Patent application number | Description | Published |
20090172216 | METHOD AND APPARATUS FOR TRANSMITTING DATA IN A FLEXRAY NODE - A method of transmitting data to a recipient comprising the steps of dividing the data into a plurality of groups, providing a synchronising means for each of the groups, using the synchronising means to synchronise the data in each group, and transmitting the data to a recipient characterised in that the data is divided in accordance with its synchronisation requirements with the recipient. | 07-02-2009 |
20090193317 | METHOD AND SYSTEM FOR SIGNAL ERROR DETERMINATION AND CORRECTION IN A FLEXRAY COMMUNICATION SYSTEM - A signal error determination and correction system is provided which comprises an error correction value calculation means which processes a predetermined segment of a signal to calculate an error correction value, and a signal correction means and prediction which applies the error correction value to at least part of the signal to correct the part of the signal. The invention further provides a method of signal error determination and correction. | 07-30-2009 |
20110317802 | CLOCK GLITCH DETECTION CIRCUIT - In a first circuit for detecting clock glitches in a clock signal, a master counter is clocked by the clock signal and memorizes a master count. An incrementer advances the master count by one increment. A slave counter is clocked by the clock signal and memorizes a slave count. The slave count is retarded relative to the master count by at least clock edges. A comparator determines whether the difference between the master count and the slave count is at least. In a related aspect, a synchronous circuit comprises a clock tree for transmitting a clock signal from a start point to one or more other points, the start point and the other points comprising a first point and second point. A first counter is clocked by the clock signal at the first point and memorizes a first count. A first incrementer advances the first count by one increment. A second counter is clocked by the clock signal at the second point and memorizes a second count. A second incrementer advances the second count by one increment. A comparator determines the difference between the first count and the second count, or determines whether the first count and the second count differ. The synchronous circuit may comprise the first circuit. A second circuit for detecting clock glitches in a clock signal is also provided. The second circuit is intended to be integrated in the synchronous circuit. | 12-29-2011 |
20130113531 | ELECTRONIC CIRCUIT, SAFETY CRITICAL SYSTEM, AND METHOD FOR PROVIDING A RESET SIGNAL - An electronic circuit comprises a reset input for receiving an input reset signal, a clock input for receiving a clock signal, and a reset output for providing an output reset signal. And it comprises a synchronous reset signal path comprising a synchronization unit, arranged to receive the input reset signal and provide the input reset signal synchronized with the clock signal to the reset output when the clock signal is available, and an asynchronous reset signal path arranged to provide the input reset signal to the reset output when a current clock availability information in a clock monitoring signal indicates that the clock signal is not available. | 05-09-2013 |
20130181696 | LOW-VOLTAGE EXIT DETECTOR, ERROR DETECTOR, LOW-VOLTAGE SAFE CONTROLLER, BROWN-OUT DETECTION METHOD, AND BROWN-OUT SELF-HEALING METHOD - A low-voltage exit detector comprises a low-voltage detector and a voltage rise detector for detecting a change from a low-voltage condition of a watched voltage to a non-low-voltage condition of the watched voltage. An error detector for detecting storage errors comprises: a low-voltage exit detector as described above, first and second loaders for loading an load-ing information into first and second storage elements, wherein the loading information is coded using first and second coding schemes; first and second retrievers for retrieving stored information stored in the first and the second storage elements and decoding this information; and a second comparator for comparing a combination of a first retrieved information retrieved using the first retriever and a second retrieved information retrieved using the second retriever to each pattern of a set of valid patterns and for generating a match-mismatch signal indicating a result of this comparison. Further, the invention relates to a low-voltage safe controller comprising an error de-tector as described above and an application unit, to a brown-out detection method, and to a brown-out self-healing method. | 07-18-2013 |
20140006841 | CLOCK GLITCH DETECTION CIRCUIT | 01-02-2014 |
20140298005 | MICROPROCESSOR DEVICE, AND METHOD OF MANAGING RESET EVENTS THEREFOR - A microprocessor device comprises at least one reset management module. The at least one reset management module is arranged to detect a reset event comprising a first reset level, determine if at least one reset condition has been met upon detection of the reset event comprising the first reset level, and cause a reset of a second reset level upon determining that the at least one reset condition has been met. | 10-02-2014 |
20140317395 | MICROPROCESSOR, AND METHOD OF MANAGING RESET EVENTS THEREFOR - A microprocessor comprises at least one reset management module. The at least one reset management module is arranged to detect a reset event, determine if at least one reset condition has been met upon detection of the reset event, and cause at least a part of the microprocessor to remain in a reset state upon determining that the at least one reset condition has been met. | 10-23-2014 |