An apparatus may comprise first and second auxiliary function units each one or more connector interfaces configured to be operably connected to one or more medical devices via mating engagement with one or more transmission lines. The apparatus can further include a user interface overlay panel overlying at least a portion of each of the first auxiliary function unit and the second auxiliary function unit. The user interface overlay panel comprises a user interface control portion operably coupled to each of the first auxiliary function unit and second auxiliary function unit to alter control settings of each auxiliary function unit in response to input at the user interface control portion. The user interface control portion further comprises a first and second user interface control areas arranged to align with the one or more connector interfaces of the respective first and second auxiliary function units.

A modular wireless communications system (edge device, etc.) that includes a base unit having a base unit processor and one or more additional units that each include a processor, in which the base unit processor is configured with processor-executable software instructions to determine whether the base unit has been combined with the one or more additional units to create a combined unit and/or whether one or more of the additional units have been detached from the combined unit. The processor may automatically perform an edge reconfiguration interrogation and enumeration (ERIE) operation in response to determining that the base unit has been combined with the one or more additional units to create the combined unit or in response to determining that one or more of the additional units have been detached from the combined unit.

Example implementations relate to pen holding devices. In an example, a pen holding device can comprise a connector coupled to a receiver to couple the pen holding device to an electronic device, and the receiver including a magnet and a pen clip holder, the receiver to couple a pen via the magnet and the pen clip holder.

An external expansion device for a mainframe computer expansion card, which includes: a L-shaped expansion rack and a data line for connecting with expansion card. The expansion rack is provided outside the mainframe computer chassis. The expansion rack includes a fixed part, and at least one expansion card plug part vertical to the fixed part. The one end of the data line for connecting with expansion card is electrically connected with the expansion card plug part, the other end of the expansion card plug part is used to connect with a motherboard inside the mainframe computer chassis. It does not need to remove the cover of the chassis during the demolition process, so that the purpose of dust-proof is achieved. It has a fast speed to add, remove, and replace the expansion card just in several seconds and is easy to operate without professional operation.

The display device may include a display panel and a frame diposed on a rear surface of the display panel. The display device also includes a plurality of binders fixed to the rear surface of the display panel and disposed between the display panel and the frame, and a plurality of coupling members penetrating through the frame and coupled to the plurality of binders. Therefore, the flatness of the display panel attached to the plurality of binders may be improved by adjusting the locations of the frame and the plurality of binders. Also, the display panel and the frame may be easily attached and detached using the plurality of binders and the plurality of coupling members.

A modular wireless communications system (edge device, etc.) that includes a base unit having a base unit processor and one or more additional units that each include a processor, in which the base unit processor is configured with processor-executable software instructions to determine whether the base unit has been combined with the one or more additional units to create a combined unit and/or whether one or more of the additional units have been detached from the combined unit. The processor may automatically perform an edge reconfiguration interrogation and enumeration (ERIE) operation in response to determining that the base unit has been combined with the one or more additional units to create the combined unit or in response to determining that one or more of the additional units have been detached from the combined unit.

A display device according to an exemplary embodiment of the present invention includes a display panel; a frame disposed on a rear surface of the display panel; a plurality of binders fixed to the rear surface of the display panel and disposed between the display panel and the frame; and a plurality of coupling members penetrating the frame and coupled to the plurality of binders. Accordingly, the display panel and the frame may be easily attached and detached using the plurality of binders and the plurality of coupling members.

The display device may include a display panel and a frame disposed on a rear surface of the display panel. The display device also includes a plurality of binders fixed to the rear surface of the display panel and disposed between the display panel and the frame, and a plurality of coupling members penetrating through the frame and coupled to the plurality of binders. Therefore, the flatness of the display panel attached to the plurality of binders may be improved by adjusting the locations of the frame and the plurality of binders. Also, the display panel and the frame may be easily attached and detached using the plurality of binders and the plurality of coupling members.

An electronic device includes a device housing and at least two grip sensors disposed along the device housing. One or more processors are operable with the at least two grip sensors. At least one electronic latch is operable with the one or more processors. The one or more processors transition the at least one electronic latch from a latched state to an unlatched state when the at least two grip sensors detect a grip applied to the at least two grip sensors.

A scalable system for high-power computer, comprising a plurality of motherboard chassis, inserted in a computer rack mounting kit, each motherboard chassis, being configured to receive at least one motherboard module, said plurality of inner chassis forming a stack of inner chassis, the stack being configured to receive an outer floating bracket chassis, said outer chassis being inserted by a second longitudinal end of each inner chassis forming the stack of inner chassis, each said outer floating bracket chassis being configured to accommodate at least one double floating bracket being configured to house a cable box capable of connecting the connectors of a plurality of motherboard modules, arranged in said inner chassis of the stack, to each other, the system being characterized in that the double floating bracket comprises at least several floating attachment means.