A device for pivoting a navigation light and methods that use the device can include a mount assembly with an attachment for attaching the device to a structure. A pivot assembly can be supported by the mount assembly, with the pivot assembly mechanically coupled to a drive element such that a drive of the drive element pivots a navigation light to one or more operating, service, or hold positions.

Various implementations include brackets for mounting a media bar, and systems that includes a media bar and a bracket. The brackets can be configured to couple with at least two distinct external components, in distinct orientations. In certain examples, a bracket for mounting a media bar includes: a first section including a first set of mating features for coupling with the media bar; a second section including a second set of mating features for coupling with at least two distinct external components; and at least one hinge for adjusting the first section relative to the second section to enable mounting the media bar to the at least two distinct external components, respectively, in distinct orientations.

A motor including a rotor, a first arm, a mount, a stator, a first bearing, and a second bearing. The motor is configured to rotate the rotor. The mount connected to the first arm. The stator coupled to the mount. The first bearing located between and connecting the rotor to the stator. The second bearing located between and connecting the rotor to the mount. The first arm prevents movement of the stator and the mount.

The disclosure relates to an accessory support device, comprising a support structure that defines a flat base plane. And comprising an inclined portion that is supported on the support structure that extends in an inclined plane upward relative to the base plane from a front of the accessory support device to a rear of the accessory support device. The accessory support device further comprises an upright portion that is supported on the support structure or on the inclined portion that extends in a mainly upright plane relative to the base plane from the rear of the accessory support device, so as to form a privacy panel that shields the user from being seen from the rear of the accessory support device. The upright portion and the inclined portion are angularly adjustably connected via an angle compensation device to compensate the upright portion for angular adjustment of the inclined portion.

A quick release assembly and gimbal system are disclosed. The gimbal system includes a handheld gimbal and an apparatus for mounting an electronic structure on the handheld gimbal. The handheld gimbal includes a handheld structure, a gimbal body operably coupled with the handheld structure, and a connector assembly operably coupled with the gimbal body. The connector assembly includes a first set of attraction structures. The apparatus includes a mounting structure attachable to the electronic structure. The mounting structure includes a second set attraction structures. The first set of attraction structures are configured to attach to the second set of magnets, the first set of attraction structures and the second set of attraction structures configured to cause at least one of the connector assembly or the mounting structure to rotate in a direction such that the mounting structure is coupled to the connector assembly.

Provided are a method and system for producing photographic images of an object about multiple axes, the method comprising: suspending the object; rotating the object around a first axis allowing multiple photographic images of the object to be captured about the first axis by an imaging device; and rotating the imaging device about the object around a second axis allowing multiple photographic images of the object to be captured about the second axis by the imaging device.

A security camera system includes: a camera module; a support portion arranged at one side of the camera module and connected to a housing bracket or an outside structure; a tilt axis portion connected to one side of the camera module and coupled to the support portion to be rotatable relative to the support portion; and a tilt motor configured to transfer a rotation force to the tilt axis portion and revolve around a rotation axis of the tilt axis portion during rotation of the tilt axis portion.

Method and system allowing more accurate detection and identification of unwanted arcing include novel processing of signal voltage representing recovered power-line current. In one implementation, arc-faults are detected based on numerical analysis where individual cycles of line voltage and current are observed and data collected during each cycle is processed to estimate likelihood of presence of arc-event within each individual cycle based on pre-defined number of arc-events occurring within pre-defined number of contiguous cycles. In another implementation, fast transient current spikes detection can be done by: computing difference values between consecutive line-current samples collected over a cycle, average of differences, and peak-to-peak value of line-current; comparing each difference value to average of difference; comparing each difference value to peak-to-peak value; and, based on calculation of composite of two comparisons, using thresholds to determine if arcing is present within processed cycle.

The description relates to devices that can include a base assembly, upper assembly, an arm, and a conductor. In one example the base assembly can include a base shaft and the upper assembly can include an upper shaft. The arm can be secured to the base shaft and the upper shaft to translate a range of rotation of the arm around the base shaft to rotation around the display shaft. The conductor can extend from the base assembly into the arm parallel to the base shaft and extend from the arm into the upper assembly parallel to the upper shaft.

An object guide having a variable motion path includes a connecting seat, a first motion unit, a second motion unit, an adjustment unit and a drive unit. The adjustment unit is disposed on the connecting seat, and the second connecting portion of the first connecting arm and the fourth connecting portion of the second connecting arm are disposed at the same position, the first adjustment portion of the first adjustment arm and the second adjustment portion of the second adjustment arm are also located at the same position and simultaneously moved by the adjustment unit. Therefore, simply adjusting the adjustment unit can simultaneously adjust the first adjustment portion and the second adjustment portion to the straight line position, the outward curvature position, or the inward curvature position, which make the adjustment convenient, and the displacement curvatures for moving the object are asymmetrical.