Abstract: An audio/video (A/V) display system comprising a display and a peripheral device connected to the display. The display is capable of displaying a user interface. The peripheral device transmits raw data of the peripheral device to the display. The display enables an option corresponding to the peripheral device in the user interface after receiving the raw data of the peripheral device. Both the display and the peripheral device are controlled by a control device.
Abstract: A light bar includes a wiring substrate, a plurality of light sources, and at least one high efficient heat-dissipating component. The wiring substrate has a first surface and a second surface opposite to the first surface. The second surface is divided into at least one high efficient heat-dissipating section and at least one low efficient heat-dissipating section. The light sources are respectively disposed on the first surface opposite to the high efficient heat-dissipating section and the low efficient heat-dissipating section. The high efficient heat-dissipating component is disposed on the high efficient heat-dissipating section.
Abstract: A method for controlling a television device comprises the following steps. A portable device with a wireless power receiver module is provided. A display control module of the television device receives a parental control signal from a remote control module of the portable device. A feedback detector unit of a wireless power transmitter module of the television device detects whether the wireless power receiver module is located within a predetermined range so as to generate a first detection result. The display control module selectively enables a parental control function according to the parental control signal and the first detection result. The feedback detector unit again detects whether the wireless power receiver module is located within the predetermined range so as to generate a second detection result. Finally, the television device is controlled to turn on, turn off or enter into a standby mode based on the second detection result.
Abstract: A system and method for signal input control and a video device thereof are provided, adapted for a control device controlling the signal input to the video device. The method includes the following steps: the control device provides a process information and a control command; the video device detects the control commands and receives the process information through a Display Data Channel (DDC); and the video device controls the switch unit to transmit the process information to the Extended Display Identification Data (EDID) ROM or the processor according to the control command.
Abstract: A display device capable of controlling an external light and a control method are provided. Image display of the display device and the external light are synchronously controlled through a synchronization signal generated by a control module in the display device. The control module generates a first and a second light source control signal during first cycles and second cycles of the synchronization signal. The first and the second light source control signal are used to control the external light to operate at a first operation state and at a second operation state respectively. Through the techniques of controlling the external light by the display device, i.e. turning off or reducing illumination intensity of the external light every other specific period, both influence of the external light on contrast ratio and light reflection from the display device are reduced. Power of the external light is also saved.
Abstract: A method for controlling a television device comprises the following steps. A portable device with a wireless power receiver module is provided. A display control module of the television device receives a parental control signal from a remote control module of the portable device. A feedback detector unit of a wireless power transmitter module of the television device detects whether the wireless power receiver module is located within a predetermined range so as to generate a first detection result. The display control module selectively enables a parental control function according to the parental control signal and the first detection result. The feedback detector unit again detects whether the wireless power receiver module is located within the predetermined range so as to generate a second detection result. Finally, the television device is controlled to turn on, turn off or enter into a standby mode based on the second detection result.
Abstract: A data transmission system using an optical fiber includes an optical fiber, a first light-emitting device, a second light-emitting device, a first photo-detecting device and a second photo-detecting device. Each of the first light-emitting device and the second light-emitting device is optically coupled to the input facet of the optical fiber, respectively. Each of the first photo-detecting device and the second photo-detecting device is optically coupled to the output facet of the optical fiber, respectively. In particular, the first light-emitting device and the second light-emitting device are packaged into a first optical subassembly, and the first photo-detecting device and the second photo-detecting device are packaged into a second optical subassembly.
Abstract: A display casing has a first cover, a second cover, and a fixing member between the first cover and the second cover to serve as a combination medium therebetween. The fixing member is engaged with two buckling pieces of the first cover by a positioning pin and a restraining portion, and the second cover is then buckled on the fixing member by a buckling member to be combined with the first cover. The material of the fixing member is the same as that of the second cover but is different from, the material of the first cover. Therefore, when the buckling member of the second cover is buckled on the fixing member, the risk of the fracture of the fixing member under the stress of the buckling member can be avoided.
Abstract: A display device includes a display panel and a directional antenna. The directional antenna is disposed behind or under the display panel for radiating or receiving wireless signals. The radiating path of the directional antenna is at a specific angle with respect to a horizontal plane for receiving surrounding wireless signals. Or, the signals radiated from the directional antenna may be reflected or refracted to regions above or in front of the display device by a back-side barrier or penetrate a back-side barrier which does not cause large electromagnetic degradation, thereby receiving wireless signals originated from the front-side or back-side of the display device.