Methods of design, manufacture and implementations of balanced twisted pair cables with a barrier tape or shield, with tuned attenuation, impedance, and coupling properties. A filler is included within the cable to separate the pairs and provide a support base for the shield, allowing for optimized ground plane uniformity and stability for tuned attenuation, impedance, and coupling properties. The filler orientation, shape, and size provides support for the shield such that a gap is provided between the shield and the twisted pairs with a given minimum size without increasing the maximum cable core size. The length of arms of the filler may be adjusted to fine-tune the size and shape of this gap and control air-dielectric volume and radial contact or spacing between any pair(s) and the shield, tuning electrical performance characteristics caused by non-linear effects of electromagnetic interactions at short ranges between the pairs, shield, filler, or other components.
The present disclosure describes manifold lay lengths for each twisted pair of conductors in a cable comprising at least one twisted pair of insulated conductors, reducing both internal and alien crosstalk. The lay length of each pair can be adjusted, either continuously or in discrete steps, between a shortest lay length and a longest lay length, such that each pair has each lay length at some longitudinal point along the cable. The lay lengths of each pair are staggered in their progression between shortest and longest lay length to avoid pairs having the same lay lengths for any significant length along the cable.
An overall network performance effectiveness improvement device that is configured to improve overall network performance based on a network availability level, a network capacity level, and/or a network quality level. The device may be configured to receive network availability data, network capacity data, and network quality data and calculate a network availability level, a network capacity level, and a network quality level based on such network availability data, network capacity data, and network quality data, to determine whether the calculated overall network performance effectiveness level is below a predetermined threshold overall network performance effectiveness level, and to cause a network improvement control event that is configured to improve overall network performance effectiveness of the network if the overall network performance effectiveness level is below a predetermined threshold overall network performance effectiveness level.
H04L 41/5009 - Determining service level performance parameters or violations of service level contracts, e.g. violations of agreed response time or mean time between failures [MTBF]
H04L 43/0805 - Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters by checking availability
H04L 43/0876 - Network utilisation, e.g. volume of load or congestion level
H04L 43/08 - Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters
H04L 41/0823 - Configuration setting characterised by the purposes of a change of settings, e.g. optimising configuration for enhancing reliability
H04L 41/0816 - Configuration setting characterised by the conditions triggering a change of settings the condition being an adaptation, e.g. in response to network events
H04L 41/082 - Configuration setting characterised by the conditions triggering a change of settings the condition being updates or upgrades of network functionality
H04L 41/0896 - Bandwidth or capacity management, i.e. automatically increasing or decreasing capacities
H04L 41/5025 - Ensuring fulfilment of SLA by proactively reacting to service quality change, e.g. by reconfiguration after service quality degradation or upgrade
An overall network performance effectiveness improvement device that is configured to improve overall network performance based on a network availability level, a network capacity level, and/or a network quality level. The device may be configured to receive network availability data, network capacity data, and network quality data and calculate a network availability level, a network capacity level, and a network quality level based on such network availability data, network capacity data, and network quality data, to determine whether the calculated overall network performance effectiveness level is below a predetermined threshold overall network performance effectiveness level, and to cause a network improvement control event that is configured to improve overall network performance effectiveness of the network if the overall network performance effectiveness level is below a predetermined threshold overall network performance effectiveness level.
09 - Scientific and electric apparatus and instruments
Goods & Services
Fiber optic cables
6.
INTERMITTENTLY BONDED OPTICAL FIBER RIBBON HAVING A REPEATING PATTERN OF BOND LENGTH AND GAP LENGTHS CONFIGURED TO ENHANCE FLEXIBILITY AND ROBUSTNESS OF THE OPTICAL FIBER RIBBON
An optical fiber ribbon may be intermittently bonded with a repeating pattern of bond lengths and gap lengths configured to enhance flexibility and robustness of the optical fiber ribbon. The ribbon may include a plurality of optical fibers where a first adjacent two of the optical fibers may be intermittently connected together by the bond portions arranged in a longitudinal pattern which may have a constant bond length or may have a constant distance between bond portions. A second adjacent two of the optical fibers may be intermittently connected together by the bond portions arranged in the longitudinal pattern where a first bond portion of the second adjacent two of the optical fibers may be offset from the first bond portion of the first adjacent two of the optical fibers in the longitudinal direction by a first offset length (O1).
G02B 6/44 - Mechanical structures for providing tensile strength and external protection for fibres, e.g. optical transmission cables
7.
INTERMITTENTLY BONDED OPTICAL FIBER RIBBON HAVING A REPEATING PATTERN OF BOND LENGTH AND GAP LENGTHS CONFIGURED TO ENHANCE FLEXIBILITY AND ROBUSTNESS OF THE OPTICAL FIBER RIBBON
An optical fiber ribbon may be intermittently bonded with a repeating pattern of bond lengths and gap lengths configured to enhance flexibility and robustness of the optical fiber ribbon. The ribbon may include a plurality of optical fibers where a first adjacent two of the optical fibers may be intermittently connected together by the bond portions arranged in a longitudinal pattern which may have a constant bond length or may have a constant distance between bond portions. A second adjacent two of the optical fibers may be intermittently connected together by the bond portions arranged in the longitudinal pattern where a first bond portion of the second adjacent two of the optical fibers may be offset from the first bond portion of the first adjacent two of the optical fibers in the longitudinal direction by a first offset length (O1).
Multi-conductor ribbon structures (200) may be structurally configured to reduce cable installation time. Such ribbon structures (200) may include an adjacent conductor portion (201A,201B) and a bonding portion (206) that may be structurally configured to surround at least a conductor portion (201A,201B) of the adjacent conductor portion. The adjacent conductor portion (201A,201B) may be partially or wholly surrounded by a coating portion (204A,204B) having an outer surface portion. The bonding portion (206) may form a separation portion (220) between the outer surface of each of the adjacent conductors (201A,201B). The separation portion (220) may include a reduced amount of the bonding material adjacent to a first portion of the adjacent conductor portion (201A,201B) relative to an amount of the bonding material portion adjacent a second portion of the adjacent conductor portion so as to provide a preferential separation region between the adjacent conductor portion at the first portion of the adjacent conductor portion. The bonding portion (206) may be structurally configured to preferentially detach, or separate at the preferential separation region in predetermined, uniform, or controlled manner, in response to a force that urges the first and second conductor portions (201A,201B) of the adjacent conductor portion away from one another.
G02B 6/44 - Mechanical structures for providing tensile strength and external protection for fibres, e.g. optical transmission cables
H01B 3/00 - Insulators or insulating bodies characterised by the insulating materialsSelection of materials for their insulating or dielectric properties
Multi-conductor ribbon structures may be structurally configured to reduce cable installation time. Such ribbon structures may include an adjacent conductor portion and a bonding portion that may be structurally configured to surround at least a conductor portion of the adjacent conductor portion. The adjacent conductor portion may be partially or wholly surrounded by a coating portion having an outer surface portion. The bonding portion may form a separation portion between the outer surface of each of the adjacent conductors. The separation portion may include a reduced amount of the bonding material adjacent to a first portion of the adjacent conductor portion relative to an amount of the bonding material portion adjacent a second portion of the adjacent conductor portion so as to provide a preferential separation region between the adjacent conductor portion at the first portion of the adjacent conductor portion. The bonding portion may be structurally configured to preferentially detach, or separate at the preferential separation region in predetermined, uniform, or controlled manner, in response to a force that urges the first and second conductor portions of the adjacent conductor portion away from one another.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Electrical/electronic wire and cable, cabling systems, comprised of electrical/electronic cable and electrical/electronic connectors, and parts and fittings therefor, for voice, data, video, power and control; Telecommunications and data networking hardware, namely, devices for transporting and aggregating voice, data, and video communications across multiple network infrastructures and communications protocols. Computer project management services in the fields of manufacturing, mass transit, energy consumption and building security; Professional computer services, namely, network analysis, LAN/WAN design, wireless engineering, virtualization and computer project management.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
(1) Electrical/electronic wire and cable, cabling systems, comprised of electrical/electronic cable and electrical/electronic connectors, and parts and fittings therefor, for voice, data, video, power and control; telecommunications and data networking hardware, namely, devices for transporting and aggregating voice, data and video communications across multiple network infrastructures and communications protocols; (1) Computer project management services in the fields of manufacturing, mass transit, energy consumption and building security; professional computer services, namely, network analysis, LAN/WAN design, wireless engineering, virtualization and computer project management;
09 - Scientific and electric apparatus and instruments
Goods & Services
Electrical/electronic wire and cable; cable connectors; end
to end products for high speed media agnostic signal
delivery, namely, termination blocks, copper and fiber cable
distribution terminals, premise distribution terminals for
copper and fiber cables, and premise broadband distribution
adapter modules; wall jacks for telecommunications and data;
electric control factory-loaded patch panels; electric
control modular patch panels; face plate to affix to the
wall jacks and electric control panels.
42 - Scientific, technological and industrial services, research and design
Goods & Services
Computer project management services in the fields of manufacturing, mass transit, energy consumption and building security; professional computer services, namely, network analysis, LAN/WAN design, wireless engineering, virtualization and computer project management
09 - Scientific and electric apparatus and instruments
Goods & Services
Electrical/electronic wire and cable, cabling systems, comprised of electrical/electronic cable and electrical/electronic connectors, and parts and fittings therefor, for voice, data, video, power and control; Telecommunications and data networking hardware, namely, devices for transporting and aggregating voice, data, and video communications across multiple network infrastructures and communications protocols.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electrical and electronic wire and cable, cabling systems, comprised of electrical and electronic cable and electrical and electronic connectors, and parts and fittings therefor, for voice, data, video, power and control; Telecommunications and data networking hardware, namely, devices for transporting and aggregating voice, data, and video communications across multiple network infrastructures and communications protocols
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Electrical/electronic wire and cable, cabling systems, comprised of electrical/electronic cable and electrical/electronic connectors, and parts and fittings therefor, for voice, data, video, power and control; Telecommunications and data networking hardware, namely, devices for transporting and aggregating voice, data, and video communications across multiple network infrastructures and communications protocols
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Electrical/electronic wire and cable; cable connectors; end to end products for high speed media agnostic signal delivery, namely, termination blocks, copper and fiber cable distribution terminals, premise distribution terminals for copper and fiber cables, and premise broadband distribution adapter modules; wall jacks for telecommunications and data; electric control factory-loaded patch panels; electric control modular patch panels; face plate to affix to the wall jacks and electric control panels.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electrical and electronic wire and cable, cabling systems for voice, data, video, power and control, comprised of electrical and electronic cable and electrical and electronic connectors, and parts and fittings therefor; Telecommunications and data networking hardware, namely, devices for transporting and aggregating voice, data, and video communications across multiple network infrastructures and communications protocols
09 - Scientific and electric apparatus and instruments
Goods & Services
Electrical copper and fiber wires and cables; cable connectors; end to end products for high speed media agnostic signal delivery, namely, electrical termination blocks, copper and fiber cable distribution terminals being electrical power distribution blocks, premise distribution electrical terminal blocks for copper and fiber cables, and premise broadband distribution electric adapter cable modules; wall jacks for telecommunications and data being connectors for electronic circuits; face plate to affix to the wall jacks and electric control panels being electrical outlet plates
20.
CABLES WITH CORRUGATED DIELECTRIC ARMOR CONFIGURED TO PROVIDE ENHANCED CRUSH RESISTANCE AND/OR BENDING PERFORMANCE
An armored cable (100) includes a cable core (102) including at least one transmission element and a corrugated armor (104) configured to surround the cable core (102). The corrugated armor (104) is configured to include raised portions (110) and recessed portions (130) along a length of the cable, the raised portions configured to be separated from one another by exterior grooves (112), and the recessed portions configured to be separated from one another by interior grooves (132). One of the raised portions (110) is connected to one of the recessed portions (130) by a radial wall (140) that may be configured to provide the corrugated armor (104) with enhanced crush resistance.
An armored cable may include a cable core including at least one transmission element and a corrugated armor configured to surround the cable core. The corrugated armor may be configured to include raised portions and recessed portions along a length of the cable, the raised portions may be configured to be separated from one another by exterior grooves, and the recessed portions may be configured to be separated from one another by interior grooves. One of the raised portions may be connected to one of the recessed portions by a radial wall that may be configured to provide the corrugated armor with enhanced crush resistance.
The present disclosure describes methods of manufacture and implementations of hybrid separators for data cables having conductive and non-conductive or metallic and non-metallic portions, and data cables including such hybrid separators. A hybrid separator comprising one or more conductive portions and one or more non-conductive portions may be positioned within a data cable between adjacent pairs of twisted insulated and shielded or unshielded conductors so as to provide physical and electrical separation of the conductors. The position and extent (laterally and longitudinally) of each conductive portion and each non-conductive portion may be selected for optimum performance of the data cable, including attenuation or rejection of cross talk, reduction of return loss, increase of stability, and control of impedance.
A bi-wire audio cable system designed to reduce propagation velocity (Vp) differentials between low and high frequencies within the audio band, by adjusting the resistive and capacitive components of the cables. By utilizing two cables, one for low frequencies and one for high frequencies, with different characteristics, the impedance of the cables can be configured to be relatively consistent across the audio spectrum, minimizing the change in Vp, thereby increasing audio fidelity. The bi-wire audio system can include a first (e.g. high frequency) cable with a first plurality of insulated conductors having a first conductor gauge; and a second (e.g. low frequency) cable with a second plurality of insulated conductors having a second, larger conductor gauge. The cables can be connected together at an output of an amplifier, and can be connected to corresponding low and high frequency inputs of a speaker (e.g. a woofer and tweeter).
The present disclosure describes manifold lay lengths for each twisted pair of conductors in a cable comprising at least one twisted pair of insulated conductors, reducing both internal and alien crosstalk. The lay length of each pair can be adjusted, either continuously or in discrete steps, between a shortest lay length and a longest lay length, such that each pair has each lay length at some longitudinal point along the cable. The lay lengths of each pair are staggered in their progression between shortest and longest lay length to avoid pairs having the same lay lengths for any significant length along the cable.
The present disclosure describes manifold lay lengths for each twisted pair of conductors in a cable comprising at least one twisted pair of insulated conductors, reducing both internal and alien crosstalk. The lay length of each pair can be adjusted, either continuously or in discrete steps, between a shortest lay length and a longest lay length, such that each pair has each lay length at some longitudinal point along the cable. The lay lengths of each pair are staggered in their progression between shortest and longest lay length to avoid pairs having the same lay lengths for any significant length along the cable.
ppp, thereby increasing audio fidelity. The bi-wire audio system can include a first (e.g. high frequency) cable with a first plurality of insulated conductors having a first conductor gauge; and a second (e.g. low frequency) cable with a second plurality of insulated conductors having a second, larger conductor gauge. The cables can be connected together at an output of an amplifier, and can be connected to corresponding low and high frequency inputs of a speaker (e.g. a woofer and tweeter).
A fiber optic furcation assembly can include a fan-out structure having a conduit extending from a first face of the fan-out structure to an opposing second face of the fan-out structure. The fiber optic furcation assembly can include a furcation tube, positioned within the conduit, extending to a terminal end beyond the second face of the fan-out structure. The fiber optic furcation assembly can include a fiber pull, positioned within the furcation tube, protruding in a first portion beyond the first face of the fan-out structure, and protruding in a second portion beyond the terminal end of the furcation tube. The fiber optic furcation assembly can include an attachment structure fixed to the first portion of the fiber pull. The attachment structure can receive and couple with an optical fiber. The fiber pull, and the attachment structure can both have a diameter less than a diameter of the furcation tube.
The present disclosure describes apparatuses and methods for separating and installing optical fibers into furcation tubing. A modular fiber optic furcation assembly can include one or more furcation bodies, each comprising a plurality of parallel conduits oriented in a single plane and extending from a first face of the furcation body to an opposing second face of the furcation body; and an attachment mechanism to removably attach the furcation body to at least one additional furcation body on a face orthogonal to each of the first face and second face of the fan-out structure.
The present disclosure describes apparatuses and methods for separating and installing optical fibers into furcation tubing. A fiber optic furcation assembly can include a fan-out structure. The fan out structure can include a conduit, and the conduit can extend from a first face of the fan-out structure to an opposing second face of the fan-out structure. The fiber optic furcation assembly can also include a furcation tube. The furcation tube can be positioned within the conduit, and the furcation tube can extend to a terminal end beyond the second face of the fan-out structure. The fiber optic furcation assembly can also include a fiber pull. The fiber pull can be positioned within the furcation tube, and the fiber pull can protrude in a first portion beyond the first face of the fan-out structure and the fiber pull can protrude in a second portion beyond the terminal end of the furcation tube, and the fiber optic furcation assembly can also include an attachment structure. The attachment structure can be fixed to the first portion of the fiber pull, and the attachment structure can receive and couple with an optical fiber. The fiber pull can include a diameter and the attachment structure can include a diameter. The diameter of the fiber pull and the diameter of the attachment structure can be less than a diameter of the furcation tube.
G02B 6/44 - Mechanical structures for providing tensile strength and external protection for fibres, e.g. optical transmission cables
G02B 6/54 - Underground or underwater installationInstallation through tubing, conduits or ducts using mechanical means, e.g. pulling or pushing devices
30.
APPARATUSES AND METHODS FOR MODULAR OPTICAL FIBER FURCATION
The present disclosure describes apparatuses and methods for separating and installing optical fibers into furcation tubing. A modular fiber optic furcation assembly can include one or more furcation bodies, each comprising a plurality of parallel conduits oriented in a single plane and extending from a first face of the furcation body to an opposing second face of the furcation body; and an attachment mechanism to removably attach the furcation body to at least one additional furcation body on a face orthogonal to each of the first face and second face of the fan-out structure.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electronic cables, namely, control cables for the
transmission of signals for the control of the action of
equipment or machinery in industrial settings designated for
factory floor installation.
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Electronic cables, namely, control cables for the transmission of signals for the control of the action of equipment or machinery in industrial settings designated for factory floor installation.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Downloadable computer operating software and computer firmware for access, administration, management, collaboration, networking, remote access, and remote support of computer applications, namely, computer hardware in cloud computer networks and LAN (local area computer network) hardware and computer cards for connecting portable computer devices to computer networks, for sharing, recording, collection, analysis and transmission of data, images and information over such computer network; online project management software; computer software and downloadable computer software for searching and retrieving information on computer networks; computer firmware, computer hardware and computer networking hardware for accessing networked devices, collecting data from networked devices, searching and retrieving information on computer networks. Software as a Service (SaaS) services, featuring non-downloadable computer software and non-downloadable computer software applications for access to and use of cloud-based and data center computer networks, cloud-based and data center software application solutions, cloud-based and data center computer firmware, cloud-based and data center computer hardware, and cloud-based and data center computer systems; online monitoring services for computer systems to detect and report hardware and software status, performance issues and vulnerabilities to ensure proper functioning; Electronic data storage; Software as a service (SAAS) services featuring software for database management, networking, collaboration, remote access, remote support in the nature of troubleshooting and data collection, data sharing, data security; Software as a service (SAAS) services featuring software for access, administration and management of computer applications and computer hardware, computer application distribution, transmission of data, images and information, and for content and online project management.
09 - Scientific and electric apparatus and instruments
Goods & Services
Computer hardware and software, used alone or in combination, for use in or with a computer network in the field of industrial control and data management.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electronic cables, namely, control cables for the transmission of signals for the control of the action of equipment or machinery in industrial settings designated for factory floor installation
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Downloadable computer operating software and downloadable computer firmware for access, administration, management, networking, remote access, and remote support of computer applications, namely, computer hardware in cloud computer networks and LAN (local area computer network) hardware for connecting portable computer devices to computer networks, for sharing, recording, collection, analysis and transmission of data, images and information over such computer network; downloadable computer software for searching and retrieving information on computer networks; computer firmware, computer hardware and computer networking hardware for accessing networked devices, collecting data from networked devices, searching and retrieving information on computer networks Software as a Service (SaaS) services, featuring non-downloadable computer software and non-downloadable computer software applications for access to and use of cloud-based and data center computer networks, cloud-based and data center software application solutions, cloud-based and data center computer firmware, cloud-based and data center computer hardware, and cloud-based and data center computer systems; online monitoring services for computer systems to detect and report hardware and software status, performance issues and vulnerabilities to ensure proper functioning; Electronic data storage; Software as a service (SAAS) services featuring software for networking, remote access, remote support in the nature of troubleshooting and data collection, data sharing, data security, Software as a service (SAAS) services featuring software for access, administration and management of computer applications and computer hardware, and computer application distribution
43.
Hybrid high frequency separator with parametric control ratios of conductive components
The present disclosure describes methods of manufacture and implementations of hybrid separators for data cables having conductive and non-conductive or metallic and non-metallic portions, and data cables including such hybrid separators. A hybrid separator comprising one or more conductive portions and one or more non-conductive portions may be positioned within a data cable between adjacent pairs of twisted insulated and shielded or unshielded conductors so as to provide physical and electrical separation of the conductors. The position and extent (laterally and longitudinally) of each conductive portion and each non-conductive portion may be selected for optimum performance of the data cable, including attenuation or rejection of cross talk, reduction of return loss, increase of stability, and control of impedance.
09 - Scientific and electric apparatus and instruments
Goods & Services
computer hardware for use in or with a computer network in the field of industrial control and data management; recorded computer software for operating computer hardware for use in or with a computer network in the field of industrial control and data management
45.
Shield-supporting filler for data communications cables
Methods of design, manufacture and implementations of balanced twisted pair cables with a barrier tape or shield, with tuned attenuation, impedance, and coupling properties. A filler is included within the cable to separate the pairs and provide a support base for the shield, allowing for optimized ground plane uniformity and stability for tuned attenuation, impedance, and coupling properties. The filler orientation, shape, and size provides support for the shield such that a gap is provided between the shield and the twisted pairs with a given minimum size without increasing the maximum cable core size. The length of arms of the filler may be adjusted to fine-tune the size and shape of this gap and control air-dielectric volume and radial contact or spacing between any pair(s) and the shield, tuning electrical performance characteristics caused by non-linear effects of electromagnetic interactions at short ranges between the pairs, shield, filler, or other components.
Methods of design, manufacture and implementations of balanced twisted pair cables with a barrier tape or shield, with tuned attenuation, impedance, and coupling properties. A filler is included within the cable to separate the pairs and provide a support base for the shield, allowing for optimized ground plane uniformity and stability for tuned attenuation, impedance, and coupling properties. The filler orientation, shape, and size provides support for the shield such that a gap is provided between the shield and the twisted pairs with a given minimum size without increasing the maximum cable core size. The length of arms of the filler may be adjusted to fine-tune the size and shape of this gap and control air-dielectric volume and radial contact or spacing between any pair(s) and the shield, tuning electrical performance characteristics caused by non-linear effects of electromagnetic interactions at short ranges between the pairs, shield, filler, or other components.
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Apparatus for routing, connecting and terminating fiber optic cables, namely, plastic conduits for fiber optic cables, fiber optic cables, fiber optic cables that are terminated with fiber optic cable connectors; protective sheaths for fiber optic cables; protective sheaths for fiber optic cables specially adapted to limit the minimum radius below which fiber optic cables should not be bent for reasons of optical and mechanical performance of the fiber optic cables
09 - Scientific and electric apparatus and instruments
Goods & Services
Apparatus for routing, connecting and terminating fiber optic cables, namely, plastic conduits for fiber optic cables, fiber optic cables, fiber optic cables that are terminated with fiber optic cable connectors; protective sheaths for fiber optic cables; protective sheaths for fiber optic cables specially adapted to limit the minimum radius below which fiber optic cables should not be bent for reasons of optical and mechanical performance of the fiber optic cables
09 - Scientific and electric apparatus and instruments
Goods & Services
Cable and wire products, namely, industrial electrical and electronic connectors, electrical, electronic, data, and fiber optic cables, and electrical wires for transmission of data and communication purposes
50.
Systems and methods for retransmission rate selection to support fast moving devices
The present disclosure is directed generally to systems and methods for dynamically selecting a retransmission rate for communication between two devices. The retransmission rate may be selected after a transmission has failed between the devices. In some embodiments, the retransmission rate may be selected based on relative velocity of the devices. In some embodiments, the retransmission rate may be selected based on transmission channel characteristics. The retransmission rate may be selected such that the retransmission will be less than an allowable transmission rate based on a distance between the two devices.
37 - Construction and mining; installation and repair services
42 - Scientific, technological and industrial services, research and design
45 - Legal and security services; personal services for individuals.
Goods & Services
Construction project management services for others in the fields of manufacturing, mass transit, energy consumption and building security Computer project management services in the fields of manufacturing, mass transit, energy consumption and building security; professional computer services, namely, network analysis, LAN/WAN design, wireless engineering, virtualization and computer project management Technical consultation in the field of building security
37 - Construction and mining; installation and repair services
42 - Scientific, technological and industrial services, research and design
45 - Legal and security services; personal services for individuals.
Goods & Services
Construction project management services for others in the fields of manufacturing, mass transit, energy consumption and building security Computer project management services in the fields of manufacturing, mass transit, energy consumption and building security; professional computer services, namely, network analysis, LAN/WAN design, wireless engineering, virtualization and computer project management Technical consultation in the field of building security
53.
A ALPHAWIRE CABLES YOU TRUST. SERVICE YOU DESERVE.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electrical/electronic wire and cable; cabling systems comprised of electrical/electronic cable and electrical/electronic connectors, and parts and fittings therefor, for voice, data, video, power and control
56.
Method and protection apparatus to prevent malicious information communication in IP networks by exploiting benign networking protocols
Systems and methods of the disclosure can implement intrusion radiation protection (IRP) to prevent malicious IP traffic in a secure network. The IRP system can receive an IP packet, determine that a protocol of the IP packet matches a predetermined policy of a plurality of predetermined policies, classify the IP packet based on the predetermined policy and a size of the IP packet, inspect a payload of the IP packet responsive to the classification to determine features of the IP packet, determine that one of the features of the IP packet is improper based on the classification, and flag the IP packet as suspect based on the determination. The IRP system can log and/or drop the flagged IP packet. The IRP system can additionally replace a payload of the IP packet with a second payload, and transmit the IP packet with the second payload to its destination.
H04L 61/4511 - Network directoriesName-to-address mapping using standardised directoriesNetwork directoriesName-to-address mapping using standardised directory access protocols using domain name system [DNS]
The present disclosure describes improved splices for joining ladder rack sections that provide a conductive ground connection, without requiring removal of paint, drilling additional holes, or installation of ground straps between sections. The splices also provide a solid physical connection between ladder rack sections, ensuring safety and stability of the rack system.
H02G 3/06 - Joints for connecting lengths of protective tubing to each other or to casings, e.g. to distribution boxEnsuring electrical continuity in the joint
H02G 1/00 - Methods or apparatus specially adapted for installing, maintaining, repairing, or dismantling electric cables or lines
H02G 1/08 - Methods or apparatus specially adapted for installing, maintaining, repairing, or dismantling electric cables or lines for laying cables, e.g. laying apparatus on vehicle through tubing or conduit, e.g. rod or draw wire for pushing or pulling
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
Two electromagnetic interference (EMI) controlling tape application methodologies for unshielded twisted pair (UTP) cable include Fixed Tape Control (FTC) and Oscillating Tape Control (OTC). In FTC, tape application angle and edge placement are controlled to maintain position of the tape edges over a base of nonconductive filler in the cable. In OTC, the tape application angle is continuously varied, resulting in crossing of the tape edges over all of the pairs of conductors with varying periodicity. In both implementations, the filler allows a cylindrical shape.
The present disclosure describes methods of manufacture and implementations of cable storage and dispensing systems combining the advantages of reel-based systems and box-based systems. The present system may be manufactured entirely out of corrugated cardboard or similar materials, reducing expense and weight compared to systems with wood, plastic, or metal reels or flanges, and adding recyclability in a single paper-based waste stream. The system may dispense cable in the same manner as reel-based systems, reducing tangling and aiding installation and deployment compared to box-based systems that do not utilize reels or spools. The system does not require the use of reel stands or other external components, and may be light and portable.
B65H 75/22 - Constructional details collapsibleConstructional details with removable parts
B65D 85/04 - Containers, packaging elements or packages, specially adapted for particular articles or materials for annular articles for coils of wire, rope or hose
Two electromagnetic interference (EMI) controlling tape application methodologies for unshielded twisted pair (UTP) cable include Fixed Tape Control (FTC) and Oscillating Tape Control (OTC). In FTC, tape application angle and edge placement are controlled to maintain position of the tape edges over a base of nonconductive filler in the cable. In OTC, the tape application angle is continuously varied, resulting in crossing of the tape edges over all of the pairs of conductors with varying periodicity. In both implementations, the filler allows a cylindrical shape.
44 - Medical, veterinary, hygienic and cosmetic services; agriculture, horticulture and forestry services
Goods & Services
Providing substance use disorder rehabilitation and substance use disorder and addiction treatment services; Rehabilitation for substance use disorder employees and potential employees; Rehabilitation of substance use disorder or drug addicted employees and potential employees
09 - Scientific and electric apparatus and instruments
Goods & Services
Fiber optic connections, namely, fiber optic housings, fiber optic cassettes, frames used to provide cable interconnections between fiber optic cables, and fiber optic adapter strips
09 - Scientific and electric apparatus and instruments
Goods & Services
Electronic cables; coaxial cables; category Ethernet cables; multi-conductor cables, namely, an electrical cable consisting of multiple numbers of conductors with insulation sheaths placed in a single cable; fiber optic cables; telecommunication cables; ethernet cables; data cables; power cables; video cables; audio cables and electric wires packaged in a dispenser
Two electromagnetic interference (EMI) controlling tape application methodologies for unshielded twisted pair (UTP) cable include Fixed Tape Control (FTC) and Oscillating Tape Control (OTC). In FTC, tape application angle and edge placement are controlled to maintain position of the tape edges over a base of nonconductive filler in the cable. In OTC, the tape application angle is continuously varied, resulting in crossing of the tape edges over all of the pairs of conductors with varying periodicity. In both implementations, the filler allows a cylindrical shape.
The present disclosure is directed generally to systems and methods for dynamically selecting a retransmission rate for communication between two devices. The retransmission rate may be selected after a transmission has failed between the devices. In some embodiments, the retransmission rate may be selected based on relative velocity of the devices. In some embodiments, the retransmission rate may be selected based on transmission channel characteristics. The retransmission rate may be selected such that the retransmission will be less than an allowable transmission rate based on a distance between the two devices.
Systems and methods of the disclosure can implement intrusion radiation protection (IRP) to prevent malicious IP traffic in a secure network. The IRP system can receive an IP packet, determine that a protocol of the IP packet matches a predetermined policy of a plurality of predetermined policies, classify the IP packet based on the predetermined policy and a size of the IP packet, inspect a payload of the IP packet responsive to the classification to determine features of the IP packet, determine that one of the features of the IP packet is improper based on the classification, and flag the IP packet as suspect based on the determination. The IRP system can log and/or drop the flagged IP packet. The IRP system can additionally replace a payload of the IP packet with a second payload, and transmit the IP packet with the second payload to its destination.
Systems and methods of the disclosure can implement intrusion radiation protection (IRP) to prevent malicious IP traffic in a secure network. The IRP system can receive an IP packet, determine that a protocol of the IP packet matches a predetermined policy of a plurality of predetermined policies, classify the IP packet based on the predetermined policy and a size of the IP packet, inspect a payload of the IP packet responsive to the classification to determine features of the IP packet, determine that one of the features of the IP packet is improper based on the classification, and flag the IP packet as suspect based on the determination. The IRP system can log and/or drop the flagged IP packet. The IRP system can additionally replace a payload of the IP packet with a second payload, and transmit the IP packet with the second payload to its destination.
A cable having low values for resistance, inductance, and capacitance. The cable includes a plurality of conductors for each signal or leg, which may be configured as a braid of three subsets of braids of bonded pairs of insulated conductors. The bonded pairs may be twisted or untwisted, in close proximity such that inductance is reduced via magnetic field cancellation. Each leg may be separate and parallel, rather than interwoven or braided together, increasing the distance between the two signals and reducing capacitance. The legs may be positioned close to each other, such that their magnetic fields cancel to further reduce inductance.
H01B 7/00 - Insulated conductors or cables characterised by their form
H01B 7/30 - Insulated conductors or cables characterised by their form with arrangements for reducing conductor losses when carrying AC, e.g. due to skin effect
H01B 11/12 - Arrangements for exhibiting specific transmission characteristics
H01B 3/44 - Insulators or insulating bodies characterised by the insulating materialsSelection of materials for their insulating or dielectric properties mainly consisting of organic substances plasticsInsulators or insulating bodies characterised by the insulating materialsSelection of materials for their insulating or dielectric properties mainly consisting of organic substances resinsInsulators or insulating bodies characterised by the insulating materialsSelection of materials for their insulating or dielectric properties mainly consisting of organic substances waxes vinyl resinsInsulators or insulating bodies characterised by the insulating materialsSelection of materials for their insulating or dielectric properties mainly consisting of organic substances plasticsInsulators or insulating bodies characterised by the insulating materialsSelection of materials for their insulating or dielectric properties mainly consisting of organic substances resinsInsulators or insulating bodies characterised by the insulating materialsSelection of materials for their insulating or dielectric properties mainly consisting of organic substances waxes acrylic resins
69.
Systems and methods for obtaining available channels for fast channel switching
The present disclosure is directed generally to systems and methods for scheduling dynamic frequency selection channel availability checks. The systems and methods may include detecting lull times in between servicing clients, and scanning for channel availability during the lull times.
The present disclosure is directed generally to systems and methods for scheduling dynamic frequency selection channel availability checks. The systems and methods may include detecting lull times in between servicing clients, and scanning for channel availability during the lull times.
Audio cables including a conductor spirally wrapped in a non-conductive thread to centrally position the conductor within a channel comprising mostly air include a first conductor having a first diameter, and a non-conductive thread spirally wrapped around the center conductor, the non-conductive thread having a second diameter. A first jacket surrounds the center conductor and thread, having an inner diameter approximately equal to the first diameter plus twice the second diameter. A second conductor surrounds the first jacket and/or the center conductor and thread. In many implementations, the first diameter is less than the second diameter. A radially symmetric filler comprising a plurality of arms may form a corresponding plurality of channels.
09 - Scientific and electric apparatus and instruments
Goods & Services
Cable and wire products, namely, electrical cables, electronic cables, electrical wires, electronic wires, fiber optic cables, telecommunications cables, industrial telecommunication cables, telecommunications cables for use in transmitting data, electric and electronic wires for use with telecommunications and fiber optic telecommunications, industrial electric and electronic wires for use with telecommunications and fiber optic telecommunications, and industrial power wires
One embodiment relates to a method for producing cable. The method includes applying an insulative coating to each of a plurality of conductors to form a plurality of insulated conductors. The method further includes taking up the plurality of insulated conductors in a twisting system to twist the plurality of insulated conductors together and apply a first portion of a desired twist to the plurality of insulated conductors. The method further includes paying off the plurality of insulated conductors from the twisting system to further twist the plurality of insulated conductors together and apply a second portion of a desired twist to the plurality of insulated conductors to form a twisted plurality of insulated conductors.
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Electrical and electronic jacks for voice, data, video, power and control wires and cables
(2) Compression crimp and wire cutting hand tool for voice, data, wire, power and control wires and cables
(3) Electrical and electronic plugs, electrical and electronic connectors namely marretts and twist on wire connectors, wire managers namely racks, brackets, clips and holders to separate and hold wire, wire caps namely marretts and twist on wire connectors and tool therefor namely wrenches for holding and twisting or clamping for voice, data, video, power and control
09 - Scientific and electric apparatus and instruments
Goods & Services
Electrical/electronic jacks, electrical/electronic plugs, electrical/electronic connectors, wire manager, wire caps and tools therefor, all of these goods for use with wires carrying voice, data, video, power and control signals.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electrical and electronic jacks for voice, data, video, power and control wires and cables Compression crimp and wire cutting hand tool for voice, data, wire, power and control wires and cables Electrical and electronic plugs, electrical and electronic connectors, wire managers, namely, a wire connector and cap for electric contacts to snap on to the wire separator
The present disclosure describes implementations of audio cables including a conductor spirally wrapped in a non-conductive thread to centrally position the conductor within a channel comprising mostly air, reducing propagation delay and self-inductance compared to cables utilizing non-air dielectric materials that completely surround the conductor. A balanced audio cable includes a radially symmetric filler comprising a plurality of arms forming a corresponding plurality of channels. The cable also includes a plurality of conductors, each approximately centered within a corresponding channel. The cable further includes a plurality of non-conductive threads, each spirally wrapped around a conductor of the plurality of conductors. In some implementations, the cable also includes a jacket surrounding the filler, conductors, and threads.
H01B 7/30 - Insulated conductors or cables characterised by their form with arrangements for reducing conductor losses when carrying AC, e.g. due to skin effect
H01B 11/04 - Cables with twisted pairs or quads with pairs or quads mutually positioned to reduce cross-talk
H01B 11/18 - Coaxial cablesAnalogous cables having more than one inner conductor within a common outer conductor
H01B 11/12 - Arrangements for exhibiting specific transmission characteristics
H01B 7/18 - Protection against damage caused by external factors, e.g. sheaths or armouring by wear, mechanical force or pressure
Implementations of audio cables including a conductor spirally wrapped in a non-conductive thread to centrally position the conductor within a channel comprising mostly air include a first conductor having a first diameter, and a non-conductive thread spirally wrapped around the center conductor, the non-conductive thread having a second diameter. A first jacket surrounds the center conductor and thread, having an inner diameter approximately equal to the first diameter plus twice the second diameter. A second conductor surrounds the first jacket and/or the center conductor and thread. In many implementations, the first diameter is less than the second diameter.
H01B 7/00 - Insulated conductors or cables characterised by their form
H01B 7/30 - Insulated conductors or cables characterised by their form with arrangements for reducing conductor losses when carrying AC, e.g. due to skin effect
H01B 11/04 - Cables with twisted pairs or quads with pairs or quads mutually positioned to reduce cross-talk
H01B 11/12 - Arrangements for exhibiting specific transmission characteristics
H01B 11/18 - Coaxial cablesAnalogous cables having more than one inner conductor within a common outer conductor
H01B 7/18 - Protection against damage caused by external factors, e.g. sheaths or armouring by wear, mechanical force or pressure
83.
IMPROVED HIGH PERFORMANCE DATA COMMUNICATIONS CABLE
The present disclosure describes two electromagnetic interference (EMI) controlling tape application methodologies for unshielded twisted pair (UTP) cable, Fixed Tape Control (FTC) and Oscillating Tape Control (OTC). In FTC, tape application angle and edge placement are controlled to maintain position of the tape edges over a base of nonconductive filler in the cable. In OTC, the tape application angle is continuously varied, resulting in crossing of the tape edges over all of the pairs of conductors with varying periodicity. In both implementations, alien crosstalk and return losses are improved, while the filler allows a cylindrical shape for optimized ground plane uniformity and stability for improved impedance and return loss performance.
Two electromagnetic interference (EMI) controlling tape application methodologies for unshielded twisted pair (UTP) cable include Fixed Tape Control (FTC) and Oscillating Tape Control (OTC). In FTC, tape application angle and edge placement are controlled to maintain position of the tape edges over a base of nonconductive filler in the cable. In OTC, the tape application angle is continuously varied, resulting in crossing of the tape edges over all of the pairs of conductors with varying periodicity. In both implementations, the filler allows a cylindrical shape.
The present disclosure describes a cable (220) designed to minimize values for resistance, inductance, and capacitance, without the trade¬ offs of typical designs. The cable includes a plurality of conductors for each signal or leg (204A, 204B), which may be configured as a braid of three subsets of braids of bonded pairs of insulated conductors. The bonded pairs may be twisted or untwisted, in close proximity such that inductance is reduced via magnetic field cancellation. Each leg may be separate and parallel, rather than interwoven or braided together, increasing the distance between the two signals and reducing capacitance. The legs may be positioned close to each other, such that their magnetic fields cancel to further reduce inductance.
A cable having low values for resistance, inductance, and capacitance. The cable includes a plurality of conductors for each signal or leg, which may be configured as a braid of three subsets of braids of bonded pairs of insulated conductors. The bonded pairs may be twisted or untwisted, in close proximity such that inductance is reduced via magnetic field cancellation. Each leg may be separate and parallel, rather than interwoven or braided together, increasing the distance between the two signals and reducing capacitance. The legs may be positioned close to each other, such that their magnetic fields cancel to further reduce inductance.
H01B 7/00 - Insulated conductors or cables characterised by their form
H01B 7/30 - Insulated conductors or cables characterised by their form with arrangements for reducing conductor losses when carrying AC, e.g. due to skin effect
D04C 1/06 - Braid or lace serving particular purposes
H01B 13/00 - Apparatus or processes specially adapted for manufacturing conductors or cables
H01B 11/12 - Arrangements for exhibiting specific transmission characteristics
A storage cabinet includes a frame assembly having a forward facing surface and defining an interior configured to store items; a door assembly having a lateral surface; and a hinge assembly pivotally coupling the frame assembly to the door assembly such that the door assembly is moveable from a closed position to a plurality of open positions. The hinge assembly includes a frame component mounted to the forward facing surface of the frame assembly; and a door component mounted to the lateral surface of the door component and configured to rotate relative to the frame component upon rotation of the door assembly relative to the frame assembly. The hinge assembly is configured to enable a user to remove the door assembly from the frame assembly by lifting the door in a vertical direction only when the door assembly is moved from the closed position at least a predetermined amount.
09 - Scientific and electric apparatus and instruments
Goods & Services
Power-operated tools, namely, [ wrenches, bore rods, bore rod drivers, bore heads, ] cable reel holders, cable strippers, and crimpers for preparation and termination electric wire, fiber optic cable, communication cable and coaxial cable Hand tools for cable television installation and repair, namely, [ trap wrenches, security wrenches, terminating wrenches, torque wrenches, bore rods, bore rod drivers, bore heads, ] cable reel holders, cable strippers, and crimpers for preparation and termination of electric wire, fiber optic cable, communication cable and coaxial cable Wire, namely, electric wire, electric cords, electrical and communication cables, namely, cables for electrical and optical signal transmission, fiber optic cables, coaxial cables, cable connectors, cable connectors for use with fiber optic cables; molded cable assemblies, namely, cables sold with connectors, plugs or terminals attached; audio and video hardware, namely, audiovisual receivers and television for the distribution and receiving of voice, data, video, power and control; patch panels for housing electrical components, namely, electrical wires, electrical connectors and electrical switches
09 - Scientific and electric apparatus and instruments
Goods & Services
Wire, namely, electric wire, electric cords, electrical and communication cables, fiber optic cables, and cable connectors for use with fiber optic cables and electronic cable preparation and termination; molded cable assemblies, namely cables sold with connectors, plugs or terminals attached
Methods, devices, and systems that may be used to secure networked devices are provided. One method includes receiving, at a security device, encrypted configuration data from a management server connected to a data network, from packets addressed to a networked device. The method further includes managing, by the security device, packets between the networked device and other devices accessible through a network based upon the configuration data. The method further includes sending, by the security device, a plurality of encrypted heartbeat messages to the management server utilizing an address associated with the networked device as the originating address for packets in which the encrypted heartbeat messages are transmitted.
A flat-type cable suitable for use in high frequency communications. The cable has a plurality of longitudinally extending and substantially parallel passageways, each housing a twisted pair conductor. The twisted pair conductors are disposed in the cable in a manner that the twisted pair conductors with the longest lay lengths are disposed in the passageways closest to the edges of the cable, and the passageways farther away from the edges of the cable house twisted pair conductors with progressively shorter lay lengths.
One embodiment relates to a method for producing cable. The method includes applying an insulative coating to each of a plurality of conductors to form a plurality of insulated conductors. The method further includes taking up the plurality of insulated conductors in a twisting system to twist the plurality of insulated conductors together and apply a first portion of a desired twist to the plurality of insulated conductors. The method further includes paying off the plurality of insulated conductors from the twisting system to further twist the plurality of insulated conductors together and apply a second portion of a desired twist to the plurality of insulated conductors to form a twisted plurality of insulated conductors.
