Patent application number | Description | Published |
20110063042 | TUNABLE MICROWAVE DEVICES WITH AUTO-ADJUSTING MATCHING CIRCUIT - An embodiment of the present invention provides an apparatus, comprising an input port and a dynamic impedance matching network capable of determining a mismatch at the input port and dynamically changing the RF match by using at least one matching element that includes at least one voltage tunable dielectric capacitor. The matching network may be a “Pi”, a “T”, or “ladder” type network and the apparatus may further comprise at least one directional coupler capable of signal collection by sampling a portion of an incident signal, a reflected signal or both. In an embodiment of the present invention, the apparatus may also include a control and power control & logic unit (PC LU) to convert input analog signals into digital signals and sensing VSWR phase and magnitude and processing the digital signals using an algorithm to give it a voltage value and wherein the voltage values may be compared to values coming from the coupler and once compared and matched, the values may be passed to a Hi Voltage Application Specific Integrated Circuit (HV ASIC) to transfer and distribute compensatory voltages to the matching network elements. Additional embodiments are disclosed. | 03-17-2011 |
20120119843 | TUNABLE MICROWAVE DEVICES WITH AUTO ADJUSTING MATCHING CIRCUIT - An impedance matching circuit includes a matching network for coupling to a variable load, where the matching network has a first port and a second port, and where the variable load is coupled to one of the first port or the second port. The matching network can have one or more variable dielectric capacitors, where the one or more variable dielectric capacitors are operable to receive one or more variable voltage signals to cause the one or more variable dielectric capacitors to change an impedance of the matching network, and where the change in the impedance of the matching network causes an increase in power transferred from the first port to the second port or from the second port to the first port. | 05-17-2012 |
20120119844 | TUNABLE MICROWAVE DEVICES WITH AUTO-ADJUSTING MATCHING CIRCUIT - A variable impedance circuit includes a matching network for coupling to a tunable device, where the matching network has a first port and a second port, where the tunable device is coupled to one of the first port or the second port, and where the matching network has one or more variable dielectric capacitors. The one or more variable dielectric capacitors can be operable to receive a first of one or more variable voltage signals to cause the one or more variable dielectric capacitors to change a first impedance of the matching network. The tunable device can be operable to receive a second of one or more variable voltage signals to cause a change in a second impedance of the tunable device. | 05-17-2012 |
20130050048 | SOLDERLESS CIRCULARLY POLARIZED MICROWAVE ANTENNA ELEMENT - Disclosed herein is an antenna feed design for transmitting or receiving a circularly polarized microwave signal, and a communication device using that antenna feed design. Resonating disks are bowl-shaped to balance E-plane and H-plane magnetic field patterns, decreasing cross-polarization, and providing mechanical rigidity. A non-planar circuit replaces planar microstrip transmission lines for transmitting the signal, with 90° phase shifts, from an input point to excitation points. This non-planar circuit overcomes some of the layout problems encountered in planar circuits. It maintains impedance matching from the input point to the excitation points by progressively tapering down the characteristic transmission line impedance of each successive section. The non-planar circuit has sufficient mechanical strength and rigidity to allow it to be supported at only two anchor points. Similarly, the non-planar disks are also of sufficient strength to require only a single anchor point each. Thus, the antenna parts do not require any additional dielectric substrate support, and all parts are DC grounded. The use of fingers surrounding the ground plane and extending towards the resonating disks results in improved off-boresight polarization. All components of the antenna feed are built and combined without the use of solder or dielectric substrate support, creating a stable, corrosion-resistant, low-cross polarization antenna. | 02-28-2013 |
20130127561 | Tunable Microwave Devices with Auto-Adjusting Matching Circuit - An embodiment of the present disclosure provides an impedance matching circuit including a matching network. The matching network includes a first port and a second port, and one or more variable reactance components. The one or more variable reactance components are operable to receive one or more variable voltage signals to cause the one or more variable reactance components to change an impedance of the matching network. At least one of the one or more variable reactance components includes a first conductor coupled to one of the first port or the second port of the matching network, a second conductor, and a tunable material positioned between the first conductor and the second conductor. Additionally, at least one of the first conductor and the second conductor are adapted to receive the one or more variable voltage signals to cause the change in the impedance of the matching network. Additional embodiments are disclosed. | 05-23-2013 |
20130169493 | Tunable Microwave Devices with Auto-Adjusting Matching Circuit - An embodiment of the present disclosure provides a variable impedance circuit including an antenna having a tunable component. The tunable component can be operable to receive a variable signal to cause the tunable component to change an impedance of the antenna. The tunable component can include a first conductor coupled to the antenna, a second conductor, and a tunable material positioned between the first conductor and the second conductor, where at least one of the first conductor or the second conductor, or both are adapted to receive the variable signal to cause the change in the impedance of the antenna. Additional embodiments are disclosed. | 07-04-2013 |
20140118205 | TUNABLE MICROWAVE DEVICES WITH AUTO-ADJUSTING MATCHING CIRCUIT - An embodiment of the present disclosure provides a circuit including an antenna having a tunable component. The tunable component can be operable to receive a variable signal to cause the tunable component to change a reactance of the antenna. The tunable component can include a first conductor coupled to the antenna, a second conductor, and a tunable material positioned between the first conductor and the second conductor, where at least one of the first conductor or the second conductor, or both are adapted to receive the variable signal to cause the change in the reactance of the antenna. Additional embodiments are disclosed. | 05-01-2014 |
20150042537 | TUNABLE MICROWAVE DEVICES WITH AUTO-ADJUSTING MATCHING CIRCUIT - An embodiment of the present disclosure provides an impedance matching circuit including a matching network. The matching network includes a first port and a second port, and one or more variable reactance components. The one or more variable reactance components are operable to receive one or more variable voltage signals to cause the one or more variable reactance components to change an impedance of the matching network. At least one of the one or more variable reactance components includes a first conductor coupled to one of the first port or the second port of the matching network, a second conductor, and a tunable material positioned between the first conductor and the second conductor. Additionally, at least one of the first conductor and the second conductor are adapted to receive the one or more variable voltage signals to cause the change in the impedance of the matching network. Additional embodiments are disclosed. | 02-12-2015 |
Patent application number | Description | Published |
20140189093 | EFFICIENT INTERCEPT OF CONNECTION-BASED TRANSPORT LAYER CONNECTIONS - A TCP connection is established between a client and a server, such that packets communicated across the TCP connection pass through a proxy. Based at least in part on a result of monitoring packets flowing across the TCP connection, the proxy determines whether to split the TCP control loop into two TCP control loops so that packets can be inspected more thoroughly. If the TCP control loop is split, then a first TCP control loop manages flow between the client the proxy and a second TCP control loop manages flow between the proxy and the server. Due to the two control loops, packets can be held on the proxy long enough to be analyzed. In some circumstances, a decision is then made to stop inspecting. The two TCP control loops are merged into a single TCP control loop, and thereafter the proxy passes packets of the TCP connection through unmodified. | 07-03-2014 |
20140195797 | EFFICIENT FORWARDING OF ENCRYPTED TCP RETRANSMISSIONS - A network device receives TCP segments of a flow via a first SSL session and transmits TCP segments via a second SSL session. Once a TCP segment has been transmitted, the TCP payload need no longer be stored on the network device. Substantial memory resources are conserved, because the device may have to handle many retransmit TCP segments at a given time. If the device receives a retransmit segment, then the device regenerates the retransmit segment to be transmitted. A data structure of entries is stored, with each entry including a decrypt state and an encrypt state for an associated SSL byte position. The device uses the decrypt state to initialize a decrypt engine, decrypts an SSL payload of the retransmit TCP segment received, uses the encrypt state to initialize an encrypt engine, re-encrypts the SSL payload, and then incorporates the re-encrypted SSL payload into the regenerated retransmit TCP segment. | 07-10-2014 |
20140201728 | SOFTWARE UPDATE METHODOLOGY - Software update information is communicated to a network appliance either across a network or from a local memory device. The software update information includes kernel data, application data, or indicator data. The network appliance includes a first storage device, a second storage device, an operating memory, a central processing unit (CPU), and a network adapter. First and second storage devices are persistent storage devices. In a first example, both kernel data and application data are updated in the network appliance in response to receiving the software update information. In a second example, only the kernel data is updated in the network appliance in response to receiving the software update information. In a third example, only the application data is updated in the network appliance in response to receiving the software update information. Indicator data included in the software update information determines the data to be updated in the network appliance. | 07-17-2014 |
20140201734 | COMPARTMENTALIZATION OF THE USER NETWORK INTERFACE TO A DEVICE - A device has physical network interface port through which a user can monitor and configure the device. A backend process and a virtual machine (VM) execute on a host operating system (OS). A front end user interface process executes on the VM, and is therefore compartmentalized in the VM. There is no front end user interface executing on the host OS outside the VM. The only management access channel into the device is via a first communication path through the physical network interface port, to the VM, up the VM's stack, and to the front end process. If the backend process is to be instructed to take an action, then the front end process forwards an application layer instruction to the backend process via a second communication path. The instruction passes down the VM stack, across a virtual secure network link, up the host stack, and to the backend process. | 07-17-2014 |
Patent application number | Description | Published |
20080270972 | METHODS FOR TYPE ANALYSIS IN SYSTEMS FOR CODE GENERATION - A method for identifying a structure of a type to generate a model of the type includes the step of providing at least one replacement type for a basic type provided by a programming language. An identification of initialization, by a constructor, of an instance of the at least one replacement type is received. A type model comprising a description of a data layout of the instance of the type is generated responsive to the received identification. | 10-30-2008 |
20080270979 | METHODS AND SYSTEMS FOR USING TYPE MODELS TO GENERATE AN IMPLEMENTATION OF A TYPE - A method for using type analysis to generate an implementation of a type includes the step of identifying a request to generate a first implementation of a type. A type model associated with the type is received. A second implementation of the type model is identified as suitable for a high-performance implementation. The second implementation is generated on a target processor. The second implementation is represented as the first implementation. | 10-30-2008 |
20090018993 | METHODS AND SYSTEMS FOR OPTIMIZING DATA ACCESSES - A method for optimizing data types includes the step of generating a data structure providing access to at least one data element, the data structure associated with a first representation of the at least one data element. A user is provided with a plurality of data types for accessing the at least one data element. A request for access to the at least one data element is received, the request including at least one of the plurality of data types. The request is responded to with a second representation of the at least one data element, the second representation generated responsive to the at least one of the plurality of data types. | 01-15-2009 |
20120166418 | METHODS AND SYSTEMS FOR OPTIMIZING DATA ACCESSES - A method for optimizing data types includes the step of generating a data structure providing access to at least one data element, the data structure associated with a first representation of the at least one data element. A user is provided with a plurality of data types for accessing the at least one data element. A request for access to the at least one data element is received, the request including at least one of the plurality of data types. The request is responded to with a second representation of the at least one data element, the second representation generated responsive to the at least one of the plurality of data types. | 06-28-2012 |
Patent application number | Description | Published |
20110313586 | SYSTEM AND METHOD FOR CONTROL OF POWER DISTRIBUTION NETWORKS - A system for controlling a multi-feed power distribution network includes: a first controller configured to control operation of a first network sector, the first controller configured to, in response to a topology change in the first network sector causing a change in a location from which power is supplied to at least one affected network segment, transmit a message identifying the at least one affected network segment from the first controller to the network without prior knowledge of any other controllers; and at least one second controller configured to control operation of the at least one second network sector, the second controller configured to receive the message, exchange configuration information regarding the at least one affected segment with the first controller, and automatically update the second configuration data of the second controller based on the configuration information received from the first controller to reflect the topology change. | 12-22-2011 |
20130030579 | DEVICES AND METHODS FOR DECENTRALIZED POWER LOSS REDUCTION CONTROL - Devices and methods for the decentralized, coordinated control of the active power losses of an electrical distribution system are provided. For example, a controller may include a network interface and data processing circuitry. The network interface may receive first measurements associated with a segment of an electrical distribution system and transmit a control signal configured to control equipment of the segment of the electrical distribution system. The data processing circuitry may run digital simulations of the segment of the electrical distribution system in various equipment configurations, selecting from among the various equipment configurations an equipment configuration that is expected to cause the active power losses of the segment to approach a desired value. The data processing circuitry then may generate the control signal, which may cause the equipment of the segment of the electrical distribution system to conform to the equipment configuration. | 01-31-2013 |
20130030586 | DEVICES AND METHODS FOR DECENTRALIZED VOLTAGE CONTROL - Devices and methods for the decentralized, coordinated control of the voltage of an electrical distribution system are provided. For example, a controller may include a network interface and data processing circuitry. The network interface may receive first measurements associated with a segment of an electrical distribution system and transmit a control signal configured to control equipment of the segment of the electrical distribution system. The data processing circuitry may run digital simulations of the segment of the electrical distribution system in various equipment configurations, selecting from among the various equipment configurations an equipment configuration that is expected to cause the voltage deviation of the segment to approach a desired value. The data processing circuitry then may generate the control signal, which may cause the equipment of the segment of the electrical distribution system to conform to the equipment configuration. | 01-31-2013 |
20130030597 | DEVICES AND METHODS FOR DECENTRALIZED POWER FACTOR CONTROL - Devices and methods for the decentralized, coordinated control of the power factor on an electrical distribution system are provided. For example, a controller may include a network interface and data processing circuitry. The network interface may receive first measurements associated with a segment of an electrical distribution system and transmit a control signal configured to control equipment of the segment of the electrical distribution system. The data processing circuitry may run simulations of the segment of the electrical distribution system in various equipment configurations, selecting from among the various equipment configurations an equipment configuration that is expected to cause the power factor to approach a desired value. The data processing circuitry then may generate the control signal, which may cause the equipment of the segment of the electrical distribution system to conform to the equipment configuration and thereby control the power factor. | 01-31-2013 |
20130030598 | DEVICES AND METHODS FOR DECENTRALIZED VOLT/VAR CONTROL - Devices and methods for the decentralized, coordinated control of the voltage and active power losses of an electrical distribution system in light of one another are provided. For example, a controller may include a network interface and data processing circuitry. The network interface may receive first measurements associated with a segment of an electrical distribution system and transmit a control signal configured to control equipment of the segment of the electrical distribution system. The data processing circuitry may run simulations of the segment of the electrical distribution system in various equipment configurations, selecting from among the various configurations one that is expected to cause the voltage deviation and the active power losses of the segment to approach desired values while keeping power factor within a desired range. The data processing circuitry then may generate the control signal, which may cause the equipment of the segment of the electrical distribution system to conform to the equipment configuration. | 01-31-2013 |
20130030599 | DEVICES AND METHODS FOR DECENTRALIZED COORDINATED VOLT/VAR CONTROL - Devices and methods for decentralized coordinated Volt/VAR control are provided. Such a device may allow, for example, an operational parameter such as voltage, power losses, a combination of these, and/or power factor to be optimized on a segment of an electrical distribution system under certain conditions. For example, a controller may include a network interface to receive measurements and data processing circuitry to optimize a voltage deviation, active power losses, or a combination thereof, based at least in part on the total load on the segment of the electrical distribution system. | 01-31-2013 |
20130054042 | POWER DISTRIBUTION NETWORK FAULT MANAGEMENT - A fault interrupt device is tripped by a fault in a power distribution network. A distributed automation controller (DAC) determines a location of and isolates the fault. Power is restored upstream of the fault and downstream power requirement vs. power availability from a secondary source(s) is assessed. The secondary source(s) is connected to the downstream portion if power available is sufficient or after nodes are deactivated to bring power requirements below power available. If a second fault occurs, it is also located and isolated, such as by communication between affected partition DACs of the power distribution network. | 02-28-2013 |
20130066444 | SYSTEMS AND METHODS FOR USE IN RESPONDING TO FAULTS IN A UTILITY SYSTEM - Systems and methods for use in detecting and responding to fault conditions in a utility system. A first partition controller associated with a first partition detects a fault condition within the first partition. The first partition controller transmits a utility capacity request to one or more partition controllers other than the first partition controller. A second partition controller associated with a second partition receives the utility capacity request and determines an available utility capacity of the second partition. The second partition controller transmits a utility capacity response that includes the available utility capacity to the first partition controller. A utility connection is activated between the first partition and the second partition based on the available utility capacity. | 03-14-2013 |