A mounting frame may be configured as a self-adjusting mounting frame that biases itself against a surface of structure. The mounting frame may be a component, for example, of a remote control device or a faceplate assembly. The mounting frame may be configured to bias a rear surface of the mounting frame against the surface of a structure. The mounting frame may include biasing members. Each biasing member may include an attachment portion and a pair of resilient spring arms that suspend the attachment portion relative to a perimeter wall of the mounting frame such that the attachment portion is spaced further from the rear surface of the mounting frame than locations where the spring arms extend from the mounting frame. The rear surface of the mounting frame may be defined by the perimeter wall.

A control device is configured to control one or more electrical loads in a load control system. The control device is a wall-mounted device such as dimmer switch, a remote control device, or a retrofit remote control device. The control device includes a gesture-based user interface for applying advanced control over the one or more electrical loads. The types of control include absolute and relative control, intensity and color control, preset, zone, or operational mode selection, etc. Feedback is provided on the control device regarding a status of the one or more electrical loads or the control device.

A remote-control holder includes one or more elongated trays having a bottom wall, two spaced upstanding sidewalls and an open top in communication with an interior chamber for holding one or more remote units. A restraining strap is positioned across the operating face of the remote unit, between rows of keys, and is secured to a desired position on the tray bottom wall. Multiple trays are securable to a storage rack that allows the remote units to be operated in the stored position.

A control device is disclosed herein that comprises a base portion configured to be mounted over a toggle actuator of a mechanical switch that controls power delivered to at least one lighting load. In examples, the control device further comprises a touch sensitive surface configured to detect first and second user inputs. In examples, the control device further comprises a touch sensitive device and an actuation portion. The control device is configured to control the at least one lighting load in response to the user inputs, actuations of the actuation portion, a point actuation, and/or a gesture.

A mounting frame may be configured as a self-adjusting mounting frame that biases itself against a surface of structure. The mounting frame may be a component, for example, of a remote control device or a faceplate assembly. The mounting frame may be configured to bias a rear surface of the mounting frame against the surface of a structure. The mounting frame may include biasing members. Each biasing member may include an attachment portion and a pair of resilient spring arms that suspend the attachment portion relative to a perimeter wall of the mounting frame such that the attachment portion is spaced further from the rear surface of the mounting frame than locations where the spring arms extend from the mounting frame. The rear surface of the mounting frame may be defined by the perimeter wall.

The embodiments describe an information processing device, which is connected to a plurality of imaging devices and a method for receiving images by the information processing device. The imaging devices have a first imaging device and a second imaging device. The method includes displaying a first image captured by the first imaging device and switching, at a time that the first image is not received by the information processing device, to a second image captured by the second imaging device.

A mounting frame may be configured as a self-adjusting mounting frame that biases itself against a surface of structure. The mounting frame may be a component, for example, of a remote control device or a faceplate assembly. The mounting frame may be configured to bias a rear surface of the mounting frame against the surface of a structure. The mounting frame may include biasing members. Each biasing member may include an attachment portion and a pair of resilient spring arms that suspend the attachment portion relative to a perimeter wall of the mounting frame such that the attachment portion is spaced further from the rear surface of the mounting frame than locations where the spring arms extend from the mounting frame. The rear surface of the mounting frame may be defined by the perimeter wall.

A remote control device is provided that is configured for use in a load control system that includes one or more electrical loads. The remote control device includes a mounting structure and a control unit, and the control unit is configured to be attached to the mounting structure in a plurality of different orientations. The control unit includes a user interface, an orientation sensing circuit, and a communication circuit. The control unit is configured to determine an orientation of the control unit via the orientation sensing circuit. The control unit is also configured to translate a user input from the user interface into control data to control an electrical load of the load control system based on the orientation of the control unit and/or provide a visual indication of an amount of power delivered to the electrical load based on the orientation of the control unit.

Provided is an operation apparatus including a main body section including an operation section including a first operation section for performing a record operation of an image pickup device and a display section that displays an image transmitted from the image pickup device, and a fixation section that fixes the main body section to an attachment object. The first operation section and the display section are both located on a first face of the main body section.