The present technology discloses a frameless modular multi-functional electronic device. The electronic device includes a base module with a processor and multiple component modules, at least one of which is configured to connect directly in contact with the base module. The modules each include a connecting member to slidably align and mate the component modules together, and an electrical interface to transmit digital information and energy between connected base and component modules. The component modules are interchangeably connected directly in contact with each other and, when assembled, form the frameless modular multi-functional electronic device.

A display device using semiconductor light emitting element, and including a display module including semiconductor light emitting element; a frame on which a plurality of the display modules is arranged; a first connection member which fixes the display module onto the frame on a rear surface of the display module, and which provides planar fluidity; and a second connection member having a magnet provided on a side surface of the display module, and applying attractive force to adjacent the display module.

A display device using semiconductor light emitting element, and including a display module including semiconductor light emitting element; a frame on which a plurality of the display modules is arranged; a first connection member which fixes the display module onto the frame on a rear surface of the display module, and which provides planar fluidity; and a second connection member having a magnet provided on a side surface of the display module, and applying attractive force to adjacent the display module.

A base sensor for process variable determination in an industrial environment. The base sensor includes first wireless communication circuitry that transmits signals to a first expansion device and/or receives signals from the first expansion device, and a first housing including a first receiving device that receives the first expansion device or a second housing, the first housing completely enclosing the base sensor.

A base sensor for process variable determination in an industrial environment. The base sensor includes first wireless communication circuitry that transmits signals to a first expansion device and/or receives signals from the first expansion device, and a first housing including a first receiving device that receives the first expansion device or a second housing, the first housing completely enclosing the base sensor.

An electronic device including a first base, a first conductive layer, an insulating layer, a first electronic element, a second base, and a second electronic element is provided. The first conductive layer is disposed on the first base. The insulating layer is disposed on the first conductive layer and has a first hole, wherein the first hole exposes at least a portion of the first conductive layer. The first electronic element is disposed on the first base. The second base is disposed between the insulating layer and the first electronic element, and has a second hole. The second electronic element is electrically connected to the first conductive layer. The first electronic element is electrically connected to the first conductive layer via the second hole and the first hole, and in a cross-sectional view of the electronic device, the second hole is different from the first hole in width.

An electronic device including a first base, a first conductive layer, an insulating layer, a first electronic element, a second base, and a second electronic element is provided. The first conductive layer is disposed on the first base. The insulating layer is disposed on the first conductive layer and has a first hole, wherein the first hole exposes at least a portion of the first conductive layer. The first electronic element is disposed on the first base. The second base is disposed between the insulating layer and the first electronic element, and has a second hole. The second electronic element is electrically connected to the first conductive layer. The first electronic element is electrically connected to the first conductive layer via the second hole and the first hole, and in a cross-sectional view of the electronic device, the second hole is different from the first hole in width.

A stackable storage system is disclosed. The system includes a base storage container disposed on a wheeled cart, and one or more additional storage containers removably secured on top of the base container. The system further includes a power outlet box which is interchangeably securable in the system with the other storage containers. The power outlet box includes an extendable AC power cord which may be plugged into a wall outlet, and one or more electrical output plugs, include AC outlets and USB outlets which are powered by the AC power cord. The power outlet box and other containers are securable to each other by a spring loaded latch system. The power outlet box is also usable separate with a storage container having an overhead carry handle allowing both the container and power box to be transportable together.

A stackable storage system is disclosed. The system includes a base storage container disposed on a wheeled cart, and one or more additional storage containers removably secured on top of the base container. The system further includes a power outlet box which is interchangeably securable in the system with the other storage containers. The power outlet box includes an extendable AC power cord which may be plugged into a wall outlet, and one or more electrical output plugs, include AC outlets and USB outlets which are powered by the AC power cord. The power outlet box and other containers are securable to each other by a spring loaded latch system. The power outlet box is also usable separate with a storage container having an overhead carry handle allowing both the container and power box to be transportable together.

A spliced display includes a plurality of display modules and at least one angle limiting assembly. Each display module includes a box and a display. A direction perpendicularly connected to a display side and a back side of the box is defined as a first direction. The display is detachably disposed on the display side of the box. The angle limiting assembly includes a rotation member, a linkage assembly and a connector. The rotation member is rotatably disposed on the box around a second direction perpendicular to the first direction, and has a guiding portion. The linkage assembly is disposed on the rotation member, and includes a linkage portion. When the rotation member rotates, the linkage portion is guided by the guiding portion to linearly move along the second direction. The connector is connected to the linkage assembly. Each display module abuts against an adjacent display module by the connector.