Patent application number | Description | Published |
20080287502 | Transdermal Administration of Proton Pump Inhibitors - A method and composition for the transdermal administration of proton pump inhibitors such as substituted pyridyl methylsulfinyl benzimidazoles, and in particular, omeprazole, lansoprazole, esomeprazole, pantoprazole and raberprazole. The method and composition include the use of a hydroxide-releasing agent as a permeation enhancer to increase the flux of the protein pump inhibitor through a patient's skin or mucosal tissues and optionally also include the use of a carrier such as 1,3-butanediol, dipropylene glycol, and hexylene glycol. | 11-20-2008 |
20090197849 | TRANSDERMAL AND TOPICAL ADMINISTRATION OF DRUGS USING BASIC PERMEATION ENHANCERS - Methods are provided for enhancing the permeability of skin or mucosal tissue to topical or transdermal application of pharmacologically or cosmeceutically active agents. The methods entail the use of a base in order to increase the flux of the active agent through a body surface while minimizing the likelihood of skin damage, irritation or sensitization. The permeation enhancer can be an inorganic or organic base. Compositions and transdermal systems are also described. | 08-06-2009 |
20090226507 | HYDROXIDE-RELEASING AGENTS AS SKIN PERMEATION ENHANCERS - A method is provided for increasing the permeability of skin or mucosal tissue to topically or transdermally administered pharmacologically or cosmeceutically active agents. The method involves use of a specified amount of a hydroxide-releasing agent, the amount optimized to increase the flux of the active agent through a body surface while minimizing the likelihood of skin damage, irritation or sensitization. Topically applied formulations and drug delivery devices employing hydroxide-releasing agents as permeation enhancers are provided as well. | 09-10-2009 |
20090317453 | TRANSDERMAL AND TOPICAL ADMINISTRATION OF DRUGS USING BASIC PERMEATION ENHANCERS - Methods are provided for enhancing the permeability of skin or mucosal tissue to topical or transdermal application of pharmacologically or cosmeceutically active agents. The methods entail the use of a base in order to increase the flux of the active agent through a body surface while minimizing the likelihood of skin damage, irritation or sensitization. The permeation enhancer can be an inorganic or organic base. Compositions and transdermal systems are also described. | 12-24-2009 |
20100203028 | ANTIMICROBIAL COMPOSITIONS - An antimicrobial composition is provided having a mole ratio of equivalents of silver ion to equivalents of anion of greater than 1. The invention further relates to antimicrobial compositions composed of silver ions and silver salt particles. Also provided are methods for using the compositions of the invention for the treatment of a subject, and methods for conferring antimicrobial protection to an object. | 08-12-2010 |
20110057088 | MULTIPURPOSE SUPPORT DEVICE AND METHOD - The invention is directed multipurpose support device for supporting an item such as a laptop computer or a book. The support device has a base that is adapted to be coupled to a structural support, such as a mobile cart, a desk, a sofa or a wall. | 03-10-2011 |
20110178044 | TRANSDERMAL ADMINISTRATION OF HYDROPHILIC DRUGS USING PERMEATION ENHANCER COMPOSITION - Methods, formulations, and drug delivery systems are provided for enhancing the flux of a transdermally administered hydrophilic drug using a basic permeation enhancer composition. The enhancer composition contains an inorganic hydroxide and a weaker, nitrogenous base, wherein the bases are selected such that a 0.1M aqueous solution of the nitrogenous base has a pH that is about 1.0 to about 6.5 lower than the pH of a 0.1M aqueous solution of the inorganic hydroxide. Additionally, the molar ratio of the nitrogenous base to the inorganic hydroxide in the enhancer composition is in the range of about 0.5n:1 to about 20n:1, where n is the number of hydroxide ions per molecule of the inorganic hydroxide. | 07-21-2011 |
Patent application number | Description | Published |
20080287284 | Fluid Catalytic Cracking Additive - The present invention relates to a catalyst composition comprising rhodium supported on an anionic clay. This catalyst composition is suitable as CO combustion additive in fluid catalytic cracking units. Compared to prior art CO combustion additives, the formation of NO | 11-20-2008 |
20090050528 | Low NOx CO Oxidation Promoters - Particulate compositions for promoting CO oxidation in FCC processes are provided, the compositions comprising an anionic clay support having at least one dopant, wherein at least one compound comprising iridium, rhodium, palladium, copper, or silver is deposited on the anionic clay support, and the composition is substantially free of platinum. | 02-26-2009 |
20100236985 | DEHYDROGENATION PROCESS AND CATALYST - A supported catalyst and process for dehydrogenating a hydrocarbon, the catalyst comprising a first component selected from the group consisting of tin, germanium, lead, indium, gallium, thallium, and compounds thereof; a second component selected from the group consisting of metals of Group 8 of the Periodic Table of the Elements and compounds thereof, and a support comprising alumina in the gamma crystalline form. The catalysts are especially active and efficient when employed in concurrent flow in a dehydrogenation reactor having an average contact time between the hydrocarbon and catalyst of from 0.5 to 10 seconds | 09-23-2010 |
Patent application number | Description | Published |
20120101320 | PROCESS TO PREPARE OLEFINS FROM ALIPHATIC ALCOHOLS - A process to prepare an olefin from its corresponding alcohol is improved by reacting, under reaction conditions including a first temperature, an aliphatic alcohol and, optionally, diluent water, to form a reaction product including at least a dialkyl ether. The product is then reacted again, under higher temperature to complete the dehydration of the dialkyl ether to the desired olefin. This process is particularly suitable to prepare ethene from ethyl alcohol. The stepped temperature scheme serves to reduce the formation of byproduct aldehydes, which in turn reduces coke formation, fouling, and the need to handle large amounts of water, thereby lowering energy and capital costs. | 04-26-2012 |
20130178682 | NON-OXIDATIVE DEHYDROGENATIVE PROCESS - Use a supported catalyst that includes a catalyst support and a combination of nickel, gallium, and, optionally, one or more of an alkali metal, an alkaline earth metal and a lanthanide to effect non-oxidative dehydrogenation of an oxygen-free gaseous stream that comprises an alkane such as ethane, propane or butane to a product stream that comprises a corresponding alkene such as propylene where the alkane is propane. | 07-11-2013 |
20140200385 | REACTIVATING PROPANE DEHYDROGENATION CATALYST - Increase propane dehydrogenation activity of a partially deactivated dehydrogenation catalyst by heating the partially deactivated catalyst to a temperature of at least | 07-17-2014 |
20140371501 | RECONSTITUTED DEHYDROGENATION CATALYST SHOWING SLOWED ACTIVITY LOSS WHEN COMPARED WITH FRESH CATALYST - A process for dehydrogenating alkane or alkylaromatic compounds comprising contacting the given compound and a dehydrogenation catalyst in a fluidized bed. The dehydrogenation catalyst is prepared from an at least partially deactivated platinum/gallium catalyst on an alumina-based support that is reconstituted by impregnating it with a platinum salt solution, then calcining it at a temperature from 400° C. to 1000° C., under conditions such that it has a platinum content ranging from 1 to 500 ppm, based on weight of catalyst; a gallium content ranging from 0.2 to 2.0 wt %; and a platinum to gallium ratio ranging from 1:20,000 to 1:4. It also has a Pt retention that is equal to or greater than that of a fresh catalyst being used in a same or similar catalytic process. | 12-18-2014 |
20150202601 | CATALYST COMPOSITION AND REACTIVATION PROCESS USEFUL FOR ALKANE DEHYDROGENATIONS - A catalyst comprising a Group IIIA metal, a Group VIII noble metal, and an optional promoter metal, on a support selected from silica, alumina, silica-alumina compositions, rare earth modified alumina, and combinations thereof, doped with iron, a Group VIB metal, a Group VB metal, or a combination thereof, offers decreased reactivation time under air soak in comparison with otherwise identical catalysts. Reducing reactivation time may, in turn, reduce costs, both in inventory and capital. | 07-23-2015 |
Patent application number | Description | Published |
20100186650 | PRELOADING TO REDUCE LOADS AND SAVE STEEL ON TOPSIDES AND GRILLAGE OF CATAMARAN SYSTEMS - The present invention reduces loads and saves steel on topsides and grillage of a catamaran system by creating a counteracting moment to offset a sagging bending moment of its self-weight on the topsides during transportation. The present invention can reduce the span of the supports on the topsides on the catamaran float-over barges and move the reaction forces toward inner edges of the float-over barges. The counteracting moment can cause a reduction of stress on the topsides' and grillage's members caused during the topside offloading and transportation. The stress reduction can result in the members withstanding the additional dynamic load caused by a catamaran system without increasing member sizes adequate for an offloading operation. The reduction results in a significant savings, given the size of a typical topsides for a Spar hull. | 07-29-2010 |
20100186651 | PRELOADING TO REDUCE LOADS AND SAVE STEEL ON TOPSIDES AND GRILLAGE OF CATAMARAN SYSTEMS - The present invention reduces loads and saves steel on topsides and grillage of a catamaran system by creating a lifting force from a barge to the topsides to offset a sagging bending moment of the self-weight on the topsides during transportation. The present invention can reduce the span of the supports on the topsides on the catamaran float-over barges and move the reaction forces toward inner edges of the float-over barges. The lifting force can cause a reduction of stress on the topsides' and grillage's members caused during the topside offloading and transportation. The stress reduction can result in the members withstanding the additional dynamic load caused by a catamaran system without increasing member sizes adequate for an offloading operation. The reduction results in a significant savings, given the size of a typical topsides for a Spar hull or other offshore structure. | 07-29-2010 |
20100221070 | TOPSIDES LOAD-OUT TO BARGE CATAMARAN FOR FLOAT-OVER INSTALLATION - The present invention provides an improved method and system for load-out of a topsides onto at least two float-over barges without requiring an intermediate transportation barge. The topsides and float-over barges create a catamaran system that can be used to install the topsides to an offshore structure, such as a Spar hull, using a float-over method. The load-out process offers several advantages and can be less time-consuming and less expensive than a typical procedure using the intermediate transportation barge. | 09-02-2010 |
20110048729 | PULL TUBE SLEEVE STRESS JOINT FOR FLOATING OFFSHORE STRUCTURE - The present disclosure provides an improved design for a pull tube sleeved stress joint and associated pull tube for managing stresses on a catenary riser for a floating offshore structure. The pull tube sleeve stress joint includes at least one sleeve surrounding a length of the pull tube with an annular gap between the sleeve and pull tube and a link ring therebetween. For embodiments having a plurality of sleeves, a first sleeve can be spaced by an annular first gap from the pull tube and coupled thereto with a first ring between the pull tube and the first sleeve, and a second sleeve can be spaced by an annular second gap from the first sleeve and coupled thereto with a second ring between the first sleeve and the second sleeve. Both pull tube and sleeves can be made with regular pipe segments welded together with regular girth welds. | 03-03-2011 |
20110164927 | SYSTEM FOR INCREASED FLOATATION AND STABILITY ON TENSION LEG PLATFORM BY EXTENDED BUOYANT PONTOONS - The disclosure provides a tension leg platform (“TLP”) with a plurality of buoyant pontoons suitable for highly disturbed seas that can expand the stability of the tension leg platform by extending at least one buoyant pontoon beyond an intersection of two pontoons. In at least one embodiment, the location of the column can be decoupled from the customary end of the pontoon. The tendons can be located at the ends of the pontoons extending beyond the intersection. In some embodiments, such as four-column TLPs, the pontoons can be extended orthogonally relative to an adjacent pontoon. The extending pontoon increases a buoyancy of the pontoon, increases a pitch stability of the TLP, and increases quayside stability. The extended pontoon can be structurally intersected with the adjacent pontoon to strengthen the extended pontoon and reduce the failure mode of such structure. | 07-07-2011 |
20120195690 | SYSTEM AND METHOD FOR MULTI-SECTIONAL TRUSS SPAR HULL FOR OFFSHORE FLOATING STRUCTURE - The present disclosure provides an improved design for a multi-sectional truss spar hull platform having a truss and a spar hull. One or more sections can be transported to a designated location and off-loaded into water from an available transport vessel. The truss includes a skirt tank at the upper end of truss that can be coupled to the lower end of the hull. The skirt tank can provide buoyancy during float-off and mating operations to the hull. The skirt tank is designed to allow the portion above the water to be coupled to the hull in a first orientation, the truss with the skirt tank rotated with the hull in the water to a second orientation to expose the previously underwater portion, and then the previously underwater portion can be coupled together above the water. The integral skirt tank will be flooded after the spar hull is up-ended. | 08-02-2012 |
20120216737 | SYSTEM AND METHOD FOR DECK-TO-COLUMN CONNECTION FOR EXTENDABLE DRAFT OFFSHORE PLATFORMS - The disclosure provides a system and method for locking and unlocking an extendable column to a deck. A deck-to-column connection assembly includes a pawl and shim used in a sequential de-ballasting and ballasting of the column to the deck that can easily lock and unlock the column with the deck. Generally, the locking method includes ballasting the column to insert a pawl between the column and the deck, de-ballasting the column to raise the column relative to the deck and create a vertical gap between the column and the deck, inserting a shim to fill the gap and secure the pawl in a deployed position, and further de-ballasting the column to raise the deck connected to the column. Generally, the unlocking method lowering the deck to float on water, de-ballasting the column to remove compressive stress on the shim, removing the shim, ballasting the column, and retracting the pawl. | 08-30-2012 |
20120272888 | SPAR HULL BELLY STRAKE DESIGN AND INSTALLATION METHOD - A spar hull for a floating vessel can include a hard tank having a belly portion, a fixed strake coupled to the outer surface of the tank and a folding strake coupled to the belly portion of the tank, the folding strake having one or more strake panels and one or more support frames. A method for installing folding belly strakes on a spar hull may include providing a floating spar hull having a hard tank with a belly side, rotating the spar so that the belly side is in a first workable position, coupling at least one folding strake to the belly side of the spar, and coupling the strake in a folded position for transport. The method may include positioning the spar hull offshore in a transport position, upending the spar hull, unfolding the strake, fixing the strake in the unfolded position and installing the spar hull. | 11-01-2012 |
20130071207 | QUICK RELEASE SYSTEM FOR TOPSIDES FLOAT-OVER INSTALLATION ON OFFSHORE PLATFORMS - The present invention provides a system and method that keeps a barge and grillage system on the barge in compression with a topsides supported by the grillage system during the transport, while providing a quick release system between the barge, grillage system, and topsides during an installation procedure that transfers the topsides to an offshore platform. The quick release system can be in tension to apply a compressive force between the grillage system and the topsides until the quick release system is released. | 03-21-2013 |
Patent application number | Description | Published |
20080203817 | Power architecture for battery powered remote devices - Systems and methods that may be employed to provide a high-reliability power architecture for an information handling system and a physically separable (i.e., detachable) remote system. The information handling system may be, for example, a portable information handling system such as a notebook computer. The remote system may be, for example, a battery-powered input or input/output device such as a wireless keyboard configured to wirelessly communicate input/output information with the information handling system, and that is also configured to be physically and electrically coupled to the information handling system to allow a flow of current to be provided from circuitry of the information handling system to circuitry of the remote system. The power architecture may be implemented using multiple (e.g., two) Uninterrupted Power System (UPS) buses. | 08-28-2008 |
20080265683 | METHOD AND CIRCUIT TO OUTPUT ADAPTIVE DRIVE VOLTAGES WITHIN INFORMATION HANDLING SYSTEMS - A method and circuit to output adaptive drive voltages within information handling systems is disclosed. According to one aspect of the disclosure, a method of outputting power within an information handling system can include sensing a load current of a power output stage operable to employ more than one drive voltage level. The method can also include comparing the load current to a threshold current setting, and selecting a first output drive voltage from a plurality of input drive voltages in response to comparing the load current to the threshold current setting. The method can also include coupling the first output drive voltage to the power output stage. | 10-30-2008 |
20090267578 | Static phase shedding for voltage regulators based upon circuit identifiers - Systems and methods are disclosed that provide static phase shedding techniques to improve the efficiency of multi-phase voltage regulators within information handling systems by selecting the number of active phases for the multi-phase voltage regulators using circuit identifiers (IDs) for circuitry configured to be powered by the multi-phase voltage regulators, such as central processing units (CPUs). In one embodiment, processor identifier information related to installed CPUs is used to control the voltage regulator (VR) phase number to provide static phase shedding. This VR control can be implemented in a variety of ways, including the use of conventional analog multi-phase VR controllers and/or digital VR controllers. Dynamic phase shedding can also be used in conjunction with this static phase shedding to further reduce the number of active phases when a processor operates in a low power mode. | 10-29-2009 |
20100250913 | Methods and Systems for Managing A Voltage Regulator - A method for increasing efficiency of a voltage regulator in an information handling system (IHS) is provided. The method may include enabling one or more operating phases associated with the voltage regulator and initializing a switch configuration having at least one high-side switch and at least one low-side switch. In addition, the may method include initializing a dead-time value, sensing a load current, and adjusting the number of operating phases, the switch configuration, or the dead-time value in response to the load current | 09-30-2010 |
20100250973 | Methods and Systems for Initiating Power to An Information Handling System - An information handling system (IHS) is disclosed providing a power supply operable to provide an output current to the IHS during power initiation. The IHS may also include a first power component associated with a first power stage wherein the first power stage may have a first current threshold. Furthermore, the IHS may include a power control logic coupled to the power supply and the first power component. As such, the power control logic may be operable to communicate the first power stage to the power supply, and if the output current does not exceed the first current threshold during the first power stage, the power control logic may be operable to communicate a second power stage having a second current threshold to the power supply. | 09-30-2010 |
20110051479 | Systems and Methods for Controlling Phases of Multiphase Voltage Regulators - A multi-phase voltage regulator is disclosed. The multi-phase voltage regulator includes a voltage regulator controller. Phase output stages are coupled to the voltage regulator controller. The voltage regulator controller and the phase output stages are configured to provide regulated voltages at one or more output nodes. The voltage regulator controller is configured to monitor one or more conditions of the phase output stages and to control one or more of the phase output stages based, at least in part, on the one or more conditions. | 03-03-2011 |
20110080151 | SYSTEM AND METHOD FOR MULTI-PHASE VOLTAGE REGULATION - In accordance with one embodiment of the present disclosure, a multi-phase voltage regulator may comprise a plurality of phases, each phase configured to supply electrical current to one or more information handling resources electrically coupled to the voltage regulator. A controller may be electrically coupled to the plurality of phases. The controller may designate at least one of the plurality of phases as a first state phase, and designate each of the plurality of phases not designated as a first state phase as a second state phase. The controller may alternate the designation of at least two of the plurality of phases between a first state phase and a second state phase. Each first state phase may be configured to supply a first electrical current regardless of electrical current demand. Each second state phase may be configured to supply a second electrical current based on the current demand. | 04-07-2011 |
20110254526 | Voltage Regulator with Optimal Efficiency Selection and a Master-Slave Zero Cross Detection Configuration - A voltage regulator includes a first phase power stage, a second phase power stage, and a controller. The first phase power stage includes a zero cross detection circuit configured to measure a current level for the first phase power stage, and to cause a diode emulation state in the first phase power stage when the current level is substantially equal to zero. The second phase power stage is in communication with the zero cross detection circuit, and configured to enter the diode emulation state in response to receiving a signal from the zero cross detection circuit. The controller is coupled to the first phase power stage and to the second phase power stage. The controller is configured to measure an output current of the voltage regulator and to activate the second phase power stage when the output current is above a first threshold current level. | 10-20-2011 |
20130099766 | Voltage Regulator with Optimal Efficiency Selection and a Master-Slave Zero Cross Detection Configuration - A voltage regulator includes a first phase power stage, a second phase power stage, and a controller. The first phase power stage includes a zero cross detection circuit configured to measure a current level for the first phase power stage, and to cause a diode emulation state in the first phase power stage when the current level is substantially equal to zero. The second phase power stage is in communication with the zero cross detection circuit, and configured to enter the diode emulation state in response to receiving a signal from the zero cross detection circuit. The controller is coupled to the first phase power stage and to the second phase power stage. The controller is configured to measure an output current of the voltage regulator and to activate the second phase power stage when the output current is above a first threshold current level. | 04-25-2013 |
20130106373 | Systems and Methods for Adaptive Body Braking Control in a Voltage Regulator | 05-02-2013 |
20140232420 | Methods And Systems For Defective Phase Identification And Current Sense Calibration For Multi-Phase Voltage Regulator Circuits - Methods and systems are disclosed that may be implemented to complete individual phase current sense calibration of a multi-phase voltage regulator (VR) and/or to detect any and all individual bad phases of such a VR by utilizing the reconfiguration capability of a digital VR controller-based VR in conjunction with an improved test process. The disclosed systems and methods may be employed in one example to identify that all individual phases of the multi-phase VR are operational to contribute to the output of the multi-phase VR using a rotating single phase operation testing mode. Individual phase current sense calibration may also be additionally or alternatively completed while the VR is operating under the rotating single phase operation mode. | 08-21-2014 |
20140253101 | SYSTEM AND METHOD OF MEASURING REAL-TIME CURRENT - A system and method of measuring real-time current is disclosed. The method includes calibrating a voltage measurement device. Calibrating includes measuring a real-time voltage difference between a first measurement node located proximate a first connector on a motherboard and a second measurement node located proximate a second connector on a power supply unit (PSU), the first and the second connectors coupled to provide power to the motherboard. Calibrating further includes averaging the real-time voltage difference for a plurality of measurements; computing a resistance of the coupling based at least on a long-duration averaged current from the PSU and the averaged real-time voltage difference, the resistance varying over time; and reporting the resistance of the coupling to the voltage measurement device. The method also includes measuring a real-time current of the PSU at the voltage measurement device based at least on the resistance of the coupling and the real-time voltage difference. | 09-11-2014 |
20150066234 | SYSTEM AND METHOD FOR MULTI-PHASE VOLTAGE REGULATION - In accordance with one embodiment of the present disclosure, a multi-phase voltage regulator may comprise a plurality of phases, each phase configured to supply electrical current to one or more information handling resources electrically coupled to the voltage regulator. A controller may be electrically coupled to the plurality of phases. The controller may designate at least one of the plurality of phases as a first state phase, and designate each of the plurality of phases not designated as a first state phase as a second state phase. The controller may alternate the designation of at least two of the plurality of phases between a first state phase and a second state phase. Each first state phase may be configured to supply a first electrical current regardless of electrical current demand. Each second state phase may be configured to supply a second electrical current based on the current demand. | 03-05-2015 |
20150113294 | SYSTEMS AND METHODS FOR MANAGING A VOLTAGE REGULATOR - A voltage regulator may comprise a high-side switch and a low-side switch for delivering electrical current to the at least one information handling resource, a high-side driver configured to drive a high-side driving voltage for regulating a first electrical current of the high-side switch, a low-side driver configured to drive a low-side driving voltage for regulating a second electrical current of the low-side switch, and a control circuit configured to operate the at least one voltage regulator in both of a fixed dead time mode and an adaptive dead time mode. | 04-23-2015 |
20150323572 | SYSTEM AND METHOD OF MEASURING REAL-TIME CURRENT - A system and method of measuring real-time current is disclosed. The method includes calibrating a voltage measurement device. Calibrating includes measuring a real-time voltage difference between a first measurement node located proximate a first connector on a motherboard and a second measurement node located proximate a second connector on a power supply unit (PSU), the first and the second connectors coupled to provide power to the motherboard. Calibrating further includes averaging the real-time voltage difference for a plurality of measurements; computing a resistance of the coupling based at least on a long-duration averaged current from the PSU and the averaged real-time voltage difference, the resistance varying over time; and reporting the resistance of the coupling to the voltage measurement device. The method also includes measuring a real-time current of the PSU at the voltage measurement device based at least on the resistance of the coupling and the real-time voltage difference. | 11-12-2015 |
20150331049 | SYSTEMS AND METHODS FOR SENSING CURRENT WHILE MINIMIZING MEASUREMENT ERROR AND POWER LOSS - A method may include deactivating a switch of a measurement circuit during a measurement portion of at least one voltage regulator phase, wherein each of the at least one voltage regulator phase is integral to a voltage regulator and each of the at least one voltage regulator phase comprises a power stage. The power stage may include a high-side switch for delivering electrical current to the at least one information handling resource in conformity with a first duty cycle of the high-side switch. The power stage may also include a low-side switch for sinking electrical current to an electrical ground in conformity with a second duty cycle of the low-side switch. The method may also include measuring a voltage across a sense resistor of the measurement circuit during the measurement portion, wherein the sense resistor is coupled in parallel with non-gate terminals of the switch. | 11-19-2015 |
20150355698 | SYSTEM AND METHOD FOR DETERMINING POWER LOADS - A computer-implemented method enables determining an input power load for a multi voltage rail subsystem in an electronic device such as an information handing system. The method comprises determining a first output power value from a first voltage regulator and a second output power value from a second voltage regulator. A first input power value to the first voltage regulator is determined based at least partially on the first output power value and a second input power value to the second voltage regulator is determined based at least partially on the second output power value. An offset power value is calculated based on the first input power value and the second input power value. A total input power value is calculated based on the offset power value and a third input power value. The total input power value is transmitted to a processor. | 12-10-2015 |
20150370295 | METHODS AND SYSTEMS FOR IMPLEMENTING ADAPTIVE FET DRIVE VOLTAGE OPTIMIZATION FOR POWER STAGES OF MULTI-PHASE VOLTAGE REGULATOR CIRCUITS - Methods and systems are disclosed that may be employed to implement adaptive FET drive voltage optimization for voltage regulator (VR) integrated power stages (IPstages) that have different MOSFET RDS(on) characteristics to improve VR efficiency and current-sense accuracy. | 12-24-2015 |
20150370300 | METHODS AND SYSTEMS FOR CALIBRATION OF VOLTAGE REGULATOR SYSTEMS WITH MULTIPLE TYPES OF POWER STAGES - Methods and systems are disclosed that may be employed to enable multi-phase voltage regulator (VR) system calibration during the development phase of a multi-phase VR system so as to meet defined accuracy targets and, in one example, to avoid the need for system level calibration in a production environment. The disclosed systems and methods may be further implemented to enable use of multiple sources for and types of integrated power stages (IPstages) in a common multi-phase VR system configuration while still achieving the required current sense accuracy, thus reducing or substantially eliminating continuity of supply (COS) concerns. The disclosed methods and systems may also be implemented to improve accuracy of current sense in a manner that improves VR system performance, power saving and reliability. | 12-24-2015 |
20150372597 | METHODS AND SYSTEMS FOR IMPROVING LIGHT LOAD EFFICIENCY FOR POWER STAGES OF MULTI-PHASE VOLTAGE REGULATOR CIRCUITS - Methods and systems are disclosed that may be employed to improve efficiency of smart integrated power stages (IPstages) of multi-phase VR systems while operating under relatively light, ultra-light, or partial or reduced loads. The disclosed methods and systems may be implemented to improve VR system light load efficiency by providing and enabling reduced power IPstage operating modes in one or more smart IPstage/s of a VR system, and by enabling state transition between IPstage active and reduced power operating modes such as IPstage standby and IPstage hibernation modes. | 12-24-2015 |