|| List of recent Electronic Apparatus-related patents
|Electronics apparatus able to revise micro-program and algorithm to revise micro-program|
An electronic apparatus is disclosed, where the apparatus revises the micro-program thereof reliably. The apparatus provides a master and slave cpus each having a memory.
|Electronic apparatus and method of recommending contents to members of a social network|
An electronic apparatus and a method of recommending content are provided. The method of recommending content of an electronic apparatus includes determining recommendation subjects for a content based on preference information of social network members in response to a preset command being input while the content is being provided, displaying a list including the recommendation subjects of the content, and recommending the content related to a selected recommendation subject in response to a selection of at least one of the recommendation subjects included in the displayed list..
According to one embodiment, an electronic apparatus includes a housing, a panel, a back light, a sheet and a plurality of frame parts. The panel is within the housing.
According to one embodiment, an electronic apparatus includes a display panel, a back cover which covers a rear side of the display panel, an outer edge region along an outer edge of the back cover, a first rib on an inner border of the outer edge region, a second rib along the first rib within the outer edge region, and a third rib continuous with the first rib and the second rib.. .
|Data forwarding circuit, data forwarding method, display device, host-side device, and electronic apparatus|
The timing controller determines the number of data lanes (11, 12, 13), which are used to transfer data, based on information in relation to an amount of data to be transferred during a predetermined time period. Out of the plurality of data lanes (11, 12, 13), the determined number of data lane(s) (11, 12, 13) are used to transfer data.
|Gesture recognition device, electronic apparatus, gesture recognition device control method, control program, and recording medium|
A gesture recognition device that recognizes a gesture of a person from an image captured by a camera, and outputs information to an electronic apparatus in order to control the electronic apparatus based on the recognized gesture, has a person determination section that determines whether the person is included in the image, and an output section that outputs person out-of-view angle notification instruction information issuing an instruction to make a notification that the image of the person is not captured, when the person determination section determines that the person is not included in the image.. .
|Electronic apparatus charging base and power-supply control method thereof|
An electronic apparatus charging base is disclosed. The electronic apparatus charging base is provided for charging at least one electronic apparatus and can be electrically connected to an external power source.
|Electrostatic discharge protection device and electronic apparatus thereof|
An electrostatic discharge protection device has a substrate, a p-well, a n-well, and an isolation portion. The p-well and n-well formed in the substrate are neighboring to each other.
|Portable electronic apparatus, containing device, containing device identifying method, and identification system thereof|
A portable electronic apparatus, a containing device, a containing device identifying method, and an identification system thereof are disclosed. The portable electronic apparatus is disposed in the containing device, wherein the containing device has an identification unit.
|Physical quantity sensor and electronic apparatus|
A physical quantity sensor includes a first rocking body and a second rocking body. Each of the rocking bodies is supported on a substrate by a first supporting portion and a second supporting portion.
|Electronic apparatus and method of controlling electronic apparatus|
An electronic apparatus and a method of controlling the electronic apparatus are provided. The method includes: receiving a voice command; and if the voice command is a first voice start command, changing a mode of the electronic apparatus to a first voice task mode in which the electronic apparatus is controlled according to further voice input, and if the voice command is a second voice start command, changing the mode of the electronic apparatus to a second voice task mode in which the electronic apparatus is controlled according to the further voice input received via an external apparatus which operates with the electronic apparatus.
|Accessing control registers over a data bus|
An electronic apparatus that includes a controlled device with a plurality of control registers. A data bus is coupled between the controlled device and a processor, and an interface is configured to receive a plurality of portions of data read from or to be written to the plurality of control registers.
|Electronic apparatus, computer-readable medium and data synchronization method thereof|
A data synchronization method and an electronic apparatus using the same method are proposed. The method includes the following steps: determining whether a data application is switched to be executed in a foreground of a user interface of the electronic apparatus, wherein a data synchronization of the data application is performed with a data server according to a specific synchronization mode; if yes, switching to perform the data synchronization according to a push-data notification from the data server, wherein the push-data notification is related to an updating data..
|Electronic apparatus, mobile terminal, and velocity measuring method|
An electronic apparatus includes a processor configured to select a type of an object subject to measurement; calculate a first distance to the object, based on output of a first sensor configured to detect passing of the object; calculate a second distance to the object, based on output of a second sensor configured to detect passing of the object; obtain based on the first distance, a first time point at which the object passes the first sensor; obtain based on the second distance, a second time point at which the object passes the second sensor; and calculate based on the first and second time points and a distance between the first and second sensors, a velocity of the object. The processor drives the first and second sensors at measurement time intervals corresponding to the type, and causes the first and the second sensors to detect the passing of the object..
|Electronic apparatus, and control method and control program of the same|
According to one embodiment, a receive signal analyzing unit is configured to recognize a demand for power saving. An other-device state recognizing unit is configured to discriminate whether a notification indicating that a response has been made to the demand has been received from other apparatus or not.
|Electronic apparatus and data transmission system|
An electronic apparatus is cooperated with an operation apparatus and includes a display panel and a transceiver module. The display panel has at least one electrode.
|Multiple-input handwriting recognition system and measure thereof|
Disclosed is a handwriting recognition system with a plurality of input modes, including a storage unit, a touch screen display unit, and a processing unit. The storage unit stores character fonts; each of the character fonts corresponds to at least one of the input modes.
|Medical apparatus for data storage|
An electronic apparatus and method for storing patient data, information, or records and/or notifying a patient of a medical activity to be performed. The electronic apparatus may be wearable, such as a watch or other jewelry, or may be non-wearable, such as a household appliance or other equipment.
|Electronic apparatus with a torque variable structure connecting housing components|
In an embodiment there is provided an electronic apparatus in which two housings are detachable and rotatable, and in which when one housing is detached from the other housing, and having a bracket for attachment and detachment that is easily rotated. An electronic apparatus may include an upper housing having a display; a lower housing which is rotatably connected with a bracket from which the upper housing is detachable by hinges; and a torque variable structure which changes rotational torque of the bracket at the hinges.
|Optical filter device, optical module, and electronic apparatus|
An optical filter device has a light interference filter and a casing. The light interference filter has a fixed substrate, a movable substrate joined to the fixed substrate, a fixed reflection film provided on the fixed substrate, and a movable reflection film provided on the movable substrate.
|Flat panel electronic apparatus and display panel thereof|
A display panel is provided that includes a plurality of pixel units, each having a first surface and a second surface opposite to the first surface, and comprising an electrophoretic gel part with a shape tapered in a direction from the first surface to the second surface, wherein a top surface of the electrophoretic gel part forms the first surface and electrophoretic particles are provided in the electrophoretic gel part; a light guiding part with a shape tapered in a direction from the second surface to the first surface, wherein the light guiding part and the electrophoretic glue part match in shape and abut with each other, and a bottom surface of the light guiding part forms at least a portion of the second surface; and a light-emitting device provided on the bottom surface of the light guiding part and operable to emit light toward the first surface.. .
|Liquid crystal device and electronic apparatus|
A liquid crystal device includes a first substrate that is arranged on a light input side; a second substrate that is arranged on a light output side; a liquid crystal layer that is arranged between the first and second substrates; a first microlens that is provided on the first substrate such that an optical axis is tilted to a normal line direction of the first substrate; and a second microlens that is provided on the second substrate such that an optical axis is tilted to a normal line direction of the second substrate, in which a focal point of the first microlens is located on a curved surface of the second microlens, or on the light output side rather than the curved surface.. .
|Touch panel assembly and electronic apparatus|
A touch panel assembly includes a touch panel and a flexible circuit board. The touch panel includes a sensing array having sensing units, first connection lines, second connection lines, at least one input element, and pads.
|Optical module, electronic apparatus, and spectroscopic camera|
An optical module includes a fixed reflection film, a movable reflection film, a first driver having a plurality of sub-drivers that can be driven independently of each other via voltage application in a plan view, a second driver that changes the dimension of a gap between the fixed reflection film and the movable reflection film, and a voltage controller that applies first drive voltages to the sub-drivers and applies a second drive voltage to the second driver, and the voltage controller applies a first drive voltage set for each of the sub-drivers in accordance with parallelism between the fixed reflection film and the movable reflection film at the time when the dimension of the gap is changed.. .
|Imaging lens, and portable electronic apparatus including the same|
An imaging lens includes an aperture stop, first, second, third, fourth and fifth lens elements arranged from an object side to an image side in the given order. The first lens element has a positive refractive power.
|Imaging lens having five lens elements, and electronic apparatus including the same|
An imaging lens includes first, second, third, fourth and fifth lens elements arranged from an object side to an image side in the given order. The first lens element has a positive refractive power.
|Solid-state image sensing apparatus and electronic apparatus|
A solid-state image sensing apparatus includes a solid-state image sensing device, signal processing circuit device, and a multi-layer wiring package. The solid-state image sensing device has a pixel in an image sensing area thereof.
|Solid-state image pickup device, electronic apparatus, and manufacturing method|
A solid-state image pickup device includes: a filter section including filters that are disposed corresponding to respective pixels, and each allowing light of a color that corresponds to corresponding one of the pixels to transmit therethrough, in which the pixels are each configured to receive the light of the predetermined color; and a microlens array section including a plurality of microlenses each configured to collect the light for corresponding one of the pixels, in which the microlenses are stacked with respect to the filter section, and are arranged in an array pattern corresponding to the respective pixels. The microlenses have two or more shapes that are different from one another corresponding to the respective colors of the light to be received by the pixels, and each having an end that is in contact with the end of adjacent one of the microlenses..
|Display apparatus, driving method for display apparatus and electronic apparatus|
Disclosed here in is a display apparatus, including, a pixel array section including a plurality of pixels arrayed in rows and columns and each including an electro-optical device, a pixel circuit provided commonly to each plural ones of the pixels in the same pixel row in the pixel array section and including a writing transistor for writing an image signal, a holding capacitor for holding the image signal written by the writing transistor and a driving transistor for driving the electro-optical devices of the plural pixels, and a plurality of scanning circuits configured to time-divisionally and selectively place the electro-optical devices included in the pixels into a forwardly biased state.. .
|Semiconductor integrated circuit, self-luminous display panel module, electronic apparatus, and method for driving power supply line|
A semiconductor integrated circuit and corresponding display panel and electronic apparatus. A pixel element includes a self-luminous element and a drive transistor connected to a power supply line.
|Electronic apparatus, control method and storage medium|
According to one embodiment, an electronic apparatus includes a touch screen display and a controller. The touch screen display has a rectangular display area.
|Shift register circuit, display panel, and electronic apparatus|
Disclosed herein is a shift register circuit that is formed on an insulating substrate with thin film transistors having channels of the same conductivity type and includes shift stages, each of the shift stages including: a first thin film transistor; a second thin film transistor; a 3(1)-th thin film transistor; a 3(2)-th thin film transistor; a 4(1)-th thin film transistor; a 4(2)-th thin film transistor; a fifth thin film transistor; and a sixth thin film transistor.. .
|Display device, driving method of display device, and electronic apparatus|
The driving method of the display device having a driving transistor in at least one of the pixels, includes providing a display frame period consisting of a first period and a second period, a duration of the second period being longer than the first period and being set as the first period subtracted from the display frame period. The driving method also includes performing a threshold correction for the driving transistor during the first period and writing a signal voltage for the pixel during the second period..
|Antenna device and electronic apparatus|
An antenna device includes an antenna coil, a magnetic sheet, and a metallic member. The antenna coil is formed on a flexible base.
|Case and electronic apparatus|
An electronic apparatus includes a metallic case including an antenna pattern formed on an area of the metallic case where two sides surfaces of the case meet, the antenna pattern forming a slit antenna including a slit connecting one side of the antenna pattern to an open area of the metallic case, and a circuit board configured to process signals received at the antenna pattern.. .
An electronic apparatus is provided which includes switching elements, resonance suppression resistors which have first ends connected to control terminals of the switching elements and second ends having a common connection, an on-drive circuit which has an on-drive resistor and is connected to a drive power circuit, and which is supplied with voltage from the drive power circuit and applies electric charge to the control terminals of the switching elements via the on-drive resistor to turn on the switching elements, and an off-drive circuit which has an off-drive resistor and releases electric charge from the control terminals of the switching elements via the off-drive resistor to turn off the switching elements. A resistance of the off-drive resistor is set to be smaller than a resistance of the resonance suppression resistors.
|Non-contact charging module, electronic apparatus, and non-contact charging apparatus|
This non-contact charging module can be suitably used by suppressing a change of an l value of a coil that is provided in the non-contact charging module, and achieves size reduction, even in the cases where a magnet that is provided in the other non-contact charging module is used or not used. The module is characterized in that: the module is provided with a primary side coil (21a) wherein a conducting line is wound in a substantially rectangular shape, and a magnetic sheet (51) that is provided with a surface on which the primary side coil (21a) is placed; and that a substantially rectangular-shaped hollow portion of the primary side coil (21a) has the short side thereof shorter than the diameter of a circular magnet (30a), and the long side thereof longer than the diameter of the circular magnet (30a)..
|Semiconductor device, manufacturing method thereof, and electronic apparatus|
A semiconductor device, which is configured as a backside illuminated solid-state imaging device, includes a stacked semiconductor chip which is formed by bonding two or more semiconductor chip units to each other and in which, at least, a pixel array and a multi-layer wiring layer are formed in a first semiconductor chip unit and a logic circuit and a multi-layer wiring layer are formed in a second semiconductor chip unit; a semiconductor-removed region in which a semiconductor section of a part of the first semiconductor chip unit is completely removed; and a plurality of connection wirings which is formed in the semiconductor-removed region and connects the first and second semiconductor chip units to each other.. .
|Solid-state image pickup unit, method of manufacturing solid-state image pickup unit, and electronic apparatus|
There is provided a back-illuminated type solid-state image pickup unit, in which a pad wiring line is provided on a light reception surface, capable of improving light reception characteristics in a photoelectric conversion section by thinning an insulating film in the back-illuminated type solid-state image pickup unit. A solid-state image pickup unit according to the present technology to accomplish such a purpose includes a sensor substrate having a pixel region in which photoelectric conversion sections are formed in an array, and a drive circuit is provided on a surface opposed to a light reception surface for the photoelectric conversion sections of the sensor substrate.
The present application provides an electronic apparatus including a substrate including a first electrode pad, a second electrode pad and an intermediate pad each disposed on one surface of the substrate and separated from one another. An electronic device is disposed on the substrate and including a first electrode unit and a second electrode unit.
|Light emitting device and electronic apparatus|
There is provided a light emitting device including: a semiconductor substrate; a plurality of pixel circuits that is disposed in a display region of the semiconductor substrate; a first wiring that is formed of a conductive material so as to be supplied with a predetermined electric potential; and a plurality of first contact portions that is formed of a conductive material so as to connect the semiconductor substrate and the first wiring. The plurality of first contact portions and the first wiring are provided in the display region..
|Semiconductor integrated circuit device, electronic apparatus, and display apparatus|
A semiconductor integrated circuit device includes a cof substrate; a semiconductor integrated circuit mounted on the cof substrate and having a first voltage circuit portion operating at a first voltage range and a second voltage circuit portion operating at a second voltage range higher than the first voltage range, the circuit portions being formed on a single chip; and a resin layer for sealing the cof substrate and the semiconductor integrated circuit.. .
|Semiconductor device, electro-optic device, power conversion device, and electronic apparatus|
A semiconductor device includes a silicon substrate, a silicon carbide film formed on the silicon substrate, a mask member formed on a surface of the silicon carbide film, and having an opening section, single-crystal silicon carbide films each having grown epitaxially from the silicon carbide film exposed in the opening section as a base point, and covering the silicon carbide film and the mask member, and a semiconductor element formed on surfaces of the single-crystal silicon carbide films, an assembly section formed of the single-crystal silicon carbide films assembled to each other exists above the mask member, the semiconductor element has a body contact region, and the body contact region is disposed at a position overlapping the assembly section viewed from a direction perpendicular to the surface of the silicon substrate.. .
|Display device and electronic apparatus|
A display device including: a plurality of sub-pixels arranged in a matrix, each including an electro-optical element having a structure in which a display functional layer is sandwiched between an upper electrode and a lower electrode; and an auxiliary interconnect contact in a pixel area in which the plurality of sub-pixels are arranged in a matrix and electrically connecting the upper electrode to an auxiliary interconnect, wherein m (m is an integer equal to or larger than two) sub-pixels adjacent to each other along an arrangement direction of the sub-pixels are regarded as one group, and n (n is a natural number smaller than m) auxiliary interconnect contacts are formed for each group.. .
|Electronic apparatus and image forming apparatus|
An image forming apparatus includes: a display; a setting change determining section configured to, after the receipt of a command to execute a function, determine whether or not any of setting items for the function has been changed; a change frequency value storage section configured to store a change frequency value indicating a frequency of change of the individual setting item; a shortcut screen creating section configured to create one or more shortcut keys each for receiving a command to change one of the setting items in different sizes depending upon the change frequency value stored in the change frequency value storage section and create a shortcut screen on which the shortcut keys are arranged; and a display control section configured to read the shortcut screen created by the shortcut screen creating section and allow the display to display the shortcut screen.. .
|Electronic apparatus and power saving control method|
According to one embodiment, an electronic apparatus includes a first device, a first controller, and a second controller. The first controller transits the apparatus between a working state and a hibernation or stand-by state.
|Storage control device, electronic apparatus, storage medium, and storage control method|
A storage control device includes a first storage unit, a write control unit, and a read control unit. The first storage unit includes a plurality of storage areas corresponding to a plurality of addresses.
|Switching circuit, semiconductor device, and electronic apparatus|
According to one embodiment, a switching circuit includes a device, a load switch, a device bus to which the device is connected, a device bus terminating resistor, a bus switch, and a host bus terminating resistor. The load switch feeds power to the device when a control signal is active.
|Electronic apparatus, system, and management method|
According to one embodiment, an electronic apparatus includes a communication module and a manager. The communication module performs communication with a plurality of terminals and receives, from the terminals, position information indicating positions of respective terminals and identification information of the respective terminals.
|Method, apparatus and system for remotely controlling electronic apparatus|
A method, an apparatus, and a system for remotely controlling an electronic apparatus are provided. In the method, a control apparatus discovers at least one response apparatus in the same network and obtains an apparatus description of each response apparatus.
|Driving device, electronic apparatus provided with the driving device, and driving device control method|
A driving device includes a motor control unit and a clutch control unit. When the motor control unit stops a motor from an operating state, the clutch control unit controls the energization and de-energization of an exciting coil of each of electromagnetic clutches so as to switch one or more but not all of the electromagnetic clutches to a cutoff state while keeping the remaining electromagnetic clutches in a connected state..
|Gaming system and gesture manipulation method thereof|
A gesture manipulation method and a gaming system are disclosed herein. The gesture manipulation method is suitable for an electronic apparatus including a touch sensor and means for displaying.
An electronic apparatus including a main body, a base, an electronic device and a control button is provided. The base is detachably disposed in the main body.
According to one embodiment, an electronic apparatus includes a first unit, a second unit, first magnets, and second magnets. The first magnets are at the first unit and include south poles and north poles configured to face in a direction from the first unit toward the second unit or in an opposite direction to the direction.
|Inductive device assemblies and methods|
Improved form-less electronic apparatus and methods for manufacturing the same. In one exemplary embodiment, the apparatus comprises a shape-core inductive device having a bonded-wire coil which is formed and maintained within the device without resort to a bobbin or other form(er).
According to one embodiment, an electronic apparatus includes a housing, a click pad, and a supporter. The click pad includes a first end configured to be bent toward an inside of the housing to push a switch, and a second end opposite the first end.
|Method of manufacturing electronic device, electronic device, electronic apparatus, and moving object|
A method of manufacturing an electronic device in which an inner space for housing a gyro element is formed between a base and a lid and the base and the lid are bonded includes bonding the base and the lid in which a groove is provided on a surface to be bonded with the base so that the inner space communicates with the outside by not bonding the inner surface of the groove to the base and to position the groove around a concave portion provided on a side surface of the base, and closing a communication portion by irradiating a laser beam to the lid in the communication portion.. .
|Electronic apparatus and base structure thereof|
A base structure includes a main body, a cover, a rod and an operating element. The main body includes a hollow portion, a containing portion for placing a battery module and an electrical connecting portion.
According to one embodiment, an electronic apparatus includes a first unit, a second unit, a shaft, a first engaging portion, a moving portion, a second engaging portion, a first magnet, a second magnet, and a metal member. The second engaging portion is movable in a vicinity of the moving portion and configured to restrict a movement of the moving portion when the second engaging portion is engaged with the first engaging portion.
|Optical module, and electronic apparatus|
An optical module includes a stationary substrate, a movable substrate, a stationary reflecting film provided to the stationary substrate, a movable reflecting film provided to the movable substrate and opposed to the stationary reflecting film, a first control electrode disposed outside the stationary reflecting film in a filter plan view, a second control electrode disposed outside the movable reflecting film in the filter plan view, and opposed to the first control electrode, and a tilt control section adapted to make a first control current flow through the first control electrode, and make a second control current, which has an opposite direction to the first control current in the filter plan view, flow through the second control electrode.. .
|Control device, non-transitory computer readable medium, and control method|
A control device includes a storage unit in which a parameter group for setting an operational content of an electronic apparatus and functional information related to a function realized when the parameter group is set are stored in correspondence with each other; a reception unit that receives an operation; an extraction unit that extracts the functional information from the storage unit when a changing operation for changing at least one parameter is received by the reception unit, the functional information corresponding to the parameter changed by the changing operation; a presentation unit that presents the extracted functional information; and a setting unit that reads the parameter group corresponding to the presented functional information from the storage unit and sets the parameter group when the reception unit receives a usage confirmation operation for confirming that the function corresponding to the presented functional information is to be used.. .
|Electro-optical device and electronic apparatus|
In an electro-optical device, an electro-optical material is doubly sealed with a first seal member and a second seal member. In the second seal member, first particles are located in a gap between a first substrate and a second substrate, and second particles are located outside of the gap between the first substrate and the second substrate, so as to cover the opening of the gap..
|Solid-state imaging device and electronic apparatus|
A solid-state imaging device includes a pixel region in which shared pixels which share pixel transistors in a plurality of photoelectric conversion portions are two-dimensionally arranged. The shared pixel transistors are divisionally arranged in a column direction of the shared pixels, the pixel transistors shared between neighboring shared pixels are arranged so as to be horizontally reversed or/and vertically crossed, and connection wirings connected to a floating diffusion portion, a source of a reset transistor and a gate of an amplification transistor in the shared pixels are arranged along the column direction..
|Electronic apparatus, method for controlling the same, and computer-readable recording medium|
An electronic apparatus includes a photographing unit, a processing unit, and a display unit. The photographing unit creates an image signal and captures a first image corresponding to a first shutter release signal.
|Electronic apparatus and handwritten document processing method|
According to one embodiment, an electronic apparatus includes a display controller and a processor. The display controller displays a first graphic object of a plurality of graphic objects on a screen.
|Display device with touch detection function and electronic apparatus|
According to an aspect, a display device with a touch detection function includes: a display area where a plurality of pixel electrodes are arranged; drive electrodes provided so as to face the pixel electrodes; a control device for performing image display control; a touch detection electrode facing the drive electrodes; a touch detection unit for detecting a position of a proximity object; a wiring arranged in a frame area positioned outside the display area; and a plurality of selection switches for selecting the drive electrodes to be coupled to the wiring based on a selection signal of the control device. The control device supplies the display drive voltage and a touch drive signal to the same wiring at different times..
|Device for remotely controlling an electronic apparatus and control method thereof|
A control device for remotely controlling an electronic apparatus includes a communication part configured to communicate with the electronic apparatus; a position sensor configured to sense a position of the control device; and a controller configured to determine a first input interface on a first plate surface or a second input interface on a second plate surface that is directed toward a first direction and determine a first end part or a second end part that is directed toward a second direction according to position sensing by the position sensor, provide the first or the second input interface that is determined to be directed toward the first direction in a display direction determined based on the first or the second end part that is directed toward the second direction, and disable the first or the second input interface which is determined to be not directed toward the first direction.. .
|Display device, method of driving display device, and electronic apparatus|
According to an aspect, a display device includes: a display region in which a plurality of pixels are arranged in a matrix; a plurality of signal lines that extend in a second direction in the display region; a vertical drive circuit that is coupled to first ends of the scanning lines and applies a vertical scanning pulse to the first ends to select each row of the pixels in the display region; a horizontal drive circuit that performs a display operation of supplying an image signal to each of the pixels in the row selected by the vertical drive circuit through the signal lines; and a plurality of switches that are coupled to second ends of the scanning lines respectively. Each of the switches supplies the same potential as that supplied to the first ends by the vertical drive circuit to the second end corresponding thereto in an idle period..
|Touch detection device, and display device with touch detection function and electronic apparatus including the same|
According to an aspect, a touch detection device has a detection surface for detecting a position of an external proximity object which is in contact therewith or in proximity thereto. The touch detection device includes: a drive electrode layer that has a plurality of drive electrodes; a plurality of touch detection electrodes that face the drive electrodes; a drive electrode driver for applying a driving signal to the drive electrodes; and a plurality of wirings for electrically coupling the plurality of drive electrodes with the drive circuit.
|Data inputting apparatus and electronic apparatus|
A data inputting apparatus includes a plurality of keyswitches, an optical module, a sensing module and a processing module. The keyswitches are disposed on the data inputting apparatus.
|Wireless input device|
The wireless input device comprises a mouse body, a radio receiver and a transmission line. The mouse body provides a charging battery and a first connector, the charging battery is sited in the mouse body, the first connector is electrically connected with the charging battery; the radio receiver has a plug connector and a second connector, the second connector is electrically connected with the plug connector; and the transmission line has a first transmission connector and a second transmission connector; wherein the radio receiver receives wirelessly an input signal outputted from the mouse body, and the input signal is transferred to an electronic apparatus connected with the plug connector; the radio receiver receives charging power through the plug connector supplied from the electronic apparatus, and transfers the charging power to the mouse body via the transmission line, so as to charge the charging battery in the mouse body..
|Electronic apparatus and method for storing data|
An electronic apparatus and a method for storing data include an object storing unit for storing at least one target object set in advance; an image pick-up unit for picking up a first image; a recognizing unit for determining whether one or more of target objects appear in the first image and generating a first recognition result; an image storing unit for storing the first image in which the target object appears as object image of the target object for each target object; a receiving unit for receiving an input from a user; a first acquiring unit for determining the target object indicated by a search input, and acquiring object image corresponding to the target object indicated by the search input; and a display unit for displaying the acquired object image.. .
|Electronic apparatus having ic temperature control|
The use of a power sink function in ic testing results in a simple and rapid method for testing ics, and assembled modules, at elevated temperature profiles without the use of environmental ovens. Testing ic devices at elevated temperatures may be useful for ‘burn-in’, for ‘hot sort’ performance testing that may be used in electronic devices such as dram memory, logic, communication devices, and microprocessors.
|Power supply control circuit, power supply device, electronic apparatus, and power supply control method|
A control circuit includes a detection circuit configured to detect a load current flowing into a load, and a setting circuit configured to set switching operations on first and second switch circuits according to the load current. The setting circuit is configured to cause both the first switch circuit and the second switch circuit to be in an off state, when a power supply stop signal is input from an outside, if the load current is in a first range, and to cause the first switch circuit to perform an on-off operation on the basis of the output voltage while causing the second switch circuit to be in the off state, if the load current is higher than a first reference value that is an upper limit of the first range..
|Power supply device, operation method of power supply device, electronic apparatus, and operation method of electronic apparatus|
A power supply device that switches one of a first power supply, a second power supply, and a third power supply, all of which supply power to an auxiliary device, to a transfer gate in a cmos image sensor having a photodiode and outputs the corresponding power to the transfer gate is disclosed. The device includes: a first transistor driven by the second power supply and outputting power of the second power supply to the transfer gate; a second transistor driven by the second power supply and outputting power of the first power supply to the transfer gate; a third transistor driven by the third power supply and outputting power of the third power supply to the transfer gate; and a fourth transistor located before the second transistor, driven by the first power supply, and outputting power of the first power supply to a source of the second transistor..
|Solid-state imaging device, method for manufacturing solid-state imaging device, and electronic apparatus|
The present invention relates to a solid-state imaging device having good focusing properties, a method for manufacturing such a solid-state imaging device, and an electronic apparatus. The solid-state imaging device has a semiconductor substrate 11 and a photoelectric conversion part formed in the semiconductor substrate 11.