Abstract: A representative embodiment of a lighting system includes a carrying bag having a first opening with a control panel cover; a mounting bracket arranged in the carrying bag; a power supply coupled to or arranged on the mounting bracket; a control panel arranged within the first opening and coupled to the mounting bracket; a first flexible light strip; a second flexible light strip; and a power cable coupleable within the carrying bag to the control panel, the first flexible light strip, and the second flexible light strip. The first and second flexible light strips are coupleable to the power cable to receive DC power from the control panel, and may be extended throughout a structure, such as a tent, using a plurality of hangers. In a representative embodiment, the first flexible light strip provides white light and the second flexible light strip provides blackout light.

Abstract: A representative embodiment of a lighting system includes a carrying bag having a first opening with a control panel cover; a mounting bracket arranged in the carrying bag; a power supply coupled to or arranged on the mounting bracket; a control panel arranged within the first opening and coupled to the mounting bracket; a first flexible light strip; a second flexible light strip; and a power cable coupleable within the carrying bag to the control panel, the first flexible light strip, and the second flexible light strip. The first and second flexible light strips are coupleable to the power cable to receive DC power from the control panel, and may be extended throughout a structure, such as a tent, using a plurality of hangers. In a representative embodiment, the first flexible light strip provides white light and the second flexible light strip provides blackout light.

Abstract: A representative embodiment of a lighting system includes a carrying bag having a first opening with a control panel cover; a mounting bracket arranged in the carrying bag; a power supply coupled to or arranged on the mounting bracket; a control panel arranged within the first opening and coupled to the mounting bracket; a first flexible light strip; a second flexible light strip; and a power cable coupleable within the carrying bag to the control panel, the first flexible light strip, and the second flexible light strip. The first and second flexible light strips are coupleable to the power cable to receive DC power from the control panel, and may be extended throughout a structure, such as a tent, using a plurality of hangers. In a representative embodiment, the first flexible light strip provides white light and the second flexible light strip provides blackout light.

Abstract: A TRIAC low voltage dimming control system for effectively controlling the dimming of low voltage lighting using a TRIAC dimmer. The TRIAC low voltage dimming control system generally includes a TRIAC analyzer that applies a test voltage to a TRIAC dimmer and measures the amount of time required for the TRIAC dimmer to conduct electricity. Utilizing the measured time for the TRIAC dimmer to conduct electricity, the TRIAC analyzer is able to calculate an approximate state of the TRIAC dimmer and provide a corresponding level of DC electrical power to a DC load.

Abstract: A wall outlet lighting power supply system for efficiently providing electrical power to low voltage lighting utilizing a conventional AC wall outlet. The wall outlet lighting power supply system generally includes a housing, a power plug attached to the housing for electrically connecting to a power socket of a conventional wall outlet, a low voltage power supply positioned within the housing and electrically connected to the power plug, and a plurality of low voltage wires extending from housing and electrically connected to the low voltage power supply. The housing includes at least one spacer to maintain a rear wall of the housing in a parallel relationship with respect to a building wall when connected to the wall outlet. The housing includes a door to provide access to a wiring area. The housing also includes at least one opening to allow for the low voltage wires to extend through.

Abstract: A TRIAC low voltage dimming control system for effectively controlling the dimming of low voltage lighting using a TRIAC dimmer. The TRIAC low voltage dimming control system generally includes a TRIAC analyzer that applies a test voltage to a TRIAC dimmer and measures the amount of time required for the TRIAC dimmer to conduct electricity. Utilizing the measured time for the TRIAC dimmer to conduct electricity, the TRIAC analyzer is able to calculate an approximate state of the TRIAC dimmer and provide a corresponding level of DC electrical power to a DC load.

Abstract: A TRIAC low voltage dimming control system for effectively controlling the dimming of low voltage lighting using a TRIAC dimmer. The TRIAC low voltage dimming control system generally includes a TRIAC analyzer that applies a test voltage to a TRIAC dimmer and measures the amount of time required for the TRIAC dimmer to conduct electricity. Utilizing the measured time for the TRIAC dimmer to conduct electricity, the TRIAC analyzer is able to calculate an approximate state of the TRIAC dimmer and provide a corresponding level of DC electrical power to a DC load.

Abstract: A TRIAC low voltage dimming control system for effectively controlling the dimming of low voltage lighting using a TRIAC dimmer. The TRIAC low voltage dimming control system generally includes a TRIAC analyzer that applies a test voltage to a TRIAC dimmer and measures the amount of time required for the TRIAC dimmer to conduct electricity. Utilizing the measured time for the TRIAC dimmer to conduct electricity, the TRIAC analyzer is able to calculate an approximate state of the TRIAC dimmer and provide a corresponding level of DC electrical power to a DC load.

Abstract: A lighting power supply system for providing efficient installation and operation of a low voltage power supply within an existing electrical box. The lighting power supply system generally includes a housing formed and adapted to fit within a conventional electrical box, a low voltage power supply positioned within the housing and a power switch attached to the housing. The power switch is electrically connected to the low voltage power supply within the housing. A dimmer switch is attached to the housing and is electrically connected to the power switch to provide dimmable low voltage power to a light strip.

Abstract: A wall outlet lighting power supply system for efficiently providing electrical power to low voltage lighting utilizing a conventional AC wall outlet. The wall outlet lighting power supply system generally includes a housing, a power plug attached to the housing for electrically connecting to a power socket of a conventional wall outlet, a low voltage power supply positioned within the housing and electrically connected to the power plug, and a plurality of low voltage wires extending from housing and electrically connected to the low voltage power supply. The housing includes at least one spacer to maintain a rear wall of the housing in a parallel relationship with respect to a building wall when connected to the wall outlet. The housing includes a door to provide access to a wiring area. The housing also includes at least one opening to allow for the low voltage wires to extend through.

Abstract: An extended length flexible LED light strip system for extending the length of a flexible LED light strip. The extended length flexible LED light strip system generally includes a protective covering having a passage, a light strip extending within the passage of the protective covering, a first power bus and a second power bus within the protective covering, and a plurality of connectors electrically connecting the light strip to the power buses at selected lengths. A power coupler is provided that includes a pair of prongs that extend into the protective covering and electrically contact the power buses to provide DC power to the power buses.

Abstract: A LED strip light connector system for providing a reliable connection between a flexible LED light strip and a connector. The LED strip light connector system generally includes a connector adapted to receive an end of a light strip, and a support member extending outwardly from the connector to support the light strip near the connector. The light strip is attached to the surface of the support member thereby preventing movement of the light strip with respect to the connector.

Abstract: An extended length flexible LED light strip system for extending the length of a flexible LED light strip. The extended length flexible LED light strip system generally includes a protective covering having a passage, a light strip extending within the passage of the protective covering, a first power bus and a second power bus within the protective covering, and a plurality of connectors electrically connecting the light strip to the power buses at selected lengths. A power coupler is provided that includes a pair of prongs that extend into the protective covering and electrically contact the power buses to provide DC power to the power buses.

Abstract: A LED strip light connector system for providing a reliable connection between a flexible LED light strip and a connector. The LED strip light connector system generally includes a connector adapted to receive an end of a light strip, and a support member extending outwardly from the connector to support the light strip near the connector. The light strip is attached to the surface of the support member thereby preventing movement of the light strip with respect to the connector.

Abstract: A LED strip light connector system for providing a reliable connection between a flexible LED light strip and a connector. The LED strip light connector system generally includes a connector adapted to receive an end of a light strip, and a support member extending outwardly from the connector to support the light strip near the connector. The light strip is attached to the surface of the support member thereby preventing movement of the light strip with respect to the connector.

Abstract: A conductive elastomeric and mechanical pin and contact system for creation of a Elastromechanical Connector (1) that combines Mechanical Pins, an Insulator Array with Conductive Elastromeric Memory Material. This combination provides a low cost, high density, reliable, reusable electronic interconnect system. This system can be used in place of most connector systems in use today. It replaces any connector that uses pins and sockets and also supports the fine conductor pitch required in the semiconductor business like Ball Grid Array (BGA) Sockets and related devises. The inventive device includes mechanical pins (2), installed in an insulator (3), each mechanical pin is topped with conductive elastromeric compound (4). A mechanical pin is used for each connection point, the insulator positions the mechanical pins in an array pattern appropriate to the interconnection requirement. A conductive elastromeric compound is added to each metal pin to create the Z axis electrical coplanality to the mating unit.

Abstract: A process to make a connector is enclosed. The claimed embodiment comprises the following steps. First, design an insulating substrate using a customer specification. Second, program a Computer Numerical Control machine tool to form holes in the insulating substrate according to the design made in step one. Third, program a computer controlled dispensing machine tool to dispense conductive polymer into each hole formed in step 2. Fourth, form holes in the insulating substrate using the programmed Computer Numerical Control machine tool. Fifth, place a pin in each hole. Sixth, using a computer controlled automated dispensing machine, dispense electrically conductive polymer into each hole around the pin. And, finally, cure the polymer to hold the pin in place.

Abstract: A male connector, including: a body having a proximal end and a distal end; and an elastomeric member disposed around an outer surface of the distal end of the body, wherein the distal end of the body is configured to be received into a female connector interface in a medical device, and wherein the proximal end of the body is configured to receive an electronic block connector therein.

Abstract: A micro solder pot includes a dielectric substrate having at least one hole formed therein, a conductive coating coupled to the interior of the hole, and at least one heat transfer pad spaced from the hole in thermal communication with the conductive coating of the hole. When the heat transfer pad is exposed to a heat source, the conductive coating inside the hole is heated. The micro solder pot may also include a thermally activated conductive material disposed within the hole. When the heat transfer pad is exposed to a heat source, the thermally activated conductive material becomes liquidus such that a component can be inserted into the liquidus material. When the heat source is removed, the thermally activated conductive material cools to couple the component to the conductive coating in the hole.

Abstract: A conductive elastomeric and mechanical pin and contact system for creation of a Elastomechanical Connector (1) that combines Mechanical Pins, an Insulator Array with Conductive Elastomeric Memory Material. One embodiment includes mechanical pins (2), installed in an insulator (3), each mechanical pin is topped with conductive elastomeric compound (4). A mechanical pin is used for each connection point, the insulator positions the mechanical pins in an array pattern appropriate to the interconnection requirement. A conductive elastomeric compound is added to each metal pin to create the Z axis electrical coplanality to the mating unit. Another embodiment substitutes a metal plated through hole for the pin and uses elastomeric flex dots on both ends of the through hole.