An optical device of the present invention includes a display apparatus (10) and an optical system (12). The display apparatus (10) includes a display region (60) and a sensor region (52). The optical system (12) includes a first mirror (21) and a second mirror (22). The first mirror (21) includes a first surface and a second surface. The display region (60) has a function of emitting first light (31). The first mirror (21) is provided on an optical path of the first light (31) and has a function of transmitting the first light (31) incident on the first surface to the second surface and a function of reflecting second light (33) incident on the second surface. The second mirror (22) is provided on an optical path of the second light (33) and has a function of reflecting the second light (33). The sensor region (52) has a function of detecting the second light (33) via the first mirror (21) and the second mirror (22).

A display device is characterized by comprising: a display module for outputting an image; a rotation drive unit located on the rear surface of the display module; and a pair of stands extending obliquely downward from the rotation drive unit, wherein the rotation drive unit adjusts the angle of the stands simultaneously when the display module rotates. In the display device, the direction of the display module can be easily changed, and thus it is easy to change the display module according to the arrangement of the screen being output.

High definition and a large screen are achieved with the use of a direct-view image display device including a small number of optical systems or no optical system. A personal image display device providing the sense of immersion is achieved. A display device of the present invention is a display device placed at least on the front side of a user's visual field. The display device uses a flexible film, has a curved surface, and has a display surface on the user's side of the display device. Display is performed inside a space on the user's side of the display device, and the rear surface of the display device is placed on the side opposite to the user's side of the display device. The user's side of the display device may be provided with a large display region, or a see-through display region of the display device may display only some marks.

A head mount device (100) includes a housing (110, 120) and a light guidance unit (130). The housing (110, 120) is configured to fix a portable display device (200) thereto. The light guidance unit (130) is configured to change an angle of view of a sensor (212) mounted on the portable display device (200) so as to allow the sensor (212) to sense at least a lower region below a line-of-sight direction of a user in a mounting state in which the portable display device (200) is fixed to the housing (110, 120), and the housing (110, 120) is mounted on the user.

This disclosure relates to a connection device that can provide a new function for an electronic device. A film antenna receives a wireless signal transmitted by radio, a relay unit relays the received wireless signal to a television receiver, an LED indicator emits light based on a control signal transmitted from the television receiver, a storage case stores the film antenna, the relay unit and a light emitting unit, and a connection member connects the storage case to the television receiver. In addition, in a state of being connected to the television receiver, in a normal direction to a housing surface having a display unit on a housing of the television receiver, the storage case has a protruding section which further protrudes from the housing surface and stores the film antenna in the protruding section. For example, this disclosure can be applied to a receiving device having a receiving unit which receives the wireless signal.

This disclosure relates to a connection device that can provide a new function for an electronic device. A film antenna receives a wireless signal transmitted by radio, a relay unit relays the received wireless signal to a television receiver, an LED indicator emits light based on a control signal transmitted from the television receiver, a storage case stores the film antenna, the relay unit and a light emitting unit, and a connection member connects the storage case to the television receiver. In addition, in a state of being connected to the television receiver, in a normal direction to a housing surface having a display unit on a housing of the television receiver, the storage case has a protruding section which further protrudes from the housing surface and stores the film antenna in the protruding section. For example, this disclosure can be applied to a receiving device having a receiving unit which receives the wireless signal.

Methods and apparatus are disclosed to determine a power state of a device. An example method includes determining respective counts for a plurality of measurements during a calibration period, the measurements indicative of an amount of power drawn by the device, determining a first threshold and a second threshold based on at least one of the counts, the first threshold determined using most frequently logged measurement values, the most frequently logged measurement values based on counts performed after expiration of the calibration period, comparing a measurement to the first threshold and to the second threshold, and outputting a positive indication when the measurement is within an acceptable difference range, the acceptable difference range based on the amount of power drawn by the device.

Methods and apparatus are disclosed to determine a power state of a device. An example method includes determining respective counts for a plurality of measurements during a calibration period, the measurements indicative of an amount of power drawn by the device, determining a first threshold and a second threshold based on at least one of the counts, the first threshold determined using most frequently logged measurement values, the most frequently logged measurement values based on counts performed after expiration of the calibration period, comparing a measurement to the first threshold and to the second threshold, and outputting a positive indication when the measurement is within an acceptable difference range, the acceptable difference range based on the amount of power drawn by the device.

A mounting system capable of mounting objects to support structures. The mounting system includes a wall mount including a display bracket configured to hold the object, a fixed support bracket coupleable to a vertical support structure, and a linkage assembly. The linkage assembly has a low-profile stowed configuration in which the object is held in a raised position close to the support structure. The linkage assembly moves to another configuration to move the object. The object can be held in a lowered position. A biasing mechanism can facilitate convenient movement of the object.

A mounting system capable of mounting objects to support structures. The mounting system includes a wall mount including a display bracket configured to hold the object, a fixed support bracket coupleable to a vertical support structure, and a linkage assembly. The linkage assembly has a low-profile stowed configuration in which the object is held in a raised position close to the support structure. The linkage assembly moves to another configuration to move the object. The object can be held in a lowered position. A biasing mechanism can facilitate convenient movement of the object.