Patent application number | Description | Published |
20100328156 | SYSTEM FOR DEMODULATING NAVIGATION BITS FROM SATELLITE SIGNALS - A signal processing system for demodulating navigation bits from a satellite signal is disclosed herein. The signal processing system includes a digital baseband processor for determining a boundary between two navigation bits in the navigation bits according to a first plurality of coarse acquisition (C/A) codes captured from the satellite signals, storing the first plurality of C/A codes, and demodulating a second plurality of C/A codes captured after determining the boundary to recover a first series of the navigation bits. The signal processing system further includes a complementary demodulating unit coupled to the digital baseband processor for demodulating the first plurality of C/A codes to recover a second series of the navigation bits. | 12-30-2010 |
20120225621 | ELECTRONIC DEVICE WITH THE FUNCTION OF SUPPORTING MULTIPLE CARDS - An electronic system includes multiple I/O interfaces and a controller. The controller is coupled to multiple cards via multiple I/O interfaces respectively, and can select a card from multiple cards and perform a wireless communication to transfer data between the selected card and a target electronic device. The controller includes a configuration block and a core. The configuration block stores configuration data indicative of selecting which card. The core is coupled to the configuration block and the cards and can enable the wireless communication. | 09-06-2012 |
20130100757 | Dual-Port Memory and a Method Thereof - A dual-port memory is provided. The dual-port memory includes a first single-port memory and a second single-port memory. The first single-port memory is configured to store data in an even address of the dual-port memory. The second single-port memory is configured to store data in an odd address of the dual-port memory. The dual-port memory simultaneously performs a read operation to read data from the odd address and a write operation to write data into the even address. The dual-port memory simultaneously performs a read operation to read data from the even address and a write operation to write data into the odd address. | 04-25-2013 |
20130106489 | SIGNAL INPUT CIRCUIT/CHIP | 05-02-2013 |
20130111283 | Systems and Methods for Testing Memories | 05-02-2013 |
20130257651 | NAVIGATION BIT BOUNDARY DETERMINATION APPARATUS AND A METHOD THEREFOR - A navigation bit boundary determination apparatus and a method therefor. In one example, the navigation bit boundary determination apparatus includes a satellite signal receiving module, a position receiving and clock calibration module, a detection module, a first calculation module, a second calculation module, and a determination module. The satellite signal receiving module is configured to receive a satellite signal from a satellite and record a local receiving time of the satellite signal. The position receiving and clock calibration module is configured to receive a time signal and a position of the navigation bit boundary determination apparatus. The detection module is configured to detect if ephemeris information of the satellite is available. The first calculation module is configured to calculate a coordinate of the satellite. The second calculation module is configured to calculate a transmitting time for the satellite signal. The determination module is configured to determine a navigation bit boundary of the satellite signal. | 10-03-2013 |
20130265194 | Navigation Bit Boundary Determination Apparatus and a Method Therefor - A navigation bit boundary determination apparatus and a method therefor. The navigation bit boundary determination apparatus includes a Beidou satellite signal receiving module, a position receiving and clock calibration module, a calculation module, and a determination module. The Beidou satellite signal receiving module receives a Beidou Geostationary Earth Orbit (GEO) satellite signal, determines and records a local receiving time of the Beidou GEO satellite signal. The position receiving and clock calibration module receives a GPS time signal and a position of the navigation bit boundary determination apparatus. The calculation module calculates a transmitting time for the Beidou GEO satellite signal. The determination module determines a navigation bit boundary of the Beidou GEO satellite signal. | 10-10-2013 |
20140180580 | MODULE, DEVICE AND METHOD FOR POSITIONING - A positioning module is disclosed. Positioning module includes a satellite selection module and a filter. The satellite selection module is configured for selecting one or more positioning satellites among a plurality of satellites of one or more satellite navigation systems and outputting satellite information of the one or more positioning satellites. Filter coupled to the satellite selection module is configured for receiving the satellite information of the one or more positioning satellites, and calculating a position information of positioning module. | 06-26-2014 |
20140203962 | Method and System for Navigation - Method and system for navigation are disclosed. One or more signals are received. One or more navigation systems are determined. The one or more signals are directed to navigation and sent from the one or more navigation systems. Navigation information associated with the determined one or more navigation systems is obtained based on the one or more signals. | 07-24-2014 |
20140253026 | Apparatus, Method, and System for Wirelessly Charging an Electronic Device - An apparatus for wirelessly charging an electronic device is disclosed. The apparatus comprises a charging controller coupled to a power source, a power switch coupled to the power source, a logic controller coupled to the power switch, and a wireless charger transmitter coupled to the power source via the power switch and coupled to the logic controller. The charging controller is configured to transmit power from the power source to a load in the apparatus. The logic controller is configured to detect if the electronic device is wirelessly coupled to the apparatus and to switch on the power switch when the electronic device is detected to be wirelessly coupled. The wireless charger transmitter is integrated in the apparatus and configured to wirelessly transmit power from the power source to the electronic device when the power switch is on. | 09-11-2014 |
20140347216 | EPHEMERIS COLLECTION DEVICE AND METHOD - The present disclosure discloses an ephemeris collection device and a method of collecting ephemeris data. The ephemeris collection device may include a data storage unit, configured to store a first part of a first ephemeris subframe if a synchronization of the first ephemeris subframe is not completed; and a subframe merge unit, coupled with the data storage unit and configured to receive a second part of the first ephemeris subframe from the subframe synchronizer and retrieve the first part of the first ephemeris subframe from the data storage unit during a subsequent transmission of the first ephemeris subframe. A complete first ephemeris subframe is obtained based on the first part and the second part of the first ephemeris subframe. | 11-27-2014 |
20140347219 | RECEIVERS AND METHODS FOR MULTI-MODE NAVIGATION - A receiver for a multi-mode navigation system includes a base band unit and a calculation unit. The base band unit is configured for allocating resources to positioning satellites in each of one or more navigation system, and tracking the positioning satellites with the allocated resources to obtain satellite information of each of the positioning satellites. The satellite information includes one or more of pseudo-ranges, position coordinates, velocity information, and frequency information of the positioning satellites. The calculation unit is configured for receiving the satellite information from the base band unit, evaluating the positioning satellites in each navigation system, and determining a positioning parameter of the receiver. Determination of the positioning parameter includes calculating a position and a velocity of the receiver based on the satellite information according to a least square algorithm. | 11-27-2014 |
20150022395 | METHOD AND RECEIVER FOR DETERMINING SYSTEM TIME OF A NAVIGATION SYSTEM - Receiver and methods for determining system time of a navigation system is disclosed. In one example, the receiver includes a baseband processing module and a calculation module. The baseband processing module is configured for obtaining satellite information from the navigation system. The calculation module is configured for estimating a pseudorange based on the satellite information; smoothing the pseudorange via a code; calculating clock bias and clock drift based on the smoothed pseudorange; and determining system time of the navigation system based on the calculated clock bias and clock drift. | 01-22-2015 |
20150057928 | Method and Apparatus for Controlling An Electrical Device and a Wireless Charging Device - Method and apparatus for controlling an electrical device and a wireless charging device, each comprising one or more modules. An interrupt signal is received. A type of the interrupt signal is determined. A first module is activated based on the type of the interrupt signal to perform one or more functions. The electrical device and the wireless charging device share at least the first module. | 02-26-2015 |