In one embodiment, a connector assembly comprises: a connector; and a pair of side collectors, each comprising a connector engagement region having a size and geometry to mate with the connector so as to hold ends of two adjacent panels together; and a panel engagement region comprising a receiving
In one embodiment, a connector assembly comprises: a connector; and a pair of side collectors, each comprising a connector engagement region having a size and geometry to mate with the connector so as to hold ends of two adjacent panels together; and a panel engagement region comprising a receiving area and having a size to attach onto an edge of the panel; and a clip, wherein the clip has a base that can be attached to a support, an engagement, and a stem extending therebetween, wherein the engagement has an extension projecting from a side of the engagement, wherein the panel engagement region further comprises an opening in a joint wall on a side of the panel engagement region opposite the receiving area, wherein the opening is configured to receive the extension of the engagement.
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1. A panel assembly, comprising: a connector assembly, comprising a connector comprising two cavities defined by flexible walls, wherein each of the cavities has a geometry and is configured to mate with connector engagement regions from a pair of side collectors;a header located between the two cav
1. A panel assembly, comprising: a connector assembly, comprising a connector comprising two cavities defined by flexible walls, wherein each of the cavities has a geometry and is configured to mate with connector engagement regions from a pair of side collectors;a header located between the two cavities; anda first slot on a side of the connector and between the cavities, wherein the first slot has a size and geometry to receive an end of a panel without a side collector, wherein the cavities enable two sets of panels to be stacked and connected with the connector;a pair of side collectors, each comprising a connector engagement region; anda panel engagement region comprising a receiving area and having a size to attach onto an edge of a panel; anda clip, wherein the clip has a base that can be attached to a support, an engagement, and a stem extending therebetween, wherein the engagement has an extension protruding from a side of the engagement toward the base, wherein the panel engagement region further comprises an opening in a joint wall on a side of the panel engagement region opposite the receiving area, wherein the opening is configured to receive the extension of the engagement;a panel located in each panel engagement region; andwherein the connector is mated with the connector engagement region of the side collectors so as to hold ends of the panels together. 2. The panel assembly of claim 1, wherein adjacent panels are connected by a mating geometry selected from the group consisting of tongue and groove and snap fit. 3. A method of making a panel assembly, comprising: attaching a first panel to a second panel with a connector assembly, wherein the connector assembly comprises a connector comprising two cavities defined by flexible walls, wherein each of the cavities has a geometry and is configured to mate with connector engagement regions from a pair of side collectors;a header located between the two cavities; anda first slot on a side of the connector and between the cavities, wherein the first slot has a size and geometry to receive an end of a panel without a side collector, wherein the cavities enable two sets of panels to be stacked and connected with the connector; anda pair of side collectors, each comprising a connector engagement region having a size and geometry to mate with the connector so as to hold ends of two adjacent panels together; anda panel engagement region comprising a receiving area and having a size to attach onto an edge of a panel; anda clip, wherein the clip has a base that can be attached to a support, an engagement, and a stem extending therebetween, wherein the engagement has an extension projecting from a side of the engagement toward the base, wherein the panel engagement region further comprises an opening in a joint wall on a side of the panel engagement region opposite the receiving area, wherein the opening is configured to receive the engagement. 4. The method of claim 3, wherein the extension creates a mechanical stop which prevents the first panel and second panel from separating from one another when exposed to a 200 mph wind load. 5. The assembly of claim 3, wherein the extension comprises a lip. 6. The method of claim 3, further comprising, penetrating into a side of the opening with the extension. 7. The method of claim 3, wherein the side collectors further comprise a joint side with an angled wall such that when assembled, the angled walls form a space having a converging diameter from the base toward the connector engagement region. 8. An assembly, comprising: a connector comprising two cavities defined by flexible walls, wherein each of the cavities has a geometry and is configured to mate with connector engagement regions from a pair of side collectors;a header located between the two cavities; anda first slot on a side of the connector and between the cavities, wherein the first slot has a size and geometry to receive an end of a panel without a side collector, wherein the cavities enable two sets of panels to be stacked and connected with the connector; anda clip, wherein the clip has a base that can be attached to a support, a receiver, and a stem extending therebetween, wherein the stem diverges to the receiver which is located on an end of the stem opposite the base, the stem further comprises an engagement, wherein the engagement has an extension projecting from a side of the engagement toward the base, wherein a panel engagement region on the side collectors comprises an opening in a joint wall on a side of the panel engagement region opposite a receiving area, wherein the opening is configured to receive the engagement. 9. The assembly of claim 8, wherein a photovoltaic panel is located in the first slot. 10. The assembly of claim 8, wherein the connector further comprises a second slot on another side of the connector opposite the first slot and between the cavities, wherein the second slot has a size and geometry to receive an end of another panel without a side collector. 11. The assembly of claim 10, wherein another photovoltaic panel is located in the second slot. 12. The assembly of claim 8, wherein the clip further comprises members located on a receiver of the clip. 13. The assembly of claim 8, wherein the header is configured to receive a connecting member that attaches the connector to members of the clip. 14. The assembly of claim 8, wherein the extension creates a mechanical stop which prevents the clip from detaching from the side collectors when exposed to a 200 mph wind load. 15. The assembly of claim 8, wherein at least one of the connector, the side collectors, or the clip comprises a polymeric material. 16. The assembly of claim 15, wherein the clip comprises a polymeric material. 17. The assembly of claim 8, wherein the extension comprises a lip. 18. The assembly of claim 8, wherein the extension grips the side collectors and prevents them from disassembling when under load. 19. The assembly of claim 8, wherein the extension has two walls extending from the engagement toward the base.
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