A device with a keypad that includes a bezel assembled with a flexible substrate is provided. The bezel comprises: a first aperture and a second aperture separated by a retention plate. The flexible substrate comprises two or more arms joined at joining ends, and separated at distal ends, distal from the joining ends; at least one arm, of the two or more arms, comprises: a first button portion and a second button portion configured to respectively mate with the first aperture and the second aperture from a rear-side of the bezel, the first button portion and the second button portion separated by a non-button portion. The flexible substrate may be assembled with the bezel to form the keypad by inserting a distal end of the one or more arms through the first aperture from the rear-side of the bezel.

Systems and methods are provided for handsets for testing devices with fluid ingress mitigation.

In an operation input device, an operation plate is supported by a support unit in such a way as to allow the operation plate to be tilted, and the orientation of an operation target of a target apparatus is set to the orientation corresponding to a tilt position of the operation plate.

Head-mounted augmented reality (AR) devices can track pose of a wearer's head to provide a three-dimensional virtual representation of objects in the wearer's environment. An electromagnetic (EM) tracking system can track head or body pose. A handheld user input device can include an EM emitter that generates an EM field, and the head-mounted AR device can include an EM sensor that senses the EM field. EM information from the sensor can be analyzed to determine location and/or orientation of the sensor and thereby the wearer's pose. The EM emitter and sensor may utilize time division multiplexing (TDM) or dynamic frequency tuning to operate at multiple frequencies. Voltage gain control may be implemented in the transmitter, rather than the sensor, allowing smaller and lighter weight sensor designs. The EM sensor can implement noise cancellation to reduce the level of EM interference generated by nearby audio speakers.

A handset for controlling a surgical operating table, the handset having a three-dimensional physical representation of a tabletop of a surgical operating table, the physical representation of the tabletop comprising a back section, a seat section and one or more leg sections, wherein at least one of the sections includes a respective sensor arranged to sense a force or movement applied to a surface of the respective section by a touch applied to the surface, and a control system within the handset which is connected to the sensor, the control system being arranged to generate an output control signal for transmission to the surgical operating table to be controlled in response to an input command of an applied force or applied movement sensed by the respective sensor. Methods of controlling a tabletop of a surgical operating table using the handset are also disclosed.

A remote controlled extension cord. The extension cord has a wire attached to a plug with an integrated base. The base serves to cradle a remote control, which is used to turn power on/off to the extensions on the cord. The extension cord has a number of advanced operations, for example a sequential flash operation which cycles power between all of the individual sockets in the extension cord in sequence, and then repeats the sequence. This can all be controlled by the remote control.

The subject of the invention is a medical device positioning system intended to increase resistance to accidental activation. This is accomplished using two independent systems to configure the actuator in the given position.

Remote control devices may control electrical loads and/or load control devices of a load control system without accessing electrical wiring. The remote control device may be mounted over a mechanical switch that is installed in a multi-gang wallbox adjacent to a second electrical device, such as another mechanical switch or an electrical receptacle. The second electrical device may be recessed with respect to the remote control device and may be brought forward towards a front surface of the adapter by loosening a first set of screws that attach a yoke of the second electrical device to the multi-gang wallbox, and tightening a second set of screws that attach the adapter to the yoke of the second electrical device. The remote control device may comprise one or more configurable attachment members for attaching the adapter to the yoke of the mechanical switch and/or to the yoke of the second electrical device.

A computing device includes a touch-sensitive area that is arranged and configured to receive one or more gestures, and a memory that is arranged and configured to store one or more device gestures, where the stored device gestures correspond to a selection of one or more remote devices and a processor that is operably coupled to the touch sensitive area and the memory. The processor is arranged and configured to compare the gestures received in the touch sensitive area to the stored device gestures, determine a selected remote device based on the comparison, and initiate contact with the selected remote device.

Provided is a toilet remote controller for remotely operating a toilet device. The toilet remote controller includes a remote controller main body. The remote controller main body includes a first operation unit, a case, and a cover panel. The case forms a storage space for storing an electrical component. The cover panel is provided at a position corresponding to the first operation unit and covers the case with light permeability.