CONTROL SYSTEM FOR HYBRID DAYLIGHT-COUPLED BACKLIGHTS FOR SUNLIGHT VIEWABLE DISPLAYS
First Claim
1. A brightness control system for a hybrid daylight-coupled display, comprising:
- an LCD panel having a top side and a bottom side;
an active backlight for providing active backlighting;
a diffuser having a front edge adjacent to the top side of the LCD panel and having a back edge;
a curved reflector having a top side adjacent to the back edge of the diffuser and having a bottom side adjacent to the bottom side of the LCD panel, wherein the diffuser transmits daylight to the reflector to provide passive backlighting and the active backlight transmits active backlight to the reflector, and wherein the reflector reflects backlights including the active backlight and the passive backlight to the LCD panel for providing backlighting;
a first sensor unit detecting the ambient light level surrounding the LCD panel;
a second sensor unit, positioned between the LCD panel and the curved reflector, detecting a light level for total backlights including the active backlight and the passive backlight; and
a processor determining a control signal based on data from the first and second sensor units and adjusting the active backlight'"'"'s light level based on the control signal.
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Accused Products
Abstract
A control system for a hybrid daylight-coupled display having an LCD panel, a diffuser, and a curved reflector behind the LCD panel, and an active backlight for providing backlighting from an active light source. For passive backlighting, the diffuser transmits daylight to the reflector, which reflects the daylight to the LCD panel and provides substantially uniform distribution of the daylight on the LCD panel for backlighting it. The control system comprises a sensor unit detecting ambient light level surrounding the LCD display and another sensor unit detecting backlights provided by the active backlight and the daylight. The control system adjusts the brightness of the active backlight based on data from the two sensor units.
61 Citations
22 Claims
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1. A brightness control system for a hybrid daylight-coupled display, comprising:
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an LCD panel having a top side and a bottom side; an active backlight for providing active backlighting; a diffuser having a front edge adjacent to the top side of the LCD panel and having a back edge; a curved reflector having a top side adjacent to the back edge of the diffuser and having a bottom side adjacent to the bottom side of the LCD panel, wherein the diffuser transmits daylight to the reflector to provide passive backlighting and the active backlight transmits active backlight to the reflector, and wherein the reflector reflects backlights including the active backlight and the passive backlight to the LCD panel for providing backlighting; a first sensor unit detecting the ambient light level surrounding the LCD panel; a second sensor unit, positioned between the LCD panel and the curved reflector, detecting a light level for total backlights including the active backlight and the passive backlight; and a processor determining a control signal based on data from the first and second sensor units and adjusting the active backlight'"'"'s light level based on the control signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A brightness control system for a hybrid daylight-coupled display having an LCD panel, a curved reflector, a diffuser transmitting daylight to the reflector and the reflector reflecting the daylight to the LCD panel for providing passive backlighting, and an active backlight for providing active backlighting, the system comprising:
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a first sensor detecting the ambient light level surrounding the LCD panel; a second sensor detecting a light level for total backlights including the active backlight and the passive backlight; and a processor computing a control signal based on data from the first and second sensors and adjusting the active backlight'"'"'s light level based on the control signal.
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13. A method to control brightness for a hybrid daylight-coupled display having an LCD panel, a curved reflector, a diffuser, an active backlight, the method comprising:
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providing active backlighting by an active backlight; transmitting daylight to the reflector by the diffuser to provide passive backlighting; reflecting backlights including the active backlight and the passive backlight to the LCD panel by the curved reflector; detecting the ambient light level surrounding the LCD panel by a first sensor unit; detecting a light level for total backlights including the active backlight and the passive backlight by a second sensor unit; and determining, with a processor, a control signal based on data from the first and second sensor units and adjusting the active backlight'"'"'s light level based on the control signal. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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20. A brightness control system for a hybrid daylight-coupled display comprising:
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an LCD panel having a top side and a bottom side; an active backlight for providing active backlighting; a diffuser having a front edge adjacent to the top side of the LCD panel and having a back edge; a first curved reflector having a top side adjacent to the back edge of the diffuser and having a bottom side adjacent to a mid-point of the LCD panel; a second curved reflector having a top side adjacent to the back edge of the diffuser and having a bottom side adjacent to the bottom side of the LCD panel, wherein the diffuser transmits daylight to the first and second reflectors to provide passive backlighting and the active backlight transmits active backlight to the first and second reflectors, wherein the first reflector reflects backlight to a top portion of the LCD panel for providing backlighting, and wherein the second reflector receives light transmitted through the first reflector and reflects the light to a bottom portion of the LCD panel for providing backlighting; a first sensor unit detecting the ambient light level surrounding the LCD panel; a second sensor unit detecting a light level for the total backlight including the active backlight and passive backlight, which is located between the first reflector and the second reflector; and a processor determining a control signal based on data from the first and second sensor units and adjusting the active backlight'"'"'s light level based on the control signal. - View Dependent Claims (21, 22)
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Specification