negative-polarity writing, the switching circuit shifts the potential of the second end of the first storage capacitor element to a low level and shifts the potential of the second end of the second storage capacitor element to a high level after the scanning signal supplied to the scanning line corresponding to the third horizontal line shifts to the non-selected-state level.