Abstract:
The disclosure discloses a virtual reality feedback device, and a positioning method, a feedback method, and a positioning system thereof. The method for positioning a virtual reality feedback device includes: obtaining first time point information of a first microwave signal, wherein the first time point information includes a reception time point and a transmission time point of the first microwave signal; obtaining a second time point information of a second microwave signal, wherein the second time point information includes a reception time point and a transmission time point of the second microwave signal; and determining a position of the virtual reality feedback device according to a transmission speed of the first microwave signal, a transmission speed of the second microwave signal, the first time point information, and the second time point information.
Abstract:
An organic light emitting device and a manufacturing method thereof and a display apparatus are provided. The organic light emitting device includes a first electrode, a second electrode, a third electrode and an organic material functional layer, and the organic material functional layer is disposed between the first electrode and the second electrode, the third electrode is disposed on a side of the first electrode close to the organic material functional layer; the third electrode is insulated from the first electrode, and part of the third electrode is overlapped with the first electrode; a distance between the first electrode and the second electrode is greater than a distance between the third electrode and the second electrode.
Abstract:
The embodiments of the present disclosure provide a display panel, a method for producing the same and a display apparatus. The display panel includes a first sub-pixel region; a second sub-pixel region, wherein an aperture opening ratio of the first sub-pixel region is less than an aperture opening ratio of the second sub-pixel region; and an insulation layer, having a first thickness at the first sub-pixel region less than a second thickness of the insulation layer at the second sub-pixel region, so that a first cell gap of the display panel at the first sub-pixel region is larger than a second cell gap of the display panel at the second sub-pixel region, thereby at least partially compensating for a difference between the aperture opening ratio of the first sub-pixel region and the aperture opening ratio of the second sub-pixel region.
Abstract:
There are provided an array substrate and a driving method thereof, and a display apparatus. Multiple gate lines are arranged on the array substrate, two ends of the gate lines are connected to a first gate driving circuit and a second gate driving circuit respectively, each of the gate lines is divided into a first gate line portion connected to the first gate driving circuit and a second gate line portion connected to the second gate driving circuit, and a switch element is arranged between the first gate line portion and the second gate line portion. Simultaneous turning-on of display TFTs controlled by one gate line is avoided, and the pulling to the voltage of a common electrode is reduced.
Abstract:
A flexible substrate, a manufacturing method for the flexible substrate and an OLED display device including the flexible substrate are provided. The flexible substrate includes a flexible base on which a mesh depression layer is provided, in which a mesh current sinking layer is embedded. The mesh current sinking layer is configured to enhance electrical conductivity of the flexible substrate. With the mesh depression layer, the mesh current sinking layer may be embedded in the flexible substrate, which effectively enhances the electrical conductivity of the flexible substrate.