The present invention provides a terminal control method and a terminal, and relates to the field of electronic devices. The method includes when a magnetic field sensed by a Hall device of a terminal in a standby state is less than or equal to a first preset threshold, activating a sensor of the terminal, where the Hall device is configured to sense a magnetic field generated by a magnet in a protective case of the terminal. The method also includes obtaining, by using detection data of the sensor, whether the terminal is obstructed, and maintaining the standby state of the terminal when it is obtained that the terminal is obstructed. The method and the terminal provided in the present invention are applied to the terminal.

A case for a portable electronic device (PED) is disclosed. The case includes a body having an interior surface configured to accept a PED and an exterior surface to be exposed to outside forces. A back vent that permits the transfer heat away from the PED and to the environment presents through the body of the case. A cushioning member is placed at or near the back vent on the interior surface of the case and may substantially or completely surround the back vent. When a PED is placed within the case, the fit of the PED and the case causes the cushioning member to press against the PED in order to create a cushion for the PED in the event of an outside force being applied to the case. The case may include a screen protector within a frame that attaches to the body.

An accessory device for an electronic device is disclosed. The accessory device includes multiple sections, with one section holding the electronic device, and another section having an input mechanism, such as a keyboard. The accessory device includes a hinge assembly that allows relative movement of the sections with respect each other. An additional hinge assembly is integrated with the section carrying the electronic device, and provides additional flexibility and range of motion of the section, thereby allowing a user to position the electronic device at multiple different angles relative to the section carrying the input mechanism. Also, each hinge assembly may include multiple roller and spacer elements, as well as a retention structure passing through each roller element and spacer element. The retention structure can provide tension to increase the frictional force between the roller and spacer elements, and/or provide counterbalance to offset the weight of the electronic device.

A portable workstation includes a base having a perimeter and a plurality of base fasteners positioned along the perimeter, a first sidewall with a side and a plurality of sidewall fasteners positioned along the side, and a second sidewall with a side and a plurality of sidewall fasteners positioned along the side. The first sidewall is coupled to the base by positioning the side of the first sidewall along the perimeter such that at least one sidewall fastener of the first sidewall couples to one of the base fasteners, and the second sidewall is coupled to the base by positioning the side of the second sidewall along the perimeter such that at least one sidewall fastener of the second sidewall couples to one of the base fasteners. The first sidewall and the second sidewall can be coupled to the base in different positions relative to the base to thereby change the configuration of the workstation.

A phone grip attachment includes a base configured for attachment to a phone and a finger-hold attached to the base. The finger-hold has a top member and a bottom member. The finger-hold is movable between an extended position in which an opening is defined between the top member and the bottom member for use in gripping the phone and a collapsed position in which the top member is substantially flat against the bottom member. The finger-hold can be biased to the extended position. The finger-hold can be rotatably attached to the base.

A radio frequency (RF) front end device has a signal traveling from a first antenna to a second antenna in an uplink path and a signal traveling from a third antenna to a fourth antenna in a downlink path. The device is under the control of automatic on/off controller (AOOC) which upon receiving a signal indication from a receive signal detector and amplifier (RSDA) turns on the operations of power amplifier (PA) and simultaneously turns off a low noise amplifier (LNA). This LNA is turned off when the power amplifier is turned on to prevent uplink path and downlink path forming a feedback loop which would result in oscillation, noise and interference.

A portable workstation that is configured to be operably coupled to a portable computing device wherein the workstation of the present invention provides a larger display to view. The portable workstation includes a first display monitor and a second display monitor that are hingedly coupled via a movement member. The first display monitor and second display monitor are movable intermediate a first position and a second position. The first display monitor and a second display monitor are placed in an elevated position with a mount once in the second position. A keyboard is movably secured to the portable workstation and is movable so as to be intermediate the first display monitor and the second display monitor in their first position. The first display monitor and second display monitor are controlled via a control panel that is configured to provide the necessary electronics for wireless communication to a portable computing device.

Described herein are systems and satchels, with an integrated head-mounted display, including a body with sides and a bottom forming an interior and a concavity opposite the interior, the interior and the concavity separated by the bottom and each open at one end, the concavity configured to accept a head-mounted display; and at least one reversible connector configured to reversibly retain the head-mounted display accepted in the concavity, wherein when the head-mounted display is accepted and retained in the concavity the sides are substantially flush with the head-mounted display; and a strap comprising two ends and a reversible connector at each end, the strap convertible to reversibly attach to the body to form a satchel strap or to reversibly attach to the head-mounted display to form a head-mounted display strap.

A computing device can include a housing including a peripheral housing defining an aperture, the peripheral housing having a constant cross-sectional area. The computing device can also include a display having a first major surface and a second major surface opposing the first major surface, the display disposed within the aperture defined by the peripheral housing and attached to the housing at one or more locations such that the first major surface and the second major surface of the display are substantially unobstructed by any other portion of the computing device.

A field-operable tactical operations management system. The system includes a case and a field interface within the case. The case has a rigid base and a rigid lid that is pivotally coupled to the rigid base. The field interface includes a power management system, a plurality of compartments, a user input device, and a display. The power management system stores energy, powers the field interface, or both. Each of the plurality of compartments receives a peripheral device. The display is operably coupled to the rigid lid of the case. The field interface is configured to be operably coupled to an end user device, which enables the end user device to be operated by way of the field interface with the user input device.