Remote control for a wireless load control system

What is claimed is: 1. A remote control for a radio-frequency (RF) load control system configured to control an electrical load, the remote control comprising: a housing having a front surface and a rear surface, the front surface having an outer periphery defined by a length and a width, the housing characterized by a depth between the front surface and the rear surface, the housing configured to be held in a user's hand; an actuator provided at the front surface of the housing; an RF transmitter contained within the housing; and a controller contained within the housing, the controller configured to cause the RF transmitter to transmit an RF signal for controlling the electrical load in response to an actuation of the actuator when the housing is held in the user's hand, the RF transmitter and the controller adapted to be powered by a battery contained within a volume defined by the length and the width of the front surface and the depth of the housing; wherein the outer periphery of the front surface of the housing is configured to be received within a standard opening in a plane of a front surface of a faceplate in such a way that an entirety of the front surface of the housing is exposed through the opening in the plane of the front surface of the faceplate when the faceplate is mounted to a substantially vertical surface and the housing is received within the opening in the plane of the front surface of the faceplate, the controller configured to transmit an RF signal for controlling the electrical load in response to an actuation of the actuator when the faceplate is mounted to the vertical surface and the housing is received in the opening in the plane of the front surface of the faceplate. 2. The remote control of claim 1 , wherein the length and the width of the housing are slightly smaller than a length and a width of the standard opening of the faceplate, respectively. 3. The remote control of claim 2 , wherein the housing is characterized by a depth that is approximately equal to the distance between the front surface of the faceplate and the vertical surface. 4. The remote control of claim 3 , wherein the housing is characterized by a depth less than approximately 0.5 inches. 5. The remote control of claim 2 , wherein the housing is characterized by a depth that is greater than the distance between the front surface of the faceplate and the vertical surface so as to cause the front surface of the remote control to protrude past the front surface of the faceplate when the faceplate is mounted to the vertical surface and the housing is received within the standard opening in the plane of the front surface of the faceplate. 6. The remote control of claim 2 , wherein the length of the housing is approximately 2.605 inches and the width of the housing is approximately 1.280 inches. 7. The remote control of claim 2 , wherein the length and the width of the standard opening of the faceplate are those of a designer-style opening as set by a standard published by the National Electrical Manufacturers Association. 8. The remote control of claim 1 , further comprising: a mounting plate configured to be fastened to the vertical surface; wherein the housing of the remote control is configured to be attached to the mounting plate, the housing comprising a slide-receiving portion having two parallel flanges arranged to slidingly receive two parallel slide rails of the mounting plate, the parallel slide rails extending along opposite sides of the mounting plate. 9. The remote control of claim 1 , further comprising: a base portion having a flat surface for resting on a horizontal surface; wherein the housing is adapted to be connected to the base portion. 10. The remote control of claim 1 , wherein the remote control is prevented from being removed from the standard opening of the faceplate when the faceplate is mounted to the substantially vertical surface and the housing is received within the standard opening of the faceplate. 11. The remote control of claim 1 , wherein the outer periphery of the housing is configured to fit within a first standard opening of a multigang faceplate when the multigang faceplate is mounted to the substantially vertical surface and the remote control is mounted adjacent to an electrical wallbox. 12. The remote control of claim 1 , wherein the controller is configured to include a command for controlling a lighting load in an RF signal transmitted by the RF transmitter. 13. The remote control of claim 1 , wherein the controller is configured to include a command for controlling a motorized window treatment in an RF signal transmitted by the RF transmitter. 14. The remote control of claim 1 , wherein the battery comprises at least one coin battery. 15. The remote control of claim 1 , wherein the RF transmitter and the controller only receive power from the battery. 16. The remote control of claim 1 , wherein the remote control has no wire connections to the electrical load. 17. A remote control for a radio-frequency (RF) load control system configured to control an electrical load, the remote control comprising: an actuator configured to be actuated by a user; an RF transmitter configured to transmit RF signals; and a controller for causing the RF transmitter to transmit an RF signal for controlling the electrical load in response to an actuation of the actuator; and a housing configured to enclose the RF transmitter and the controller, the housing having a front surface in which the actuator is located and a rear surface, the front surface having an outer periphery defined by a length and a width, the housing characterized by a depth between the front surface and the rear surface, the RF transmitter and the controller adapted to be powered by a battery contained within a volume defined by the length and the width of the front surface and the depth of the housing; wherein the outer periphery of the front surface of the housing is configured to be received within a standard opening in a plane of a front surface of a faceplate in such a way that an entirety of the front surface of the housing is exposed through the opening in the plane of the front surface of the faceplate when the faceplate is mounted to a substantially vertical surface and the housing is received within the opening in the plane of the front surface of the faceplate, the controller configured to transmit an RF signal for controlling the electrical load in response to an actuation of the actuator when the faceplate is mounted to the vertical surface and the housing is received in the opening in the plane of the front surface of the faceplate; and wherein the housing of the remote control is configured to be removed from the opening of the faceplate, the controller configured to cause the RF transmitter to transmit an RF signal for controlling the electrical load in response to an actuation of the actuator when the housing is removed from the opening of the faceplate. 18. The remote control of claim 17 , further comprising: a base portion having a flat surface for resting on a horizontal surface; wherein the housing is adapted to be connected to the base portion when the housing is removed from the opening of the faceplate. 19. The remote control of claim 18 , wherein the base portion further comprises: an angled portion for receiving the housing of the remote control wherein when the housing is connected to the base portion, the remote control is orientated at an angle with respect to the flat surface of the base portion.