Patent application number | Description | Published |
20090297552 | FLAGELLIN POLYPEPTIDE VACCINES - Vaccines that comprise or generate immunomodulatory flagellin polypeptides able to stimulate an innate immune response intracellularly and extracellularly employ viruses, bacteria or parasitic cells that contain expression systems for such polypeptides, as well as fusion proteins that contain antigens and/or cell penetrating peptides along with the immunomodulatory peptide. | 12-03-2009 |
20100322957 | SECRETION-RELATED BACTERIAL PROTEINS FOR NLRC4 STIMULATION - Introduction of immunomodulatory T3SS polypeptides (IT3SSP's) into cells stimulates a response mediated by NLRC4 intracellularly. Introduction of said IT3SSP into the cells of a subject evoke an innate immune response in the subject. | 12-23-2010 |
20130022602 | METHODS AND COMPOSITIONS TO MODULATE ANTIVIRAL AND IMMUNE ACTIVITY RESPONSES - The invention is directed to an improved method to manufacture virus for use in vaccine by culturing infected cells that have been modified to overexpress miR-144. The invention is also directed to manipulating the activity or level of miR-144 in subjects in order to modulate the antiviral and immune response systems. | 01-24-2013 |
20150183837 | IMMUNOGENIC COMPOSITIONS AND METHODS OF USE THEREOF - Embodiments of the disclosure encompass compositions and methods for generating immune responses in an animal or human host. Embodiments of the compositions encompass proteins derived from the surface proteins of bacteria and protozoa, and in particular the flagellum component flagellin, and which have adjunctival properties when administered in conjunction with an immunogen. Embodiments of the compositions of the disclosure are modified to incorporate a heterologous transmembrane-cytoplasmic domain allowing the peptides to be incorporated into virus-like particles. Embodiments of the methods of generating an immunological response in an animal or human comprise exposing the immune system of an animal or human host to an immunogen and a virus-like particle comprising an adjuvant polypeptide including a host cell Toll-like receptor ligand polypeptide having a transmembrane-cytoplasmic tail polypeptide, and a heterologous signal peptide. | 07-02-2015 |
Patent application number | Description | Published |
20080264915 | Welding power source with automatic variable high frequency - A high frequency power source configured to provide a variable voltage output is described such as for use in welding systems. The high frequency power source charges a capacitive storage device. A transformer having a primary winding coupled to the output of the high frequency power source and establishing a resonant frequency signal with the capacitive storage device, and a secondary winding coupled to the welding power supply, superimposes the resonant frequency signals onto the welding power signal of the welding power supply during periods of the resonant rings. By varying the voltage output from the high frequency power source, the high frequency energy delivered to the welding torch can be optimized for a variety of welding applications. | 10-30-2008 |
20090230098 | METHOD FOR DETECTING CURRENT TRANSFER IN A PLASMA ARC - Methods and systems for transferring a plasma arc from between an electrode and a tip to between an electrode and a workpiece and back as dictated by the conditions at the cutting arc are provided. The present disclosure allows for arc transfer detection without use of a current sensor at the workpiece or knowledge of a precise pilot circuit limit value through a novel plasma arc control circuit. In one embodiment, the plasma arc control circuit provides a programmable current source and a current sink configured to limit current in a pilot arc control circuit. The pilot arc circuit may be configured to signal its limiting status to a controller, which may switch the pilot arc control circuit in or out of the current path. Certain embodiments may include a pulse width modulation control in the pilot arc control circuit for controlling current flow through the pilot arc circuit. | 09-17-2009 |
20130206735 | CONSUMABLE SELECTION AID FOR A PLASMA CUTTING SYSTEM - A plasma cutting or welding system includes a power input. The power input is configured to be coupled to a plurality of multipronged input plugs. Each of the multipronged input plugs corresponds to an input voltage. The power supply also includes a user input device for selecting an operating current. The user input device is subdivided into a plurality of current ranges. Each of the current ranges includes an iconic representation of at least one multipronged input plug. | 08-15-2013 |
20140001167 | WELDING SYSTEM UTILIZING A DISTRIBUTED POWER BUS | 01-02-2014 |
20140374398 | WELDING POWER SUPPLY EXTENDED RANGE SYSTEM AND METHOD - A power supply for welding, cutting and similar operations includes one or more power converters that are controlled by PWM signals applied by control circuitry. The signals may be applied for a period greater than 50% duty cycle. The duty cycle may be determined by monitoring power or current draw by a welding or cutting operation load. Where more than one converters is used, each may have the same or different duty cycles, and each may be extended beyond a 50% maximum. | 12-25-2014 |
20140376268 | METAL WORKING POWER SUPPLY CONVERTER SYSTEM AND METHOD - A power supply for welding, cutting and similar operations includes a dual two-switch forward converter. The converter has two inverter circuits coupled in parallel but controlled to provide output power in an interleaved fashion. To avoid “walking” of the circuits (which could result in different duty cycles and imbalance of the load sharing), control signals are determined and applied to a first of the inverter circuits, and “on” times of the first circuit is monitored, such as by augmenting a counter to determine the number of clock cycles the first circuit is “on”. The same duration is then used for commanding output from the second inverter circuit. The duty cycles of both circuits is thus ensured to be the same regardless of changes in the total output power. | 12-25-2014 |
20150083696 | CONSUMABLE SELECTION AID FOR A PLASMA CUTTING SYSTEM - A plasma cutting or welding system includes a power input. The power input is configured to be coupled to a plurality of multipronged input plugs. Each of the multipronged input plugs corresponds to an input voltage. The power supply also includes a user input device for selecting an operating current. The user input device is subdivided into a plurality of current ranges. Each of the current ranges includes an iconic representation of at least one multipronged input plug. | 03-26-2015 |
Patent application number | Description | Published |
20100210142 | Electrical Connector - The cable assembly may include a plug connector, a cable, and a connector. The plug connector may include a housing and a board assembly. The board assembly may include a printed circuit board. The edge of the printed circuit board may be enclosed with a material. The material may be an overmolded plastic or a coating of a material. In order to reduce the crosstalk in the areas where the cable shield is removed, a shielding assembly may be used. The shielding assembly may provide 360 degrees of shielding for the wire pair at the location where the cable shield is removed. The printed circuit board may have a trace layer, a core layer, and a ground plane layer. The ground plane layer may have a portion which is a solid layer and another portion which is a non-solid layer. | 08-19-2010 |
20110195592 | Electrical Connector - The cable assembly may include a plug connector, a cable, and a connector. The plug connector may include a housing and a board assembly. The board assembly may include a printed circuit board. The edge of the printed circuit board may be enclosed with a material. The material may be an overmolded plastic or a coating of a material. In order to reduce the crosstalk in the areas where the cable shield is removed, a shielding assembly may be used. The shielding assembly may provide 360 degrees of shielding for the wire pair at the location where the cable shield is removed. The printed circuit board may have a trace layer, a core layer, and a ground plane layer. The ground plane layer may have a portion which is a solid layer and another portion which is a non-solid layer. | 08-11-2011 |
20110195593 | Electrical Connector - The cable assembly may include a plug connector, a cable, and a connector. The plug connector may include a housing and a board assembly. The board assembly may include a printed circuit board. The edge of the printed circuit board may be enclosed with a material. The material may be an overmolded plastic or a coating of a material. In order to reduce the crosstalk in the areas where the cable shield is removed, a shielding assembly may be used. The shielding assembly may provide 360 degrees of shielding for the wire pair at the location where the cable shield is removed. The printed circuit board may have a trace layer, a core layer, and a ground plane layer. The ground plane layer may have a portion which is a solid layer and another portion which is a non-solid layer. | 08-11-2011 |
20130017716 | Electrical Connector - The cable assembly may include a plug connector, a cable, and a connector. The plug connector may include a housing and a board assembly. The board assembly may include a printed circuit board. The edge of the printed circuit board may be enclosed with a material. The material may be an overmolded plastic or a coating of a material. In order to reduce the crosstalk in the areas where the cable shield is removed, a shielding assembly may be used. The shielding assembly may provide 360 degrees of shielding for the wire pair at the location where the cable shield is removed. The printed circuit board may have a trace layer, a core layer, and a ground plane layer. The ground plane layer may have a portion which is a solid layer and another portion which is a non-solid layer. | 01-17-2013 |
Patent application number | Description | Published |
20130275356 | INTERACTIVE BROWSER-BASED SEMIOTIC COMMUNICATION SYSTEM - Embodiments described herein pertain to a standardized set of tools for representing and exploring the components and characteristics of complex systems. In one embodiment, the tools are deployed in a computer network environment so as to engage a social network such that its members utilize the tools to collaboratively construct and maintain a dynamically evolving learning environment in which complexity is represented and explored. | 10-17-2013 |
20140250400 | INTERACTIVE PORTAL FOR FACILITATING THE REPRESENTATION AND EXPLORATION OF COMPLEXITY - Embodiments described herein pertain to a standardized set of tools for representing and exploring the components and characteristics of complex systems. In one embodiment, the tools are deployed in a computer network environment so as to engage a social network such that its members utilize the tools to collaboratively construct and maintain a dynamically evolving learning environment in which complexity is represented and explored. | 09-04-2014 |
20150309721 | INTERACTIVE BROWSER-BASED SEMIOTIC COMMUNICATION SYSTEM - An interactive semiotic communication system is provided. In one embodiment, the interactive semiotic communication system comprises a software engine configured to allow a user to represent and understand a complex system in a semiotic environment, wherein the semiotic environment comprises a multivariable system. In one embodiment, the interactive semiotic communication system comprises a toolset comprising a semiotic ontological framework and accompanying semiotic representations. In one embodiment, the interactive semiotic communication system comprises a graphical user interface, displayed on a computing device with a display, configured to allow the user to access and select an item from the toolset and otherwise interact with the complex system in the semiotic environment. The software engine of the interactive semiotic communication system, in one embodiment, is implemented on a computing device with a processor. | 10-29-2015 |