Connectors for linear lighting

What is claimed is: 1. A connector for linear lighting, comprising: a shell, including a base, a top, and a cavity defined between the base and the top and a pressure-applying mechanism extending into the cavity; and an adapter configured to be inserted into the cavity to rest on the base or a portion thereof, the adapter having an upper face and a lower face, a first side of the adapter having first electrical contacts adapted to connect to two or more wires, and an opposite side of the adapter having second electrical contacts on the underside, the first electrical contacts and the second electrical contacts being in electrical communication with one another, the position of the adapter when inserted into the cavity being such that a slot is defined between the second electrical contacts and the base; wherein the pressure-applying mechanism is constructed and arranged to apply mechanical pressure to the upper face of the adapter when the adapter is inserted into the cavity such that the mechanical pressure is conveyed to and through the second electrical contacts on the underside of the adapter; and wherein the base extends beyond the cavity and forms a support surface. 2. The connector of claim 1 , wherein the base comprises a raised bar that extends across an interior width of the cavity and the adapter is sized and configured to rest on the raised bar. 3. The connector of claim 1 , wherein the support surface is sloped. 4. The connector of claim 1 , wherein the cavity is open at front and back faces thereof. 5. The connector of claim 4 , wherein the adapter is sized and further configured to be removable from the cavity when the mechanical pressure is withdrawn. 6. The connector of claim 1 , wherein the adapter comprises a printed circuit board (PCB). 7. The connector of claim 6 , wherein the first electrical contacts are holes or vias sized and configured to permit through-hole mounting of the two or more wires. 8. The connector of claim 7 , wherein the second electrical contacts comprise a set of pins depending from the underside of the adapter. 9. The connector of claim 8 , wherein the PCB further comprises conductive structure that places the holes or vias and the set of pins in electrical contact with one another. 10. The connector of claim 9 , further comprising a stiffener on the upper face of the adapter opposite the set of pins, the stiffener being electrically isolated from other components of the adapter and providing a bearing surface for the pressure-applying mechanism. 11. The connector of claim 1 , wherein the pressure-applying mechanism comprises one or more screws that extend through the top of the shell and are positioned to bear on the upper face of the adapter when the adapter is inserted into the cavity. 12. The connector of claim 11 , wherein shafts of the one or more screws insert into corresponding threaded holes of a structure positioned in the cavity below the top. 13. The connector of claim 11 , wherein the one or more screws comprises fewer screws than the number of the first electrical contacts. 14. The connector of claim 1 , wherein the pressure-applying mechanism comprises a lever pivotably mounted to the top of the shell, the lever including at least one cam lobe positioned to exert pressure on the adapter when the adapter is inserted into the cavity and the lever is pivoted to a pressure-applying position. 15. The connector of claim 1 , wherein the pressure-applying mechanism is further configured to allow the mechanical pressure to be withdrawn so as to open the slot. 16. A connector for linear lighting, comprising: a shell, including a base, a top, and a cavity defined between the base and the top and a pressure-applying mechanism extending into the cavity; and an adapter configured to be inserted into the cavity to rest on the base or a portion thereof, the adapter having an upper face and a lower face, a first side of the adapter having first electrical contacts adapted to connect to two or more wires, and an opposite side of the adapter having second electrical contacts on the underside, the first electrical contacts and the second electrical contacts being in electrical communication with one another, the position of the adapter when inserted into the cavity being such that a slot is defined between the second electrical contacts and the base; wherein the pressure-applying mechanism is constructed and arranged to apply mechanical pressure to the upper face of the adapter when the adapter is inserted into the cavity such that the mechanical pressure is conveyed to and through the second electrical contacts on the underside of the adapter; and wherein the pressure-applying mechanism comprises one or more screws that extend through the top of the shell and are positioned to bear on the upper face of the adapter when the adapter is inserted into the cavity. 17. The connector of claim 16 , wherein shafts of the one or more screws insert into corresponding threaded holes of a structure positioned in the cavity below the top. 18. The connector of claim 16 , wherein the one or more screws comprises fewer screws than the number of the first electrical contacts. 19. A connector for linear lighting, comprising: a shell, including a base, a top, and a cavity defined between the base and the top and a pressure-applying mechanism extending into the cavity; and an adapter, comprising a printed circuit board, configured to be inserted into the cavity to rest on the base or a portion thereof, the adapter having an upper face and a lower face, a first side of the adapter having first electrical contacts adapted to connect to two or more wires, and an opposite side of the adapter having second electrical contacts on the underside, the first electrical contacts and the second electrical contacts being in electrical communication with one another, the position of the adapter when inserted into the cavity being such that a slot is defined between the second electrical contacts and the base; wherein the pressure-applying mechanism is constructed and arranged to apply mechanical pressure to the upper face of the adapter when the adapter is inserted into the cavity such that the mechanical pressure is conveyed to and through the second electrical contacts on the underside of the adapter; wherein the first electrical contacts are holes or vias that are sized and configured to permit through-hole mounting of the two or more wires; and wherein the second electrical contacts comprise a set of pins depending from the underside of the adapter. 20. The connector of claim 19 , wherein the pressure-applying mechanism comprises one or more screws that extend through the top of the shell and are positioned to bear on the upper face of the adapter when the adapter is inserted into the cavity. 21. The connector of claim 19 , wherein the pressure-applying mechanism comprises a lever pivotably mounted to the top of the shell, the lever including at least one cam lobe positioned to exert pressure on the adapter when the adapter is inserted into the cavity and the lever is pivoted to a pressure-applying position.