| CommScope, Inc. of North Carolina Patent applications |
| Patent application number | Title | Published |
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| 20110113626 | Cable and Connector Assembly Apparatus and Method of Use - A method for using a cable assembly apparatus for coupling a connector to a cable having a base supporting an interface pedestal dimensioned to receive the connector; an inductor coil coupled to an inductor coil actuator operable to move the inductor coil between a load position and an operation position proximate the interface pedestal; a grip clamp operable by a clamp actuator to move between an open position and a closed position above the interface pedestal; and a temperature sensor configured to read a temperature proximate the interface pedestal. The method includes using the apparatus for retaining the pre-assembled connector and cable in an aligned orientation for controlled heating by the induction heater to heat a solder preform to solder the connector to an outer conductor of the cable. | 05-19-2011 |
| 20100064857 | COAXIAL CABLE END PREPARATION TOOL AND RELATED METHODS - A cable end preparation tool for a coaxial cable may include a body having first and second opposing ends with a first recess in the first end, and a first blade carried by the body within the first recess for stripping an outer jacket of the cable to expose a portion of an outer conductor when the body is rotated relative to the cable. A second blade may be carried by the body within the first recess for stripping the outer conductor and a dielectric layer to expose a portion of an inner conductor when the body is rotated relative to the cable. The tool may further include a coring bit carried by the second end of the body for removing a portion of the dielectric layer between the inner conductor and the exposed portion of the outer conductor when the body is rotated relative to the coaxial cable. | 03-18-2010 |
| 20100064522 | COAXIAL CABLE END PREPARATION TOOL WITH DRIVE SHAFT AND RELATED METHODS - A cable end preparation tool is for a coaxial cable including an inner conductor, a dielectric layer surrounding the inner conductor, an outer conductor surrounding the dielectric layer, and an outer jacket surrounding the outer conductor. The tool may include a body having first and second opposing ends with a first recess in the first end and a second recess in the second end. A first blade may be carried within the first recess for stripping the outer jacket to expose a portion of the outer conductor when the body is rotated about the coaxial cable. A second blade may be carried within the first recess for stripping the outer conductor and dielectric layer to expose a portion of the inner conductor when the body is rotated relative to the coaxial cable. The tool may also include a coring bit having a cutting head and a drive shaft extending outwardly therefrom. | 03-18-2010 |
| 20100027181 | Coaxial In-Line Assembly - A fine arrestor having a body with a bore there through, an inner conductor within the bore, an inner conductor capacitor within the bore coupled between a surge portion of the inner conductor and a protected portion of the inner conductor, and an inner conductor inductor within the bore coupled electrically in parallel with the inner conductor capacitor. A first shorting portion coupled between the surge portion of the inner conductor and the body and a second shorting portion coupled between the protected portion of the inner conductor and the body, for conducting a surge to ground. Also, other coaxial in-line assemblies may be formed incorporating the inner conductor cavity for isolation of enclosed electrical components. | 02-04-2010 |
| 20090325420 | COUPLING NUT WITH CABLE JACKET RETENTION - A coupling nut for an electrical connector connectable to an electrical cable having an outer conductor surrounded by a jacket. The coupling nut formed as a cylindrical body with a bore extending between a cable end and a connector end. An annular wedge groove in the bore sidewall proximate the cable end with an angled wedge surface extending from the bore sidewall at a cable end side to a bottom diameter within the wedge groove. A snap ring retained in the wedge groove, an inner surface of the snap ring provided with a gripping feature. | 12-31-2009 |
| 20090294602 | SNAP-IN CABLE HANGER CLIP - A clip for a snap-in cable hanger with a top from which at least two clip arm(s) extend and at least one of the clip arm(s) formed with a clip tab projecting proximate a distal end. The top having a length greater than a diameter of the mounting hole and a width dimensioned to fit within a spring space when the snap-in cable hanger is seated upon the mounting hole. The clip arm(s) spaced apart proximate the diameter of the mounting hole, having a length longer than a depth of the mounting hole. | 12-03-2009 |
| 20090275344 | NETWORK MEASUREMENT REPORT CACHING FOR LOCATION OF MOBILE DEVICES - A system and method for determining an approximate location of a mobile device. The occurrence of a predetermined event may be determined at a first node of a network. Measurement data associated with the mobile device may be stored at a second node of the network. An attempt may be made to determine a location of the mobile device using a first location methodology. Upon failure of the location attempt, the mobile device data may be received at a third node of the network from the second node. At the third node an approximate location of the mobile device may be determined using the mobile device data. | 11-05-2009 |
| 20090233483 | Coaxial Cable Crimp Connector - A connector for semi-rigid outer conductor coaxial cable having a body provided with a connection interface at a connector end, a body bore and a crimp area around an outer surface of the body. The body bore dimensioned to receive the outer conductor together with a cylindrical sleeve dimensioned to receive the outer conductor therethrough when the outer conductor is folded back over the sleeve, to a position along the body bore corresponding to the crimp area. | 09-17-2009 |
| 20090232594 | Cable and Connector Assembly Apparatus and Method of Use - A cable assembly apparatus for coupling a connector to a cable having a base supporting an interface pedestal dimensioned to receive the connector; an inductor coil coupled to an inductor coil actuator operable to move the inductor coil between a load position and an operation position proximate the interface pedestal; a grip clamp operable by a clamp actuator to move between an open position and a closed position above the interface pedestal; and a temperature sensor configured to read a temperature proximate the interface pedestal. A method for using the apparatus retains the pre-assembled connector and cable in an aligned orientation for controlled heating by the induction heater to heat a solder preform to solder the connector to an outer conductor of the cable. | 09-17-2009 |
| 20090195956 | Low Bypass Fine Arrestor - A fine arrestor having a body with a bore there through, an inner conductor within the bore, an inner conductor capacitor within the bore coupled between a surge portion of the inner conductor and a protected portion of the inner conductor, and an inner conductor inductor within the bore coupled electrically in parallel with the inner conductor capacitor. A first shorting portion coupled between the surge portion of the inner conductor and the body and a second shorting portion coupled between the protected portion of the inner conductor and the body, for conducting a surge to ground. Also, other coaxial in-line assemblies may be formed incorporating the inner conductor cavity for isolation of enclosed electrical components. | 08-06-2009 |
| 20090177382 | Calibration of a Navigation System - A method and apparatus for correcting position error in a navigation system. A first set of positioning measurements of a device are determined from signals received from a first plurality of sources and a second set of positioning measurements of the device are determined from signals received from a second plurality of sources. A database comprising map-related information of a predetermined region is provided and a location of the device as a function of the first and second set of positioning measurements and selected map-related information is estimated. Errors in future estimated locations in a navigational system may be compensated by determining a divergence of the second set from the first set of positioning measurements. A navigational system that refines its accuracy over time is demonstrated whereby current estimates of location may be improved and data mapping utilized for future location estimates may be updated. | 07-09-2009 |
| 20090174600 | SYSTEM AND METHOD FOR DETERMINING THE GEOGRAPHIC LOCATION OF A DEVICE - A method and apparatus for estimating a location of a device. For each of a plurality of locations of a device, a set of positional data is determined from signals received from a plurality of satellites. The positional data is filtered and compared with data from a road network database. This comparison may be a function of a distance from at least one point defined by a set of the filtered positional data to a road in the road network database and an angle between a line representing a best fit for plural points defined by corresponding plural sets of the filtered positional data to a line defined by a road in the road network database. | 07-09-2009 |
| 20090151979 | COAXIAL CABLE INCLUDING TUBULAR BIMETALLIC OUTER LAYER WITH ANGLED EDGES AND ASSOCIATED METHODS - A coaxial cable may include an inner conductor, an outer conductor and a dielectric material layer therebetween. The outer conductor may include a tubular bimetallic layer and may have a pair of opposing longitudinal edge portions at a longitudinal seam. The tubular bimetallic layer may include an inner metal layer and an outer metal layer bonded thereto and coextensive therewith. In addition, the opposing longitudinal edge portions may be angled outwardly to define a pair of adjacent outwardly extending tabs. | 06-18-2009 |
| 20090151978 | COAXIAL CABLE INCLUDING TUBULAR BIMETALLIC OUTER LAYER WITH BEVELLED EDGE JOINT AND ASSOCIATED METHODS - A coaxial cable may include an inner conductor, an outer conductor, and a dielectric material layer therebetween. The outer conductor may include a tubular bimetallic layer having a pair of opposing longitudinal edges at a longitudinal seam. The tubular bimetallic layer may include an inner metal layer and an outer metal layer bonded thereto with the outer metal layer having a lower melting point than the inner layer. At least one of the opposing longitudinal edges of the tubular bimetallic layer may be at least partially bevelled. In addition, the longitudinal seam may include a welded joint between at least portions of the opposing longitudinal edges. | 06-18-2009 |
| 20090151977 | COAXIAL CABLE INCLUDING TUBULAR BIMETALLIC INNER LAYER WITH FOLDED EDGE PORTIONS AND ASSOCIATED METHODS - A coaxial cable may include an inner conductor, an outer conductor, and a dielectric material therebetween. The inner conductor may include a tubular bimetallic layer having a pair of opposing longitudinal edge portions at a longitudinal seam. The tubular bimetallic layer may include an inner metal layer and an outer metal layer bonded thereto. At least one of the opposing longitudinal edge portions may define at least one folded edge portion including an end portion of the inner metal layer extending beyond a corresponding end portion of the outer metal layer and being folded adjacent thereto and defining a non-joined interface therewith. The longitudinal seam may include a welded joint between at least portions of the inner metal layer. | 06-18-2009 |
| 20090151976 | COAXIAL CABLE INCLUDING TUBULAR BIMETALLIC INNER LAYER WITH ANGLED EDGES AND ASSOCIATED METHODS - A coaxial cable may include an inner conductor, an outer conductor and a dielectric material layer therebetween. The inner conductor may include a tubular bimetallic layer and may have a pair of opposing longitudinal edge portions at a longitudinal seam. The tubular bimetallic layer may include an inner metal layer and an outer metal layer bonded thereto and coextensive therewith. In addition, the opposing longitudinal edge portions may be angled inwardly to define a pair of adjacent inwardly extending tabs. | 06-18-2009 |
| 20090151975 | COAXIAL CABLE INCLUDING TUBULAR BIMETALLIC INNER LAYER WITH BEVELLED EDGE JOINT AND ASSOCIATED METHODS - A coaxial cable may include an inner conductor, an outer conductor, and a dielectric material layer therebetween. The inner conductor may include a tubular bimetallic layer having a pair of opposing longitudinal edges at a longitudinal seam. The tubular bimetallic layer may include an inner metal layer and an outer metal layer bonded thereto with the inner metal layer having a lower melting point than the outer layer. At least one of the opposing longitudinal edges of the tubular bimetallic layer may be at least partially bevelled. In addition, the longitudinal seam may include a welded joint between at least portions of the opposing longitudinal edges. | 06-18-2009 |
| 20090151974 | COAXIAL CABLE INCLUDING TUBULAR BIMETALLIC OUTER LAYER WITH FOLDED EDGE PORTIONS AND ASSOCIATED METHODS - A coaxial cable may include an inner conductor, an outer conductor, and a dielectric material therebetween. The outer conductor may include a tubular bimetallic layer having a pair of opposing longitudinal edge portions at a longitudinal seam. The tubular bimetallic layer may include an inner metal layer and an outer metal layer bonded thereto. At least one of the opposing longitudinal edge portions may define at least one folded edge portion including an end portion of the outer metal layer extending beyond a corresponding end portion of the inner metal layer and being folded adjacent thereto and defining a non-joined interface therewith. The longitudinal seam may include a welded joint between at least portions of the outer metal layer. | 06-18-2009 |
| 20090146878 | SYSTEM AND METHOD FOR POSITION CALCULATION OF A MOBILE DEVICE - A system and method for determining a location of a device. Plural signals from a first plurality of satellites may be received a the device where an estimated location of the device is determined as a function of frequency information from the signals. A location of the device may then be determined as a function of the estimated location and/or as a function of phase information from the signals. A second plurality of satellites may also be determined as a function of any one of the determined locations. In such embodiments, assistance data may be transmitted to the device that includes information from the second plurality of satellites. Another location of the device may then be determined from this information. | 06-11-2009 |
| 20090146877 | SYSTEM AND METHOD FOR PREVENTING A-GPS DEVICES FROM SEARCHING FOR SPECIFIC SATELLITES - A system and method for estimating the location of a wireless device. A set of satellites may be determined as a function of an approximate area in which the wireless device is located. Assistance data is transmitted to the device including information from the set of satellites, and a location of the device may be estimated from the information where the assistance data prevents the wireless device from searching for signals from one or more satellites in the set of satellites. The one or more satellites may be an operable satellite but signals therefrom cannot be measured or acquired by the wireless device. | 06-11-2009 |
| 20090146876 | SYSTEM AND METHOD FOR A-GPS POSITIONING OF A MOBILE DEVICE - A system and method for estimating the position of a mobile device using information from a constellation of satellites. A first set of satellites of the constellation may be selected and then a second set of satellites of the constellation may be selected as a function of signals received from the first set of satellites. Data may be transmitted to the mobile device based on signals received from the second set of satellites, and a location of the device estimated based on the data. One embodiment may select the second set as a function of an intersection of coverage areas of ones of the first set of satellites. Another embodiment may select the second set as a function of one or more satellites that are not occluded by the Earth from one or more of the first set of satellites. | 06-11-2009 |
| 20090146872 | METHOD AND SYSTEM FOR PROVIDING ASSISTANCE DATA FOR A-GPS LOCATION OF HANDSETS IN WIRELESS NETWORKS - A system and method for determining the location of a wireless device. A boundary for an approximate area in which the wireless device is located is determined and a plurality of satellites may be determined as a function of the boundary. Assistance data is transmitted to the device which includes information from the plurality of satellites, and the location of the wireless device may be determined from the information. In one embodiment, if the number of the plurality of satellites is greater than a predetermined threshold then the number of satellites may be reduced as a function of one or more of the elevation of each satellite above the horizon, a distance between each satellite to one or more other satellites, and an altitude of each satellite. | 06-11-2009 |
| 20090131075 | SYSTEM AND METHOD FOR LOCATING AN UNKNOWN BASE STATION - A system and method for estimating a location of an unknown Node B in a wireless communication system having a plurality of other nodes and a plurality of location measurement units. A first value may be determined based on a network timing characteristic for one of the nodes, and a second value may be determined based on a network measurement report characteristic from a user equipment (“UE”). An observed time difference of arrival (“OTDOA”) hyperbola may then be calculated based on the first and second values, and a location of the unknown Node B as a function of the OTDOA hyperbola. Therefore, through the combination of a UE network measurement report characteristic and a downlink timing measurement from a location measurement unit, the location of an unknown Node B may be determined. | 05-21-2009 |
| 20090069055 | Antenna with Cellular and Point-to-Point Communications Capability - An antenna includes one or more radiofrequency radiating elements for forming a radiofrequency beam and a point-to-point antenna for forming a point-to-point beam. The point-to-point element may be fixed with respect to the antenna's radome. Adjustment of the point-to-point element orientation may be achieved using the antenna mount to adjust the orientation of the point-to-point element and radome together. | 03-12-2009 |
| 20080311788 | COAXIAL CONNECTOR WITH INSULATOR MEMBER INCLUDING ELONGATE HOLLOW CAVITIES AND ASSOCIATED METHODS - A coaxial cable connector may include an insulator member including a forward portion, and a rearward portion extending rearwardly from the forward portion. The rearward portion may include a tubular outer conductor support portion for supporting an interior surface of the outer conductor of the end of the coaxial cable. The tubular outer conductor support portion may include a sidewall having a plurality of spaced apart hollow cavities extending therein. These cavities may advantageously provide the impedance matching and may be readily formed during manufacturing of the insulator member, such as by molding, for example. The connector may further include a housing having a forward and rearward ends and a medial portion therebetween, and a back nut threadingly engaging the rearward end of the connector housing. The insulator member may be positioned within the medial portion of the connector housing. A contact may be carried within the bore of the insulator member for connecting to the inner conductor of the end of the coaxial cable. | 12-18-2008 |
| 20080214205 | SYSTEM AND METHOD FOR GENERATING A LOCATION ESTIMATE USING A METHOD OF INTERSECTIONS - The location of a wireless mobile device may be estimated using, at least in part, one or more pre-existing Network Measurement Reports (“NMRs”) which include calibration data for a number of locations within a geographic region. The calibration data for these locations is gathered and analyzed so that particular grid points within the geographic region can be determined and associated with a particular set or sets of calibration data from, for example, one or more NMRs. Regions may be defined as a function of any number of parameters and respective predetermined ranges thereof in the NMRs. An intersection of these defined regions may be determined and the location of a mobile device may be estimated as a function of the intersection. | 09-04-2008 |
| 20080214184 | SYSTEM AND METHOD TO MODIFY WIRELESS NETWORK CALIBRATION DATA - A system and method to re-calibrate an area of a wireless communications network that has been exposed to one or more network configuration changes is disclosed. When one or more attributes of the wireless network undergo a change which impairs the geo-location capability to locate a mobile station, it can be detrimental to the safety and well being of the network users. Geo-location calculations rely on accurate and updated calibration data to correctly locate a mobile station. In some instances, it may be necessary to update the calibration data for areas of the network that have been exposed to network configuration changes. Modifying previously collected calibration data to account for changes that have occurred in the network may increase the accuracy of mobile station location estimation. | 09-04-2008 |
