Patent application number | Description | Published |
20100071178 | Method for Manufacturing Semiconductor Device - To reduce current consumption in a frequency-division circuit, particularly in a multistage frequency-division circuit, in a multistage frequency-division circuit, an inputted signal has a higher frequency in a preceding stage, and an inputted signal has a lower frequency in a following stage. Thus, placement is performed preferentially from the basic cell corresponding to the frequency-division circuit into which a signal having a higher frequency is inputted, and then wiring connection is performed. In other words, the layout of a plurality of basic cells corresponding to a multistage frequency-division circuit is performed so that, as compared to a wiring into which a signal having a lower frequency is inputted, a wiring into which a signal having a higher frequency is inputted has a shorter wiring length and has less intersection with other wirings, so that parasitic capacitance and parasitic resistance of the wiring are reduced. | 03-25-2010 |
20100079179 | Semiconductor Device - It is an object of the present invention to provide a semiconductor device that has a simple circuit structure, a small scale, and low power consumption, and can generate a desired clock signal. The semiconductor device has a clock generation circuit which generates a clock signal by dividing a modulated carrier wave, a divider circuit which generates a first divided signal by dividing a carrier wave, and a correction circuit which generates a second divided signal by further dividing the first divided signal, and has a function of performing correction for inverting the second divided signal in a period corresponding to a half period of the clock signal during modulation of the carrier wave and selecting whether the correction is performed or not. | 04-01-2010 |
20100080074 | SEMICONDUCTOR MEMORY DEVICE - Easy and fast memory access with correcting defects is to be realized. In a spare memory in a semiconductor memory device, a redundant memory cell array that stores the number of correcting defects is provided. When a signal from the outside is received, the signal is switched to the redundant memory cell array, and the number of correcting defects is judged. Then, based on the result of the judgment, it is determined the judgment of a defective memory cell is continued or the judgment is finished to write data to a main memory cell. By providing the redundant memory cell array that stores the number of correcting defects, a state of correcting defects can be observed fast in such a manner. | 04-01-2010 |
20100163631 | Semiconductor Device, Electronic Appliance Using Semiconductor Device, and Document Using Semiconductor Device - A semiconductor device capable of wireless communication which has low power consumption in a step for decoding an encoded signal to obtain data is provided. The semiconductor device includes an antenna configured to convert received carrier waves into an AC signal, a rectifier circuit configured to rectify the AC signal into a DC voltage, a demodulation circuit configured to demodulate the AC signal into an encoded signal, an oscillator circuit configured to generate a clock signal having a certain frequency by supply of the DC voltage, a synchronizing circuit configured to generate a synchronized encoded signal by synchronizing the encoded signal obtained by demodulating the AC signal with the clock signal, a decoder circuit configured to decode the synchronized encoded signal into a decoded signal, and a register configured to store the decoded signal as a clock (referred to as a digital signal). | 07-01-2010 |
20100205519 | CYCLIC REDUNDANCY CHECK CIRCUIT AND SEMICONDUCTOR DEVICE HAVING THE CYCLIC REDUNDANCY CHECK CIRCUIT - An object of the present invention is to provide a CRC circuit with more simple structure and low power consumption. The CRC circuit includes a first shift register to a p-th shift register, a first EXOR to a (p−1)th EXOR, and a switching circuit. A data signal, a select signal, and an output of a last stage of the p-th shift register are inputted to the switching circuit, and the switching circuit switches a first signal or a second signal in response to the select signal to be outputted. | 08-12-2010 |
20100289331 | ELECTRIC POWER SUPPLY SYSTEM AND ELECTRIC POWER SUPPLY SYSTEM FOR MOTOR VEHICLE - To provide for a movable electronic device a power receiving device that when charging a battery, simplifies charging of the battery from a power feeder, which is a power supply means, and does not have faults due to an external factor relating to a relay terminal, or damage of the relay terminal, that are caused by directly connecting the battery and the power feeder, and further, to provide an electronic device including the power receiving device. An antenna circuit and a booster antenna for supplying electric power are provided in a movable electronic device. The antenna circuit receives a radio signal such as an electromagnetic wave via the booster antenna, and electric power that is obtained through the receiving of the radio signal is supplied to the battery through a signal processing circuit. | 11-18-2010 |
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 | |
20110315780 | SEMICONDUCTOR DEVICE AND WIRELESS COMMUNICATION SYSTEM USING THE SAME - Initialization of a semiconductor device can be efficiently performed, which transmits and receives data through wireless communication. The semiconductor device includes an antenna, a power source circuit, a circuit which uses a DC voltage generated by the power source circuit as a power source voltage, and a resistor. The antenna includes a pair of terminals and receives a wireless signal (a modulated carrier wave). The power source circuit includes a first terminal and a second terminal and generates a DC voltage between the first terminal and the second terminal by using a received wireless signal (the modulated carrier wave). The resistor is connected between the first terminal and the second terminal. In this manner, the semiconductor device and the wireless communication system can transmit and receive data accurately. | 12-29-2011 |
20140027882 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - In a semiconductor device including a digital circuit portion and an analog circuit portion having a capacitor portion provided over a substrate, the capacitor portion is provided with a first wiring, a second wiring and a plurality of blocks each having a plurality of capacitor elements. Further, each the plurality of capacitor elements provided in each block has a semiconductor film having a first impurity region and a plurality of second impurity regions provided apart with the first impurity region interposed therebetween, and a conductive film provided over the first impurity region with an insulating film therebetween. A capacitor is formed from the first impurity region, the insulating film, and the conductive film. | 01-30-2014 |