Holder assembly

We claim: 1. A holder, comprising: a frame including an interior aperture and a first pocket and a second pocket; and a first terminal and a second terminal respectively supported by the frame, at least one of the first and second terminals configured to receive and trap a wire inserted into the terminal in two different directions, further comprising a first channel plate and a second channel plate respectively aligned with the first and second pockets, the first and second channel plates mounted on the frame so as to restrain the first and second terminals in position and configured so as to cooperate with the frame and the first and second terminals so to provide a first and second wire-trap path. 2. The holder of claim 1 , wherein the terminals each include a contact supported in a cantilevered fashion, the contact positioned in the interior aperture. 3. The holder of claim 1 , wherein the frame includes a tapered notch to guide a wire into the terminal configured to trap a wire. 4. The holder of claim 1 , wherein both the first and second terminals are configured to receive and trap a wire inserted into the terminal in two different directions. 5. The holder assembly of claim 1 , wherein the first and second channel plates are heat-staked to the frame. 6. A holder, comprising: a frame including an interior aperture and a first socket and a second socket; and a first terminal and a second terminal respectively supported by the frame, at least one of the first and second terminals configured to receive and trap a wire inserted into the terminal in two different directions, wherein a first and second trace are positioned on the frame, the first and second trace being electrically separated from each other and electrically connected to one of the first and second terminal. 7. The holder of claim 6 , further including conversion circuitry supported by the frame, wherein the conversion circuitry includes an integrated chip configured to convert an input voltage to a desired DC voltage. 8. A holder assembly, comprising: a cover; a frame configured to support the cover, the frame including an interior aperture, a plurality of pockets and a plurality of retaining features and further including a first trace and second trace that are positioned on the frame, the first and second trace being electrically separated from each other; and a plurality of terminals mounted in the plurality of pockets, each of the plurality of terminals configured to receive and trap a wire inserted into the terminal in two directions, one of the plurality of terminals electrically connected to the first trace and another of the plurality of terminals connected to the second trace. 9. The holder assembly of claim 8 , wherein the terminals each include a contact supported in a cantilevered fashion, the contact positioned in the interior aperture. 10. The holder assembly of claim 8 , further comprising a terminal brick, the terminal brick support at least a first and second terminal, the first terminal in electrical communication with the first trace and the second terminal in electrical communication with the second trace. 11. The holder assembly of claim 10 , wherein the first and second terminal of the terminal brick are included in an array of terminals and the array of terminals includes at least 4 terminals, each of the terminals in the array of terminals having a contact extending into the interior aperture. 12. The holder assembly of claim 10 , further comprising a conversion circuitry configured to convert AC power to DC power. 13. The holder assembly of claim 12 , wherein the conversion circuitry includes an integrated chip configured to convert 120 VAC to DC. 14. The holder assembly of claim 8 , further comprising a plurality of channel plates aligned with the plurality of pockets, the plurality of channel plates mounted on the frame so as to restrain the plurality of terminals in position and configured so as to cooperate with the frame and the terminals so to provide a first and second wire-trap path. 15. The holder assembly of claim 14 , wherein the cover includes a plurality of projections and the frame includes a plurality of retaining features, the cover and frame configured to be removably secured together. 16. The holder assembly of claim 14 , wherein the plurality of channel plates are heat-staked to the frame. 17. The holder assembly of claim 8 , wherein the cover and the frame are heat-staked together. 18. The holder assembly of claim 8 , wherein the interior aperture includes a shoulder positioned along at least two areas, the shoulder configured, in operation, to engage a substrate of an LED array. 19. The holder assembly of claim 18 , wherein the shoulder includes at least one projection configured, in operation, to engage the substrate so as to ensure the substrate is in a predetermined orientation. 20. The holder assembly of claim 8 , wherein the frame and the cover are configured to be secured with a fastener that exerts pressure on the cover and the frame. 21. A holder, comprising: a frame including an interior aperture, a first and second pocket and plurality of retaining features; a first and second trace respectively extending from the first and second pocket; a first and second terminal respectively mounted in the first and second socket, at least one of the first and second terminals configured to receive and trap a wire inserted into the at least one terminal in two different directions; conversion circuitry electrically connected to the first trace, the circuitry configured to provide a desired DC output; and a cover mounted on the frame.