Abstract: A vehicle wheel alignment system has a plurality of cameras, each camera for viewing a respective target disposed at a respective wheel of the vehicle and capturing image data of the target as the wheel and target are continuously rotated a number of degrees of rotation without a pause. The image data is used to calculate a minimum number of poses of the target of at least one pose for every five degrees of rotation as the wheel and target are continuously rotated the number of degrees of rotation without a pause. At least one of the cameras comprises a data processor for performing the steps of preprocessing the image data, and calculating an alignment parameter for the vehicle based on the preprocessed image data.

Abstract: A system for dispensing flame retardant foam on the exterior of a structure. The structure has an opening that enables distribution of flame retardant foam onto the roof. The system includes a foam distribution system having a foam expansion chamber and a roof plenum for delivery through the roof opening. Foam solution and compressed air are combined in a conduit and supplied to the foam expansion chamber. The structure may have at least one wall. In that case, the system may have a wall plenum for delivery of flame retardant foam from the foam expansion chamber through a first wall-associated opening. Each such wall will have an opening associated with the wall that enables distribution of flame retardant foam onto that wall.

Abstract: A cable termination assembly configured for mounting to an interior portion of a printed circuit board. The cable termination assembly has a frame shaped to receive a paddle card to which a plurality of cables are terminated. A lid, when closed, may force the paddle card into contact with an interposer, which in turn may be pressed into a printed circuit board on which the cable termination assembly is mounted. Electrical signals may pass between the cables and traces in the printed circuit board via the paddle card and interposer. The termination assembly may be mounted near a processor or other high speed component on the printed circuit board, enabling high speed signals to be coupled with low loss between a periphery of the printed circuit board, or even a location off the printed circuit board, and the high speed component.

Abstract: A cable termination assembly configured for mounting to an interior portion of a printed circuit board. The cable termination assembly has a frame shaped to receive a paddle card to which a plurality of cables are terminated. A lid, when closed, may force the paddle card into contact with an interposer, which in turn may be pressed into a printed circuit board on which the cable termination assembly is mounted. Electrical signals may pass between the cables and traces in the printed circuit board via the paddle card and interposer. The termination assembly may be mounted near a processor or other high speed component on the printed circuit board, enabling high speed signals to be coupled with low loss between a periphery of the printed circuit board, or even a location off the printed circuit board, and the high speed component.

Abstract: A container assembly including a container member having a first cavity for holding a substance therein and a second cavity formed adjacent its bottom edge portion and extending upwardly therefrom, the second cavity having a top wall portion, a lid member engageable with the container member for closing access to the first cavity, the lid member having a raised wall portion configured to be receivable within the second cavity of the container member so as to form a pedestal for the container member, and at least one bumper member associated with the top wall portion of the second cavity for abutting the raised wall portion of the lid member when the lid member is inserted into the second cavity, the at least one bumper member increasing the coefficient of friction between the lid member and the container member when the lid member is received within the second cavity.

Abstract: A cable termination assembly configured for mounting to an interior portion of a printed circuit board. The cable termination assembly has a frame shaped to receive a paddle card to which a plurality of cables are terminated. A lid, when closed, may force the paddle card into contact with an interposer, which in turn may be pressed into a printed circuit board on which the cable termination assembly is mounted. Electrical signals may pass between the cables and traces in the printed circuit board via the paddle card and interposer. The termination assembly may be mounted near a processor or other high speed component on the printed circuit board, enabling high speed signals to be coupled with low loss between a periphery of the printed circuit board, or even a location off the printed circuit board, and the high speed component.

Abstract: A container assembly including a container member having a first cavity for holding a substance therein and a second cavity formed adjacent its bottom edge portion and extending upwardly therefrom, the second cavity having a top wall portion, a lid member engageable with the container member for closing access to the first cavity, the lid member having a raised wall portion configured to be receivable within the second cavity of the container member so as to form a pedestal for the container member, and at least one bumper member associated with the top wall portion of the second cavity for abutting the raised wall portion of the lid member when the lid member is inserted into the second cavity, the at least one bumper member increasing the coefficient of friction between the lid member and the container member when the lid member is received within the second cavity.

Abstract: Radio frequency (RF) shields used with magnetic resonance imaging (MRI) apparatus may experience gradient field induced eddy currents and RF field induced eddy currents. These eddy currents can cause the RF shield to heat up at an undesirable rate. RF shields are designed to have a desired degree of RF shielding and a desired heating attribute. Design goals for RF shields include gradient field transparency and RF field opacity, both of which can be influenced by eddy currents. Example methods identify a gradient field that will induce eddy currents and identify an RF field that will induce eddy currents. If a region on the RF shield is identified where the desired heating attribute will not be achieved, then a pattern of axial cuts and azimuthal cuts can be made in the RF shield to reduce gradient eddy current heating in the RF shield while maintaining desired RF shielding.

Abstract: The candle uses wax beads produced using existing equipment. The wax beads are transported to a bead hopper and the bead hopper deposits a volume of wax beads into jars prepared with a wick. Concurrently the jars are vibrated using a continuous vibratory motor to settle the wax beads for increased wax bead density. The filled jars are then transported to an in-container wax bead compression system where an automated plunging device compresses the wax beads. Jars are then transported by in-line conveyor to a wide conveyor. The jars are then filled at a liquid wax depositing station where the wax has been heated to its melting point and deposited into the jar to fill the void left by the in-container wax bead Compression system. The filled candle is then cooled to solidification. The finished candle is then ready for packing, distribution, sale, and use.

Abstract: An electrical connector can includes a connector housing that includes a housing body and further includes at least one fulcrum supported by the housing body. The electrical connector further includes at least one electrical contact supported by the connector housing, the at least one electrical contact configured to mate with a complementary electrical contact of a complementary electrical connector. The electrical connector further includes a latch assembly. The latch assembly can include an actuator and a latch. The actuator can have an actuator portion, an attachment portion, and at least one arm that extends between the actuator portion and the attachment portion. The latch can have a latch body that defines an attachment portion that is configured to be attached to the attachment portion of the actuator, such that movement of the actuator in a predetermined direction causes the pivot member to ride along the fulcrum, thereby pivoting the latch from a latched position to an unlatched position.

Abstract: A tamper-resistant housing assembly may include an internal housing that is wrapped in a flex circuit. The flex circuit can cover an outside surface of the internal housing and can carry a conductive electrical trace. The electrical trace can define a continuous electrical path from a first contact pad to a second contact pad, such that piercing the an outer surface of the housing through to the inner surface of the housing interrupts the continuous electrical path.

Abstract: Radio frequency (RF) shields used with magnetic resonance imaging (MRI) apparatus may experience gradient field induced eddy currents and RF field induced eddy currents. These eddy currents can cause the RF shield to heat up at an undesirable rate. RF shields are designed to have a desired degree of RF shielding and a desired heating attribute. Design goals for RF shields include gradient field transparency and RF field opacity, both of which can be influenced by eddy currents. Example methods identify a gradient field that will induce eddy currents and identify an RF field that will induce eddy currents. If a region on the RF shield is identified where the desired heating attribute will not be achieved, then a pattern of axial cuts and azimuthal cuts can be made in the RF shield to reduce gradient eddy current heating in the RF shield while maintaining desired RF shielding.

Abstract: Radio frequency (RF) shields used with magnetic resonance imaging (MRI) apparatus may experience gradient field induced eddy currents and RF field induced eddy currents. These eddy currents can cause the RF shield to heat up at an undesirable rate. RF shields are designed to have a desired degree of RF shielding and a desired heating attribute. Design goals for RF shields include gradient field transparency and RF field opacity, both of which can be influenced by eddy currents. Example methods identify a gradient field that will induce eddy currents and identify an RF field that will induce eddy currents. If a region on the RF shield is identified where the desired heating attribute will not be achieved, then a pattern of axial cuts and azimuthal cuts can be made in the RF shield to reduce gradient eddy current heating in the RF shield while maintaining desired RF shielding.

Abstract: The system and method for manufacturing the composite candle wick includes a mechanism for feeding the cotton wick and wood wick at substantially the same speeds. The wood wick is heated in order to cause a melting of a wax coating around the cotton wick and pressure is applied to the wick materials through a compression wheel and drive belt which carries the wick materials. Once the pressure is applied to form the composite wick the wicks are then sent through a cutting tube where a cutting blade will cut the wick to its desired length.

Abstract: The system and method for manufacturing the composite candle wick includes a mechanism for feeding the cotton wick and wood wick at substantially the same speeds. The wood wick is heated in order to cause a melting of a wax coating around the cotton wick and pressure is applied to the wick materials through a compression wheel and drive belt which carries the wick materials. Once the pressure is applied to form the composite wick the wicks are then sent through a cutting tube where a cutting blade will cut the wick to its desired length.

Abstract: An electrical connector can includes a connector housing that includes a housing body and further includes at least one fulcrum supported by the housing body. The electrical connector further includes at least one electrical contact supported by the connector housing, the at least one electrical contact configured to mate with a complementary electrical contact of a complementary electrical connector. The electrical connector further includes a latch assembly. The latch assembly can include an actuator and a latch. The actuator can have an actuator portion, an attachment portion, and at least one arm that extends between the actuator portion and the attachment portion. The latch can have a latch body that defines an attachment portion that is configured to be attached to the attachment portion of the actuator, such that movement of the actuator in a predetermined direction causes the pivot member to ride along the fulcrum, thereby pivoting the latch from a latched position to an unlatched position.

Abstract: A tamper-resistant housing assembly may include an internal housing that is wrapped in a flex circuit. The flex circuit can cover an outside surface of the internal housing and can carry a conductive electrical trace. The electrical trace can define a continuous electrical path from a first contact pad to a second contact pad, such that piercing the an outer surface of the housing through to the inner surface of the housing interrupts the continuous electrical path.

Abstract: Radio frequency (RF) shields used with magnetic resonance imaging (MRI) apparatus may experience gradient field induced eddy currents and RF field induced eddy currents. These eddy currents can cause the RF shield to heat up at an undesirable rate. RF shields are designed to have a desired degree of RF shielding and a desired heating attribute. Design goals for RF shields include gradient field transparency and RF field opacity, both of which can be influenced by eddy currents. Example methods identify a gradient field that will induce eddy currents and identify an RF field that will induce eddy currents. If a region on the RF shield is identified where the desired heating attribute will not be achieved, then a pattern of axial cuts and azimuthal cuts can be made in the RF shield to reduce gradient eddy current heating in the RF shield while maintaining desired RF shielding.

Abstract: The candle uses wax beads produced using existing equipment. The wax beads are transported to a bead hopper and the bead hopper deposits a volume of wax beads into jars prepared with a wick. Concurrently the jars are vibrated using a continuous vibratory motor to settle the wax beads for increased wax bead density. The filled jars are then transported to an in-container wax bead compression system where an automated plunging device compresses the wax beads. Jars are then transported by in-line conveyor to a wide conveyor. The jars are then filled at a liquid wax depositing station where the wax has been heated to its melting point and deposited into the jar to fill the void left by the in-container wax bead Compression system. The filled candle is then cooled to solidification. The finished candle is then ready for packing, distribution, sale, and use.

Abstract: A stacked pluggable cage (100) in accordance with the present invention is adapted for receiving two transceivers (200). The stacked pluggable cage includes a shielding shroud (11) defining a receiving space (13), and a first and a second intermediate walls (12) inserted in the shielding shroud. The first and second intermediate walls are disposed adjacent to each other to divide the receiving space into a first and a second receiving subspaces (13a, 13b) for receiving the transceivers respectively. Each intermediate wall has a body portion (121), and a number of flexible fingers (124) extending rearwardly from the body portion and tilting toward corresponding receiving subspace for grounding corresponding transceiver to thereby improve EMI performance.