Retrofit remote control device mounting assembly

The invention claimed is: 1. A faceplate assembly that is configured to be mounted to a structure, and that is further configured such that a remote control device that controls an amount of power delivered to an electrical load is attachable to the faceplate assembly, the faceplate assembly comprising: a faceplate defining a faceplate opening; an adapter that is configured to be attached to the faceplate, the adapter configured to be secured to the structure, and the adapter defining an adapter opening; and a mounting plate that is configured to be located between the adapter and the structure, the mounting plate comprising: a frame; a platform that extends from the frame; a mounting tab that extends from the platform, the mounting tab configured to extend through the adapter opening and the faceplate opening; and one or more spring arms configured to bias the mounting tab forward away from the structure. 2. The faceplate assembly of claim 1 , wherein the one or more spring arms are attached to the frame proximate to a midpoint of the frame. 3. The faceplate assembly of claim 1 , wherein distal portions of each of the one or more spring arms are configured to abut the structure when the adapter is secured to the structure. 4. The faceplate assembly of claim 3 , wherein the distal portions of each of the one or more spring arms are biased away from the adapter prior to the adapter being secured to the structure. 5. The faceplate assembly of claim 4 , wherein each of the one or more spring arms are configured to flex such that the distal portion of each of the plurality of spring arms are configured to move toward the adapter as the adapter is secured to the structure. 6. The faceplate assembly of claim 1 , wherein the adapter is secured to the structure using one or more of fasteners or anchors. 7. The faceplate assembly of claim 6 , wherein the mounting plate defines fastener openings that are configured to receive respective fasteners. 8. The faceplate assembly of claim 1 , further comprising a fastener configured to secure the remote control device to the faceplate assembly. 9. The faceplate assembly of claim 8 , wherein the platform defines an aperture that is configured to receive the fastener. 10. The faceplate assembly of claim 1 , wherein the mounting tab is configured to prevent rotation of a base of the remote control device when the remote control device is attached to the mounting plate. 11. A remote control device that is configured to be mounted to a structure, and wherein the remote control device controls an amount of power delivered to an electrical load, the remote control device comprising: a control unit that includes an attachment portion and a rotating portion that is configured to rotate relative to the attachment portion; a base to which the control unit is attachable, the base configured to releasably retain the control unit; a faceplate defining a faceplate opening; an adapter that is configured to be attached to the faceplate, the adapter configured to be secured to the structure, and the adapter defining an adapter opening; a mounting plate that is configured to be located between the adapter and the structure, the mounting plate comprising: a frame; a platform that extends from the frame; a mounting tab that extends from the platform, the mounting tab configured to extend through the adapter opening and the faceplate opening; and one or more spring arms configured to bias the mounting tab forward away from the structure; a wireless communication circuit; and a control circuit that is communicatively coupled to the rotating portion and the wireless communication circuit, the control circuit configured to cause the wireless communication circuit to transmit a control signal in response to an actuation of the rotating portion. 12. The remote control device of claim 11 , wherein the one or more spring arms are attached to the frame proximate to a midpoint of the frame. 13. The remote control device of claim 11 , wherein distal portions of each of the one or more spring arms are configured to abut the structure when the adapter is secured to the structure. 14. The remote control device of claim 13 , wherein the distal portions of each of the one or more spring arms are biased away from the adapter prior to the adapter being secured to the structure. 15. The remote control device of claim 14 , wherein each of the one or more spring arms are configured to flex such that the distal portion of each of the plurality of spring arms are configured to move toward the adapter as the adapter is secured to the structure. 16. The remote control device of claim 11 , wherein the adapter is secured to the structure using one or more of fasteners or anchors. 17. The remote control device of claim 16 , wherein the mounting plate defines fastener openings that are configured to receive respective fasteners. 18. The remote control device of claim 11 , further comprising a fastener configured to secure the remote control device to the mounting plate, and wherein the platform defines an aperture that is configured to receive the fastener. 19. The remote control device of claim 11 , wherein the base comprises a mechanism that is operable to cause the control unit to release from the base. 20. The remote control device of claim 11 , wherein the mounting tab is configured to prevent rotation of the base when the remote control device is attached to the mounting plate.