LED lamp with base having a biased electrical interconnect

The invention claimed is: 1. A lamp comprising: an enclosure that a partially optically transmissive; a base comprising an electrically insulating housing connected to an electrically conductive connector, the base defining an internal cavity; a LED assembly comprising at least one LED, the LED assembly being located in the enclosure and the at least one LED operable to emit light when energized through an electrical path from the base; an electronics board in the electrical path; and an electrical interconnect electrically coupling the electronics board to the base, the electrical interconnect being at least partially located in the internal cavity of the base, the electrical interconnect being separately mounted to the electronics board independently of the base and comprising an electrically insulated body including a deformable resilient member that is deformed into engagement with the electronics board such that a bias force is applied by the resilient member to the electronics board to create a mechanical engagement between the electrical interconnect and the electronics board by a snap-fit connection that secures the electrical interconnect electronics board, a first board-side contact and a second board-side contact supported on the body separate from deformable resilient member that are biased into engagement with an anode side and a cathode side of the electronics board, respectively, to create an electrical contact coupling, and a first base-side contact and a second base-side contact supported by the body that are configured to be biased into engagement with the electrically conductive connector to create an electrical contact coupling with the electrically conductive connector, the first base-side contact and the first board-side contact and the second base-side contact the second board-side contact extending through the insulated body. 2. The lamp of claim 1 wherein one of the deformable resilient member and the electronics board comprises a protrusion and the other one of the deformable resilient member and the electronics board comprises a recess. 3. The lamp of claim 1 wherein the first board-side contact and the second board-side contact create an electrical connection to a first pad and a second pad of electron board. 4. The lamp of claim 3 wherein the first board-side contact and the second board-side contact are deformed engage the first pad and the second pad. 5. The lamp of claim 1 wherein the first base side contact and the second base side contact are deformed to engage the electrically conductive connector. 6. The lamp of claim 1 wherein the first base-side contact and the second base-side contact create electrical contact couplings with the electrically conductive connector. 7. The lamp of claim 1 wherein the electrically conductive connector comprises an Edison screw and the first based-side contact creates a first electrical contact coupling with an interior surface of the Edison screw and the second base-side contact creates a second electrical contact coupling with a centerline contact of the Edison screw. 8. The lamp of clam 1 wherein a guide is formed in the base to orient the electronics board relative to the base. 9. The lamp of claim 1 wherein he electronics board supports at least one of a driver and a power supply. 10. A method of making an LED lamp comprising: providing an electronics board, a base, and a separate electrical interconnect, the electrical interconnect being a single component comprising a first board-side contact, a second board-side contact, a first base-side contact, second base-side contact and a resilient member; and the base comprising an electrically insulating housing and an electrically conductive connector, the base defining an internal cavity; mounting the electrical interconnect onto the electronics board independently of the base to create an electrical contact coupling between the first board-side contact and the second board-side contact of the electrical interconnect and anode side and a cathode side of an electrical path on the electronics board by deforming the resilient member into engagement with the electronics board such that a bias force is applied by the resilient member to the electronics board to create a mechanical engagement between the electrical interconnect and the electronics board by a snap-fit connection that secures the electrical interconnect to the electronics board and biasing the first board-side contact d the second board-side contact into engagement with the electronics board; and after mounting the electrical interconnect onto the electronics board inserting the electronics board and the connected electrical interconnect into the internal cavity of the base, such that the first base side contact and the second base-side contact on the electrical interconnect are deformed by and create an eletrical contact coupling with the electrically conductive connector. 11. The method of claim 10 wherein the electrically conductive connector comprises an Edison screw and the first base-side contact and the second base side contact create the electrical contact coupling with the Edison screw. 12. A lamp comprising: an enclosure that is at least partially optically transmissive; a base; a LED assembly comprising at least one LED, the LED assembly being located in the enclosure and the at least one LED operable to emit light when energized through an electrical path from the base; an electronics board the electrical path; an electrical interconnect electrically coupling the electronics board to the base, the electrical interconnect being separately mountable to the electronics board independently of the base and comprising an electrically insulated body including a deformable resilient member that is deformed into engagement with the electronics board such that a bias force is applied by the resilient member to the electronics board to create a mechanical engagement between, the electrical interconnect and the electronics board by a snap-fit connection, a first board-side contact and a second board-side contact supported on the body separate from the deformable resilient member that are biased into engagement with an anode side and a cathode side of the electronics board, respectively, to create an electrical contact coupling, and a first base-side contact and a second base-side contact supported by the body that are configured to be biased into engagement with the base to create an electrical contact coupling with the base, the first base-side contact and the first board-side contact and the second base-side contact and the second board-side contact extending through the insulated body; and a guide is formed in the base to orient the electronics board relative to the base.