Abstract: The presently disclosed systems and methods provide monitoring systems and methods for assessing risk based on individual risk control categories. In an embodiment, the risk is assessed based on data for a particular control category. A subset of the data is weighted according to a first weighting function, and a different subset of the data is weighted according to a second weighting function. The weighted data is combined to generate a control health index that may be used to assess risk.

Abstract: A screw lock kit and apparatus including three hollow members for securing welding lead connectors together wherein a first hollow member is held against a second hollow member by engagement of a third hollow member with the second hollow member. A method for securing welding lead connectors together using the screw lock apparatus.

Abstract: A screw lock kit and apparatus including three hollow members for securing welding lead connectors together wherein a first hollow member is held against a second hollow member by engagement of a third hollow member with the second hollow member. A method for securing welding lead connectors together using the screw lock apparatus.

Abstract: An optical fiber carrying structure that includes a jacket and a rip cord is provided. Optical fiber cables are used to transmit data over distance. Generally, large distribution cables that carry a multitude of optical fibers from a hub are sub-divided at network nodes into subunits. To remove a jacket of a subunit, the subunit may be provided with an access feature such as a rip cord. Described herein is a rip cord for use with optical fiber carrying structures.

Abstract: The present invention relates to an improved ball tossing device that is portable and adjustable to accommodate a variety of different balls and lobbing preferences. This may be achieved through various features including some or all of the following: a ball feeding mechanism using a rotating disk with an offset feed channel to deliver balls to the ball tossing queue; a catapult arm that uses a motor/spring mechanism to toss balls in the queue out of the machine; an indexer feature for isolating the ball to be tossed from the other balls in the queue; and adjustable features that allow users to vary ball trajectory of the ball being tossed.

Abstract: An optical fiber carrying structure that includes a jacket and a rip cord is provided. Optical fiber cables are used to transmit data over distance. Generally, large distribution cables that carry a multitude of optical fibers from a hub are sub-divided at network nodes into subunits. To remove a jacket of a subunit, the subunit may be provided with an access feature such as a rip cord. Described herein is a rip cord for use with optical fiber carrying structures.

Abstract: A motor vehicle includes a chassis supported on wheels, a battery having a voltage and supported by the chassis, a first electrical circuit supported on the chassis and configured to receive current from the battery, and a second electrical circuit supported on the chassis and configured to receive current from the battery. The second electrical circuit includes a current disconnect that is switchable between an open condition, in which the second electrical circuit is disconnected from the battery when the voltage falls below a voltage threshold, and a closed condition, in which the second electrical circuit is connected to the first electrical circuit when a reset condition occurs.

Abstract: The present invention relates to an improved ball tossing device that is portable and adjustable to accommodate a variety of different balls and lobbing preferences. This may be achieved through various features including some or all of the following: a ball feeding mechanism using a rotating disk with an offset feed channel to deliver balls to the ball tossing queue; a catapult arm that uses a motor/spring mechanism to toss balls in the queue out of the machine; an indexer feature for isolating the ball to be tossed from the other balls in the queue; and adjustable features that allow users to vary ball trajectory of the ball being tossed.

Abstract: A screw lock kit and apparatus including three hollow members for securing welding lead connectors together wherein a first hollow member is held against a second hollow member by engagement of a third hollow member with the second hollow member. A method for securing welding lead connectors together using the screw lock apparatus.

Abstract: The present invention relates to an improved ball tossing device that is portable and adjustable to accommodate a variety of different balls and lobbing preferences. This may be achieved through various features including some or all of the following: a ball feeding mechanism using a rotating disk with an offset feed channel to deliver balls to the ball tossing queue; a catapult arm that uses a motor/spring mechanism to toss balls in the queue out of the machine; an indexer feature for isolating the ball to be tossed from the other balls in the queue; and adjustable features that allow users to vary ball trajectory of the ball being tossed.

Abstract: A motor vehicle includes a chassis supported on wheels, a battery having a voltage and supported by the chassis, a first electrical circuit supported on the chassis and configured to receive current from the battery, and a second electrical circuit supported on the chassis and configured to receive current from the battery. The second electrical circuit includes a current disconnect that is switchable between an open condition, in which the second electrical circuit is disconnected from the battery when the voltage falls below a voltage threshold, and a closed condition, in which the second electrical circuit is connected to the first electrical circuit when a reset condition occurs.

Abstract: Bus mounted surge protection devices are provided that are configured to be positioned in a panelboard alongside one or more similarly sized circuit breaker devices. The bus mounted surge protection device is configured to be received by a same provisional bus as the one or more circuit breaker devices and the bus mounted surge protection device is configured to protect all of the one or more circuit breaker devices in the panelboard.

Abstract: An optical fiber carrying structure that includes a jacket and a rip cord is provided. Optical fiber cables are used to transmit data over distance. Generally, large distribution cables that carry a multitude of optical fibers from a hub are sub-divided at network nodes into subunits. To remove a jacket of a subunit, the subunit may be provided with an access feature such as a rip cord. Described herein is a rip cord for use with optical fiber carrying structures.

Abstract: A method for cleaning a substrate which is or comprises a textile, the method comprising agitating the substrate in the presence of a cleaning composition comprising: i. cleaning particles comprising a thermoplastic polyamide and a particulate inorganic filler having a density of at least 2.5 g/cm3, said cleaning particles having an average particle size of from 1 to 100 mm, wherein the cleaning particles have an average density of at least 1.65 g/cm3 and/or the particulate inorganic filler has a D50 particle size of at least 10 microns and/or a D90 particle size of at least 40 microns; and ii. a liquid medium.

Abstract: An optical cable assembly is provided. The cable assembly includes a plurality of subunits surrounded by an outer cable jacket, a furcation unit and optical connectors coupled to the end of each of the subunits. Each of the subunits includes an inner jacket, a plurality of optical fibers; and a tensile strength element. The first tensile strength element and the inner jackets of each subunits are coupled to the furcation unit, and the optical fibers and tensile strength elements of each subunit extend through the furcation unit without being coupled to the furcation unit. The subunit tensile strength element and optical fibers of each subunit are balanced such that both experience axial loading applied to the assembly and, under various loading conditions, the compression of the subunits is controlled and/or the axial loading of the optical fibers is limited to allow proper function of the optical connector.

Abstract: A method includes receiving, at an interface of a storage device and from a host device, an electrical signal representative of data. The storage device includes a mass storage device. The method also includes splitting, at the interface, the electrical signal representative of the data into a first data stream and a second data stream, wherein the first data stream is identical to the second data stream. The method also includes sending, from the interface and to a controller of the storage device, the first data stream; and sending, from the interface and to an analyzer integrated within the storage device, the second data stream. The method further includes filtering, by the analyzer, the second data stream to generate debugging data; and sending, by the analyzer and to the host device, at least a portion of the debugging data.

Abstract: Bus mounted surge protection devices are provided that are configured to be positioned in a panelboard alongside one or more similarly sized circuit breaker devices. The bus mounted surge protection device is configured to be received by a same provisional bus as the one or more circuit breaker devices and the bus mounted surge protection device is configured to protect all of the one or more circuit breaker devices in the panelboard.

Abstract: An optical cable assembly is provided. The cable assembly includes a plurality of subunits surrounded by an outer cable jacket, a furcation unit and optical connectors coupled to the end of each of the subunits. Each of the subunits includes an inner jacket, a plurality of optical fibers; and a tensile strength element. The first tensile strength element and the inner jackets of each subunits are coupled to the furcation unit, and the optical fibers and tensile strength elements of each subunit extend through the furcation unit without being coupled to the furcation unit. The subunit tensile strength element and optical fibers of each subunit are balanced such that both experience axial loading applied to the assembly and, under various loading conditions, the compression of the subunits is controlled and/or the axial loading of the optical fibers is limited to allow proper function of the optical connector.

Abstract: A method includes receiving, at an interface of a storage device and from a host device, an electrical signal representative of data. The storage device includes a mass storage device. The method also includes splitting, at the interface, the electrical signal representative of the data into a first data stream and a second data stream, wherein the first data stream is identical to the second data stream. The method also includes sending, from the interface and to a controller of the storage device, the first data stream; and sending, from the interface and to an analyzer integrated within the storage device, the second data stream. The method further includes filtering, by the analyzer, the second data stream to generate debugging data; and sending, by the analyzer and to the host device, at least a portion of the debugging data.

Abstract: An optical cable assembly is provided. The cable assembly includes a plurality of subunits surrounded by an outer cable jacket, a furcation unit and optical connectors coupled to the end of each of the subunits. Each of the subunits includes an inner jacket, a plurality of optical fibers; and a tensile strength element. The first tensile strength element and the inner jackets of each subunits are coupled to the furcation unit, and the optical fibers and tensile strength elements of each subunit extend through the furcation unit without being coupled to the furcation unit. The subunit tensile strength element and optical fibers of each subunit are balanced such that both experience axial loading applied to the assembly and, under various loading conditions, the compression of the subunits is controlled and/or the axial loading of the optical fibers is limited to allow proper function of the optical connector.