Patent application number | Description | Published |
20090191919 | STORAGE MEDIUM AND CONFLICT CONTROL METHOD - Disclosed herein is a storage medium to be attached to a mobile phone for use, the storage medium including: a contact type connection section configured to connect with the mobile phone; a wireless communication section configured to connect with a controller located outside; a subscriber information storage section configured to store subscriber information about a subscriber using the mobile phone; and a conflict control section configured to control access to the subscriber information storage section by the mobile phone through the contact type connection section, and access to the subscriber information storage section by the controller through the wireless communication section. | 07-30-2009 |
20100069039 | STORAGE MEDIUM, COMMUNICATION SYSTEM, AND CONTROL DEVICE - Various services relating to cellular phones are integrally provided on a SIM card at the initiative of carriers. A wireless communication function via a reflected-wave transmission system is mounted to a SIM card to allow access to a control interface of a SIM card from an external control device via a wireless communication. The SIM card is provided with a credit function for treating electronic money as well as a SIM function for allowing a carrier to treat subscriber information. Furthermore, a high-capacity of memory card function is added to the SIM card to allow access to the control interface of the memory card from a control device via the reflected-wave transmission system. | 03-18-2010 |
20100081378 | Wireless Processing System, Wireless Processing Method, and Wireless Electronic Device - A power supply system | 04-01-2010 |
20100231320 | SEMICONDUCTOR DEVICE, TRANSMISSION SYSTEM, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, AND METHOD FOR MANUFACTURING TRANSMISSION SYSTEM - Disclosed herein is a semiconductor device including: a semiconductor circuit element configured to process an electrical signal having a predetermined frequency; and a transmission line configured to be connected to the semiconductor circuit element via a wire and transmit the electrical signal. An impedance matching pattern having a symmetric shape with respect to a direction of the transmission line is provided in the transmission line. | 09-16-2010 |
20110009078 | RADIO TRANSMISSION SYSTEM AND ELECTRONIC DEVICE - A radio transmission system includes: a first electronic device; and a second electronic device having a mounting structure mounted with the first electronic device, wherein a millimeter wave signal transmission line capable of transmitting information in a millimeter wave band is formed between the first electronic device and the second electronic device when the first electronic device is mounted in the mounting structure of the second electronic device, and between the first electronic device and the second electronic device, a transmission object signal is converted into a millimeter wave signal and then the millimeter wave signal is transmitted via the millimeter wave signal transmission line. | 01-13-2011 |
20110037863 | IMAGING DEVICE - Disclosed herein is an imaging device including: a first substrate having a first communication device; a second substrate having a solid-state imaging device and second communication device to exchange signals with the first substrate; a shake correction section adapted to detect the shake of an enclosure and correct the shake based on the detection result by moving the first substrate in the plane vertical to the optical path; and a millimeter wave signal transmission line that permits transmission of information in the millimeter wave band between the first and second communication devices, wherein a signal to be transmitted between the first and second communication devices is converted into a millimeter wave signal first before being transmitted via the millimeter wave signal transmission line. | 02-17-2011 |
20110038282 | WIRELESS TRANSMISSION SYSTEM AND WIRELESS TRANSMISSION METHOD - Disclosed herein is a wireless transmission system, including: a plurality of systems of millimeter wave signal transmission lines capable of individually transmitting information in a millimeter waveband independently of each other; a sending section disposed on one end side of each of the plural systems of millimeter wave signal transmission lines; and a reception section disposed on the other end side of each of the plural systems of millimeter wave signal transmission lines. The sending section is adapted to convert a signal of an object of transmission into a millimeter wave signal and supply the millimeter wave signal to the millimeter signal transmission line. The reception section is adapted to receive the millimeter wave signal transmitted thereto through the millimeter wave signal transmission line and convert the received millimeter wave signal into the signal of the object of transmission. | 02-17-2011 |
20110095385 | SEMICONDUCTOR DEVICE, METHOD OF MANUFACTURING THE SAME, AND WIRELESS TRANSMISSION SYSTEM UTILIZING THE SAME - A device, and method for manufacturing the same, including a semiconductor package which allows transmission therethrough of a radio signal, a chip which generates the radio signal and a coupler adjacent the chip and effective to radiate the radio signal to outside of the semiconductor package. | 04-28-2011 |
20110158344 | IN-MILLIMETER-WAVE DIELECTRIC TRANSMISSION DEVICE AND METHOD FOR MANUFACTURING SAME, AND WIRELESS TRANSMISSION DEVICE AND WIRELESS TRANSMISSION METHOD - An electronic device provided with a plurality of circuit boards uses a support member for supporting the circuit boards as the transmission path of a wireless signal. For example, the electronic device is provided with a first printed circuit board for processing a millimeter-wave signal, a second printed circuit board which is signal-coupled to the printed circuit board and receives the millimeter-wave signal to subject the received signal to signal processing, and a waveguide which is disposed with a predetermined dielectric constant between the printed circuit boards, wherein the waveguide constitutes the dielectric transmission path, and the waveguide supports the printed circuit boards. This configuration makes it possible to receive the electromagnetic wave based on a millimeter-wave signal radiated from one end of the waveguide constituting the dielectric transmission path, at the other end thereof. | 06-30-2011 |
20110165839 | WAVE DIELECTRIC TRANSMISSION DEVICE, MANUFACTURING METHOD THEREOF, AND IN-MILLIMETER WAVE DIELECTRIC TRANSMISSION METHOD - Provided is an in-millimeter wave dielectric transmission device including a first signal processing board for processing a millimeter wave signal, a second signal processing board signal-coupled to the first signal processing board to receive the millimeter wave signal and perform signal processing with respect to the millimeter wave signal, and a viscoelastic member provided between the first signal processing board and the second signal processing board and having a predetermined relative dielectric constant and a predetermined dielectric dissipation factor. The viscoelastic member constitutes a dielectric transmission path. With such a configuration, the viscoelastic member absorbs vibration when external force is applied to the signal processing boards, so that vibration of the first signal processing board and the second signal processing board can be reduced, and a millimeter wave signal between the signal processing boards can be transmitted through the viscoelastic member at a high speed without using connectors and cables. | 07-07-2011 |
20110309893 | SEMICONDUCTOR DEVICE, METHOD OF MANUFACTURING THE SAME, IN-MILLIMETER-WAVE DIELECTRIC TRANSMISSION DEVICE, METHOD OF MANUFACTURING THE SAME, AND IN-MILLIMETER-WAVE DIELECTRIC TRANSMISSION SYSTEM - Provided is an in-millimeter-wave dielectric transmission device. The in-millimeter-wave dielectric transmission device includes a semiconductor chip provided on one interposer substrate and capable of in-millimeter-wave dielectric transmission, an antenna structure connected to the semiconductor chip, two semiconductor packages including a molded resin configured to cover the semiconductor chip and the antenna structure, and a dielectric transmission path provided between the two semiconductor packages to transmit a millimeter wave signal. The semiconductor packages are mounted such that the antenna structures thereof are arranged with the dielectric transmission path interposed therebetween. | 12-22-2011 |
20120120862 | ELECTRONIC DEVICE, SIGNAL TRANSMISSION DEVICE, AND SIGNAL TRANSMISSION METHOD - Signal distribution, signal switching, and signal collection are performed with a simple configuration. An electronic device comprises a transmission unit ( | 05-17-2012 |
20120182094 | SIGNAL TRANSMISSION DEVICE, ELECTRONIC DEVICE, AND SIGNAL TRANSMISSION METHOD - A signal transmission device includes: a transmitting device that transmits a transmission subject signal through a first waveguide as a wireless signal; and a receiving device that receives the wireless signal of the transmission subject signal transmitted from the transmitting device through a second waveguide, wherein the wireless signal is transmitted between the transmitting device and the receiving device in a state where the first waveguide faces the second waveguide. | 07-19-2012 |
20120252522 | SIGNAL TRANSMISSION DEVICE, COMMUNICATION DEVICE, ELECTRONIC APPARATUS, AND SIGNAL TRANSMISSION METHOD - A signal transmission device includes: a communication device that transmits first information and second information, wherein at the time of transmitting the first information, the communication device controls a strength of a transmission signal thereof on the basis of the second information. | 10-04-2012 |
20130109317 | SIGNAL TRANSMISSION SYSTEM, CONNECTOR APPARATUS, ELECTRONIC DEVICE, AND SIGNAL TRANSMISSION METHOD | 05-02-2013 |
20140015988 | IMAGING DEVICE - An imaging device including: a first substrate having a first communication device; a second substrate having a solid-state imaging device and second communication device to exchange signals with the first substrate; a shake correction section adapted to detect the shake of an enclosure and correct the shake based on the detection result by moving the first substrate in the plane vertical to the optical path; and a millimeter wave signal transmission line that permits transmission of information in the millimeter wave band between the first and second communication devices, wherein a signal to be transmitted between the first and second communication devices is converted into a millimeter wave signal first before being transmitted via the millimeter wave signal transmission line. | 01-16-2014 |
20140035388 | WAVE DIELECTRIC TRANSMISSION DEVICE, MANUFACTURING METHOD THEREOF, AND IN-MILLIMETER WAVE DIELECTRIC TRANSMISSION - A millimeter wave transmission device, the millimeter wave transmission device with (a) a first signal processing board for processing a millimeter wave signal; (b) a second signal processing board signal-coupled to the first signal processing board to receive the millimeter wave signal and perform signal processing with respect to the millimeter wave signal; and (c) a member provided between the first signal processing board and the second signal processing board and having a predetermined relative dielectric constant and a predetermined dielectric dissipation factor. The member constitutes a dielectric transmission path via which the millimeter wave signal is transmitted between the first signal processing board and the signal processing board. | 02-06-2014 |
20140315505 | RADIO TRANSMISSION SYSTEM AND ELECTRONIC DEVICE - A radio transmission system includes: a first electronic device; and a second electronic device having a mounting structure mounted with the first electronic device, wherein a millimeter wave signal transmission line capable of transmitting information in a millimeter wave band is formed between the first electronic device and the second electronic device when the first electronic device is mounted in the mounting structure of the second electronic device, and between the first electronic device and the second electronic device, a transmission object signal is converted into a millimeter wave signal and then the millimeter wave signal is transmitted via the millimeter wave signal transmission line. | 10-23-2014 |