A main housing portion of a portable information handing system. The main housing portion includes: a bottom cover portion; and, a top cover portion coupled to the bottom cover portion, the top cover portion comprising a top portion unibody cover, a clear mesh portion, the clear mesh portion performing a touch sensing operation and a top portion bottom cover, the top portion unibody cover and the clear mesh portion being fastened to the top portion bottom cover to provide a unibody top cover portion.

An electronic device is provided, including first and second bodies, a processing module, a touch display panel, and at least one sensing unit. The second body is rotatably connected to the first body. The processing module is disposed in the first body or the second body. The touch display panel is disposed on the second body, is coupled to the processing module, and has a main display part, and first and second display parts. The sensing unit is disposed in the first body or the second body and coupled to the processing module. When the sensing unit detects the first and second bodies are folded relative to each other, the processing module is switched to a second mode, wherein in the second mode, the main display part is activated, the first display part and the second display part are adapted to operate synchronously or operate individually.

A portable electronic device includes a base, a first display pivotally connected to the base, a second display, and a linkage mechanism. The first display is movable to be opened or closed relative to the base. The second display is located between the base and the first display. The linkage mechanism includes at least one first link. Two ends of the first link are pivotally connected to the first display and the second display, respectively. When the first display is opened relative to the base, the at least one first link rotates to drive the second display to move up relative to the base. When the first display is closed relative to the base, the at least one first link rotates in an opposite direction to drive the second display to move down to be accommodated between the first display and the base.

An electronic device includes a host, a main display, an auxiliary display, and a hinge mechanism. The auxiliary display is located between the host and the main display and includes a sliding part and a lifting part. The sliding part is slidably connected to the host. The hinge mechanism includes a first bracket, a second bracket pivotally connected to the first bracket, and a third bracket pivotally connected to the second bracket. The first bracket is secured to the host, and the second bracket is secured to the main display. The third bracket is secured to the lifting part of the auxiliary display.

An electronic device is provided. The electronic device includes a hinge housing extending in a direction of a rotational axis, a first housing connected to one side of the hinge housing in a direction perpendicular to the rotational axis to rotate about the rotational axis relative to the hinge housing, a second housing connected to an opposite side of the hinge housing in a direction perpendicular to the rotational axis to rotate about the rotational axis relative to the hinge housing, and a flexible display including a bending area at least partially disposed in the hinge housing and formed to be a flat surface or a curved surface, a first area extending from the bending area in one direction perpendicular to the rotational axis, and a second area extending from the bending area in an opposite direction perpendicular to the rotational axis.

A modular patient monitor provides a multipurpose, scalable solution for various patient monitoring applications. In an embodiment, a modular patient monitor utilizes multiple wavelength optical sensor and/or acoustic sensor technologies to provide blood constituent monitoring and acoustic respiration monitoring (ARM) at its core, including pulse oximetry parameters and additional blood parameter measurements such as carboxyhemoglobin (HbCO) and methemoglobin (HbMet). Expansion modules provide blood pressure BP, blood glucose, ECG, CO2, depth of sedation and cerebral oximetry to name a few. Aspects of the present disclosure also include a transport dock for providing enhanced portability and functionally to handheld monitors. In an embodiment, the transport dock provides one or more docking interfaces for placing monitoring components in communication with other monitoring components. In an embodiment, the transport dock attaches to the modular patient monitor.

Disclosed are an electronic device and a method of controlling the electronic device. The method of controlling the electronic device including a plurality of screens includes receiving a user input via a second screen having a user interface independently updated from a first screen; and controlling an operation performed by the electronic device and displayed on the first screen based on the user input.

A mobile terminal including a terminal body having an inner surface, an outer surface and side surfaces, and configured to be opened into an open state and closed into a closed state; a touch screen having first and second regions disposed on the inner surface, a third region disposed on the outer surface, and a fourth region disposed on the side surface between the first and third regions, in the closed state; and a controller configured to display an execution screen to at least one of the first and second regions in the open state, display information related to the execution screen on at least one of the third and fourth regions, based on a closed type of the terminal body corresponding folding closed the terminal body, and execute a function related to the displayed information.

An example computing device includes a body and a first display device including a lower end that is pivotably connected to the body and a front surface including a first display area. The computing device further includes a second display device including a pivotable end that is pivotably connected to the body and a free end opposite the pivotable end. The computing device further includes a bias member connecting the second display device to the first display device. The bias member resiliently urges the free end of the second display device towards the front surface of the first display device.

A portable electronic device includes a first body, a second body, a third body, and a support member. The second body is pivotally connected between the first body and the third body. The support member is movably disposed at the first body, and the support member is pivotally connected to one of the second body and the third body. In a folded state, the second body is folded and covered between the first body and the third body. In an unfolded state, the second body and the third body are respectively inclined relative to the first body and the second body, and the second body is suspended over the first body.