Patent application number | Description | Published |
20110018523 | DEVICE AND METHOD FOR CURRENT ESTIMATION - A device and a method for estimating a current; the method includes: setting an impedance of a power gating circuit to a measurement value; wherein the power gating circuit selectively provides power to a circuit of an integrated circuit; measuring, during a measurement period, an electrical parameter indicative of a current that flows through the power gating circuit; and reducing an impedance of the power gating circuit to a power provision value to reduce a voltage developed on the power gating circuit during a power provision period. | 01-27-2011 |
20110055648 | SYSTEM AND A METHOD FOR TESTING CONNECTIVITY BETWEEN A FIRST DEVICE AND A SECOND DEVICE - A device and a method for testing a connectivity between a first device and a second device, the method includes: writing, at a first frequency and in a serial manner, a first test word to a source boundary scan register; writing a content of the source boundary scan register, at a second frequency and in a parallel manner, to a target boundary scan register; wherein the second frequency is higher than the first frequency; reading the content of the target boundary scan register; wherein the source and target boundary scan registers are selected from a first boundary scan register of the first device and a second boundary scan register of the second device; and evaluating a connectivity between the first and second device in response to a relationship between the first test word and the content of the target boundary scan register. | 03-03-2011 |
20120236630 | BYPASS CAPACITOR CIRCUIT AND METHOD OF PROVIDING A BYPASS CAPACITANCE FOR AN INTEGRATED CIRCUIT DIE - A bypass capacitor circuit for an integrated circuit (IC) comprises one or more capacitive devices, each arranged in a segment of a seal ring area of a die, which comprises the IC. A method of providing a bypass capacitance for an IC comprises providing a semiconductor wafer device comprising a plurality of dies, each comprising an IC; arranging one or more capacitive devices in a seal ring area of at least one of the IC; dicing the semiconductor wafer device; in a test mode, for each of the one or more capacitive devices, enabling the capacitive device, determining an operability parameter value indicative of an operability of the capacitive device, and storing the operability parameter in a memory device; and in a normal operation mode, providing a bypass capacitance to the IC depending on a capacitance of one or more of the capacitive devices having an associated operability parameter value indicative of a non-defectiveness of the corresponding capacitive device. | 09-20-2012 |
20120239960 | METHOD FOR COMPENSATING A TIMING SIGNAL, AN INTEGRATED CIRCUIT AND ELECTRONIC DEVICE - A method for compensating a timing signal with which an outputting of data states of at least one data signal is synchronised. The method comprises receiving a current set of data states and a next set of data states, identifying state transitions between the current set of data states and the next set of data states, determining an amount of compensation to apply to the timing signal based at least partly on the state transitions identified between the current set of data states and the next set of data states, and applying the determined amount of compensation to the timing signal such that the compensation applies to the outputting of the next set of data states. | 09-20-2012 |
20130002334 | INTEGRATED CIRCUIT, ELECTRONIC DEVICE AND METHOD FOR CONFIGURING A SIGNAL PATH FOR A TIMING SENSITIVE SIGNAL - An integrated circuit comprising at least one signal path for a timing sensitive signal. At least one section of the signal path comprises a first section path comprising a first propagation timing factor, at least one further section path comprising a second propagation timing factor different to the first propagation timing factor, and a path selection component arranged to enable the selection of one of the first and at least one further section paths via which the timing sensitive signal is to propagate through the at least one section of the signal path based on at least one from a group consisting of: the first propagation timing factor, second propagation timing factor. | 01-03-2013 |
20130076421 | ELECTRONIC CIRCUIT AND METHOD FOR STATE RETENTION POWER GATING - A method and a electronic circuit, the method includes: sending to a switching circuit, to a state retention power gating (SRPG) circuit and to a first power source a control signal indicating that the SRPG circuit should operate in a functional mode; coupling, by the switching circuit, a third power grid to a first power grid; supplying power from the first power source to the SRPG circuit via the first power grid, the switching circuit and the third power grid; supplying power from a second power source to a second circuit via a second power grid; sending to the switching circuit, to the SRPG circuit and to the first power source a control signal indicating that the SRPG circuit should operate in a state retention mode; coupling, by the switching circuit, the third power grid to the second power grid; supplying power from the second power source to the SRPG circuit via the second power grid, the switching circuit and the third power grid; supplying power from the second power source to the second circuit via the second power grid; and storing, by the SRPG state information. | 03-28-2013 |
20130241606 | INTEGRATED CIRCUIT AND A METHOD OF POWER MANAGEMENT OF AN INTEGRATED CIRCUIT - An integrated circuit includes a plurality of power gating elements for controlling power applied to a first module which is in a powered off state, while a second module is in a powered on state, the second module being coupled to receive at least one signal from the first module when the first module is powered on. A a synchronization controller is provided for controlling the power gating elements to ramp up the power gated to the first module in order to power it up and, for a time while the power gated to the first module is below a first level, reducing the power gated to the second module, and for a time when the power gated to the first module is above the first level, increasing the power gated to the second module. | 09-19-2013 |
20140176220 | INTEGRATED CIRCUIT DEVICE, VOLTAGE REGULATOR MODULE AND METHOD FOR COMPENSATING A VOLTAGE SIGNAL - An integrated circuit device comprising at least one voltage supply module arranged to receive at an input thereof at least one control signal and to provide at an output thereof a voltage signal in accordance with the received at least one control signal, and at least one control module comprising at least one feedback loop between the output of the at least one voltage supply module and the input of the at least one voltage supply module, and arranged to generate the at least one control signal based at least partly on the voltage level of the voltage signal output by the at least one voltage supply module. The at least one control module is further arranged to receive at an input thereof at least one instantaneous indication of a load current at the output of the at least one voltage supply module, and apply a compensation to the at least one control signal provided to the at least one voltage supply module based at least partly on the received at least one indication of the load current. | 06-26-2014 |
20150015240 | METHOD OF DETECTING IRREGULAR CURRENT FLOW IN AN INTEGRATED CIRCUIT DEVICE AND APPARATUS THEREFOR - A method of detecting irregular high current flow within an integrated circuit (IC) device is described. The method comprises obtaining infrared (IR) emission information for the IC device, identifying at least one functional component within the IC device comprising a high current flow, based at least partly on the obtained IR emission information, obtaining IR emission information for at least one reference component within the IC device, and determining whether the high current flow of the at least one functional component comprises an irregular high current flow based at least partly on a comparison of respective IR emission information for the at least one functional component and the at least one reference component. | 01-15-2015 |