Patent application number | Description | Published |
20080247208 | Semiconductor Device - A semiconductor device is provided, which comprises a rectifier circuit configured to generate a first voltage from a first signal inputted from an input terminal, a comparing circuit configured to compare a reference voltage and the first voltage inputted from the rectifier circuit and to output a second signal to a switch, and a voltage generation circuit configured to generate a second voltage from the first signal inputted from the input terminal. The rectifier circuit includes a transistor including at least a control terminal, and the voltage generation circuit inputs the second voltage to the control terminal when the switch is turned on in accordance with the second signal. | 10-09-2008 |
20080258918 | Wireless communication method - To provide a wireless communication method in the case where communication of a wireless signal from a communication device to a semiconductor device can be ensured, communication of a wireless signal can be ensured without using a repeater even when communication of a wireless signal from a semiconductor device to a communication device is difficult due to an external factor such as an obstacle. A plurality of semiconductor devices operate in selectively switching between a first state in which the first wireless signal transmitted from the communication device is received and a second state in which the second wireless signal transmitted from the semiconductor device is received. The semiconductor device in the second state receives the second wireless signal from the semiconductor device in the first state and transmits to the communication device the second wireless signal including detection data for indicating that the second wireless signal is received. | 10-23-2008 |
20080273357 | SEMICONDUCTOR DEVICE - To provide a semiconductor device of which a manufacturing process is simplified and which has a boosting circuit in which the area of a capacitor element is reduced. The present invention includes a plurality of rectifying elements which is connected in series and has a rectifying function from a first input terminal portion to an output terminal portion; a first wiring and a second wiring, which are connected to a second input terminal portion, into which a signal and a signal obtained by inverting the signal are respectively input; and a boosting circuit including a plurality of capacitor elements each having a first electrode, an insulating film, and a second electrode and storing a boosted potential. The plurality of capacitor elements includes a capacitor element in which the first electrode and the second electrode are formed using conductive films, and a capacitor element in which at least the second electrode is formed using a semiconductor film. In the plurality of capacitor elements, at least a capacitor element in a first stage is a capacitor element in which the first electrode and the second electrode are formed using conductive films. | 11-06-2008 |
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 |
20090289340 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A conductive shield covering a semiconductor integrated circuit prevents electrostatic breakdown of the semiconductor integrated circuit (e.g., malfunction of a circuit and damage to a semiconductor element) due to electrostatic discharge. Further, with use of a pair of insulators between which the semiconductor integrated circuit is sandwiched, a highly reliable semiconductor having resistance can be provided while achieving reduction in the thickness and size. Moreover, also in the manufacturing process, external stress, or defective shapes or deterioration in characteristics resulted from electrostatic discharge are prevented, and thus the semiconductor device can be manufactured with high yield. | 11-26-2009 |
20090289341 | SEMICONDUCTOR DEVICE - An object is to provide a highly reliable semiconductor device having resistance to external stress and electrostatic discharge while achieving reduction in thickness and size. Another object is to prevent defective shapes and deterioration in characteristics due to external stress or electrostatic discharge in a manufacture process to manufacture a semiconductor device with a high yield. A first insulator and a second insulator facing each other, a semiconductor integrated circuit and an antenna provided between the first insulator and the second insulator facing each other, a conductive shield provided on one surface of the first insulator, and a conductive shield provided on one surface of the second insulator are provided. The conductive shield provided on one surface of the first insulator and the conductive shield provided on one surface of the second insulator are electrically connected. | 11-26-2009 |
20090296470 | NONVOLATILE MEMORY - A highly-integrated nonvolatile memory. A memory cell array where plural memory cells are arranged in matrix in row and column directions, plural first and second word lines, and plural bit lines are included. Each of the plural memory cells includes a first memory transistor and a second memory transistor which are connected in series. A gate electrode of the first memory transistor is connected to the first word line, a gate electrode of the second memory transistor is connected to the second word line, one of source and drain regions of the first memory transistor is connected to the first bit line, and one of source and drain regions of the second memory transistor is connected to the second bit line. Each of the first bit line and the second bit line is provided in common for memory cells in columns which are adjacent to each other. | 12-03-2009 |
20100038618 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The invention provides a novel memory for which process technology is relatively simple and which can store multivalued information by a small number of elements. A part of a shape of the first electrode in the first storage element is made different from a shape of the first electrode in the second storage element, and thereby voltage values which change electric resistance between the first electrode and the second electrode are varied, so that one memory cell stores multivalued information over one bit. By partially processing the first electrode, storage capacity per unit area can be increased. | 02-18-2010 |
20100072286 | SEMICONDUCTOR DEVICE AND DRIVING METHOD OF THE SAME - The invention provides a semiconductor device including a memory of a simple structure to provide an inexpensive semiconductor device and a driving method thereof. The semiconductor device of the invention includes a phase change memory including a memory cell array having a plurality of memory cells, a control circuit that controls the phase change memory, and an antenna. The memory cell array includes a plurality of bit lines that extend in a first direction and word lines that extend in a second direction perpendicular to the first direction. Each of the plurality of memory cells includes a phase change layer provided between the bit lines and the word lines. In the semiconductor device having the aforementioned structure, one or both of a conductive layer that forms the bit lines and a conductive layer that forms the word lines transmits light. | 03-25-2010 |
20100148845 | LIMITER AND SEMICONDUCTOR DEVICE USING THE SAME - The limiter of the invention uses as a diode a stacked gate thin film transistor (TFT) including a floating gate. When the TFT including a floating gate is used, the threshold voltage Vth may be corrected by controlling the amount of charge accumulated in the floating gate even in the case where there are variations in the threshold voltages Vth of the TFT. | 06-17-2010 |
20100181985 | Regulator Circuit and RFID Tag Including the Same - One object of the present invention is to provide a regulator circuit with an improved noise margin. In a regulator circuit including a bias circuit generating a reference voltage on the basis of the potential difference between a first power supply terminal and a second power supply terminal, and a voltage regulator outputting a potential to an output terminal on the basis of a reference potential input from the bias circuit, a bypass capacitor is provided between a power supply terminal and a node to which a gate of a transistor included in the bias circuit is connected. | 07-22-2010 |
20100195367 | NONVOLATILE MEMORY AND WRITING METHOD THEREOF, AND SEMICONDUCTOR DEVICE - A write-once memory can be written only once to each memory cell; therefore, a defective bit cannot be detected by an actual inspection of writing. Accordingly, as described above, the measures, in which a redundant circuit is provided and the defective bit is modified before shipping, cannot be taken; thus, it is difficult to provide a memory with few defects. It is an object of the present invention to provide a write-once memory where the probability of a defect is reduced considerably. A nonvolatile memory that can be written only once includes a redundant memory cell, a first circuit which allocates an address to the redundant memory cell, a second circuit which outputs a determination signal that expresses whether writing is performed normally or not, and a third circuit, to which the determination signal is inputted, which controls the first circuit and the second circuit. | 08-05-2010 |
20100245306 | SEMICONDUCTOR DEVICE - A semiconductor device capable of displaying a still image with low consumption power is provided. In the semiconductor device incorporated with a semiconductor display device capable of displaying the still image, a memory portion is mounted on a substrate on which a pixel portion is formed. As a mounting method, the memory portion is formed on the substrate on which the pixel portion is formed or a stick driver including the memory portion is used. When the still image is displayed using image data stored in such a memory portion, the still image can be displayed by inputting only simple control signals from the outside of the semiconductor device. Thus, there are provided the semiconductor display device capable of displaying the still image with low consumption power and the semiconductor device incorporated with the semiconductor display device. | 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 |
20110068180 | WIRELESS CHIP - The size of a wireless chip is often determined according to an antenna circuit thereof. Power source voltage or power supplied to the wireless chip can be more easily received with a larger antenna. On the other hand, there has been an increasing demand for a compact wireless chip, and it is thus necessary to downsize an antenna. In view of this, the invention provides a wireless chip capable of data communication with a small antenna, namely a compact wireless chip having an improved communicable distance. A power source circuit of an ID chip of the invention generates a higher power source voltage than a power source voltage generated in a conventional ID chip, by using a boosting power source circuit having a boosting circuit and a rectifier circuit. | 03-24-2011 |
20110079650 | SEMICONDUCTOR DEVICE HAVING WIRELESS COMMUNICATION FUNCTION - A semiconductor device includes a memory portion, a logic portion, and a plurality of signal lines for electrically connecting the memory portion and the logic portion. In the case where a transfer rate between the semiconductor device and a communication device is α [bps], a first clock frequency generated in the logic portion is Kα [Hz] (K is an integer of 1 or more), the number of reading signal lines of the plurality of signal lines is n (n is an integer of 2 or more), and a second clock frequency generated in the logic portion is Lα/n [Hz] (L is any integer satisfying L/n04-07-2011 | |
20110089475 | MEMORY DEVICE AND SEMICONDUCTOR DEVICE - A memory device capable of data writing at a time other than during manufacturing is provided by using a memory element including an organic material. In a memory cell, a third conductive film, an organic compound, and a fourth conductive film are stacked over a semiconductor film provided with an n-type impurity region and a p-type impurity region, and a pn-junction diode is serially connected to the memory element. A logic circuit for controlling the memory cell includes a thin film transistor. The memory cell and the logic circuit are manufactured over one substrate at the same time. The n-type impurity region and the p-type impurity region of the memory cell are manufactured at the same time as the impurity region of the thin film transistor. | 04-21-2011 |
20110089955 | Element Substrate, Inspecting Method, and Manufacturing Method of Semiconductor Device - A substrate including a semiconductor layer, where characteristics of an element can be evaluated with high reliability, and an evaluating method thereof are provided. A substrate including a semiconductor layer of the invention has a closed-loop circuit in which an antenna coil and a semiconductor element are connected in series, and a surface of an area over which the circuit is formed is covered with an insulating film. By using such a circuit, a contactless inspection can be carried out. Further, a ring oscillator can be substituted for the closed-loop circuit. | 04-21-2011 |
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 |
20110101339 | SEMICONDUCTOR DEVICE - An object is 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 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 provided in a substrate including a semiconductor material. The second transistor includes an oxide semiconductor layer. | 05-05-2011 |
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 |
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 |
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 |
20110128801 | SEMICONDUCTOR DEVICE AND OPERATING METHOD THEREOF - In an organic memory which is included in a radio chip formed from a thin film, data are written to the organic memory by a signal inputted with a wired connection, and the data is read with a signal by radio transmission. A bit line and a word line which form the organic memory are each selected by a signal which specifies an address generated based on the signal inputted with a wired connection. A voltage is applied to a selected memory element. Thus writing is performed. Reading is performed by a clock signal or the like which are generated from a radio signal. | 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 |
20110148455 | METHOD FOR MEASURING CURRENT, METHOD FOR INSPECTING SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE, AND TEST ELEMENT GROUP - An object is to provide a current measurement method which enables a minute current to be measured. To achieve this, the value of a current flowing through an electrical element is not directly measured, but is calculated from a change in potential observed in a predetermined period. The detection of a minute current can be achieved by a measurement method including the steps of applying a predetermined potential to a first terminal of an electrical element comprising the first terminal and a second terminal; measuring an amount of change in potential of a node connected to the second terminal; and calculating, from the amount of change in potential, a value of a current flowing between the first terminal and the second terminal of the electrical element. | 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 |
20110156025 | MEMORY DEVICE AND SEMICONDUCTOR DEVICE - It is an object to provide a memory device whose power consumption can be suppressed and a semiconductor device including the memory device. As a switching element for holding electric charge accumulated in a transistor which functions as a memory element, a transistor including an oxide semiconductor film as an active layer is provided for each memory cell in the memory device. The transistor which is used as a memory element has a first gate electrode, a second gate electrode, a semiconductor film located between the first gate electrode and the second gate electrode, a first insulating film located between the first gate electrode and the semiconductor film, a second insulating film located between the second gate electrode and the semiconductor film, and a source electrode and a drain electrode in contact with the semiconductor film. | 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 |
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 |
20110163613 | Semiconductor Device - Of a wireless communication system, an RF tag which can operate normally even when a communication distance is extremely short, like the case where the RF tag is in contact with a reader/writer, whereby the reliability is improved. The RF tag which communicates data by wireless communication includes a comparison circuit which compares electric power supplied from outside with reference electric power and a protection circuit portion which is operated when the electric power supplied from outside is higher than the reference electric power in the comparison circuit. | 07-07-2011 |
20110175083 | Semiconductor Device - A semiconductor device has a non-volatile memory cell including a write transistor which includes an oxide semiconductor and has small leakage current in an off state (off-state current) between a source and a drain, a read transistor including a semiconductor material different from that of the write transistor, and a capacitor. Data is written or to the memory cell by applying a potential to a node where one of a source electrode and drain electrode of the write transistor, one electrode of the capacitor, and a gate electrode of the read transistor are electrically connected to one another so that the predetermined amount of charge is held in the node. The memory window width is changed by 2% or less, before and after 1×10 | 07-21-2011 |
20110175087 | SEMICONDUCTOR DEVICE - To provide a storage device in which advantages of both a nonvolatile storage device and a volatile storage device can be obtained, a semiconductor device includes a first transistor provided in or over a substrate and a second transistor provided above the first transistor, where at least part of the first transistor and the second transistor are overlapped with each other, and a gate electrode of the first transistor and a source or drain electrode of the second transistor are electrically connected to each other. It is preferable that the first transistor be provided using single crystal silicon and the second transistor be provided using an oxide semiconductor having extremely low off-state current. | 07-21-2011 |
20110176348 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device in which stored data can be retained even when power is not supplied, and there is no limitation on the number of write cycles. The semiconductor device includes a source line, a bit line, a first signal line, a second signal line, a word line, a memory cell connected between the source line and the bit line, a first driver circuit electrically connected to 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 and the source line. The first transistor is formed using a semiconductor material other than an oxide semiconductor. The second transistor is formed using an oxide semiconductor material. | 07-21-2011 |
20110176354 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device with a novel structure in which stored data can be retained even when power is not supplied, and does not have a limitation on the number of times of writing operations. A semiconductor device includes a source-bit line, a first signal line, a second signal line, a word line, and a memory cell connected between the source-bit lines. The memory cell includes a first transistor, a second transistor, and a capacitor. The second transistor is formed including an oxide semiconductor material. A gate electrode of the first transistor, one of a source and drain electrodes, and one of electrodes of the capacitor are electrically connected to one another. The source-bit line and a source electrode of the first transistor are electrically connected to each other. Another source-bit line adjacent to the above source-bit line and a drain electrode of the first transistor are electrically connected to each other. | 07-21-2011 |
20110176355 | SEMICONDUCTOR DEVICE AND DRIVING METHOD THEREOF - A semiconductor device has a non-volatile memory cell including a write transistor which includes an oxide semiconductor and has small leakage current in an off state between a source and a drain, a read transistor including a semiconductor material different from that of the write transistor, and a capacitor. Data is written or rewritten to the memory cell by turning on the write transistor and applying a potential to a node where one of a source electrode and drain electrode of the write transistor, one electrode of the capacitor, and a gate electrode of the read transistor are electrically connected to one another, and then turning off the write transistor so that the predetermined amount of charge is held in the node. | 07-21-2011 |
20110186949 | 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 | 08-04-2011 |
20110187410 | 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 configured to hold 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, a capacitor electrically connected to a source electrode or a drain electrode of the transistor is included. | 08-04-2011 |
20110198593 | SEMICONDUCTOR DEVICE - A semiconductor device with a novel structure in which stored data can be held even when power is not supplied and there is no limitation on the number of times of writing. In the semiconductor device, a plurality of memory cells each including a first transistor, a second transistor, and a capacitor is provided in matrix and a wiring (also called a bit line) for connecting one memory cell to another memory cell and a source or drain electrode of the first transistor are electrically connected to each other through a source or drain electrode of the second transistor. Accordingly, the number of wirings can be smaller than that in the case where the source or drain electrode of the first transistor and the source or drain electrode of the second transistor are connected to different wirings. Thus, the degree of integration of the semiconductor device can be increased. | 08-18-2011 |
20110199816 | SEMICONDUCTOR DEVICE AND DRIVING METHOD OF THE SAME - An object is to provide a semiconductor device with a novel structure in which stored data can be held even when power is not supplied, and the number of times of writing is not limited. The semiconductor device is formed using a wide gap semiconductor and includes a potential change circuit which selectively applies a potential either equal to or different from a potential of a bit line to a source line. Thus, power consumption of the semiconductor device can be sufficiently reduced. | 08-18-2011 |
20110205775 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device with a novel structure, which can hold stored data even when not powered and which has an unlimited number of write cycles. A semiconductor device is formed using a material capable of sufficiently reducing the off-state current of a transistor, such as an oxide semiconductor material that is a widegap semiconductor. The use of a semiconductor material capable of sufficiently reducing the off-state current of a transistor allows data to be held for a long time. In addition, the timing of potential change in a signal line is delayed relative to the timing of potential change in a write word line. This makes it possible to prevent a data writing error. | 08-25-2011 |
20110205785 | SEMICONDUCTOR DEVICE AND DRIVING METHOD OF SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device with a novel structure, which can hold stored data even when not powered and which has an unlimited number of write cycles. A semiconductor device includes a memory cell including a widegap semiconductor, for example, an oxide semiconductor and the semiconductor device includes a potential conversion circuit which functions to output a potential lower than a reference potential for reading data from the memory cell. With the use of a widegap semiconductor, a semiconductor device capable of sufficiently reducing the off-state current of a transistor included in a memory cell and capable of holding data for a long time can be provided. | 08-25-2011 |
20110210339 | SEMICONDUCTOR DEVICE - A semiconductor device including a non-volatile memory cell including a writing transistor which includes an oxide semiconductor, a reading transistor which includes a semiconductor material different from that of the writing transistor, and a capacitor is provided. Data is written or rewritten to the memory cell by turning on the writing transistor and supplying a potential to a node where a source electrode (or a drain electrode) of the writing transistor, one electrode of the capacitor, and a gate electrode of the reading transistor are electrically connected to each other, and then turning off the writing transistor so that the predetermined amount of charge is held in the node. Further, when a transistor whose threshold voltage is controlled and set to a positive voltage is used as the reading transistor, a reading potential is a positive potential. | 09-01-2011 |
20110215326 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - Disclosed is a semiconductor device including: an insulating layer; a source electrode and a drain electrode embedded in the insulating layer; an oxide semiconductor layer in contact and over the insulating layer, the source electrode, and the drain electrode; a gate insulating layer over and covering the oxide semiconductor layer; and a gate electrode over the gate insulating layer, where the upper surfaces of the insulating layer, the source electrode, and the drain electrode exist coplanarly. The upper surface of the insulating layer, which is in contact with the oxide semiconductor layer, has a root-mean-square (RMS) roughness of 1 nm or less, and the difference in height between the upper surface of the insulating layer and the upper surface of the source electrode or the drain electrode is less than 5 nm. This structure contributes to the suppression of defects of the semiconductor device and enables their miniaturization. | 09-08-2011 |
20110216571 | SEMICONDUCTOR MEMORY DEVICE AND SEMICONDUCTOR DEVICE - A matrix is formed using a plurality of memory cells in each of which a drain of the writing transistor is connected to a gate of a reading transistor and one electrode of a capacitor. A gate of the writing transistor, a source of the writing transistor, a source of the reading transistor, and a drain of the reading transistor are connected to a writing word line, a writing bit line, a reading bit line, and a bias line, respectively. In order to reduce the number of wirings, a writing word line to which the gate of the writing transistor is not connected is substituted for the reading word line. Further, the writing bit line is substituted for the reading bit line. | 09-08-2011 |
20110222336 | SEMICONDUCTOR DEVICE - The invention provides a semiconductor device where data can be written after the production and forgery caused by rewriting of data can be prevented, and which can be manufactured at a low cost using a simple structure and an inexpensive material. Further, the invention provides a semiconductor device having the aforementioned functions, where wireless communication is not blocked by the internal structure. The semiconductor device of the invention has an organic memory provided with a memory cell array including a plurality of memory cells, a control circuit for controlling the organic memory, and a wire for connecting an antenna. Each of the plurality of memory cells has a transistor and a memory element. The memory element has a structure where an organic compound layer is provided between a first conductive layer and a second conductive layer. The second conductive layer is formed in a linear shape. | 09-15-2011 |
20110227062 | SEMICONDUCTOR DEVICE AND DRIVING METHOD OF SEMICONDUCTOR DEVICE - A semiconductor device is formed using a material which allows a sufficient reduction in off-state current of a transistor; for example, an oxide semiconductor material, which is a wide-gap semiconductor, is used. When a semiconductor material which allows a sufficient reduction in off-state current of a transistor is used, the semiconductor device can hold data for a ions time. Transistors each including an oxide semiconductor in memory cells of the semiconductor device are connected in series; thus, a source electrode of the transistor including an oxide semiconductor in the memory cell and a drain electrode of the transistor including an oxide semiconductor in the adjacent memory cell can be connected to each other. Therefore, the area occupied by the memory cells can be reduced. | 09-22-2011 |
20110227074 | SEMICONDUCTOR DEVICE - A semiconductor device with a novel structure is provided in which stored data can be held even when power is not supplied and the number of writing is not limited. The semiconductor includes a second transistor and a capacitor over a first transistor. The capacitor includes a source or drain electrode and a gate insulating layer of the second transistor and a capacitor electrode over an insulating layer which covers the second transistor. The gate electrode of the second transistor and the capacitor electrode overlap at least partly with each other with the insulating layer interposed therebetween. By forming the gate electrode of the second transistor and the capacitor electrode using different layers, an integration degree of the semiconductor device can be improved. | 09-22-2011 |
20110237033 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A memory element is formed by providing an organic compound between a pair of upper and lower electrodes. However, when the electrode is formed over a layer containing an organic compound, a temperature is limited because the layer containing the organic compound can be influenced depending on a temperature for forming the electrode. A forming method for the electrode is limited due to this limitation of a temperature. Therefore, there are problems that an expected electrode cannot be formed, and miniaturization of an element is inhibited. A semiconductor device includes a memory element and a switching element which are provided over a substrate having an insulating surface. The memory element includes first and second electrodes, and a layer containing an organic compound, which are provided on the same plane. A current flows from the first electrode to the second electrode. The first electrode is electrically connected to the switching element. | 09-29-2011 |
20110254538 | CURRENT MEASUREMENT METHOD, INSPECTION METHOD OF SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE, AND TEST ELEMENT GROUP - One object is to provide a method for measuring current by which minute current can be measured. A value of current flowing through an electrical element is not directly measured but is calculated from change in a potential observed in a predetermined period. The method for measuring current includes the steps of: applying a predetermined potential to a first terminal of an electrical element having the first terminal and a second terminal; measuring an amount of change in a potential of a node connected to the second terminal; and calculating, from the amount of change in the potential, a value of current flowing between the first terminal and the second terminal of the electrical element. Thus, the value of minute current can be measured. | 10-20-2011 |
20110254600 | PHASE LOCKED LOOP, SEMICONDUCTOR DEVICE, AND WIRELESS TAG - An object is to provide a PLL having a wide operating range. Another object is to provide a semiconductor device or a wireless tag which has a wide operating range in a communication distance or temperature by incorporating such a PLL. The semiconductor device or the wireless tag includes a first divider circuit; a second divider circuit; a phase comparator circuit to which an output of the first divider circuit and an output of the second divider circuit are provided; a loop filter to which an output of the phase comparator circuit is supplied and in which a time constant is switched in accordance with an inputted signal; and a voltage controlled oscillator circuit to which an output of the loop filter is supplied and which supplies an output to the second divider circuit. | 10-20-2011 |
20110255325 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device having a novel structure, which can hold stored data even when not powered and which has an unlimited number of write cycles. A semiconductor device includes a memory cell including a widegap semiconductor, for example, an oxide semiconductor. The memory cell includes a writing transistor, a reading transistor, and a selecting transistor. Using a widegap semiconductor, a semiconductor device capable of sufficiently reducing the off-state current of a transistor included in a memory cell and holding data for a long time can be provided. | 10-20-2011 |
20110278571 | SEMICONDUCTOR DEVICE - A semiconductor device including a first transistor and a second transistor and a capacitor which are over the first transistor is provided. A semiconductor layer of the second transistor includes an offset region. In the second transistor provided with an offset region, the off-state current of the second transistor can be reduced. Thus, a semiconductor device which can hold data for a long time can be provided. | 11-17-2011 |
20110285614 | SEMICONDUCTOR DEVICE - A semiconductor device capable of displaying a still image with low consumption power is provided. In the semiconductor device incorporated with a semiconductor display device capable of displaying the still image, a memory portion is mounted on a substrate on which a pixel portion is formed. As a mounting method, the memory portion is formed on the substrate on which the pixel portion is formed or a stick driver including the memory portion is used. When the still image is displayed using image data stored in such a memory portion, the still image can be displayed by inputting only simple control signals from the outside of the semiconductor device. Thus, there are provided the semiconductor display device capable of displaying the still image with low consumption power and the semiconductor device incorporated with the semiconductor display device. | 11-24-2011 |
20110291816 | SEMICONDUCTOR DEVICE - An object of the present invention is to achieve a wireless chip with high reliability, a small chip area, and low power consumption, where voltage that is generated inside is prevented from excessively increasing also in a strong magnetic field such as in the case of approaching an antenna. A resonant circuit including a MOS capacitor element that has a predetermined threshold voltage is used to achieve a wireless chip. This allows a parameter of the resonant circuit to be prevented from changing in the case where the voltage amplitude exceeds a predetermined value in a strong magnetic field so that the wireless chip can be kept far away from the resonant condition. Accordingly, generation of excessive voltage is allowed to be prevented without the use of a limiter circuit or a constant voltage generation circuit. | 12-01-2011 |
20110297928 | SEMICONDUCTOR DEVICE - The semiconductor device is provided in which a plurality of memory cells each including a first transistor, a second transistor, and a capacitor is arranged in matrix and a wiring (also referred to as a bit line) for connecting one of the memory cells and another one of the memory cells and a source or drain region in the first transistor are electrically connected through a conductive layer and a source or drain electrode in the second transistor provided therebetween. With this structure, the number of wirings can be reduced in comparison with a structure in which the source or drain electrode in the first transistor and the source or drain electrode in the second transistor are connected to different wirings. Thus, the integration degree of a semiconductor device can be increased. | 12-08-2011 |
20110297939 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device having a novel structure with a high degree of integration. A semiconductor device includes a semiconductor layer having a channel formation region, a source electrode and a drain electrode electrically connected to the channel formation region, a gate electrode overlapping with the channel formation region, and a gate insulating layer between the channel formation region and the gate electrode. A portion of a side surface of the gate insulating layer and a portion of a side surface of the source electrode or the drain electrode are substantially aligned with each other when seen from a planar direction. | 12-08-2011 |
20110298027 | SEMICONDUCTOR DEVICE - It is an object to provide a semiconductor device with a novel structure in which stored data can be held even when power is not supplied and there is no limitation on the number of writings. A semiconductor device includes a second transistor and a capacitor provided over a first transistor. A source electrode of the second transistor which is in contact with a gate electrode of the first transistor is formed using a material having etching selectivity with respect to the gate electrode. By forming the source electrode of the second transistor using a material having etching selectivity with respect to the gate electrode of the first transistor, a margin in layout can be reduced, so that the degree of integration of the semiconductor device can be increased. | 12-08-2011 |
20110298057 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device having a novel structure with a high degree of integration. A semiconductor device includes a semiconductor layer having a channel formation region, a source electrode and a drain electrode electrically connected to the channel formation region, a gate electrode overlapping with the channel formation region, and a gate insulating layer between the channel formation region and the gate electrode. A portion of a side surface of the semiconductor layer having the channel formation region and a portion of a side surface of the source electrode or the drain electrode are substantially aligned with each other when seen from a planar direction. | 12-08-2011 |
20110317474 | SEMICONDUCTOR DEVICE - A semiconductor device includes a source line, a bit line, and first to m-th (m is a natural number) memory cells connected in series between the source line and the bit line. Each of the first to m-th memory cells includes a first transistor having a first gate terminal, a first source terminal, and a first drain terminal, a second transistor having a second gate terminal, a second source terminal, and a second drain terminal, and a capacitor. The node of the k-th memory cell is supplied with a potential higher than that of the second gate terminal of the k-th memory cell in a data holding period in which the second gate terminal is supplied with a potential at which the second transistor is turned off. | 12-29-2011 |
20120001243 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device with a novel structure in which stored data can be held even when power is not supplied and there is no limit on the number of write operations. The semiconductor device includes a first memory cell including a first transistor and a second transistor, a second memory cell including a third transistor and a fourth transistor, and a driver circuit. The first transistor and the second transistor overlap at least partly with each other. The third transistor and the fourth transistor overlap at least partly with each other. The second memory cell is provided over the first memory cell. The first transistor includes a first semiconductor material. The second transistor, the third transistor, and the fourth transistor include a second semiconductor material. | 01-05-2012 |
20120012837 | SEMICONDUCTOR DEVICE - A semiconductor device with a novel structure in which stored data can be retained even when power is not supplied, and does not have a limitation on the number of write cycles. The semiconductor device includes a memory cell including a first transistor, a second transistor, and an insulating layer placed between a source region or a drain region of the first transistor and a channel formation region of the second transistor. The first transistor and the second transistor are provided to at least partly overlap with each other. The insulating layer and a gate insulating layer of the second transistor satisfy the following formula: (t | 01-19-2012 |
20120012845 | SEMICONDUCTOR DEVICE - A semiconductor device with a novel structure is provided, which can hold stored data even when no power is supplied and which has no limitations on the number of writing operations. A semiconductor device is formed using a material which enables off-state current of a transistor to be reduced significantly; e.g., an oxide semiconductor material which is a wide-gap semiconductor. With use of a semiconductor material which enables off-state current of a transistor to be reduced significantly, the semiconductor device can hold data for a long period. In a semiconductor device with a memory cell array, parasitic capacitances generated in the nodes of the first to the m-th memory cells connected in series are substantially equal, whereby the semiconductor device can operate stably. | 01-19-2012 |
20120014157 | SEMICONDUCTOR DEVICE - A plurality of memory cells included in a memory cell array are divided into a plurality of blocks every plural rows. A common bit line is electrically connected to the divided bit lines through selection transistors in the blocks. One of the memory cells includes a first transistor, a second transistor, and a capacitor. The first transistor includes a first channel formation region. The second transistor includes a second channel formation region. The first channel formation region includes a semiconductor material different from the semiconductor material of the second channel formation region. | 01-19-2012 |
20120025284 | Semiconductor Device - A semiconductor device includes a material with which off-state current of a transistor can be sufficiently small; for example, an oxide semiconductor material is used. Further, transistors of memory cells of the semiconductor device, which include an oxide semiconductor material, are connected in series. Further, the same wiring (the j-th word line (j is a natural number greater than or equal to 2 and less than or equal to m)) is used as a wiring electrically connected to one of terminals of a capacitor of the j-th memory cell and a wiring electrically connected to a gate terminal of a transistor, in which a channel is formed in an oxide semiconductor layer, of the (j−1)-th memory cell. Therefore, the number of wirings per memory cell and the area occupied by one memory cell are reduced. | 02-02-2012 |
20120032171 | SEMICONDUCTOR DEVICE - An object is to miniaturize a semiconductor device. Another object is to reduce the area of a driver circuit of a semiconductor device including a memory cell. The semiconductor device includes an element formation layer provided with at least a first semiconductor element, a first wiring provided over the element formation layer, an interlayer film provided over the first wiring, and a second wiring overlapping with the first wiring with the interlayer film provided therebetween. The first wiring, the interlayer film, and the second wiring are included in a second semiconductor element. The first wiring and the second wiring are wirings to which the same potentials are supplied. | 02-09-2012 |
20120033485 | SEMICONDUCTOR DEVICE - In a semiconductor device which includes a bit line, m (m is a natural number of 3 or more) word lines, a source line, m signal lines, first to m-th memory cells, and a driver circuit, the memory cell includes a first transistor and a second transistor for storing electrical charge accumulated in a capacitor, and the second transistor includes a channel formed in an oxide semiconductor layer. In the semiconductor device, the driver circuit generates a signal to be output to a (j−1)th (j is a natural number of 3 or more) signal line with the use of a signal to be output to a j-th signal line. | 02-09-2012 |
20120033486 | SEMICONDUCTOR DEVICE AND METHOD FOR DRIVING SEMICONDUCTOR DEVICE - It is an object to provide a semiconductor device with a novel structure in which stored data can be held even when power is not supplied, and does not have a limitation on the number of writing operations. A semiconductor device includes a plurality of memory cells each including a transistor including a first semiconductor material, a transistor including a second semiconductor material that is different from the first semiconductor material, and a capacitor, and a potential switching circuit having a function of supplying a power supply potential to a source line in a writing period. Thus, power consumption of the semiconductor device can be sufficiently suppressed. | 02-09-2012 |
20120033487 | SEMICONDUCTOR DEVICE AND DRIVING METHOD THEREOF - A semiconductor device including a nonvolatile memory cell in which a writing transistor which includes an oxide semiconductor, a reading transistor which includes a semiconductor material different from that of the writing transistor, and a capacitor are included is provided. Data is written to the memory cell by turning on the writing transistor and applying a potential to a node where a source electrode (or a drain electrode) of the writing transistor, one electrode of the capacitor, and a gate electrode of the reading transistor are electrically connected, and then turning off the writing transistor, so that the predetermined amount of charge is held in the node. Further, when a p-channel transistor is used as the reading transistor, a reading potential is a positive potential. | 02-09-2012 |
20120033505 | SEMICONDUCTOR DEVICE AND METHOD FOR DRIVING SEMICONDUCTOR DEVICE - A semiconductor device with a novel structure is provided, in which the operation voltage is reduced or the storage capacity is increased by reducing variation in the threshold voltages of memory cells after writing. The semiconductor device includes a plurality of memory cells each including a transistor including an oxide semiconductor and a transistor including a material other than an oxide semiconductor, a driver circuit that drives the plurality of memory cells, and a potential generating circuit that generates a plurality of potentials supplied to the driver circuit. The driver circuit includes a data buffer, a writing circuit that writes one potential of the plurality of potentials into each of the plurality of memory cells as data, a reading circuit that reads the data written into the memory cells, and a verifying circuit that verifies whether the read data agrees with data held in the data buffer or not. | 02-09-2012 |
20120033510 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device with a novel structure, which can hold stored data even when power is not supplied and which has an unlimited number of write cycles. The semiconductor device is formed using a memory cell including a wide band gap semiconductor such as an oxide semiconductor. The semiconductor device includes a potential change circuit having a function of outputting a potential lower than a reference potential for reading data from the memory cell. When the wide band gap semiconductor which allows a sufficient reduction in of state current of a transistor included in the memory cell is used, a semiconductor device which can hold data for a long period can be provided. | 02-09-2012 |
20120043388 | SEMICONDUCTOR DEVICE - An object of the present invention is to provide a semiconductor device which can obtain the high potential necessary for writing data to a memory, using a small circuit area. In the present invention, by using as input voltage of a booster circuit not the conventionally used output VDD of a regulator circuit | 02-23-2012 |
20120056647 | SEMICONDUCTOR DEVICE AND DRIVING METHOD THEREOF - The semiconductor device includes a memory cell including a first transistor including a first channel formation region, a first gate electrode, and first source and drain regions; a second transistor including a second channel formation region provided so as to overlap with at least part of either of the first source region or the first drain region, a second source electrode, a second drain electrode electrically connected to the first gate electrode, and a second gate electrode; and an insulating layer provided between the first transistor and the second transistor. In a period during which the second transistor needs in an off state, at least when a positive potential is supplied to the first source region or the first drain region, a negative potential is supplied to the second gate electrode. | 03-08-2012 |
20120063203 | DRIVING METHOD OF SEMICONDUCTOR DEVICE - A driving method of a semiconductor device is provided. In a semiconductor device including a bit line, a selection line, a selection transistor, m (m is a natural number greater than or equal to 2) writing word lines, m reading word lines, a source line, and first to m-th memory cells, each memory cell includes a first transistor and a second transistor that holds charge accumulated in a capacitor. The second transistor includes a channel formed in an oxide semiconductor layer. In a driving method of a semiconductor device having the above structure, when writing to a memory cell is performed, the first transistor is turned on so that a first source terminal or a first drain terminal is set to a fixed potential; thus, a potential is stably written to the capacitor. | 03-15-2012 |
20120063207 | SEMICONDUCTOR DEVICE - An object of one embodiment of the present invention is to miniaturize a semiconductor device. Another object of one embodiment of the present invention is to reduce the area of a driver circuit of a semiconductor device including a memory element. A plurality of cells in which the positions of input terminals and output terminals are fixed is arranged in a first direction, wirings each of which is electrically connected to the input terminal or the output terminal of each cell are stacked over the plurality of cells, and the wirings extend in the same direction as the first direction in which the cells are arranged; thus, a semiconductor device in which a driver circuit is miniaturized is provided. | 03-15-2012 |
20120081935 | SEMICONDUCTOR DEVICE - A semiconductor device includes rectifying elements which are connected in series and has a rectifying function from a first input terminal portion to an output terminal portion; a first wiring and a second wiring, which are connected to a second input terminal portion; and a boosting circuit including a plurality of capacitor elements each having a first electrode, an insulating film, and a second electrode and storing a boosted potential. The plurality of capacitor elements includes a capacitor element in which the first electrode and the second electrode are formed using conductive films, and a capacitor element in which at least the second electrode is formed using a semiconductor film. In the plurality of capacitor elements, at least a capacitor element in a first stage is a capacitor element in which the first electrode and the second electrode are formed using conductive films. | 04-05-2012 |
20120112191 | SEMICONDUCTOR DEVICE - A data retention period in a semiconductor device or a semiconductor memory device is lengthened. The semiconductor device or the semiconductor memory includes a memory circuit including a first transistor including a first semiconductor layer and a first gate and a second transistor including a second semiconductor layer, a second gate, and a third gate The first semiconductor layer is formed at the same time as a layer including the second gate. | 05-10-2012 |
20120112257 | SEMICONDUCTOR DEVICE - Provided is a semiconductor device with a novel structure in which stored data can be retained even when power is not supplied, and which does not have a limitation on the number of writing. The semiconductor device includes both a memory circuit including a transistor including an oxide semiconductor (in a broader sense, a transistor whose off-state current is sufficiently small), and a peripheral circuit such as a driver circuit including a transistor including a material other than an oxide semiconductor (that is, a transistor capable of operating at sufficiently high speed). Further, the peripheral circuit is provided in a lower portion and the memory circuit is provided in an upper portion, so that the area and size of the semiconductor device can be decreased. | 05-10-2012 |
20120161127 | MEMORY DEVICE, MEMORY MODULE AND ELECTRONIC DEVICE - The first transistor includes first and second electrodes which are a source and a drain, and a first gate electrode overlapping with a first channel formation region with an insulating film provided therebetween. The second transistor includes third and fourth electrodes which are a source and a drain, and a second channel formation region which is provided between a second gate electrode and a third gate electrode with insulating films provided between the second channel formation region and the second gate electrode and between the second channel formation region and the third gate electrode. The first and second channel formation regions contain an oxide semiconductor, and the second electrode is connected to the second gate electrode. | 06-28-2012 |
20120200255 | Semiconductor Device - A semiconductor device which can operate normally even when the communication distance is extremely short, and which stores excess electric power which is not needed for circuit operation of the semiconductor device when a large amount of electric power is supplied thereto. The following are included: an antenna; a first AC/DC converter circuit which is connected to the antenna; a second AC/DC converter circuit which is connected to the antenna through a switching element; a detecting circuit which controls operation of the switching element in accordance with the value of a voltage output from the first AC/DC converter circuit; and a battery which stores electric power supplied from the antenna through the second AC/DC converter circuit. When the switching element is operated, electric power supplied from outside is at least partly supplied to the battery through the second AC/DC converter circuit. | 08-09-2012 |
20120200312 | Element Substrate, Inspecting Method, and Manufacturing Method of Semiconductor Device - A substrate including a semiconductor layer, where characteristics of an element can be evaluated with high reliability, and an evaluating method thereof are provided. A substrate including a semiconductor layer of the invention has a closed-loop circuit in which an antenna coil and a semiconductor element are connected in series, and a surface of an area over which the circuit is formed is covered with an insulating film. By using such a circuit, a contactless inspection can be carried out. Further, a ring oscillator can be substituted for the closed-loop circuit. | 08-09-2012 |
20120223306 | SEMICONDUCTOR DEVICE - With a combination of a transistor including an oxide semiconductor material and a transistor including a semiconductor material other than an oxide semiconductor, a semiconductor device with a novel structure in which data can be retained for a long time and does not have a limitation on the number of writing can be obtained. When a connection electrode for connecting the transistor including a semiconductor material other than an oxide semiconductor to the transistor including an oxide semiconductor material is smaller than an electrode of the transistor including a semiconductor material other than an oxide semiconductor that is connected to the connection electrode, the semiconductor device with a novel structure can be highly integrated and the storage capacity per unit area can be increased. | 09-06-2012 |
20120235150 | SEMICONDUCTOR DEVICE - A semiconductor device in which improvement of a property of holding stored data can be achieved. Further, power consumption of a semiconductor device is reduced. A transistor in which a wide-gap semiconductor material capable of sufficiently reducing the off-state current of a transistor (e.g., an oxide semiconductor material) in a channel formation region is used and which has a trench structure, i.e., a trench for a gate electrode and a trench for element isolation, is provided. The use of a semiconductor material capable of sufficiently reducing the off-state current of a transistor enables data to be held for a long time. Further, since the transistor has the trench for a gate electrode, the occurrence of a short-channel effect can be suppressed by appropriately setting the depth of the trench even when the distance between the source electrode and the drain electrode is decreased. | 09-20-2012 |
20120248434 | MEMORY DEVICE - It is an object to provide a memory device where an area occupied by a memory cell is small, and moreover, a memory device where an area occupied by a memory cell is small and a data holding period is long. A memory device includes a bit line, a capacitor, a first insulating layer provided over the bit line and including a groove portion, a semiconductor layer, a second insulating layer in contact with the semiconductor layer, and a word line in contact with the second insulating layer. Part of the semiconductor layer is electrically connected to the bit line in a bottom portion of the groove portion, and another part of the semiconductor layer is electrically connected to one electrode of the capacitor in a top surface of the first insulating layer. | 10-04-2012 |
20120275245 | SEMICONDUCTOR DEVICE AND METHOD OF DRIVING SEMICONDUCTOR DEVICE - A semiconductor device which is capable of high-speed writing with less power consumption and suitable for multi-leveled memory, and verifying operation. A memory cell included in the semiconductor device included a transistor formed using an oxide semiconductor and a transistor formed using a material other than an oxide semiconductor. A variation in threshold value of the memory cells is derived before data of a data buffer is written by using a writing circuit. Data in which the variation in threshold value is compensated with respect to the data of the data buffer is written to the memory cell. | 11-01-2012 |
20120293201 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device that can maintain the connection relation between logic circuit units or the circuit configuration of each of the logic circuit units even after supply of power supply voltage is stopped. Another object is to provide a semiconductor device in which the connection relation between logic circuit units or the circuit configuration of each of the logic circuit units can be changed at high speed. In a reconfigurable circuit, an oxide semiconductor is used for a semiconductor element that stores data on the circuit configuration, connection relation, or the like. Specifically, the oxide semiconductor is used for a channel formation region of the semiconductor element. | 11-22-2012 |
20120293208 | Semiconductor Device - As semiconductor devices including semiconductors, logic circuits are given. Logic circuits include dynamic logic circuits and static logic circuits and are formed using transistors and the like. Dynamic logic circuits can store data for a certain period of time. Thus, leakage current from transistors causes more severe problems in dynamic logic circuits than in static logic circuits. A logic circuit includes a first transistor whose off-state current is small and a second transistor whose gate is electrically connected to the first transistor. Electric charge is supplied to a node of the gate of the second transistor through the first transistor. Electric charge is supplied to the node through a plurality of capacitors. On/off of the second transistor is controlled depending on a state of the electric charge. The first transistor includes an oxide semiconductor in a channel formation region. | 11-22-2012 |
20120293242 | Semiconductor Device - As semiconductor devices including semiconductors, logic circuits are given. Logic circuits include dynamic logic circuits and static logic circuits and are formed using transistors and the like. Dynamic logic circuits can store data for a certain period of time. Thus, leakage current from transistors causes more severe problems in dynamic logic circuits than in static logic circuits. A logic circuit includes a first transistor whose off-state current is small and a second transistor whose gate is electrically connected to the first transistor. Electric charge is supplied to a node of the gate of the second transistor through the first transistor. Electric charge is supplied to the node through a first capacitor and a second capacitor. On/off of the second transistor is controlled depending on a state of the electric charge. The first transistor includes an oxide semiconductor in a channel formation region. | 11-22-2012 |
20120297219 | CIRCUIT AND METHOD OF DRIVING THE SAME - In order to reduce power consumption, an arithmetic circuit having a function of performing a logic operation processing based on an input signal, storing a potential set in accordance with the result of the logic operation processing as stored data, and outputting a signal with a value corresponding to the stored data as an output signal. The arithmetic circuit includes an arithmetic portion performing the logic operation processing, a first field-effect transistor controlling whether a first potential, which is the potential corresponding to the result of the logic operation processing is set, and a second field-effect transistor controlling whether the potential of the output signal data is set at a second potential which is a reference potential. | 11-22-2012 |
20120297220 | ARITHMETIC CIRCUIT AND METHOD OF DRIVING THE SAME - In order to reduce power consumption, an arithmetic circuit having a function of performing a logic operation processing based on an input signal, storing a potential set in accordance with the result of the logic operation processing as stored data, and outputting a signal with a value corresponding to the stored data as an output signal. The arithmetic circuit includes an arithmetic portion performing the logic operation processing, a first field-effect transistor controlling whether a first potential, which is the potential corresponding to the result of the logic operation processing is set, and a second field-effect transistor controlling whether the potential of the output signal data is set at a second potential which is a reference potential. | 11-22-2012 |
20130033925 | 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. | 02-07-2013 |
20130057315 | 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. | 03-07-2013 |
20130077385 | 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. | 03-28-2013 |
20130107645 | Nonvolatile Memory And Writing Method Thereof, And Semiconductor Device | 05-02-2013 |
20130140558 | 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. | 06-06-2013 |
20130153894 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device with a novel structure in which stored data can be held even when power is not supplied and there is no limit on the number of write operations. The semiconductor device includes a first memory cell including a first transistor and a second transistor, a second memory cell including a third transistor and a fourth transistor, and a driver circuit. The first transistor and the second transistor overlap at least partly with each other. The third transistor and the fourth transistor overlap at least partly with each other. The second memory cell is provided over the first memory cell. The first transistor includes a first semiconductor material. The second transistor, the third transistor, and the fourth transistor include a second semiconductor material. | 06-20-2013 |
20130200368 | SEMICONDUCTOR DEVICE - A semiconductor device with significantly low off-state current is provided. An oxide semiconductor material in which holes have a larger effective mass than electrons is used. A transistor is provided which includes a gate electrode layer, a gate insulating layer, an oxide semiconductor layer including a hole whose effective mass is 5 or more times, preferably 10 or more times, further preferably 20 or more times that of an electron in the oxide semiconductor layer, a source electrode layer in contact with the oxide semiconductor layer, and a drain electrode layer in contact with the oxide semiconductor layer. | 08-08-2013 |
20130200369 | 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. | 08-08-2013 |
20130201752 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device in which stored data can be retained even when power is not supplied, and there is no limitation on the number of write cycles. The semiconductor device includes a source line, a bit line, a first signal line, a second signal line, a word line, a memory cell connected between the source line and the bit line, a first driver circuit electrically connected to 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 and the source line. The first transistor is formed using a semiconductor material other than an oxide semiconductor. The second transistor is formed using an oxide semiconductor material. | 08-08-2013 |
20130222033 | 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. | 08-29-2013 |
20130228838 | SEMICONDUCTOR DEVICE AND DRIVING METHOD THEREOF - A semiconductor device including a nonvolatile memory cell in which a writing transistor which includes an oxide semiconductor, a reading transistor which includes a semiconductor material different from that of the writing transistor, and a capacitor are included is provided. Data is written to the memory cell by turning on the writing transistor and applying a potential to a node where a source electrode (or a drain electrode) of the writing transistor, one electrode of the capacitor, and a gate electrode of the reading transistor are electrically connected, and then turning off the writing transistor, so that the predetermined amount of charge is held in the node. Further, when a p-channel transistor is used as the reading transistor, a reading potential is a positive potential. | 09-05-2013 |
20130234757 | 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 configured to hold 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, a capacitor electrically connected to a source electrode or a drain electrode of the transistor is included. | 09-12-2013 |
20130256657 | 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. | 10-03-2013 |
20130256771 | 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. | 10-03-2013 |
20130288619 | 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 | 10-31-2013 |
20130292671 | 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. | 11-07-2013 |
20130292677 | 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. | 11-07-2013 |
20130301367 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device with a novel structure, which can hold stored data even when power is not supplied and which has an unlimited number of write cycles. The semiconductor device is formed using a memory cell including a wide band gap semiconductor such as an oxide semiconductor. The semiconductor device includes a potential change circuit having a function of outputting a potential lower than a reference potential for reading data from the memory cell. When the wide band gap semiconductor which allows a sufficient reduction in off-state current of a transistor included in the memory cell is used, a semiconductor device which can hold data for a long period can be provided. | 11-14-2013 |
20130335056 | Regulator Circuit and RFID Tag Including the Same - One object of the present invention is to provide a regulator circuit with an improved noise margin. In a regulator circuit including a bias circuit generating a reference voltage on the basis of the potential difference between a first power supply terminal and a second power supply terminal, and a voltage regulator outputting a potential to an output terminal on the basis of a reference potential input from the bias circuit, a bypass capacitor is provided between a power supply terminal and a node to which a gate of a transistor included in the bias circuit is connected. | 12-19-2013 |
20130341615 | SEMICONDUCTOR DEVICE - A semiconductor device with a novel structure in which stored data can be retained even when power is not supplied, and does not have a limitation on the number of write cycles. The semiconductor device includes a memory cell including a first transistor, a second transistor, and an insulating layer placed between a source region or a drain region of the first transistor and a channel formation region of the second transistor. The first transistor and the second transistor are provided to at least partly overlap with each other. The insulating layer and a gate insulating layer of the second transistor satisfy the following formula: (t | 12-26-2013 |
20140016407 | Semiconductor Device And Method For Driving Semiconductor Device - A semiconductor device with a novel structure is provided, in which the operation voltage is reduced or the storage capacity is increased by reducing variation in the threshold voltages of memory cells after writing. The semiconductor device includes a plurality of memory cells each including a transistor including an oxide semiconductor and a transistor including a material other than an oxide semiconductor, a driver circuit that drives the plurality of memory cells, and a potential generating circuit that generates a plurality of potentials supplied to the driver circuit. The driver circuit includes a data buffer, a writing circuit that writes one potential of the plurality of potentials into each of the plurality of memory cells as data, a reading circuit that reads the data written into the memory cells, and a verifying circuit that verifies whether the read data agrees with data held in the data buffer or not. | 01-16-2014 |
20140042511 | 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. | 02-13-2014 |
20140068300 | MICROCONTROLLER - To provide a microcontroller that can operate in a low power consumption mode. The microcontroller includes a CPU, a memory, and a peripheral circuit such as a timer circuit. A register of the peripheral circuit is formed at an interface with a bus line. A power gate is provided for control of power supply, and the microcontroller can operate in the low power consumption mode where some circuits alone are active, in addition to in a normal operation mode where all circuits are active. A register with no power supply in the low power consumption mode, such as a register of the CPU, includes a volatile memory and a nonvolatile memory. | 03-06-2014 |
20140092681 | 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. | 04-03-2014 |
20140108836 | MICROCONTROLLER AND METHOD FOR MANUFACTURING THE SAME - A microcontroller which operates in a low power consumption mode is provided. A microcontroller includes a CPU, a memory, and a peripheral circuit such as a timer circuit. A register in the peripheral circuit is provided in an interface with a bus line. A power gate for controlling supply control is provided. The microcontroller can operate not only in a normal operation mode where all circuits are active, but also in a low power consumption mode where some of the circuits are active. A volatile memory and nonvolatile memory are provided in a register, such as a register of the CPU. Data in the volatile memory is backed up in the nonvolatile memory before the power supply is stopped. In the case where the operation mode returns to the normal mode, when power supply is started again, data in the nonvolatile memory is written back into the volatile memory. | 04-17-2014 |
20140110704 | SEMICONDUCTOR DEVICE - A semiconductor device includes an oxide layer, a source electrode layer in contact with the oxide layer, a first drain electrode layer in contact with the oxide layer, a second drain electrode layer in contact with the oxide layer, a gate insulating film in contact with the oxide layer, a first gate electrode layer overlapping with the source electrode layer and the first drain electrode layer and overlapping with a top surface of the oxide layer with the gate insulating film interposed therebetween, a second gate electrode layer overlapping with the source electrode layer and the second drain electrode layer and overlapping with the top surface of the oxide layer with the gate insulating film interposed therebetween, and a third gate electrode layer overlapping with a side surface of the oxide layer with the gate insulating film interposed therebetween. | 04-24-2014 |
20140121787 | CENTRAL CONTROL SYSTEM - Provided is a structure which is capable of central control of an electric device and a sensor device and a structure which can reduce power consumption of an electric device and a sensor device. A central control system includes at least a central control device, an output unit, and an electric device or a sensor device. The central control device performs arithmetic processing on information transmitted from the electric device or the sensor device and makes the output unit output information obtained by the arithmetic processing. It is possible to know the state of the electric device or the sensor device even apart from the electric device or the sensor device. The electric device or the sensor device includes a transistor which includes an activation layer using a semiconductor with the band gap wider than that of single crystal silicon. | 05-01-2014 |
20140138778 | Semiconductor Device - An object is to provide a semiconductor device with a novel structure in which stored data can be held even when power is not supplied and there is no limit on the number of write operations. The semiconductor device includes a first memory cell including a first transistor and a second transistor, a second memory cell including a third transistor and a fourth transistor, and a driver circuit. The first transistor and the second transistor overlap at least partly with each other. The third transistor and the fourth transistor overlap at least partly with each other. The second memory cell is provided over the first memory cell. The first transistor includes a first semiconductor material. The second transistor, the third transistor, and the fourth transistor include a second semiconductor material. | 05-22-2014 |
20140151692 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - Disclosed is a semiconductor device including: an insulating layer; a source electrode and a drain electrode embedded in the insulating layer; an oxide semiconductor layer in contact and over the insulating layer, the source electrode, and the drain electrode; a gate insulating layer over and covering the oxide semiconductor layer; and a gate electrode over the gate insulating layer, where the upper surfaces of the insulating layer, the source electrode, and the drain electrode exist coplanarly. The upper surface of the insulating layer, which is in contact with the oxide semiconductor layer, has a root-mean-square (RMS) roughness of 1 nm or less, and the difference in height between the upper surface of the insulating layer and the upper surface of the source electrode or the drain electrode is less than 5 nm. This structure contributes to the suppression of defects of the semiconductor device and enables their miniaturization. | 06-05-2014 |
20140169072 | 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. | 06-19-2014 |
20140169100 | 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. | 06-19-2014 |
20140175431 | 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. | 06-26-2014 |
20140203840 | Circuit and method of driving the same - In order to reduce power consumption, an arithmetic circuit having a function of performing a logic operation processing based on an input signal, storing a potential set in accordance with the result of the logic operation processing as stored data, and outputting a signal with a value corresponding to the stored data as an output signal. The arithmetic circuit includes an arithmetic portion performing the logic operation processing, a first field-effect transistor controlling whether a first potential, which is the potential corresponding to the result of the logic operation processing is set, and a second field-effect transistor controlling whether the potential of the output signal data is set at a second potential which is a reference potential. | 07-24-2014 |
20140203859 | SEMICONDUCTOR DEVICE - To provide a semiconductor device capable of adjusting the timing of a clock signal or a high-quality semiconductor device. The semiconductor device includes a first transistor and a circuit including a second transistor. A channel of the first transistor is formed in an oxide semiconductor layer. A first signal is input to one of a source and a drain of the first transistor. The other of the source and the drain of the first transistor is electrically connected to a gate of the second transistor. A first clock signal is input to the circuit. The circuit outputs a second clock signal. The timing of the second clock signal is different from that of the first clock signal. | 07-24-2014 |
20140204696 | MEMORY DEVICE AND SEMICONDUCTOR DEVICE - Provided is a memory device with reduced overhead power. A memory device includes a first circuit retaining data in a first period during which a power supply voltage is supplied; a second circuit saving the data retained in the first circuit in the first period and retaining the data saved from the first circuit in a second period during which the power supply voltage is not supplied; and a third circuit saving the data retained in the second circuit in the second period and retaining the data saved from the second circuit in a third period during which the power supply voltage is not supplied. The third circuit includes a transistor in which a channel formation region is provided in an oxide semiconductor film and a capacitor to which a potential corresponding to the data is supplied through the transistor. | 07-24-2014 |
20140209987 | MEMORY DEVICE - It is an object to provide a memory device where an area occupied by a memory cell is small, and moreover, a memory device where an area occupied by a memory cell is small and a data holding period is long. A memory device includes a bit line, a capacitor, a first insulating layer provided over the bit line and including a groove portion, a semiconductor layer, a second insulating layer in contact with the semiconductor layer, and a word line in contact with the second insulating layer. Part of the semiconductor layer is electrically connected to the bit line in a bottom portion of the groove portion, and another part of the semiconductor layer is electrically connected to one electrode of the capacitor in a top surface of the first insulating layer. | 07-31-2014 |
20140231882 | Wireless Processor, Wireless Memory, Information System, And Semiconductor Device - The invention provides a processor obtained by forming a high functional integrated circuit using a polycrystalline semiconductor over a substrate which is sensitive to heat, such as a plastic substrate or a plastic film substrate. Moreover, the invention provides a wireless processor, a wireless memory, and an information processing system thereof which transmit and receive power or signals wirelessly. According to the invention, an information processing system includes an element forming region including a transistor which has at least a channel forming region formed of a semiconductor film separated into islands with a thickness of 10 to 200 nm, and an antenna. The transistor is fixed on a flexible substrate. The wireless processor in which a high functional integrated circuit including the element forming region is formed and the semiconductor device transmit and receive data through the antenna. | 08-21-2014 |
20140269063 | METHOD FOR DRIVING SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - To read multilevel data from a memory cell having a transistor using silicon and a transistor using an oxide semiconductor, without switching a signal for reading the multilevel data in accordance with the number of the levels of the multilevel data. The electrical charge of a bit line is discharged, the potential of the bit line is charged via a transistor for writing data, and the potential of the bit line which is changed by the charging is read as multilevel data. With such a structure, the potential corresponding to data held in a gate of the transistor can be read by only one-time switching of a signal for reading data. | 09-18-2014 |
20140269099 | METHOD FOR DRIVING SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - To read multilevel data from a memory cell having a transistor using silicon and a transistor using an oxide semiconductor, without switching a signal for reading the multilevel data in accordance with the number of the levels of the multilevel data. The potential of the bit line is precharged, the electrical charge of the bit line is discharged via a transistor for writing data, and the potential of the bit line which is changed by the discharging is read as multilevel data. With such a structure, the potential corresponding to data held in a gate of the transistor can be read by only one-time switching of a signal for reading data. | 09-18-2014 |
20140284600 | ARITHMETIC CIRCUIT AND METHOD OF DRIVING THE SAME - In order to reduce power consumption, an arithmetic circuit having a function of performing a logic operation processing based on an input signal, storing a potential set in accordance with the result of the logic operation processing as stored data, and outputting a signal with a value corresponding to the stored data as an output signal. The arithmetic circuit includes an arithmetic portion performing the logic operation processing, a first field-effect transistor controlling whether a first potential, which is the potential corresponding to the result of the logic operation processing is set, and a second field-effect transistor controlling whether the potential of the output signal data is set at a second potential which is a reference potential. | 09-25-2014 |
20140291800 | SEMICONDUCTOR DEVICE - When a conductive layer occupying a large area is provided in a coiled antenna portion, it has been difficult to supply power stably. A memory circuit portion and a coiled antenna portion are disposed by being stacked together; therefore, it is possible to prevent a current from flowing through a conductive layer occupying a large area included in the memory circuit portion, and thus, power saving can be achieved. In addition, the memory circuit portion and the coiled antenna portion are disposed by being stacked together, and thus, it is possible to use a space efficiently. Therefore, downsizing can be realized. | 10-02-2014 |
20140293711 | SEMICONDUCTOR DEVICE - The first circuit has a function of retaining data in a first period during which a power supply voltage is supplied. The second circuit has functions of saving the data retained in the first circuit in the first period and retaining the data saved from the first circuit in a second period during which application of the power supply voltage is stopped. The third circuit has functions of saving the data retained in the second circuit in the second period and retaining the data saved from the second circuit in a third period during which application of the power supply voltage is stopped. The second circuit is capable of being written with the data for a shorter time than the third circuit. The third circuit is capable of maintaining the data for a longer time than the second circuit. | 10-02-2014 |
20140319518 | SEMICONDUCTOR DEVICE AND DRIVING METHOD THEREOF - A semiconductor device has a non-volatile memory cell including a write transistor which includes an oxide semiconductor and has small leakage current in an off state between a source and a drain, a read transistor including a semiconductor material different from that of the write transistor, and a capacitor. Data is written or rewritten to the memory cell by turning on the write transistor and applying a potential to a node where one of a source electrode and drain electrode of the write transistor, one electrode of the capacitor, and a gate electrode of the read transistor are electrically connected to one another, and then turning off the write transistor so that the predetermined amount of charge is held in the node. | 10-30-2014 |
20140326999 | Semiconductor Device - An object is 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 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 provided in a substrate including a semiconductor material. The second transistor includes an oxide semiconductor layer. | 11-06-2014 |
20140332809 | SEMICONDUCTOR DEVICE - With a combination of a transistor including an oxide semiconductor material and a transistor including a semiconductor material other than an oxide semiconductor, a semiconductor device with a novel structure in which data can be retained for a long time and does not have a limitation on the number of writing can be obtained. When a connection electrode for connecting the transistor including a semiconductor material other than an oxide semiconductor to the transistor including an oxide semiconductor material is smaller than an electrode of the transistor including a semiconductor material other than an oxide semiconductor that is connected to the connection electrode, the semiconductor device with a novel structure can be highly integrated and the storage capacity per unit area can be increased. | 11-13-2014 |
20140339541 | SEMICONDUCTOR DEVICE - A semiconductor device with a novel structure in which storage capacity needed for holding data can be secured even with miniaturized elements is provided. In the semiconductor device, electrodes of a capacitor are an electrode provided in the same layer as a gate of a transistor and an electrode provided in the same layer as a source and a drain of the transistor. Further, a layer in which the gate of the transistor is provided and a wiring layer connecting the gates of the transistors in a plurality of memories are provided in different layers. With this structure, parasitic capacitance formed around the gate of the transistor can be reduced, and the capacitor can be formed in a larger area. | 11-20-2014 |
20140340127 | SEMICONDUCTOR DEVICE - A semiconductor device with short overhead time. The semiconductor device includes a first wiring supplied with a power supply potential, a second wiring, a switch for controlling electrical connection between the first wiring and the second wiring, a load electrically connected to the second wiring, a transistor whose source and drain are electrically connected to the second wiring, and a power management unit having functions of controlling the conduction state of the switch and controlling a gate potential of the transistor. A channel formation region of the transistor is included in an oxide semiconductor film. | 11-20-2014 |
20140340953 | 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. | 11-20-2014 |
20150014419 | 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 | 01-15-2015 |
20150014685 | SEMICONDUCTOR DEVICE - An object is to miniaturize a semiconductor device. Another object is to reduce the area of a driver circuit of a semiconductor device including a memory cell. The semiconductor device includes an element formation layer provided with at least a first semiconductor element, a first wiring provided over the element formation layer, an interlayer film provided over the first wiring, and a second wiring overlapping with the first wiring with the interlayer film provided therebetween. The first wiring, the interlayer film, and the second wiring are included in a second semiconductor element. The first wiring and the second wiring are wirings to which the same potentials are supplied. | 01-15-2015 |
20150022251 | 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. | 01-22-2015 |
20150024577 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A manufacturing method of a semiconductor device in which the threshold is corrected is provided. In a semiconductor device including a plurality of transistors each includes a semiconductor, a source or drain electrode electrically connected to the semiconductor, a gate electrode, and a charge trap layer between the gate electrode and the semiconductor, electrons are trapped in the charge trap layer by performing heat treatment and, simultaneously, keeping a potential of the gate electrode higher than that of the source or drain electrode for 1 second or more. By this process, the threshold increases and Icut decreases. A circuit for supplying a signal to the gate electrode and a circuit for supplying a signal to the source or drain electrode are electrically separated from each other. The process is performed in the state where the potential of the former circuit is set higher than the potential of the latter circuit. | 01-22-2015 |
20150054548 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A manufacturing method of a semiconductor device in which the threshold is adjusted is provided. In a semiconductor device including a plurality of transistors arranged in a matrix each including a semiconductor, a source or drain electrode electrically connected to the semiconductor, a gate electrode, and a charge trap layer between the gate electrode and the semiconductor, electrons are trapped in the charge trap layer by performing heat treatment and, simultaneously, keeping a potential of the gate electrode higher than that of the source or drain electrode for 1 second or more. By this process, the threshold increases and Icut decreases. A circuit that supplies a signal to the gate electrode (e.g., word line driver) is provided with a selection circuit formed of an OR gate, an XOR gate, or the like, whereby potentials of word lines can be simultaneously set higher than potentials of bit lines. | 02-26-2015 |
20150069138 | 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 | 03-12-2015 |
20150070962 | MEMORY DEVICE, SEMICONDUCTOR DEVICE, AND ELECTRONIC DEVICE - To provide a memory device with short overhead time and a semiconductor device including the memory device. A memory device includes a first circuit that can retain data and a second circuit by the supply of power supply voltage. The second circuit includes a third circuit that selects a first potential corresponding to the data or a second potential supplied to a first wiring; a first transistor having a channel formation region in an oxide semiconductor film; a capacitor that hold the first potential or the second potential that is selected by the third circuit and supplied through the first transistor; and a second transistor controlling a conduction state between the first circuit and a second wiring that can supply a third potential in accordance with the potential retained in the capacitor. | 03-12-2015 |
20150084046 | SEMICONDUCTOR DEVICE - A semiconductor device including a transistor and a capacitor which occupies a small area is provided. The semiconductor device includes a semiconductor, first and second conductive films each comprising a region in contact with top and side surfaces of the semiconductor, a first insulating film comprising a region in contact with the top and side surfaces of the semiconductor, a third conductive film comprising a region facing the top and side surfaces of the semiconductor with the first insulating film therebetween, a second insulating film which is in contact with the first conductive film and comprises an opening, a fourth conductive film comprising a region in contact with the opening, a third insulating film comprising a region facing the opening with the fourth conductive film therebetween, and a fifth conductive film comprising a region facing the fourth conductive film with the third insulating film therebetween. | 03-26-2015 |