Patent application number | Description | Published |
20110197081 | METHOD AND SYSTEM FOR DISTRIBUTING POWER TO NETWORKED DEVICES - One embodiment disclosed relates to a system for power distribution to network devices. The system includes a plurality of network switches each having an internal power supply and a plurality of ports for connecting to the network devices and an external power supply having a plurality of output ports for connecting to the network switches. The external power supply communicates power available to the network switches. Each network switch determines amounts and priority levels of power for the network devices connected thereto, sums together the amounts at each priority level, determines additional amounts and priority levels of power required beyond the internal power supply capability, and sends a power request to the external power supply. The external power supply allocates power to the network switches depending on the power requests received. | 08-11-2011 |
20120013476 | ILLUMINABLE INDICATOR OF ELECTRONIC DEVICE BEING ENABLED BASED AT LEAST ON USER PRESENCE - An electronic device includes an illuminable indicator, a presence detector, and a controller. The illuminable indicator is to indicate information to a user of the electronic device by one or more of being illuminated and not being illuminated. The presence detector is to detect presence of the user in proximity to the electronic device regardless of whether the user is moving or is stationary. Absence of the user is inferred upon the presence detector not detecting the presence of the user. The controller is to enable the illuminable indicator based at least on the presence of the user as detected by the presence detector and to disable the illuminable indictor based at least on the absence of the user. Enablement of the illuminable indicator does not mean that the illuminable indicator is necessarily illuminated. Disablement of the illuminable indicator means that the illuminable indicator is never illuminated while disabled. | 01-19-2012 |
20120063498 | HIGHLY FLEXIBLE AND EFFICIENT MAC TO PHY INTERFACE - A plurality of media access controllers (MACs) are time division multiplexed with one or more serializer/deserializer (SerDes) devices, wherein there are more MACs than SerDes devices and/or a single multi-rate Ethernet MAC is able to communicate with a multi-rate PHY spanning speeds from 10 megabits per second to 10 gigabits per second using the same framing mechanism and structure. | 03-15-2012 |
20120086525 | UNSHIELDED TWISTED PAIR TERMINATION CIRCUIT - Unshielded twisted pair (UTP) termination circuits, UTP termination circuit systems, and methods of terminating an UTP circuit are provided. UTP termination circuits can include a plurality of resistors in parallel, where each of the plurality of resistors is configured to be coupled to one of a plurality of unshielded twisted pairs of an UTP cable, a shunt resistor is coupled in series with the plurality of parallel resistors, and a capacitor is connected to ground in series with the shunt resistor. | 04-12-2012 |
20130054995 | ENERGY EFFICIENT ETHERNET CONTROL - A physical layer device includes a pseudo-random number generator, a register, a state machine, and a timer. The pseudo-random value generator is configured to produce a pseudo-random value within a predefined range. The register is configured to receive the pseudo-random value from the pseudo-random value generator and store the pseudo-random value. The state machine is configured to obtain the pseudo-random value from the register and provide the pseudo-random value to a timer within the physical layer device. The timer is configured to control a duration of an Energy Efficient Ethernet time period based on the pseudo-random value. | 02-28-2013 |
Patent application number | Description | Published |
20120011380 | METHOD FOR MITIGATING FALSE POWERED DEVICE DETECTION - A system for power distribution to network devices in a powered network is described herein. The system includes a first power sourcing equipment (PSE) device, which is configured to communicate data and selectively provide power to one or more devices. The system further includes a second PSE device coupled to the first PSE device through a network cable. The second PSE device is configured to communicate data, selectively provide power to one or more devices, and to receive a probing input through the network cable. The second PSE device includes a false detection mitigation circuit, which is configured to increase a leakage current of the second PSE device. The increased leakage current is associated with a resistive signature that is outside of a resistive range of a valid powered device. | 01-12-2012 |
20120020675 | Method for Energy Efficient Pulsing Operation of Transceivers of a Networked Device - A method performed by a networked device for energy efficient operation of an optical transceiver of the networked device is described herein. It is determined whether a port control of the networked device is enabled to operate in an energy efficient state. Where the port control is enabled to operate in the energy efficient state and an absence of a valid receive energy from a link partner is determined, a laser transmitter of the optical transceiver is pulsed by asserting and de-asserting a control signal. | 01-26-2012 |
20120303843 | VARIABLE DEPTH BUFFER - A variable depth buffer includes: a set of buffer units to receive input data in a First in First Out (FIFO) manner, with links between the buffer units such that the input data can be transferred sequentially from a first buffer unit that initially receives the input data to each subsequent buffer unit in the set; and a multiplexer, inputs of the multiplexer being connected to outputs of the respective buffer units and an output of the multiplexer to output data such that a depth of the buffer varies depending on which buffer unit output is selected by the multiplexer. | 11-29-2012 |
Patent application number | Description | Published |
20110238167 | METHODS OF CONDITIONING SHEET BIOPROSTHETIC TISSUE - Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smoothes the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes. The finally thinned membrane may then be treated by capping of calcification nucleation sites and borohydride reduction. The leaflets may be formed to have more than one region of uniform thickness, such as a thicker peripheral sewing region. | 09-29-2011 |
20110311493 | METHODS FOR STABILIZING A BIOPROSTHETIC TISSUE BY CHEMICAL MODIFICATION OF ANTIGENIC CARBOHYDRATES - Methods are provided herein for modifying antigenic carbohydrate epitopes within a xenographic bioprosthetic tissue by oxidation of vicinal diols to form aldehydes or acids and subsequence reductive amination of aldehydes to form stable secondary amines, or amidation or esterification of acids to form stable amides or esters. Advantageously, methods provided herein mitigate the antigenicity of the bioprosthetic tissue while leaving the overall tissue structure substantially undisturbed, and thereby enhance the durability, safety and performance of the bioprosthetic implant. | 12-22-2011 |
20130110097 | METHODS OF CONDITIONING SHEET BIOPROSTHETIC TISSUE | 05-02-2013 |
20130116676 | METHODS OF CONDITIONING SHEET BIOPROSTHETIC TISSUE - Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smoothes the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes. | 05-09-2013 |
20130134064 | CAPPING BIOPROSTHETIC TISSUE TO REDUCE CALCIFICATION - A treatment for bioprosthetic tissue used in implants or for assembled bioprosthetic heart valves to reduce in vivo calcification. The method includes applying a calcification mitigant such as a capping agent or an antioxidant to the tissue to specifically inhibit oxidation in tissue. Also, the method can be used to inhibit oxidation in dehydrated tissue. The capping agent suppresses the formation of binding sites in the tissue that are exposed or generated by the oxidation and otherwise would, upon implant, attract calcium, phosphate, immunogenic factors, or other precursors to calcification. In one method, tissue leaflets in assembled bioprosthetic heart valves are pretreated with an aldehyde capping agent prior to dehydration and sterilization. | 05-30-2013 |
20130310929 | METHODS OF CONDITIONING SHEET BIOPROSTHETIC TISSUE - Methods for the conditioning of bioprosthetic material employ bovine pericardial membrane. A laser directed at the fibrous surface of the membrane and moved relative thereto reduces the thickness of the membrane to a specific uniform thickness and smoothes the surface. The wavelength, power and pulse rate of the laser are selected which will smooth the fibrous surface as well as ablate the surface to the appropriate thickness. Alternatively, a dermatome is used to remove a layer of material from the fibrous surface of the membrane. Thinning may also employ compression. Stepwise compression with cross-linking to stabilize the membrane is used to avoid damaging the membrane through inelastic compression. Rather, the membrane is bound in the elastic compressed state through addition cross-linking. The foregoing several thinning techniques may be employed together to achieve strong thin membranes. | 11-21-2013 |
20140127804 | METHODS FOR TREATING BIOPROSTHETIC TISSUE USING A NUCLEOPHILE/ELECTROPHILE IN A CATALYTIC SYSTEM - Methods for treating a bioprosthetic tissue are described herein. The methods comprise contacting the bioprosthetic tissue with at least one nucleophile and/or at least one electrophile in the presence of a catalytic system comprising at least one or a combination of a fluoride-based salt, a cesium-based salt, a potassium-based salt, a rubidium-based salt, or a carbonate-based salt. The methods may be used to alter functional groups on biological tissue which represent actual and potential calcium binding sites and also processes for cross-linking bioprosthetic tissue. Both processes may be used in conjunction with known fixative techniques, such as glutaraldehyde fixation, or may be used to replace known fixative techniques. | 05-08-2014 |
20140200659 | CAPPING BIOPROSTHETIC TISSUE TO REDUCE CALCIFICATION - A treatment for bioprosthetic tissue used in implants or for assembled bioprosthetic heart valves to reduce in vivo calcification. The method includes applying a calcification mitigant such as a capping agent or an antioxidant to the tissue to specifically inhibit oxidation in tissue. Also, the method can be used to inhibit oxidation in dehydrated tissue. The capping agent suppresses the formation of binding sites in the tissue that are exposed or generated by the oxidation and otherwise would, upon implant, attract calcium, phosphate, immunogenic factors, or other precursors to calcification. In one method, tissue leaflets in assembled bioprosthetic heart valves are pretreated with an aldehyde capping agent prior to dehydration and sterilization. | 07-17-2014 |
20150091219 | METHOD AND APPARATUS FOR PREPARING A CONTOURED BIOLOGICAL TISSUE - An assembly and methods for providing a contoured biological tissue are described. The assembly comprises a first plate and a second plate. The first plate is configured to receive a biological tissue. The second plate is configured to apply a compressive force on the biological tissue that is disposed on the first plate. One or both of the first and second plates comprise a defined shape and a contoured area within the defined shape. The contoured area comprises at least first and second elevations and a continuous transition between the first and second transitions. One or more energy sources is associated with one or both of the first and second plates. The one or more energy sources delivers energy while the second plate applies the compressive force on the biological tissue disposed on the first plate. | 04-02-2015 |
20150182665 | METHODS FOR STABILIZING A BIOPROSTHETIC TISSUE BY CHEMICAL MODIFICATION OF ANTIGENIC CARBOHYDRATES - Methods are provided herein for modifying antigenic carbohydrate epitopes within a xenographic bioprosthetic tissue by oxidation of vicinal diols to form aldehydes or acids and subsequence reductive amination of aldehydes to form stable secondary amines, or amidation or esterification of acids to form stable amides or esters. Advantageously, methods provided herein mitigate the antigenicity of the bioprosthetic tissue while leaving the overall tissue structure substantially undisturbed, and thereby enhance the durability, safety and performance of the bioprosthetic implant. | 07-02-2015 |
20150238659 | BIOPROSTHETIC TISSUE WITH REDUCED CALCIFICATION - A treatment for bioprosthetic tissue used in implants or for assembled bioprosthetic heart valves to reduce in vivo calcification. The method includes applying a calcification mitigant such as a capping agent or an antioxidant to the tissue to specifically inhibit oxidation in tissue. Also, the method can be used to inhibit oxidation in dehydrated tissue. The capping agent suppresses the formation of binding sites in the tissue that are exposed or generated by the oxidation and otherwise would, upon implant, attract calcium, phosphate, immunogenic factors, or other precursors to calcification. In one method, tissue leaflets in assembled bioprosthetic heart valves are pretreated with an aldehyde capping agent prior to dehydration and sterilization. | 08-27-2015 |
20150314042 | BIOPROSTHETIC TISSUE HAVING A REDUCED PROPENSITY FOR IN VIVO CALCIFICATION - A bioprosthetic tissue having a reduced propensity to calcify in vivo, the bioprosthetic tissue. The bioprosthetic tissue comprises an aldehyde cross-linked and stressed bioprosthetic tissue comprising exposed calcium, phosphate or immunogenic binding sites that have been reacted with a calcification mitigant. The bioprosthetic tissue has a reduced propensity to calcify in vivo as compared to aldehyde cross-linked bioprosthetic tissue that has not been stressed and reacted with the calcification mitigant. | 11-05-2015 |
Patent application number | Description | Published |
20160086203 | Dynamic Polling Based on Location and Time - In order to conduct a poll, a computer system (such as a server) identifies a subset of users based on their current locations, the current time and/or predefined profiles of the users (which specify user preferences and demographic information). Then, the computer system provides, to the portable electronic devices (such as cellular telephones) associated with the identified subset of the users, the poll with a query and predefined potential answers. Next, the computer system receives, from at least a subset of the portable electronic devices, responses to the poll, where a given response includes at least one of the predefined potential answers as a selected answer. Furthermore, the computer system may perform one or more additional operations based on the given response. For example, the computer system may provide a results summary of the selected answers received from other portable electronic devices associated with the subset of the users. | 03-24-2016 |
20160086204 | Navigating Through Information Based on Poll Responses - In order to facilitate user navigation through information, a computer system (such as a server) provides polls to portable electronic devices (such as cellular telephones) associated with users, where a given poll includes a query and predefined potential answers. Then, the computer system receives, from at least a subset of the portable electronic devices, responses to the polls, where a given response includes at least one of the predefined potential answers as a selected answer. Moreover, based on the received responses and response histories (with responses to one or more previous polls) for a subset of the users associated with at least the subset of the portable electronic devices, the computer system identifies links to the information. Next, the computer system provides the links to the information to at least the subset of the portable electronic devices. | 03-24-2016 |
20160086205 | Correcting for Poll Bias - In order to conduct polls that are responded to by a target audience, a computer system (such as a server) provides portable electronic devices (such as cellular telephones) associated with users, different versions of a poll, where a given version of the poll includes a query and predefined potential answers. Then, the computer system receives, from at least a subset of the portable electronic devices, responses to the versions of the poll, where a given response includes at least one of the predefined potential answers as a selected answer. Moreover, based on profiles of a subset of the users associated with at least the subset of the portable electronic devices and information specifying the target audience of the poll, the computer system calculates the bias. Furthermore, the computer system performs remedial action based on the calculated bias to correct for the bias in the poll. | 03-24-2016 |