Patent application number | Description | Published |
20120161718 | ELECTRONIC APPARATUS, CONTROL METHOD, AND RECORDING MEDIUM - There is provided an electronic apparatus that can properly control a power state of an electronic apparatus by using a temperature of a battery pack. The electronic apparatus detects a temperature of a battery pack and a remaining capacity of the battery pack. If the temperature of the battery pack is less than or equal to a predetermined temperature, the electronic apparatus performs process for turning a power state of the electronic apparatus from ON to OFF based on the remaining capacity of the battery pack. | 06-28-2012 |
20130265469 | IMAGING APPARATUS - There is provided an imaging apparatus including a generating unit for generating a first and a second moving image signals, each at 30 frames per second, from 60-frames-per-second moving image signals output from an image capture unit, a plurality of output units for outputting moving image signals in accordance with a Serial Digital Interface format, and a control unit for controlling an output operation by a first output unit and a second output unit such that the second moving image signal is output by the second output unit in parallel with an output of the first moving image signal by the first output unit, wherein the control unit controls output timings of the first and the second moving image signals such that a frame included in the first moving image signal and the second moving image signal is output at an identical timing. | 10-10-2013 |
20150281574 | IMAGE PROCESSING APPARATUS AND IMAGE CAPTURE APPARATUS - An image processing apparatus and an image capture apparatus can efficiently use a plurality of integrated circuits for image processing. Image processing ICs are integrated circuits that deal with different formats of image data. A programmable logic IC converts a data format of image data output from one image processing IC into a format of image data that is dealt with by the other image processing IC, and outputs the result of conversion to the other image processing IC. | 10-01-2015 |
Patent application number | Description | Published |
20110181585 | SEMICONDUCTOR DEVICE AND DRIVING METHOD THEREOF, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC DEVICE - A semiconductor device includes: a first transistor which is electrically connected between a capacitive element and a data line; a second transistor which is electrically connected between the first transistor and the capacitive element; and a driving unit. The driving unit drives the first and second transistors so that when the data voltage is applied to the capacitive element, both the first and second transistors are turned on, the second transistor is temporarily turned off, after a timing at which both the first and second transistors are turned on, and then turned on again, and the first transistor is turned off at the timing at which the second transistor is temporarily turned off or after the timing and before the second transistor is turned on again. | 07-28-2011 |
20110291708 | ELECTRONIC APPARATUS AND METHOD OF DRIVING THE SAME - An electronic apparatus includes an electronic circuit including a driving transistor, an additional capacitive element and a first switch for controlling a connection between a circuit point and a control terminal and a driving circuit which controls the first switch to an off state and changes the potential of the control terminal such that the driving transistor transitions to an on state in a first period, controls the first switch to the on state so as to set the potential of the control terminal to an initial compensation value, in a second period, and controls the first switch to the on state and changes the driving potential from the first potential to the second potential such that the driving transistor transitions to the on state, in a third period. | 12-01-2011 |
20110292092 | ELECTRO-OPTICAL DEVICE, METHOD FOR DRIVING ELECTRO-OPTICAL DEVICE, CONTROL CIRCUIT AND ELECTRONIC APPARATUS - An electro-optical device includes a pixel circuit, and a driving circuit. The pixel circuit includes a driving transistor, a first capacitive element, an electro-optical element, and a switch. The driving circuit controls the switch to be turned off, varies a potential such that the driving transistor is turned on, during a first period, sets a potential at a control terminal to a compensation initial value by controlling the switch to be turned on, during a second period, supplies a grayscale potential corresponding to a designated grayscale, varies a driving potential such that the driving transistor is turned on, during a third period, and varies a voltage between the control terminal and a first terminal with the passage of time, during a fourth period. | 12-01-2011 |
20110292093 | ELECTRO-OPTICAL DEVICE, METHOD FOR DRIVING ELECTRO-OPTICAL DEVICE, CONTROL CIRCUIT AND ELECTRONIC DEVICE - An electro-optical device includes a pixel circuit, and a driving circuit. The pixel circuit includes a driving transistor, an electro-optical element, a first capacitive element, a first switch, and a second switch. The driving circuit varies a potential at a control terminal during a first period, sets the potential at the control terminal to a compensation initial value during a second period, varies a driving potential from a first potential to a second potential such that the driving transistor is turned on during a third period, supplies a grayscale potential corresponding to a designated grayscale to the signal line and controls the second switch to be turned on during a fourth period, and varies a voltage between the control terminal and a first terminal with the passage of time during a fifth period. | 12-01-2011 |
20120242642 | DRIVING METHOD, CONTROL DEVICE, DISPLAY DEVICE, AND ELECTRONIC APPARATUS - A driving method of an electro-optic device includes determining which condition is satisfied among a plurality of conditions including a first condition where a plurality of pixels include only a first pixels of which an optical state is changed from a second optical state to a first optical state and a third pixels of which the optical state is not changed, a second condition where the plurality of pixels include only a second pixels of which the optical state is changed from the first optical state to the second optical state and the third pixels, and a third condition where the plurality of pixels include both the first pixels and the second pixels, based on data stored in a memory storing the data indicating the optical state of the plurality of pixels. | 09-27-2012 |