Patent application number | Description | Published |
20100085284 | Method of Driving Electro-Optic Display - A method of driving an electro-optic display includes the following steps. First, a first frame is displayed on pixels at a first time. Next, data of a second frame predetermined to be displayed on the pixels at a second time later than the first time is determined. Next, an eliminating frame showing a first extreme gray level or a second extreme gray level is displayed on the pixels at a third time. Afterwards, a medium frame is displayed on the pixels at a fourth time later than the third time. The third and fourth times are between the first and second times. The gray level shown by each pixel at the fourth time is close to the gray level predetermined to be shown by the same pixel at the second time. Thereafter, the second frame is displayed on the pixels at the second time. | 04-08-2010 |
20100259489 | TOUCH CONTROL DISPLAY APPARATUS AND POSITION INDICATOR THEREOF - A touch control display apparatus includes a touch control display and a position indicator. The housing of the display has a touch control displaying area and a receiving portion. The receiving portion has a first metal contact and a second metal contact. The first and the second metal contacts are electrically connected to a positive terminal and a negative terminal of an internal system power source of the display, respectively. The indicator is used for transmitting a position indicating signal to the display, such that the display could sense a position of the indicator located in the touch control displaying area accordingly. The housing of the indicator has a third metal contact and a fourth metal contact. The third and the fourth metal contacts are suitable for electrically connecting the first and the second metal contacts, respectively, such that the indicator could perform a charging operation. | 10-14-2010 |
20110096088 | ELECTROPHORESIS DISPLAY - An electrophoresis display includes a temperature sensor, a memory, a central processing unit and a display unit. The temperature sensor senses and outputs a present temperature. The memory stores a temperature characteristic table. The central processing unit is electrically coupled to the temperature sensor and the memory. The central processing unit receives the present temperature and reads the temperature characteristic table for matching the present temperature with the temperature characteristic table to obtain and output a drive level or timing. The display unit is electrically coupled to the central processing unit for receiving the drive level or timing and displaying according to the drive level. | 04-28-2011 |
20120221876 | LOW POWER CONSUMPTION CIRCUIT AND METHOD FOR REDUCING POWER CONSUMPTION - An exemplary low power consumption circuit includes a microprocessor, a power supply switch module and a main circuit module. The microprocessor is capable of outputting a power control signal and changing a pulse characteristic of the power control signal when the microprocessor switches from a first working mode to a second working mode. The power supply switch module is capable of outputting a power supply signal. The power supply switch module is electrically coupled to the microprocessor to receive the power control signal and thereby modulates a duty cycle of the power supply signal according to a change of the pulse characteristic of the power control signal. The main circuit module is electrically coupled to the power supply switch module to receive the power supply signal and operative with energy provided by the power supply signal. Moreover, a method for reducing power consumption is also provided. | 08-30-2012 |