Abstract: The present disclosure provides a novel flame retardant and synergist additive composition including at least one phosphorus-containing flame retardant and at least one metal hypophosphite. as described herein. The presently disclosed combination of additives exhibit excellent flame retardant performance in thermoplastic polymers. while also resulting in excellent processing stability and mechanical properties.

Abstract: A lightweight ablator formulation has been developed which offers superior thermal performance compared to current state of the art ablator formulations. The lightweight ablator formulations described herein typically include at least one endothermically decomposing (energy absorbing) material with a fluxing agent resulting in significantly reduced backface temperature response and a more stable surface. According to one implementation the ablator composition comprises about 30 to about 70 percent by weight of a base silicone resin, about 25 to about 67 percent by weight of a low-density filler, about 3 to about 7 percent by weight of a curing agent and greater than 0 and up to about 10 percent by weight of a boron-containing compound.

Abstract: A lightweight ablator formulation has been developed which offers superior thermal performance compared to current state of the art ablator formulations. The lightweight ablator formulations described herein typically include at least one endothermically decomposing (energy absorbing) material with a fluxing agent resulting in significantly reduced backface temperature response and a more stable surface. According to one implementation the ablator composition comprises about 30 to about 70 percent by weight of a base silicone resin, about 25 to about 67 percent by weight of a low-density filler, about 3 to about 7 percent by weight of a curing agent and greater than 0 and up to about 10 percent by weight of a boron-containing compound.

Abstract: A lightweight ablator formulation has been developed which offers superior thermal performance compared to current state of the art ablator formulations. The lightweight ablator formulations described herein typically include at least one endothermically decomposing (energy absorbing) material with a fluxing agent resulting in significantly reduced backface temperature response and a more stable surface. According to one implementation the ablator composition comprises about 30 to about 70 percent by weight of a base silicone resin, about 25 to about 67 percent by weight of a low-density filler, about 3 to about 7 percent by weight of a curing agent and greater than 0 and up to about 10 percent by weight of a boron-containing compound.

Abstract: An antenna system for a wireless network that provides multi-band and/or multi-sector operation from a single location is provided. The antenna system may provide improved control and adjustment of antennas contained within a compact design to allow sectors of coverage provided by the antennas to be modified to accommodate different cell site parameters that may otherwise have been satisfied using a more distributed arrangement of antennas.

Abstract: A lightweight ablator formulation has been developed which offers superior thermal performance compared to current state of the art ablator formulations. The lightweight ablator formulations described herein typically include at least one endothermically decomposing (energy absorbing) material with a fluxing agent resulting in significantly reduced backface temperature response and a more stable surface. According to one implementation the ablator composition comprises about 30 to about 70 percent by weight of a base silicone resin, about 25 to about 67 percent by weight of a low-density filler, about 3 to about 7 percent by weight of a curing agent and greater than 0 and up to about 10 percent by weight of a boron-containing compound.

Abstract: The invention is directed to methods and systems for adjusting the vertical beam width of an imbalanced antenna. In one embodiment, first and second antenna arrays are imbalanced because one of the arrays has at least one more radiating element than the other. The additional gain created by additional radiating element(s) distorts the beam and alters the coverage area of the corresponding array, in embodiments. The tilt of the array having at least one more additional radiating element(s) is modified using phase shifting technology and based on the tilt of the array having fewer elements. By modifying tilt of the array having at least one more additional radiating element(s), the upper 3 dB points of the first and second array may be aligned to correct for the distorted beam and altered coverage area between the first and second arrays.

Abstract: A lightweight ablator formulation has been developed which offers superior thermal performance compared to current state of the art ablator formulations. The lightweight ablator formulations described herein typically include at least one endothermically decomposing (energy absorbing) material with a fluxing agent resulting in significantly reduced backface temperature response and a more stable surface. According to one implementation the ablator composition comprises about 30 to about 70 percent by weight of a base silicone resin, about 25 to about 67 percent by weight of a low-density filler, about 3 to about 7 percent by weight of a curing agent and greater than 0 and up to about 10 percent by weight of a boron-containing compound.

Abstract: Detection and mitigation of signal conflict, such as a primary synchronization signal conflict, between broadcast cells in a wireless communication network is provided. Multiple broadcast cells may be provided in the network to provide sectors of coverage. A mobile communication device may operate within the network and attempt to attach to one or more of the broadcast cells. A synchronization signal conflict between neighboring broadcast cells may be identified and mitigated using one or more adjustments to the broadcast cells or signals emitted therefrom, which may allow for improved network performance, among other benefits.

Abstract: A method of forming a thermal protection system for high speed aircraft is described. The method includes mechanically working an uncured ablator material into a first surface of a felt layer such that the ablator material penetrates a distance into a thickness of the felt layer thereby forming an region that has a mixture of felt and ablator material, adding additional uncured ablator material to the worked ablator material, and curing the combined ablator material.

Abstract: An antenna system for a wireless network that provides multi-band and/or multi-sector operation from a single location is provided. The antenna system may provide improved control and adjustment of antennas contained within a compact design to allow sectors of coverage provided by the antennas to be modified to accommodate different cell site parameters that may otherwise have been satisfied using a more distributed arrangement of antennas.

Abstract: Devices, systems, and methods for providing improved network performance in wireless communications networks using intelligent radiation selection are provided. A radio is communicatively coupled to an antenna and configured to provide a signal to the antenna for broadcast from a cell site. One or more input components are communicatively coupled to the radio to provide information on at least one of an internal or an external condition of the antenna, so that the radio can adjust or modify the signal provided to the antenna to change an emitted pattern of radiation from the antenna to reduce signal loss, or recover or help maintain an area of coverage provided by the antenna.

Abstract: The present invention provides tomatillo ideotypes and tomatillo plants with machine harvestable traits combined with desirable agronomic traits. The present invention also provides methods of making such plants and methods of using such plants to produce additional machine harvestable tomatillo plants.

Abstract: Detection and mitigation of signal conflict, such as a primary synchronization signal conflict, between broadcast cells in a wireless communication network is provided. Multiple broadcast cells may be provided in the network to provide sectors of coverage. A mobile communication device may operate within the network and attempt to attach to one or more of the broadcast cells. A synchronization signal conflict between neighboring broadcast cells may be identified and mitigated using one or more adjustments to the broadcast cells or signals emitted therefrom, which may allow for improved network performance, among other benefits.

Abstract: A flanged sealing ring which is used to seal a pipe connection is produced from a material having a metal fraction distributed substantially homogeneously in the flanged sealing ring. The flanged sealing ring can be used in a device for detecting components of a flanged sealing ring in a pipeline system that includes a plurality of pipes, at least two of which are held against each other at a flange in such a way that sealing is effected by a flanged sealing ring. Using a metal detector and a gate for removing a metal-containing substance from the pipeline, which gate is arranged behind the metal detector in the conveying direction, the flanged sealing ring can then be detected, and therefore, when components of the flanged sealing ring detach, detection can be performed at the metal detector and discharging can be performed at the gate.

Abstract: Devices, systems, and methods for providing improved network performance in wireless communications networks using intelligent radiation selection are provided. A radio is communicatively coupled to an antenna and configured to provide a signal to the antenna for broadcast from a cell site. One or more input components are communicatively coupled to the radio to provide information on at least one of an internal or an external condition of the antenna, so that the radio can adjust or modify the signal provided to the antenna to change an emitted pattern of radiation from the antenna to reduce signal loss, or recover or help maintain an area of coverage provided by the antenna.

Abstract: Antenna mount systems and methods for deploying small cells are disclosed. The antenna mount system may include an outer housing and an inner antenna enclosure at least partly positioned inside the outer housing, with the inner antenna enclosure movably coupled to the outer housing. The antenna mount system can include an orientation member that can aid in maintaining a particular orientation of an antenna so as to maintain a radiation pattern substantially on a defined area, independent of the position of the antenna mount system.

Abstract: A lightweight ablator formulation has been developed which offers superior thermal performance compared to current state of the art ablator formulations. The lightweight ablator formulations described herein typically include at least one endothermically decomposing (energy absorbing) material with a fluxing agent resulting in significantly reduced backface temperature response and a more stable surface. According to one implementation the ablator composition comprises about 30 to about 70 percent by weight of a base silicone resin, about 25 to about 67 percent by weight of a low-density filler, about 3 to about 7 percent by weight of a curing agent and greater than 0 and up to about 10 percent by weight of a boron-containing compound.

Abstract: A method of forming a thermal protection system for high speed aircraft is described. The method includes mechanically working an uncured ablator material into a first surface of a felt layer such that the ablator material penetrates a distance into a thickness of the felt layer thereby forming an region that has a mixture of felt and ablator material, adding additional uncured ablator material to the worked ablator material, and curing the combined ablator material.

Abstract: A lightweight ablator formulation has been developed which offers superior thermal performance compared to current state of the art ablator formulations. The lightweight ablator formulations described herein typically include at least one endothermically decomposing (energy absorbing) material with a fluxing agent resulting in significantly reduced backface temperature response and a more stable surface. According to one implementation the ablator composition comprises about 30 to about 70 percent by weight of a base silicone resin, about 25 to about 67 percent by weight of a low-density filler, about 3 to about 7 percent by weight of a curing agent and greater than 0 and up to about 10 percent by weight of a boron-containing compound.