| Patent application number | Description | Published |
|---|
| 20080278425 | Light-Emitting Device and Electronic Equipment Using the Same - A pixel suitable for constant current operation of an active matrix type EL display device. The pixel comprises a first switch of which one terminal is connected to a source signal line whereas another terminal is connected to a current-voltage conversion element, a second switch of which one terminal is connected to the current-voltage conversion element whereas another terminal is connected to a voltage storage means and a voltage-current conversion element, a pixel electrode which is connected to the current-voltage conversion element and the voltage-current conversion element, and a third switch of which one terminal is connected to the pixel electrode whereas another terminal is connected to the power source line. | 11-13-2008 |
| 20080297319 | Article management system - An article management system which can efficiently search for the whereabouts of an article. The article management system for managing the whereabouts of an article existing in any of a plurality of sections includes radio communication devices provided in the respective sections, and an RFID tag and a portable device that are communicable with the radio communication device by radio. The RFID tag is attached to the article. The article is detected through communication between the RFID tag and one of the radio communication devices provided in the respective sections. Further, in which of the plurality of sections the article exists is specified through communication between the portable device and the radio communication devices provided in the respective sections. | 12-04-2008 |
| 20090001256 | PHOTOELECTRIC CONVERSION DEVICE AND ELECTRONIC DEVICE PROVIDED WITH THE PHOTOELECTRIC CONVERSION DEVICE - It is an object to provide a photoelectric conversion device which can solve the problem of leakage current or noise caused when the photoelectric conversion device is connected to an external circuit by amplifying the current flows through the photoelectric conversion element, and which can widen dynamic range of the output voltage which is obtained in accordance with the current flowing through the photoelectric conversion element. The photoelectric conversion device includes a voltage detection circuit, and a photoelectric conversion circuit including a photoelectric conversion element, a current mirror circuit, and a field effect transistor. The current mirror circuit is a circuit which amplifies and outputs a photocurrent generated at the photoelectric conversion element. The voltage detection circuit is connected to the gate terminal of the field effect transistor so as to detect generated voltage. | 01-01-2009 |
| 20090009505 | Display device - A display device according to the present invention includes a switching regulator control circuit formed of TFTs. A digital switching regulator control circuit is composed of an AD converter circuit, a CPU, a pulse generation circuit or the like. An analog switching regulator control circuit is composed of an error amplifier circuit, a triangle wave generation circuit, a PWM comparator or the like. By integrally forming the switching regulator control circuit on a display device, the problem of the conventional portable information equipment as to the reduction in size and weight can be solved. | 01-08-2009 |
| 20090072757 | METHOD OF DRIVING A LIGHT EMITTING DEVICE - The present invention is characterized in that a transistor with its L/W set to 10 or larger is employed, and that |V | 03-19-2009 |
| 20090085182 | Semiconductor device and method for manufacturing the same - A semiconductor device capable of wireless communication, which has high reliability in terms of resistance to external force, in particular, pressing force and can prevent electrostatic discharge in an integrated circuit without preventing reception of an electric wave. The semiconductor device includes an on-chip antenna connected to the integrated circuit and a booster antenna which transmits a signal or power included in a received electric wave to the on-chip antenna without contact. In the semiconductor device, the integrated circuit and the on-chip antenna are interposed between a pair of structure bodies formed by impregnating a fiber body with a resin. One of the structure bodies is provided between the on-chip antenna and the booster antenna. A conductive film having a surface resistance value of approximately 10 | 04-02-2009 |
| 20090104750 | METHOD FOR MANUFACTURING SEMICONDUCTOR SUBSTRATE, DISPLAY PANEL, AND DISPLAY DEVICE - If the size of a single crystal silicon layer attached is not appropriate, even when a large glass substrate is used, the number of panels to be obtained cannot be maximized. Therefore, in the present invention, a substantially quadrangular single crystal semiconductor substrate is formed from a substantially circular single crystal semiconductor wafer, and a damaged layer is formed by irradiation with an ion beam into the single crystal semiconductor substrate. A plurality of the single crystal semiconductor substrates are arranged so as to be separated from each other over one surface of a supporting substrate. By thermal treatment, a crack is generated in the damaged layer and the single crystal semiconductor substrate is separated while a single semiconductor layer is left over the supporting substrate. After that, one or a plurality of display panels is manufactured from the single crystal semiconductor layer bonded to the supporting substrate. | 04-23-2009 |
| 20090117681 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The object of the present invention is to miniaturize the area occupied by the element and to integrate a plenty of elements in a limited area so that the sensor element can have higher output and smaller size. | 05-07-2009 |
| 20090122049 | Display Device and Controlling Method Thereof - A conventional setting voltage was a value with an estimated margin of a characteristic change of a light emitting element. Therefore, a voltage between the source and drain of a driver transistor V | 05-14-2009 |
| 20090127641 | SEMICONDUCTOR DEVICE - The invention provides a semiconductor device that power is stabilized by suppressing power consumption as much as possible. The semiconductor device of the invention includes a logic portion and a memory portion each including a plurality of transistors, a detecting portion for detecting one or both of operation frequencies of the logic portion and the memory portion, a Vth control for supplying a Vth control signal to one or both of the logic portion and the memory portion, and an antenna. Each of the plurality of transistors has a first gate electrode which is input with a logic signal, a second gate electrode which is input with the Vth control signal, and a semiconductor film such that the second gate electrode, the semiconductor film, and the first gate electrode are provided in this order from the bottom. | 05-21-2009 |
| 20090146149 | SEMICONDUCTOR DEVICE, AND MANUFACTURING METHOD THEREOF - In a display device such as a liquid crystal display device, a large-sized display screen is realized under low power consumption. A surface of a source wiring line of a pixel portion employed in an active matrix type liquid crystal display device is processed by way of a plating process operation so as to lower a resistance value of this source wiring line. The source wiring line of the pixel portion is manufactured at a step different from a step for manufacturing a source wiring line of a drive circuit portion. Further, electrodes of a terminal portion are processed by a plating process operation so as to reduce a resistance value thereof. | 06-11-2009 |
| 20090159890 | Semiconductor Display Device - A semiconductor display device using a light-emitting element, which can suppress luminance unevenness among pixels due to the potential drop of a wiring, is provided. Power supply lines to which a power supply potential is supplied are electrically connected to each other in a display region where a plurality of pixels are arranged. Further, an interlayer insulating film is formed over a wiring (an auxiliary power supply line) for electrically connecting the power supply lines to each other in the display region and a gate electrode of a transistor included in a pixel; and the power supply lines are formed over the interlayer insulating film which is formed over the auxiliary power supply line and the gate electrode. Furthermore, a wiring (an auxiliary wiring) formed over the interlayer insulating film is electrically or directly connected to the auxiliary power supply line. | 06-25-2009 |
| 20090160753 | DISPLAY DEVICE - When semi-amorphous TFTs are used for forming a signal line driver circuit and a pixel, a large amplitude is required for driving the pixel, and a large power supply voltage is thus needed. On the other hand, when a shift register is made up of transistors having a single conductivity, a bootstrap circuit is required, and a voltage over a power supply is applied to a specific element. Therefore, not both the driving amplitude and the reliability can be achieved with a single power supply. According to the invention, a level shifter having a single conductivity is provided to solve such a problem. | 06-25-2009 |
| 20090174333 | Display Device and Electronic Device - A display device where the influence of variations in current of the light emitting element due to changes in ambient temperature and changes with time can be suppressed. The display device of the invention has a light emitting element, a driving transistor connected in series to the light emitting element, a monitoring light emitting element, a limiter transistor connected in series to the monitoring light emitting element, a constant current source for supplying a constant current to the monitoring light emitting element, and a circuit for outputting a potential equal to an inputted potential. A first electrode of the light emitting element is connected to an output terminal of the circuit through the driving transistor, and a first electrode of the monitoring light emitting element is connected to an input terminal of the circuit through the limiter transistor. The channel length L | 07-09-2009 |
| 20090194771 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - An object of the present invention is to provide a semiconductor device which has flexibility and resistance to a physical change such as bending and a method for manufacturing the semiconductor device. A semiconductor device of the present invention includes a plurality of transistors provided over a flexible substrate, each of which has a semiconductor film, a gate electrode provided over the semiconductor film with a gate insulating film therebetween, and an interlayer insulating film provided to cover the gate electrode, and a bending portion provided between the plurality of transistors, in which the bending portion is provided by filling an opening formed in the interlayer insulating film with a material having a lower elastic modulus, a material having a lower glass transition point, or a material having a higher plasticity than that of the interlayer insulating film. | 08-06-2009 |
| 20090195359 | SEMICONDUCTOR DEVICE - An object is to increase the reliability of a semiconductor device which is capable of wireless communication. The semiconductor device includes a plurality of functional circuits as redundant circuits, and each of the plurality of functional circuits includes an antenna and a semiconductor integrated circuit. The plurality of functional circuits is covered with one sealing layer in which a fibrous body is impregnated with resin. Further, the semiconductor integrated circuit is provided with a transmission/reception circuit electrically connected to the antenna, a power supply circuit electrically connected to the transmission/reception circuit, and a logic circuit electrically connected to the transmission/reception circuit and the power supply circuit. | 08-06-2009 |
| 20090195387 | SEMICONDUCTOR DEVICE - A semiconductor device with improved reliability, in which increase in power consumption can be reduced. The semiconductor device includes an antenna for transmitting and receiving a wireless signal to/from a communication device and at least first and second functional circuits electrically connected to the antenna. The first functional circuit includes a power supply control circuit for controlling power supply voltage output from a power supply circuit in the second functional circuit. A power supply control circuit in the second functional circuit includes a transistor of which first terminal is electrically connected to an output terminal of the power supply circuit and second terminal is electrically connected to a ground line. A gate terminal of the transistor is electrically connected to the power supply control circuit included in one functional circuit. | 08-06-2009 |
| 20090230292 | PROTECTION CIRCUIT AND PHOTOELECTRIC CONVERSION DEVICE - A protection circuit and a photoelectric conversion device are provided, each of which includes a first wiring, a second wiring, a first switch, a second switch, a capacitor, and a comparing circuit configured to generate a signal corresponding to a potential of the first wiring and a potential of the second wiring, and supply the signal to the first switch and the second switch. The first wiring is electrically connected to a first terminal of the first switch, and the second wiring is electrically connected to a first terminal of the second switch. A second terminal of the first switch is electrically connected to a first electrode of the capacitor, and a second terminal of the second switch is electrically connected to a second electrode of the capacitor. | 09-17-2009 |
| 20090231021 | Semiconductor Device - An element is protected without hampering an actual operation in the case where overvoltage that might damage the element is applied. A semiconductor device includes a first potential supply terminal | 09-17-2009 |
| 20090236428 | Semiconductor Device - The invention provides a circuit which provides a stabilized boosting in the case where a semiconductor device typified by a non-contact ID chip includes a circuit which requires a higher voltage than a logic circuit does. By inputting an alternating signal inputted from an antenna to a charge pump circuit as it is or through a logic circuit, a charge pump can operate with a stabilized frequency that a clock frequency is not affected by a variation of elements and the ambient temperature, thus a stabilized boosting can be provided. | 09-24-2009 |
| 20090237390 | DISPLAY DEVICE - A light emitting element has a property in which a current value is varied due to a change in temperature. A display device has a temperature compensation function in order to suppress the variation in current value dues to the change in temperature. The temperature compensation function, which is essential for the present invention has a sensor, a storage means, and a correction means. The sensor has a function of detecting an environmental temperature. The detected temperature is compared with data of voltage-current characteristic versus temperature in the light emitting element which is stored in advance in the storage means. In the correction means, a signal inputted to a pixel or a power source potential supplied to a pixel portion is corrected using an output of the sensor and the data stored in the storage means. | 09-24-2009 |
| 20090261444 | SEMICONDUCTOR DEVICE - A wiring electrically connected to a terminal to which a high power supply potential is applied and a wiring electrically connected to a terminal to which a low power supply potential is applied are formed adjacent to each other and are formed so as to surround the integrated circuit. Thus, wiring resistance can be added between the terminals and the integrated circuit and capacitance can be added between the two wirings. Even if overvoltage is applied to the terminals due to ESD or the like, the energy of the overvoltage is consumed by the wiring resistance and the added capacitor, so that damage of the integrated circuit can be suppressed. | 10-22-2009 |
| 20090267073 | Semiconductor Device and Method of Manufacturing the Same - The present invention improves the aperture ratio of a pixel of a reflection-type display device or a reflection type display device without increasing the number of masks and without using a blackmask. A pixel electrode ( | 10-29-2009 |
| 20090284310 | SEMICONDUCTOR DEVICE - A semiconductor device which may be used as an ID chip and data may be rewritten only one time. In addition, a semiconductor device may be used as an ID chip and data may be written except when manufacturing the chip. The invention has a modulating circuit, a demodulating circuit, a logic circuit, a memory circuit, and an antenna circuit over an insulating substrate. The modulating circuit and the demodulating circuit are electrically connected to an antenna circuit, the demodulating circuit is connected to the logic circuit, the memory circuit stores an output signal of the logic circuit, and the memory circuit is a fuse memory circuit using a fuse element. | 11-19-2009 |
| 20090289173 | PHOTOELECTRIC CONVERSION DEVICE AND ELECTRONIC DEVICE HAVING THE SAME - The photoelectric conversion device includes a photoelectric conversion circuit for outputting photocurrent generated in a photoelectric conversion element as output voltage subjected to logarithmic compression by a first diode element, a reference voltage generation circuit for outputting reference voltage subjected to logarithmic compression by a second diode element in accordance with the amount of current flowing to a resistors an arithmetic circuit for outputting an output signal obtained by amplifying a difference between the output voltage output from the photoelectric conversion circuit and the reference voltage output from the reference voltage generation circuit, and an output circuit for outputting current corresponding to the logarithmically-compressed output voltage output from the photoelectric conversion circuit by the output signal. | 11-26-2009 |
| 20090289174 | PHOTOELECTRIC CONVERSION DEVICE, DRIVING METHOD THEREOF, AND ELECTRONIC DEVICE PROVIDED WITH THE SAME - Objects are to accumulate electric charge in a capacitor so that light intensity can be detected even when the amount of incident light is small, and to operate a photoelectric conversion device without increasing the number of elements such as a constant current source or a switch. The photoelectric conversion device includes a photoelectric conversion circuit, a capacitor, and a comparator for comparing a potential of one electrode of the capacitor with a second potential. The photoelectric conversion circuit includes a photoelectric conversion element and an amplifier circuit for amplifying an output current from the photoelectric conversion element In the capacitor, a first potential is supplied through a first switch, and charging or discharging is performed through a second switch in accordance with the current amplified by the amplifier circuit. | 11-26-2009 |
| 20090324244 | PHOTOMETRIC DEVICE - A photometric device with a wide dynamic range. The photometric device includes a constant current generation circuit, a fixed clock signal generation circuit which generates a fixed clock signal having a fixed frequency, a photoelectric conversion element, a variable clock signal generation circuit and a digital signal generation circuit. The fixed clock signal generation circuit generates a fixed clock signal that oscillates at a fixed frequency, from constant current The variable clock signal generation circuit generates a variable clock signal that oscillates at a frequency proportional to the amount of photocurrent, from photocurrent generated in the photoelectric conversion element. The digital signal generation circuit sets a measurement period using the fixed clock signal, counts the number of pulses of the variable clock signal that oscillates for the measurement period, and outputs a digital signal including the count value as data. | 12-31-2009 |
| 20100020060 | DISPLAY DEVICE AND CONTROLLING METHOD THEREOF - A conventional setting voltage was a value with an estimated margin of a characteristic change of a light emitting element. Therefore, a voltage between the source and drain of a driver transistor V | 01-28-2010 |
| 20100033450 | Display Device and Electronic Device - To increase a reading speed in a display device having a touch-panel function. The display device includes a display panel | 02-11-2010 |
| 20100051787 | PHOTODETECTOR - A photodetector includes a photoelectric conversion circuit that generates a first voltage by converting a first current generated in accordance with the illuminance of incident light into log-compressed voltage; a temperature compensation circuit that generates a second voltage by performing temperature compensation for the first voltage and generate a second current by converting the second voltage into current; and a digital signal generation circuit that generates a clock signal having an oscillation frequency depending on the second current, counts pulses of the clock signal for a certain period, and generates a digital signal using the count value for the certain period as data. | 03-04-2010 |
| 20100061136 | Semiconductor Memory Device and Semiconductor Device - An anti-fuse memory device includes a plurality of word lines, a plurality of bit lines, and a memory cell provided with respect to an intersecting portion of any of the plurality of word lines and any of the plurality of bit lines. Memory cell includes a PIN diode and an anti-fuse. An anode of the PIN diode is electrically connected to any of the bit lines. A cathode of the PIN diode is electrically connected to a first terminal of the anti-fuse. A second terminal of the anti-fuse is electrically connected to any of the word lines. The anti-fuse includes a silicon layer and an insulating layer which are interposed between electrodes. | 03-11-2010 |
| 20100066653 | DISPLAY DEVICE AND ELECTRONIC DEVICE - It is an object of the present invention to provide a display device in which images can be seen under a dark place to intense external light. In the display device, display is performed by changing the gray scale number depending on external light intensity, and display modes can be switched depending on contents displayed on the screen. An analog mode and a digital mode are switched depending on external light intensity. In an analog digital switching circuit, when a video signal is an analog value, a signal is outputted to a pixel array without any change and, when the video signal is a digital value, the signal is outputted to a circuit that performs a digital operation such as a latch circuit. Consequently, display gray scales of a pixel are changed appropriately. Accordingly, a clear image can be displayed. For example, it is possible to ensure visibility in a wide range of a dark place or under indoor florescent light to outdoor sun light. | 03-18-2010 |
| 20100073272 | Display Device - In a display device having driving circuits formed on the same substrate where pixels are formed, the lateral frame area of the display device is reduced. A gate signal line driving circuit is placed in parallel with a source signal line driving circuit, so that no driving circuits are provided in at least two opposing directions out of four directions with respect to a pixel region. With the above-described structure, the area the gate signal line driving circuit occupies in prior art is removed to reduce the width (side to side) of the display device. Therefore a display device that has a small frame area in the lateral direction can be provided. | 03-25-2010 |
| 20100073406 | Display Device, and Driving Method and Electronic Apparatus of the Display Device - The present invention provides a driving method of a display device for expressing gray scales with n bits (n is an integer) by dividing one frame into a plurality of subframes. By this driving method, pseudo contours which occur in displaying images by a time gray scale method can be reduced. | 03-25-2010 |
| 20100090016 | SEMICONDUCTOR DEVICE - A semiconductor device used as an ID chip is provided, of which operation is terminated when its role is finished or expires. According to the invention, an antenna circuit, a voltage detecting circuit, a current amplifier circuit, a signal processing circuit, and a fuse are provided over an insulating substrate. When large power is applied to the antenna circuit, a voltage is detected by voltage detecting circuit and a corresponding current is amplified by the current amplifier circuit, thereby the fuse is melted down. Also, when an anti-fuse is used, the anti-fuse can short an insulating film by applying an excessive voltage. In this manner, the semiconductor device has a function for making it invalid by stopping operation of the signal processing circuit when the role of the device is finished or expires. | 04-15-2010 |
| 20100094555 | LIGHT EMITTING DEVICE, DRIVING SUPPORT SYSTEM, AND HELMET - It is an object to provide a driving support system and a display device suitable for the driving support system. According to the driving support system, change in driver's mental and physical conditions can be caught instantaneously and a warning light emission display is given within the forward sight of the driver in order to call the driver's attention. A light emitting device of the driving support system can display a far side of the display. A display may be switched between a transmission mode and a non-transmission mode by adjusting a movable polarizer. | 04-15-2010 |
| 20100109708 | LOGIC CIRCUIT - An object is to apply a transistor using an oxide semiconductor to a logic circuit including an enhancement transistor. The logic circuit includes a depletion transistor | 05-06-2010 |
| 20100110623 | DRIVER CIRCUIT AND DISPLAY DEVICE - The driver circuit includes an inverter circuit having a first thin film transistor including a first oxide semiconductor film and a second transistor including a second oxide semiconductor film. The first thin film transistor and the second thin film transistor are enhancement transistors, in which a silicon oxide film including an OH group is provided on and in contact with the first oxide semiconductor film and the second oxide semiconductor film, and a silicon nitride film is provided on and in contact with the silicon oxide film. | 05-06-2010 |
| 20100117991 | IMAGE INPUT-OUTPUT DEVICE - An image input-output device includes a pixel which displays an image and reads an image. The pixel includes a photodetector element, a color layer, and a display element. The color layer is provided over the photodetector element and the display element is provided over the color layer, so that the distance between the photodetector element and the color layer is reduced. Accordingly, light is likely to enter the predetermined photodetector element through the predetermined color layer, and thus, even a color object can be read correctly. | 05-13-2010 |
| 20100148177 | DISPLAY DEVICE - A display device including an inverter circuit and a switch is provided. The inverter circuit includes a first thin film transistor and a second thin film transistor which have the same conductivity type. The first thin film transistor and the second thin film transistor each include: a gate insulating layer in contact with a gate electrode; a microcrystalline semiconductor layer in contact with the gate insulating layer; a mixed layer in contact with the microcrystalline semiconductor layer; a layer which includes an amorphous semiconductor and is in contact with the mixed layer; and a wiring. A conical or pyramidal microcrystalline semiconductor region and an amorphous semiconductor region filling a space except the conical or pyramidal microcrystalline semiconductor region are included in the mixed layer. | 06-17-2010 |
| 20100163868 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device which includes a thin film transistor having an oxide semiconductor layer and excellent electrical characteristics is provided. Further, a method for manufacturing a semiconductor device in which plural kinds of thin film transistors of different structures are formed over one substrate to form plural kinds of circuits and in which the number of steps is not greatly increased is provided. After a metal thin film is formed over an insulating surface, an oxide semiconductor layer is formed thereover. Then, oxidation treatment such as heat treatment is performed to oxidize the metal thin film partly or entirely. Further, structures of thin film transistors are different between a circuit in which emphasis is placed on the speed of operation, such as a logic circuit, and a matrix circuit. | 07-01-2010 |
| 20100163874 | DRIVER CIRCUIT AND SEMICONDUCTOR DEVICE - The silicon nitride layer | 07-01-2010 |
| 20100193798 | SOURCE FOLLOWER CIRCUIT OR BOOTSTRAP CIRCUIT, DRIVER CIRCUIT COMPRISING SUCH CIRCUIT, AND DISPLAY DEVICE COMPRISING SUCH DRIVER CIRCUIT - In the case of using an analog buffer circuit, an input voltage is required to be added a voltage equal to a voltage between the gate and source of a polycrystalline silicon TFT; therefore, a power supply voltage is increased, thus a power consumption is increased with heat. In view of the foregoing problem, the invention provides a depletion mode polycrystalline silicon TFT as a polycrystalline silicon TFT used in an analog buffer circuit such as a source follower circuit. The depletion mode polycrystalline silicon TFT has a threshold voltage on its negative voltage side; therefore, an input voltage does not have to be increased as described above. As a result, a power supply voltage requires no increase, thus a low power consumption of a liquid crystal display device in particular can be realized. | 08-05-2010 |
| 20100237805 | Lighting Device - To provide a lighting device in which the luminance of an EL element is maintained even when the EL element deteriorates so that degradation of the lighting device is reduced, the lighting device includes a surface light source portion including an organic EL element, and a control circuit portion provided in a base portion. The control circuit portion counts a lighting time of the organic EL element and controls the luminance of the organic EL element in accordance with the lighting time. Accordingly, the lighting device in which the luminance of an EL element is maintained regardless of degradation of the EL element so that degradation of the lighting device is reduced can be provided. | 09-23-2010 |
| 20100245190 | HEATLTH DATA COLLECTING SYSTEM AND SEMICONDUCTOR DEVICE - Conventionally, people have to go to the place where a measurement instrument for health data is, to obtain health data and the like. Further, even when using a portable measurement instrument, people have to manage data by themselves, thus health data cannot be managed rapidly. According to the invention, a modulating circuit, a demodulating circuit, a logic circuit, a sensor circuit, and an antenna circuit are provided over an insulating substrate, thereby data sensed by the sensor circuit is transmitted wirelessly. According to the invention, health data on the living body (for example a human body) is sensed and can be rapidly detected. | 09-30-2010 |
| 20100253478 | DATA PROCESSING DEVICE, IC CARD AND COMMUNICATION SYSTEM - An object is to provide a data processing device which achieves multiple functions or easy additional providing of a function while suppressing adverse influence on a communication distance or to improve resistance to electrostatic discharge in the data processing device. The data processing device includes an antenna which transmits and receives a first signal to/from a first terminal device through wireless communication, an integrated circuit which executes a process in accordance with the first signal, and a terminal portion which transmits and receives a second signal to/from a second terminal device and has an exposed conductive portion on its surface. A protection circuit is provided between at least one terminal of terminals of the terminal portion and a power supply terminal of a high potential and between the one terminal and a power supply terminal of a low potential. | 10-07-2010 |
| 20100277443 | Electronic Book - An e-book reader in which destruction of a driver circuit at the time when a flexible panel is handled is inhibited. In addition, an e-book reader having a simplified structure. A plurality of flexible display panels each including a display portion in which display control is performed by a scan line driver circuit and a signal line driver circuit, and a binding portion fastening the plurality of display panels together are included. The signal line driver circuit is provided inside the binding portion, and the scan line driver circuit is provided at the edge of the display panel in a direction perpendicular to the binding portion. | 11-04-2010 |
| 20100289331 | ELECTRIC POWER SUPPLY SYSTEM AND ELECTRIC POWER SUPPLY SYSTEM FOR MOTOR VEHICLE - To provide for a movable electronic device a power receiving device that when charging a battery, simplifies charging of the battery from a power feeder, which is a power supply means, and does not have faults due to an external factor relating to a relay terminal, or damage of the relay terminal, that are caused by directly connecting the battery and the power feeder, and further, to provide an electronic device including the power receiving device. An antenna circuit and a booster antenna for supplying electric power are provided in a movable electronic device. The antenna circuit receives a radio signal such as an electromagnetic wave via the booster antenna, and electric power that is obtained through the receiving of the radio signal is supplied to the battery through a signal processing circuit. | 11-18-2010 |
| 20100295683 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device typified by a wireless tag, which has improved mechanical strength, can be formed by a more simple process at a low cost and prevent radio waves from being shielded, and a manufacturing method of the semiconductor device. According to the invention, a wireless tag includes a thin film integrated circuit formed of an isolated TFT having a thin film semiconductor film. The wireless tag may be attached directly to an object, or attached to a flexible support such as plastic and paper before being attached to an object. The wireless tag of the invention may include an antenna as well as the thin film integrated circuit. The antenna allows to communicate signals between a reader/writer and the thin film integrated circuit, and to supply a power source voltage from the reader/writer to the thin film integrated circuit. | 11-25-2010 |
| 20100328288 | SEMICONDUCTOR INTEGRATED CIRCUIT AND METHOD OF DRIVING THE SAME - A transistor causes fluctuation in the threshold and mobility due to the factor such as fluctuation of the gate length, the gate width, and the gate insulating film thickness generated by the difference of the manufacturing steps and the substrate to be used. As a result, there is caused fluctuation in the current value supplied to the pixel due to the influence of the characteristic fluctuation of the transistor, resulting in generating streaks in the display image. A light emitting device is provided which reduces influence of characteristics of transistors in a current source circuit constituting a signal line driving circuit until the transistor characteristics do not affect the device and which can display a clear image with no irregularities. A signal line driving circuit of the present invention can prevent streaks in a displayed image and uneven luminance. Also, the present invention makes it possible to form elements of a pixel portion and driving circuit portion from polysilicon on the same substrate integrally. In this way, a display device with reduced size and current consumption is provided as well as electronic equipment using the display device. | 12-30-2010 |
| 20110006852 | PLL CIRCUIT AND SEMICONDUCTOR DEVICE HAVING THE SAME - A PLL circuit includes a phase detector, a loop filter (LF), a voltage-controlled oscillator (VCO), and a frequency divider. The phase detector compares a phase of a signal Fs which is input from outside with a phase of a signal Fo/N which is input from the frequency divider. The loop filter generates a signal Vin by removing alternating current components from a signal input from the phase detector. The voltage-controlled oscillator outputs a signal Fo based on the signal Vin input from the loop filter. The frequency divider converts the signal Fo output from the voltage-controlled oscillator into Fo/N (frequency division by N), and outputs it to the phase detector. | 01-13-2011 |
| 20110031495 | Liquid Crystal Display Device, Electronic Device Having the Same, and Manufacturing Method of the Same - A liquid crystal display device with improved productivity and a manufacturing method of the same. A liquid crystal display device according to the invention comprises in a region in which a scan line and a data line intersect with each other a first substrate comprising a first thin film transistor using either an amorphous semiconductor or an organic semiconductor for a channel portion, a second substrate, a liquid crystal layer interposed between the first substrate and the second substrate, and a third substrate comprising a second thin film transistor using a crystalline semiconductor for a channel portion. In the liquid crystal display device of the invention, a crystal grain boundary in the crystalline semiconductor extends along the flow of electrons or holes in the second thin film transistor, the first substrate is attached to the second substrate so that the first substrate is exposed, a first region for forming the second thin film transistor and a second region for forming an input terminal and an output terminal are formed on the third substrate, and the short side length of the third substrate is 1 to 6 mm and the short side length of the first region is 0.5 to 1 mm. | 02-10-2011 |
| 20110057865 | DISPLAY DEVICE AND ELECTRONIC DEVICE INCLUDING THE SAME - The display device includes a first pixel, a second pixel, and a third pixel each including a first transistor, a second transistor, and a light-emitting element. In each of the first to third pixels, a first terminal of the first transistor is electrically connected to a signal line, a second terminal of the first transistor is electrically connected to a gate of the second transistor, a first terminal of the second transistor is electrically connected to a power supply line and a second terminal of the first transistor is electrically connected to the light-emitting element. A gate of the first transistor in the first pixel is electrically connected to a first scan line. A gate of the first transistor in the second pixel is electrically connected to a second scan line. A gate of the first transistor in the third pixel is electrically connected to a third scan line. | 03-10-2011 |
| 20110062432 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object is to realize low power consumption while manufacturing a semiconductor device including a thin film transistor whose parasitic capacitance is reduced. Part of an insulating layer covering the periphery of a gate electrode layer is formed to be thick. Specifically, a stack including a spacer insulating layer and a gate insulating layer is formed. The thick part of the insulating layer covering the periphery of the gate electrode layer reduces parasitic capacitance formed between the gate electrode layer of the thin film transistor and another electrode layer (another wiring layer) overlapping with the gate electrode layer. | 03-17-2011 |
| 20110063014 | SEMICONDUCTOR DEVICE AND ELECTRONIC APPLIANCE - The amplitude voltage of a signal input to a level shifter can be increased and then output by the level shifter circuit. Specifically, the amplitude voltage of the signal input to the level shifter can be increased to be output. This decreases the amplitude voltage of a circuit (a shift register circuit, a decoder circuit, or the like) which outputs the signal input to the level shifter. Consequently, power consumption of the circuit can be reduced. Alternatively, a voltage applied to a transistor included in the circuit can be reduced. This can suppress degradation of the transistor or damage to the transistor. | 03-17-2011 |
| 20110064186 | DRIVER CIRCUIT, DISPLAY DEVICE INCLUDING THE DRIVER CIRCUIT, AND ELECTRONIC DEVICE INCLUDING THE DISPLAY DEVICE - A driver circuit where malfunctions in the circuit can be suppressed even when a thin film transistor is changed into an enhancement transistor or a depletion transistor is provided. In a pulse output circuit, a circuit for raising potentials of source terminals of first and second transistors from low power supply potentials is provided between the source terminals of the first and second transistors and a wiring for supplying a low power supply potential. Further, a switch for setting the potentials of the source terminals of the first and second transistors to low power supply potentials is provided. The switch is controlled by a judgment circuit for judging whether the first and second transistors are enhancement transistors or depletion transistors. | 03-17-2011 |
| 20110069047 | DISPLAY DEVICE - A display device includes a driver circuit including a logic circuit including a first transistor which is a depletion type transistor and a second transistor which is an enhancement type transistor; a signal line which is electrically connected to the driver circuit; a pixel portion including a pixel whose display state is controlled by input of a signal including image data from the driver circuit through the signal line; a reference voltage line to which reference voltage is applied; and a third transistor which is a depletion type transistor and controls electrical connection between the signal line and the reference voltage line. The first to the third transistors each include an oxide semiconductor layer including a channel formation region. | 03-24-2011 |
| 20110069805 | DRIVER CIRCUIT, DISPLAY DEVICE INCLUDING THE DRIVER CIRCUIT, AND ELECTRONIC APPLIANCE INCLUDING THE DISPLAY DEVICE - An object of the present invention is to provide a driver circuit including a normally-on thin film transistor, which driver circuit ensures a small malfunction and highly reliable operation. The driver circuit includes a static shift register including an inverter circuit having a first transistor and a second transistor, and a switch including a third transistor. The first to third transistors each include a semiconductor layer of an oxide semiconductor and are depletion-mode transistors. An amplitude voltage of clock signals for driving the third transistor is higher than a power supply voltage for driving the inverter circuit. | 03-24-2011 |
| 20110084267 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - By using a conductive layer including Cu as a long lead wiring, increase in wiring resistance is suppressed. Further, the conductive layer including Cu is provided in such a manner that it does not overlap with the oxide semiconductor layer in which a channel region of a TFT is formed, and is surrounded by insulating layers including silicon nitride, whereby diffusion of Cu can be prevented; thus, a highly reliable semiconductor device can be manufactured. Specifically, a display device which is one embodiment of a semiconductor device can have high display quality and operate stably even when the size or definition thereof is increased. | 04-14-2011 |
| 20110084268 | SEMICONDUCTOR DEVICE - It is an object to provide a semiconductor device typified by a display device having a favorable display quality, in which parasitic resistance generated in a connection portion between a semiconductor layer and an electrode is suppressed and an adverse effect such as voltage drop, a defect in signal wiring to a pixel, a defect in grayscale, and the like due to wiring resistance are prevented. In order to achieve the above object, a semiconductor device according to the present invention may have a structure where a wiring with low resistance is connected to a thin film transistor in which a source electrode and a drain electrode that include metal with high oxygen affinity are connected to an oxide semiconductor layer with a suppressed impurity concentration. In addition, the thin film transistor including the oxide semiconductor may be surrounded by insulating films to be sealed. | 04-14-2011 |
| 20110084337 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - As for a semiconductor device which is typified by a display device, it is an object to provide a highly reliable semiconductor device to which a large-sized or high-definition screen is applicable and which has high display quality and operates stably. By using a conductive layer including Cu as a long lead wiring, an increase in wiring resistance is suppressed. Further, the conductive layer including Cu is provided in such a manner that it does not overlap with the semiconductor layer in which a channel region of a TFT is formed, and is surrounded by insulating layers including silicon nitride, whereby diffusion of Cu can be prevented; thus, a highly reliable semiconductor device can be manufactured. Specifically, a display device which is one embodiment of a semiconductor device can have high display quality and operate stably even when the size or definition thereof is increased. | 04-14-2011 |
| 20110085635 | SHIFT REGISTER AND DISPLAY DEVICE AND DRIVING METHOD THEREOF - The power consumption of a shift register or a display device including the shift register is reduced. A clock signal is supplied to a shift register by a plurality of wirings, not by one wiring. Any one of the plurality of wirings supplies a clock signal in only part of the operation period of the shift register, not during the whole operation period of the shift register. Therefore, the capacity load caused with the supply of clock signals can be reduced, leading to reduction in power consumption of the shift register. | 04-14-2011 |
| 20110089414 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object is to reduce leakage current and parasitic capacitance of a transistor used for an LSI, a CPU, or a memory. A semiconductor integrated circuit such as an LSI, a CPU, or a memory is manufactured using a thin film transistor in which a channel formation region is formed using an oxide semiconductor which becomes an intrinsic or substantially intrinsic semiconductor by removing impurities which serve as electron donors (donors) from the oxide semiconductor and has larger energy gap than that of a silicon semiconductor. With use of a thin film transistor using a highly purified oxide semiconductor layer with sufficiently reduced hydrogen concentration, a semiconductor device with low power consumption due to leakage current can be realized. | 04-21-2011 |
| 20110089417 | SEMICONDUCTOR DEVICE - An objet of the present invention is to provide a semiconductor device with a new structure. Disclosed is a semiconductor device including a first transistor which includes a channel formation region on a substrate containing a semiconductor material, impurity regions formed with the channel formation region interposed therebetween, a first gate insulating layer over the channel formation region, a first gate electrode over the first gate insulating layer, and a first source electrode and a first drain electrode which are electrically connected to the impurity region; and a second transistor which includes a second gate electrode over the substrate containing a semiconductor material, a second gate insulating layer over the second gate electrode, an oxide semiconductor layer over the second gate insulating layer, and a second source electrode and a second drain electrode which are electrically connected to the oxide semiconductor layer. | 04-21-2011 |
| 20110089975 | LOGIC CIRCUIT AND SEMICONDUCTOR DEVICE - A logic circuit includes a thin film transistor having a channel formation region formed using an oxide semiconductor, and a capacitor having terminals one of which is brought into a floating state by turning off the thin film transistor. The oxide semiconductor has a hydrogen concentration of 5×10 | 04-21-2011 |
| 20110090006 | ANALOG CIRCUIT AND SEMICONDUCTOR DEVICE - An object is to obtain a semiconductor device having a high sensitivity in detecting signals and a wide dynamic range, using a thin film transistor in which an oxide semiconductor layer is used. An analog circuit is formed with the use of a thin film transistor including an oxide semiconductor which has a function as a channel formation layer, has a hydrogen concentration of 5×10 | 04-21-2011 |
| 20110090183 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE INCLUDING THE LIQUID CRYSTAL DISPLAY DEVICE - In a liquid crystal display device including a plurality of pixels in a display portion and configured to performed display in a plurality of frame periods, each of the frame periods includes a writing period and a holding period, and after an image signal is input to each of the plurality of pixels in the writing period, a transistor included in each of the plurality of pixels is turned off and the image signal is held for at least 30 seconds in the holding period. The pixel includes a semiconductor layer including an oxide semiconductor layer, and the oxide semiconductor layer has a carrier concentration of less than 1×10 | 04-21-2011 |
| 20110090184 | LOGIC CIRCUIT AND SEMICONDUCTOR DEVICE - To reduce a leakage current of a transistor so that malfunction of a logic circuit can be suppressed. The logic circuit includes a transistor which includes an oxide semiconductor layer having a function of a channel formation layer and in which an off current is 1×10 | 04-21-2011 |
| 20110090204 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC APPARATUS HAVING THE SAME - A liquid crystal display device includes: a driver circuit portion; a pixel portion; a signal generation circuit for generating a control signal for driving the driver circuit portion and an image signal which is supplied to the pixel portion; a memory circuit; a comparison circuit for detecting a difference of image signals for a series of frame periods among image signals stored for respective frame periods in the memory circuit; a selection circuit which selects and outputs the image signals for the series of frame periods when the difference is detected in the comparison circuit; and a display control circuit which supplies the control signal and the image signals output from the selection circuit, to the driver circuit portion when the difference is detected in the comparison circuit, and stops supplying the control signal to the driver circuit portion when the difference is not detected in the comparison circuit. | 04-21-2011 |
| 20110090207 | DISPLAY DEVICE AND ELECTRONIC DEVICE INCLUDING DISPLAY DEVICE - Objects are to provide a display device the power consumption of which is reduced, to provide a self-luminous display device the power consumption of which is reduced and which is capable of long-term use in a dark place. A circuit is formed using a thin film transistor in which a highly-purified oxide semiconductor is used and a pixel can keep a certain state (a state in which a video signal has been written). As a result, even in the case of displaying a still image, stable operation is easily performed. In addition, an operation interval of a driver circuit can be extended, which results in a reduction in power consumption of a display device. Moreover, a light-storing material is used in a pixel portion of a self-luminous display device to store light, whereby the display device can be used in a dark place for a long time. | 04-21-2011 |
| 20110101331 | SEMICONDUCTOR DEVICE - An object is to reduce leakage current and parasitic capacitance of a transistor used for an LSI, a CPU, or a memory. A semiconductor integrated circuit included in an LSI, a CPU, or a memory is manufactured using the transistor which is formed using an oxide semiconductor which is an intrinsic or substantially intrinsic semiconductor obtained by removal of impurities which serve as electron donors (donors) from the oxide semiconductor and has larger energy gap than a silicon semiconductor, and is formed over a semiconductor substrate. With the transistor which is formed over the semiconductor substrate and includes the highly purified oxide semiconductor layer with sufficiently reduced hydrogen concentration, a semiconductor device whose power consumption due to leakage current is low can be realized. | 05-05-2011 |
| 20110101332 | SEMICONDUCTOR DEVICE - The semiconductor device includes: a transistor having an oxide semiconductor layer; and a logic circuit formed using a semiconductor material other than an oxide semiconductor. One of a source electrode and a drain electrode of the transistor is electrically connected to at least one input of the logic circuit, and at least one input signal is applied to the logic circuit through the transistor. The off-current of the transistor is preferably 1×10 | 05-05-2011 |
| 20110101334 | SEMICONDUCTOR DEVICE - It is an object to provide a semiconductor having a novel structure. In the semiconductor device, a plurality of memory elements are connected in series and each of the plurality of memory elements includes first to third transistors thus forming a memory circuit. A source or a drain of a first transistor which includes an oxide semiconductor layer is in electrical contact with a gate of one of a second and a third transistor. The extremely low off current of a first transistor containing the oxide semiconductor layer allows storing, for long periods of time, electrical charges in the gate electrode of one of the second and the third transistor, whereby a substantially permanent memory effect can be obtained. The second and the third transistors which do not contain an oxide semiconductor layer allow high-speed operations when using the memory circuit. | 05-05-2011 |
| 20110101942 | VOLTAGE REGULATOR CIRCUIT - A voltage regulator circuit includes a transistor and a capacitor. The transistor includes a gate, a source, and a drain, a first signal is inputted to one of the source and the drain, a second signal which is a clock signal is inputted to the gate, an oxide semiconductor layer is used for a channel formation layer, and an off-state current is less than or equal to 10 aA/μm. The capacitor includes a first electrode and a second electrode, the first electrode is electrically connected to the other of the source and the drain of the transistor, and a high power source voltage and a low power source voltage are alternately applied to the second electrode. | 05-05-2011 |
| 20110102696 | LIQUID CRYSTAL DISPLAY DEVICE, DRIVING METHOD OF THE SAME, AND ELECTRONIC APPLIANCE INCLUDING THE SAME - An object is to provide a liquid crystal display device in which low power consumption can be achieved. A first substrate includes a terminal portion, a switching transistor, and a pixel circuit including a pixel electrode is provided. A second substrate includes a counter electrode. A liquid crystal element is interposed between the pixel electrode and the counter electrode. A potential to be input to the counter electrode is supplied from a terminal portion through the switching transistor. A semiconductor layer included in the switching transistor is an oxide semiconductor layer. | 05-05-2011 |
| 20110102697 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - When a pixel portion and a driver circuit are formed over one substrate and a counter electrode is formed over an entire surface of a counter substrate, the driver circuit may be adversely affected by an optimized voltage of the counter electrode. A semiconductor device according to the present invention has a structure in which: a liquid crystal layer is provided between a pair of substrates; one of the substrates is provided with a pixel electrode and a driver circuit; the other of the substrates is a counter substrate which is provided with two counter electrode layers in different potentials; and one of the counter electrode layers overlaps with the pixel electrode with the liquid crystal layer therebetween and the other of the counter electrode layers overlaps with the driver circuit with the liquid crystal layer therebetween. An oxide semiconductor layer is used for the driver circuit. | 05-05-2011 |
| 20110104859 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A manufacturing method of a semiconductor device is provided, which includes a process in which a transistor is formed over a first substrate; a process in which a first insulating layer is formed over the transistor; a process in which a first conductive layer connected to a source or a drain of the transistor is formed; a process in which a second substrate provided with a second insulating layer is arranged so that the first insulating layer is attached to the second insulating layer; a process in which the second insulating layer is separated from the second substrate; and a process in which a third substrate provided with a second conductive layer which functions as an antenna is arranged so that the first conductive layer is electrically connected to the second conductive layer. | 05-05-2011 |
| 20110108706 | SEMICONDUCTOR DEVICE AND OPERATING METHOD THEREOF - A solid-state image sensor which holds a potential for a long time and includes a thin film transistor with stable electrical characteristics is provided. A reset transistor is omitted by initializing the signal charge storage portion to a cathode potential of a photoelectric conversion element portion in the solid-state image sensor. When a thin film transistor which includes an oxide semiconductor layer and has an off-state current of 1×10 | 05-12-2011 |
| 20110108836 | SEMICONDUCTOR DEVICE - A solid-state image sensor which holds a potential for a long time and includes a thin film transistor with stable electrical characteristics is provided. When the off-state current of a thin film transistor including an oxide semiconductor layer is set to 1×10 | 05-12-2011 |
| 20110108837 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object of an embodiment of the present invention is to manufacture a semiconductor device with high display quality and high reliability, which includes a pixel portion and a driver circuit portion capable of high-speed operation over one substrate, using transistors having favorable electric characteristics and high reliability as switching elements. Two kinds of transistors, in each of which an oxide semiconductor layer including a crystalline region on one surface side is used as an active layer, are formed in a driver circuit portion and a pixel portion. Electric characteristics of the transistors can be selected by choosing the position of the gate electrode layer which determines the position of the channel. Thus, a semiconductor device including a driver circuit portion capable of high-speed operation and a pixel portion over one substrate can be manufactured. | 05-12-2011 |
| 20110108842 | DISPLAY DEVICE AND ELECTRONIC APPARATUS - A display device in which variations in luminance due to variations in characteristics of transistors are reduced, and image quality degradation due to variations in resistance values is prevented. The invention comprises a transistor whose channel portion is formed of an amorphous semiconductor or an organic semiconductor, a connecting wiring connected to a source electrode or a drain electrode of the transistor, alight emitting element having a laminated structure which includes a pixel electrode, an electro luminescent layer, and a counter electrode, an insulating layer surrounding an end portion of the pixel electrode, and an auxiliary wiring formed in the same layer as a gate electrode of the transistor, a connecting wiring, or the pixel electrode. Further, the connecting wiring is connected to the pixel electrode, and the auxiliary wiring is connected to the counter electrode via an opening portion provided in the insulating layer. | 05-12-2011 |
| 20110109351 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An oxide semiconductor layer which is intrinsic or substantially intrinsic and includes a crystalline region in a surface portion of the oxide semiconductor layer is used for the transistors. An intrinsic or substantially intrinsic semiconductor from which an impurity which is to be an electron donor (donor) is removed from an oxide semiconductor and which has a larger energy gap than a silicon semiconductor is used. Electrical characteristics of the transistors can be controlled by controlling the potential of a pair of conductive films which are provided on opposite sides from each other with respect to the oxide semiconductor layer, each with an insulating film arranged therebetween, so that the position of a channel formed in the oxide semiconductor layer is determined. | 05-12-2011 |
| 20110110145 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device having a novel structure. A first wiring; a second wiring; a third wiring, a fourth wiring; a first transistor including a first gate electrode, a first source electrode, and a first drain electrode; a second transistor including a second gate electrode, a second source electrode, and a second drain electrode are included. The first transistor is provided over a substrate including a semiconductor material and a second transistor includes an oxide semiconductor layer. | 05-12-2011 |
| 20110114941 | DEVICE INCLUDING NONVOLATILE MEMORY ELEMENT - A device including a novel nonvolatile memory element is provided. A device including a nonvolatile memory element in which an oxide semiconductor is used as a semiconductor material for a channel formation region. The nonvolatile memory element includes a control gate, a charge accumulation layer which overlaps with the control gate with a first insulating film provided therebetween, and an oxide semiconductor layer formed using an oxide semiconductor material, which overlaps with the charge accumulation layer with a second insulating film provided therebetween. | 05-19-2011 |
| 20110114943 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object is to provide a semiconductor device with a novel structure and favorable characteristics. A semiconductor device includes an oxide semiconductor layer, a source electrode and a drain electrode electrically connected to the oxide semiconductor layer, a gate insulating layer covering the oxide semiconductor layer, the source electrode, and the drain electrode, and a gate electrode over the gate insulating layer. The source electrode and the drain electrode include an oxide region formed by oxidizing a side surface thereof. Note that the oxide region of the source electrode and the drain electrode is preferably formed by plasma treatment with a high frequency power of 300 MHz to 300 GHz and a mixed gas of oxygen and argon. | 05-19-2011 |
| 20110114945 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object is to provide a semiconductor device with a novel structure. A semiconductor device includes a first transistor, which includes a channel formation region provided in a substrate including a semiconductor material, impurity regions, a first gate insulating layer, a first gate electrode, and a first source electrode and a first drain electrode, and a second transistor, which includes an oxide semiconductor layer over the substrate including the semiconductor material, a second source electrode and a second drain electrode, a second gate insulating layer, and a second gate electrode. The second source electrode and the second drain electrode include an oxide region formed by oxidizing a side surface thereof, and at least one of the first gate electrode, the first source electrode, and the first drain electrode is electrically connected to at least one of the second gate electrode, the second source electrode, and the second drain electrode. | 05-19-2011 |
| 20110115545 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device that can realize a function of a thyristor without complication of the process. A semiconductor device including a memory circuit that stores a predetermined potential by reset operation and initialization operation is provided with a circuit that rewrite data in the memory circuit in accordance with supply of a trigger signal. The semiconductor device has a structure in which a current flowing through the semiconductor device is supplied to a load by rewriting data in the memory circuit, and thus can function as a thyristor. | 05-19-2011 |
| 20110116310 | SEMICONDUCTOR DEVICE AND DRIVING METHOD THEREOF - A semiconductor device includes: a source line; a bit line; a word line; a memory cell connected to the bit line and the word line; a driver circuit which drives a plurality of second signal lines and a plurality of word lines so as to select the memory cell specified by an address signal; a potential generating circuit which generates a writing potential and a plurality of reading potentials to supply to a writing circuit and a reading circuit; and a control circuit which selects one of a plurality of voltages for correction on a basis of results of the reading circuit comparing a potential of the bit line with the plurality of reading potentials. | 05-19-2011 |
| 20110121285 | SEMICONDUCTOR DEVICE - It is an object to provide a semiconductor device with a novel structure. The semiconductor device includes a first wiring, a second wiring, a third wiring, a fourth wiring, a first transistor including a first gate electrode, a first source electrode, and a first drain electrode, and a second transistor including a second gate electrode, a second source electrode, and a second drain electrode. The first transistor is provided over a substrate including a semiconductor material, and the second transistor includes an oxide semiconductor layer. | 05-26-2011 |
| 20110121286 | SEMICONDUCTOR DEVICE - It is an object to provide a semiconductor device with a novel structure. The semiconductor device includes memory cells connected to each other in series and a capacitor. One of the memory cells includes a first transistor connected to a bit line and a source line, a second transistor connected to a signal line and a word line, and a capacitor connected to the word line. The second transistor includes an oxide semiconductor layer. A gate electrode of the first transistor, one of a source electrode and a drain electrode of the second transistor, and one electrode of the capacitor are connected to one another. | 05-26-2011 |
| 20110121878 | NONVOLATILE LATCH CIRCUIT AND LOGIC CIRCUIT, AND SEMICONDUCTOR DEVICE USING THE SAME - To provide a novel nonvolatile latch circuit and a semiconductor device using the nonvolatile latch circuit, a nonvolatile latch circuit includes a latch portion having a loop structure where an output of a first element is electrically connected to an input of a second element, and an output of the second element is electrically connected to an input of the first element; and a data holding portion for holding data of the latch portion. In the data holding portion, a transistor using an oxide semiconductor as a semiconductor material for forming a channel formation region is used as a switching element. In addition, an inverter electrically connected to a source electrode or a drain electrode of the transistor is included. With the transistor, data held in the latch portion can be written into a gate capacitor of the inverter or a capacitor which is separately provided. | 05-26-2011 |
| 20110121887 | SEMICONDUCTOR DEVICE - An object is to achieve low power consumption and a long lifetime of a semiconductor device having a wireless communication function. The object can be achieved in such a manner that a battery serving as a power supply source and a specific circuit are electrically connected to each other through a transistor in which a channel formation region is formed using an oxide semiconductor. The hydrogen concentration of the oxide semiconductor is lower than or equal to 5×10 | 05-26-2011 |
| 20110122670 | SEMICONDUCTOR DEVICE - An object of the present invention is to provide a semiconductor device combining transistors integrating on a same substrate transistors including an oxide semiconductor in their channel formation region and transistors including non-oxide semiconductor in their channel formation region. An application of the present invention is to realize substantially non-volatile semiconductor memories which do not require specific erasing operation and do not suffer from damages due to repeated writing operation. Furthermore, the semiconductor device is well adapted to store multivalued data. Manufacturing methods, application circuits and driving/reading methods are explained in details in the description. | 05-26-2011 |
| 20110128461 | LIQUID CRYSTAL DISPLAY DEVICE, METHOD FOR DRIVING THE SAME, AND ELECTRONIC DEVICE INCLUDING THE SAME - The liquid crystal display device includes a pixel portion including a plurality of pixels to which image signals are supplied; a driver circuit including a signal line driver circuit which selectively controls a signal line and a gate line driver circuit which selectively controls a gate line; a memory circuit which stores the image signals; a comparison circuit which compares the image signals stored in the memory circuit in the pixels and detects a difference; and a display control circuit which controls the driver circuit and reads the image signal in accordance with the difference. The display control circuit supplies the image signal only to the pixel where the difference is detected. The pixel includes a thin film transistor including a semiconductor layer including an oxide semiconductor. | 06-02-2011 |
| 20110128777 | SEMICONDUCTOR DEVICE - The semiconductor device includes a first wiring; a second wiring; a third wiring; a fourth wiring; a first transistor having a first gate electrode, a first source electrode, and a first drain electrode; and a second transistor having a second gate electrode, a second source electrode, and a second drain electrode. The first transistor is formed on or in a substrate including a semiconductor material. The second transistor includes an oxide semiconductor layer. | 06-02-2011 |
| 20110134683 | SEMICONDUCTOR DEVICE - Disclosed is a semiconductor device functioning as a multivalued memory device including: memory cells connected in series; a driver circuit selecting a memory cell and driving a second signal line and a word line; a driver circuit selecting any of writing potentials and outputting it to a first signal line; a reading circuit comparing a potential of a bit line and a reference potential; and a potential generating circuit generating the writing potential and the reference potential. One of the memory cells includes: a first transistor connected to the bit line and a source line; a second transistor connected to the first and second signal line; and a third transistor connected to the word line, bit line, and source line. The second transistor includes an oxide semiconductor layer. A gate electrode of the first transistor is connected to one of source and drain electrodes of the second transistor. | 06-09-2011 |
| 20110147737 | SEMICONDUCTOR DEVICE - A first transistor including a channel formation region, a first gate insulating layer, a first gate electrode, and a first source electrode and a first drain electrode; a second transistor including an oxide semiconductor layer, a second source electrode and a second drain electrode, a second gate insulating layer, and a second gate electrode; and a capacitor including one of the second source electrode and the second drain electrode, the second gate insulating layer, and an electrode provided to overlap with one of the second source electrode and the second drain electrode over the second gate insulating layer are provided. The first gate electrode and one of the second source electrode and the second drain electrode are electrically connected to each other. | 06-23-2011 |
| 20110148463 | NON-VOLATILE LATCH CIRCUIT AND LOGIC CIRCUIT, AND SEMICONDUCTOR DEVICE USING THE SAME - A novel non-volatile latch circuit and a semiconductor device using the non-volatile latch circuit are provided. The latch circuit has a loop structure in which an output of a first element is electrically connected to an input of a second element and an output of the second element is electrically connected to an input of the first element through a second transistor. A transistor using an oxide semiconductor as a semiconductor material of a channel formation region is used as a switching element, and a capacitor is provided to be electrically connected to a source electrode or a drain electrode of the transistor, whereby data of the latch circuit can be retained, and a non-volatile latch circuit can thus be formed. | 06-23-2011 |
| 20110148826 | METHOD FOR DRIVING LIQUID CRYSTAL DISPLAY DEVICE - The liquid crystal display device includes a first substrate provided with a terminal portion, a switching transistor, a driver circuit portion, and a pixel circuit portion including a pixel transistor and a plurality of pixels, a second substrate provided with a common electrode electrically connected to the terminal portion through the switching transistor, and liquid crystal between a pixel electrode and the common electrode. In a period during which a still image is switched to a moving image, the following steps are sequentially performed: a first step of supplying the common potential to the common electrode; a second step of supplying a power supply voltage to the driver circuit portion; a third step of supplying a clock signal to the driver circuit portion; and a fourth step of supplying a start pulse signal to the driver circuit portion. | 06-23-2011 |
| 20110156024 | MEMORY DEVICE, SEMICONDUCTOR DEVICE, AND ELECTRONIC DEVICE - An object is to provide a memory device which does not need a complex manufacturing process and whose power consumption can be suppressed, and a semiconductor device including the memory device. A solution is to provide a capacitor which holds data and a switching element which controls storing and releasing charge in the capacitor in a memory element. In the memory element, a phase-inversion element such as an inverter or a clocked inverter includes the phase of an input signal is inverted and the signal is output. For the switching element, a transistor including an oxide semiconductor in a channel formation region is used. In the case where application of a power supply voltage to the phase-inversion element is stopped, the data is stored in the capacitor, so that the data is held in the capacitor even when the application of the power supply voltage to the phase-inversion element is stopped. | 06-30-2011 |
| 20110156027 | SEMICONDUCTOR DEVICE - An object of one embodiment of the present invention is to provide a semiconductor device with a novel structure in which stored data can be stored even when power is not supplied in a data storing time and there is no limitation on the number of times of writing. The semiconductor device includes a first transistor which includes a first channel formation region using a semiconductor material other than an oxide semiconductor, a second transistor which includes a second channel formation region using an oxide semiconductor material, and a capacitor. One of a second source electrode and a second drain electrode of the second transistor is electrically connected to one electrode of the capacitor. | 06-30-2011 |
| 20110156028 | SEMICONDUCTOR DEVICE - The semiconductor device includes a source line, a bit line, a signal line, a word line, memory cells connected in parallel between the source line and the bit line, a first driver circuit electrically connected to the source line and the bit line through switching elements, a second driver circuit electrically connected to the source line through a switching element, a third driver circuit electrically connected to the signal line, and a fourth driver circuit electrically connected to the word line. The memory cell includes a first transistor including a first gate electrode, a first source electrode, and a first drain electrode, a second transistor including a second gate electrode, a second source electrode, and a second drain electrode, and a capacitor. The second transistor includes an oxide semiconductor material. | 06-30-2011 |
| 20110156117 | SEMICONDUCTOR DEVICE - An object of the present invention is to provide a semiconductor device having a novel structure in which in a data storing time, stored data can be stored even when power is not supplied, and there is no limitation on the number of writing. A semiconductor device includes a first transistor including a first source electrode and a first drain electrode; a first channel formation region for which an oxide semiconductor material is used and to which the first source electrode and the first drain electrode are electrically connected; a first gate insulating layer over the first channel formation region; and a first gate electrode over the first gate insulating layer. One of the first source electrode and the first drain electrode of the first transistor and one electrode of a capacitor are electrically connected to each other. | 06-30-2011 |
| 20110156994 | DISPLAY DEVICE - To provide a display device which can realize multi-gray scale display by reducing voltage fluctuation of a pixel, a display device includes a plurality of source signal lines, a plurality of gate signal lines which is provided so as to intersect with the source signal lines, and a pixel electrode to which a signal voltage of the source signal line is applied through a transistor including an oxide semiconductor, which is provided near an intersection portion of the source signal line and the gate signal line; in which in the pixel electrode which is provided between a pair of the adjacent source signal lines, edge portions thereof overlap with edge portions of the source signal lines and an overlapped area with one of the source signal lines is substantially equal to an overlapped area with the other source signal line. | 06-30-2011 |
| 20110157128 | DISPLAY DEVICE AND ELECTRONIC DEVICE - Multiple gray levels are expressed in a display device. The display device includes a pixel portion where pixels including transistors and display elements are arranged in matrix, a gate driver electrically connected to a gate of the transistor, a source driver electrically connected to a source or a drain of the transistor, and a data processing circuit which outputs a signal to the source driver. The transistor includes an oxide semiconductor. In the data processing circuit, n-bit digital data of input m-bit digital data (m and n are positive integers, where m>n) is used for voltage gradation and (m−n) bit digital data is used for time gradation. | 06-30-2011 |
| 20110157216 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE - To provide a liquid crystal display device which can perform image display in both modes: a reflective mode where external light is used as an illumination light source; and a transmissive mode where a backlight is used. In one pixel, a region where incident light through a liquid crystal layer is reflected to perform display (reflective region) and a region through which light from the backlight passes to perform display (transmissive region) are provided, and image display can be performed in both modes: the reflective mode where external light is used as an illumination light source; and the transmissive mode where the backlight is used as an illumination light source. In addition, two transistors connected to respective pixel electrode layers are provided in one pixel, and the two transistors are separately operated, whereby display of the reflective region and display of the transmissive region can be controlled independently. | 06-30-2011 |
| 20110157252 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SEMICONDUCTOR DEVICE - An object is to provide a liquid crystal display device which can recognize image display even when the liquid crystal display device is used in a dim environment. In one pixel, a pixel electrode including both of a region where incident light through a liquid crystal layer is reflected and a transmissive region is provided, and image display can be performed in both modes: the reflective mode where external light is used as an illumination light source; and the transmissive mode where the backlight is used as an illumination light source. When there is external light with insufficient brightness, that is, in a dim environment, the backlight emits weak light and an image is displayed in the reflective mode, whereby image display can be performed. | 06-30-2011 |
| 20110157253 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE - An object is to provide a liquid crystal display device in which image display can be recognized even in an environment where light is dim around the liquid crystal display device. Another object is to provide a liquid crystal display device capable of image display in both modes of a reflective mode in which external light is used as a light source and a transmissive mode in which a backlight is used. One pixel is provided with a pixel electrode having both of a region where light incident through a liquid crystal layer is reflected and a region having a light-transmitting property, so that image display can be performed in both modes of a reflective mode in which external light is used as a light source and a transmissive mode in which a backlight is used. | 06-30-2011 |
| 20110157254 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE - It is an object to provide a liquid crystal display device which can recognize image display even in the dim surrounding environment of the liquid crystal display device. It is another object to provide a liquid crystal display device which can perform image display in both modes: a reflective mode in which external light is used as an illumination light source; and a transmissive mode in which a backlight is used. A plurality pairs of a pixel in which incident light through a liquid crystal layer is reflected and a light-transmitting pixel are provided; therefore, display image can be performed in both modes: the reflective mode in which external light is used as an illumination light source; and the transmissive mode in which a backlight is used. Further, each reflective pixel and light-transmitting pixel may be connected to an independent signal driver circuit. | 06-30-2011 |
| 20110157961 | SEMICONDUCTOR DEVICE - The semiconductor device includes a source line, a bit line, a first signal line, a second signal line, a word line, memory cells connected in parallel between the source line and the bit line, a first driver circuit electrically connected to the source line and the bit line, a second driver circuit electrically connected to the first signal line, a third driver circuit electrically connected to the second signal line, and a fourth driver circuit electrically connected to the word line. The memory cell includes a first transistor including a first gate electrode, a first source electrode, and a first drain electrode, a second transistor including a second gate electrode, a second source electrode, and a second drain electrode, and a capacitor. The second transistor includes an oxide semiconductor material. | 06-30-2011 |
