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WO2007026284A1 - Lumière ambiante à travers un cadre dissimulé - Google Patents

Lumière ambiante à travers un cadre dissimulé Download PDF

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Publication number
WO2007026284A1
WO2007026284A1 PCT/IB2006/052928 IB2006052928W WO2007026284A1 WO 2007026284 A1 WO2007026284 A1 WO 2007026284A1 IB 2006052928 W IB2006052928 W IB 2006052928W WO 2007026284 A1 WO2007026284 A1 WO 2007026284A1
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WO
WIPO (PCT)
Prior art keywords
plate
light
ambient light
unit
display system
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/IB2006/052928
Other languages
English (en)
Inventor
Derk Tiekink
Theodorus Franciscus Emilius Maria Overes
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Koninklijke Philips NV
US Philips Corp
Original Assignee
Koninklijke Philips Electronics NV
US Philips Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Koninklijke Philips Electronics NV, US Philips Corp filed Critical Koninklijke Philips Electronics NV
Publication of WO2007026284A1 publication Critical patent/WO2007026284A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N5/00Details of television systems
    • H04N5/64Constructional details of receivers, e.g. cabinets or dust covers

Definitions

  • the present invention relates to video display units having frames and the production of ambient lighting effects therefrom. More particularly, it relates to video displays and diffusers having a transparent plate which receives, mixes and guides light for exit as ambient light, which may be related to or derived from the displayed content or ambient conditions.
  • the transparent plate also hides the frame and renders it invisible during transmission of the ambient light.
  • the transparent plate may be configured to hide the frame even in the off condition when no ambient light exits therefrom by having non-transparent interruption, or by producing ambient light from a controllable light source even when the TV is off.
  • Philips Electronics and other companies have disclosed means for changing ambient or peripheral lighting to enhance video content for typical home or business applications.
  • Ambient lighting added to a video display or television has been shown to reduce viewer fatigue and improve realism and depth of experience.
  • Philips Electronics has a line of flat panel televisions (Flat TVs) with ambient lighting, where a frame around the Flat TV includes ambient light sources that project ambient light on the back wall that supports or is near the Flat TV. Projecting ambient light on the back wall works very well, as long as the color of the wall is a white (or a light neutral shade, but not glossy white), the distance to the wall is relatively short, and there are no obstacles between the ambient light source and the wall.
  • the back wall should be parallel to the Flat TV to have the same ambient light impressions to the left and right (as well as top and bottom) of the Flat TV screen. If the Flat TV is too far away from the back wall, then the visibility of light spot on the back wall decreases dramatically. Further, if the Flat TV is not parallel enough to the back wall, then the light spot is bigger and less intense on the side that is further away from the wall. In addition, the frame around the display is perceived as annoying since it is perceived to disrupt the video content displayed on the TV. This frame or bezel is used to hold all the parts of the display together.
  • an ambient light system having a plate that is located substantially over at least a portion of the frame and configured to provide ambient light thus covering this frame portion and rending it substantially invisible to a viewer.
  • the ambient light is made visible by interruptions (e.g., made by printing, or other techniques) on or in a plate which may by transparent, semi-transparent, opaque or the like.
  • the plate may be part of and integrated with the display unit (e.g., TV or other content providing devices), or a separate unit for retrofit on existing display devices as desired.
  • the pattern of the interruptions on the transparent plate defines the way of light out-coupling or exit of the ambient light from the transparent plate.
  • a display system a diffuser system, and a method of broadcasting ambient light are provided.
  • the diffuser system may be a stand alone system or part of the display system.
  • the display system includes a unit, such as a display unit for example, and the diffuser system to broadcast ambient light into an ambient space.
  • the diffuser system includes a plate that substantially surrounds portions of the frame located at sides of the TV, in addition to the being located over the front portion of the frame at front edges of the TV.
  • the plate extends away from the TV adjacent thereto, or extends toward the TV.
  • the plate is configured to receive input light and to provide the ambient light.
  • the plate includes interruptions of varying sizes and/or densities. The interruptions are configured to guide the ambient light out of the plate.
  • a mirror located at one end of the plate facilitates reflections from the interruptions for exit as the ambient light.
  • a method for broadcasting ambient light about a unit (e.g., a content providing unit such as a display unit or TV for example) from a diffuser system (or from the display unit incorporating such a diffuser system).
  • the method includes providing input light to the plate which is optically, electrically and/or mechanically coupled to the display unit, and forming ambient light for exit from the plate.
  • the plate is located substantially over a portion of the frame located in front the TV and is configured to provide the ambient light thus covering this frame portion and rending it substantially invisible to a viewer.
  • FIG 1 shows a cross sectional view of a display system according to an illustrative embodiment of the present invention
  • FIG 2 shows an expanded view of a plate having a mirror with holes according to an illustrative embodiment of the present invention.
  • FIG 3 shows a cross sectional view of a display system according to another illustrative embodiment of the present invention.
  • FIG 4 shows a cross sectional view of a display system according to yet another illustrative embodiment of the present invention
  • FIG 5 shows a cross sectional view of a display system according to a further illustrative embodiment of the present invention
  • FIG 6 shows a frontal view of the display system shown in FIG 4 or 5.
  • the various embodiments described herein emit ambient light to an ambient space about a flat panel television (or any other content providing device) using active or passive light.
  • a video display unit may be used, such as other type of televisions, display devices, monitors or the like.
  • Other types and sources of information may also be used instead of video content and a video display unit, including audio and multimedia content, devices, or the like. Therefore, without limiting the applicability of the invention to a flat panel television, the invention will be described in such an environment.
  • the particular arrangement and configuration of elements shown in the figures are by way of example only, and not intended to limit the scope of the invention in any way. Other embodiments and modification would be apparent to those skilled in the art in view of the disclosure herein.
  • the display system 10 includes a display unit 15 configured to display video information.
  • the display unit 15 is an LCD (Liquid Crystal Display) or PDP (Plasma Display Panel) flat television.
  • the display unit or monitor 15 can be of any type and use any technology or platform, such as CRT (Cathode Ray Tube), FED (Field Emission Display), projection displays, thin-film printed optically-active polymer displays, or displays using any other technologies or displays. It is even applicable, for many embodiments, to any transmissive medium for the delivery of video or visual information, such as found in a window of a building.
  • video displays shall be used here for illustrative purposes.
  • a frame or bezel 20 surrounds the display unit or TV 15 and holds parts of the TV together, for example.
  • the frame 20 is integrated with and is part of the TV 15.
  • the frame 20 may be a metal rim that surround and is part of the LCD unit 15.
  • there is no pixel light behind this metal frame 20 which keeps the separate parts of the LCD display together.
  • all displays have an area around the active video display area where no video content or pixel light is generated.
  • a PDP typically has a seal area around the PDP glass with connection foils where there is no pixel light.
  • the frame 20 can be made of a number of commonly available transparent or translucent materials that allow optical communication of the pixel light to the transparent plate 25.
  • transparent or translucent materials include clear plastics like Lexan®, Lucite®, and many other polymer resins, such as PET and ABS resin, and formed using known fabrication techniques. Any material can be used that has requisite mechanical and/or optical properties for a frame capable of supporting the TV or monitor 15.
  • the plate 25 may also be of the type which is capable of allowing optical communication, such as allowing passage of pixel light to the transparent plate 25 as will be described.
  • the display unit or TV 15 is encased or surrounded (e.g., peripherally at its front,) by a diffuser system 22 (shown in FIG 7A) to broadcast ambient light into an ambient space.
  • the diffuser system 22 includes a transparent plate 25, such as glass, plastic, or the like. It should be understood that the plate 25 may also be semi-transparent, opaque or the like. However, as will be apparent, it is more desirable to use a plate 25 which is transparent. Nevertheless, the plate 25 can embody various diffuser effects to produce light mixing, as well as translucence or other phenomena, such as a frosted or glazed surface; or ribbed glass or plastic; or apertured structures, such as by using metal or other internal blockers, depending on the visual effect desired.
  • the diffuser system 22 is configured to form the ambient light from the display light, referred to as pixel light 150, as described below. Since the ambient light will be generated from the pixel light 150 provided from the displayed content at front edges of the TV 15, the ambient light can be more easily and with greater detail follow the video content displayed at front edges of the TV 15.
  • a separate light source e.g., as shown as numeral 100 in FIG 3
  • the transparent plate 25 may partially encase or surround the LCD panel 15 in at least one direction (such as above and below, or to the right and left of the LCD panel 15).
  • the transparent plate 25 may be part of a separate stand alone diffuser system 22 mechanically and optically coupled to the LCD panel 15, or coupled to any other source of information or devices, including video, audio, multimedia or the like.
  • the stand alone diffuser system 22 may be retrofitted on existing TV's for example, and may have portions that are contoured to the shape of existing TV's for easy attachments so that at least one transparent plate extends away from the TV in at least one direction for providing ambient light in a desired direction.
  • the stand alone diffuser system 22 may be attached substantially adjacent to the TV 15 or the frame 20 and/or be disposed in front or behind the TV 15.
  • the stand alone diffuser system 22 may also partially or totally encase the TV 15, similar to the embodiment where the diffuser system 22 is integrated with the TV 15.
  • the transparent plate 25 may be in addition to other transparent plate(s) of the TV 15. Illustratively as shown in FIG 7 A, the transparent plate 25 extends away from the center of TV or LCD panel 15 in all four directions for providing illumination/ambient light including from the corners between the four directions, for example, to form a rectangular, square or any other desired shape, such as a circle, oval, octagon, pentagon, free-form or the like. Alternatively, the transparent plate 25 extends away from the LCD panel 15 in the right and left directions, or up and down directions, for example. The transparent plate 25 is configured to receive input light and to provide ambient light as will be described.
  • the transparent plate 25 includes interruptions 40 shown in FIGs 1, 4-6 and 7 A.
  • the interruptions 40 may be in the transparent plate 25 or surfaces thereof, and are made by printing or other techniques, for example.
  • the interruptions 40 are small bubbles made with a laser in transparent glass or plastic plate 25 itself, for example, instead of being on the surface of plate 25. With such a laser technique, it is possible to make the bubbles 40 in any 3- dimensional shape. Such bubbles 40 redirect the light 110 for exit out of the plate 25 as ambient light 50 towards the viewer, for example.
  • One advantage of the bubbles as compared to interruption made by printing include forming at least one bubble which is more easily configured to direct ambient light in various desired direction(s), such as in one or both front directed ambient light 50 and/or back spill ambient light directed behind the plate 25 in the case where the plate extends beyond the frame, as in the embodiments shown in FIGs 4-5.
  • light reflected from interruptions made by printing, or other interruptions in the glass surface are typically configured to exit the ambient light in only direction.
  • the interruptions 40 are located near or at the back surface of the transparent plate 25 and are configured to guide, e.g., reflect, the ambient light 50 out of the transparent plate 25 toward a front of the LCD panel 15, for example, toward a viewer 55.
  • ambient light can also be guided toward the back of the LCD panel 15 to exit the plate 25 as back spill ambient light, by having properly configured interruptions 70 that provide for light exit from the back of the transparent plate 25.
  • bubbles formed with a laser may be used as interruptions that are configured to direct ambient light in more than one direction.
  • interruptions that are configured to provide back spill 60 may be located at or near the front surface of the transparent plate 25.
  • a clear portion of the transparent plate 25 may be devoid of interruptions and thus appear to be colored in accordance with the color of the ambient light but with minimal outward projection.
  • the rear interruptions 40, front interruptions (and/or bubbles), and the clear portion 80 may be located any place on the transparent plate 25 and have any desired pattern.
  • Various embodiments of the transparent plate 25 are contemplated that may have clear portions and different types of interruptions for guiding exit of the ambient light in any desired direction(s).
  • the transparent plate 25 has a pattern of interruptions configured to direct exit of the ambient light toward the viewer 55 located in front of the LCD panel 15.
  • the ambient light 50 can also exit the inner periphery, at the interface of the transparent plate 25 and the LCD panel 15, including inner corners 85 of the transparent plate 25, thus illuminating such inner periphery and inner corners 85, and providing ambient light 50 therefrom.
  • the inner periphery and each inner corner 85 may have a mirror 86, which may have a curved portion 87 at the inner corners 85 for example, connecting the two, e.g., top 88 and side 89, portions of the mirror 86.
  • portion 87 may have other shapes including a straight shape at any angle, such as a 45 degree angle with respect to at least one or both of the two portion 88, 89 of the mirror 86.
  • Similar mirrors at the outer periphery, including outer corners or edges of the transparent plate 25 may be provided to reflect ambient light 50 from such outer corners or edges.
  • Such mirrors at the outer corners or edges may be configured to reflect ambient light to any desired direction, including front, back, top, bottom and/or sides the transparent plate 25.
  • the pattern of interruptions 40 of the plate 25 may be any desired pattern.
  • the plate 25 (or portions thereof) may be fully populated with rear interruptions 40 in the shape of circles or any other desired shape, where there is nearly full coverage or solid area near the screen or LCD panel 15, and less coverage further away from the LCD panel 15, as shown in FIG 7 A.
  • the size, e.g., diameter, of the interruptions 40 may also change with distance from the LCD panel 15.
  • the diameter of the interruptions 40 changes from "large” (e.g., 2.5 mm) closest to the solid area to "small” (0.6 mm) further away from the screen or LCD panel 15.
  • the interruptions 40 allow the ambient light 50 to become more clearly and uniformly visible to the viewer 55.
  • the pixel light 150 and/or input light 110 enter the back side of the transparent plate 25, due to total internal reflection off the walls of the transparent plate 25, the light will stay in the plate 25.
  • total internal reflection off the walls of the plate 25 occurs as long as the incident angles within the plate 25 are less then the critical angle for total reflection as is the case for the light in the plate 25.
  • the input and or pixel light 110, 150 does not simply travel in one or straight direction. Rather, the light 110, 150 travels though many paths in the plate 25.
  • the light 110, 150 reflects off the walls of the plate 25 and stays in the transparent glass or plastic plate 25, for example, due to total internal reflection.
  • the interruption 40 When the input and/or pixel light 110, 150 hits an interruption 40, the reflected light has a different angle which is larger than the critical angle thus preventing total internal reflection. Rather than internal reflection, the light 110, 150 that reflects from an interruption 40 exits the plate 25 as ambient light 50. That is, the interruptions 40 are configured to change the reflection angle of the light to make it possible for the light to exit the transparent plate 25 as ambient light 50 in the direction of the viewer 55.
  • the interruption 40 may also be configured to direct light out of the transparent plate 25 in any other desired direction(s), such as the back direction for exit as back spill ambient light.
  • the interruption 40 could also be configured to reflect light out the transparent plate 25 only in the desired direction(s).
  • the desired exit direction of light from the transparent plate 25 is the front direction toward the viewer 55, as ambient light 50 (or back spill toward the back of the LCD unit 15), then any light remaining in the transparent plate 25 that has not already exited as ambient light 50 (or back spill) is absorbed or reflected back into the transparent plate 25 in order the give it a second chance to hit the interruptions 40 and reflect out of the transparent plate 25 in the desired direction as ambient light 50 (or back spill).
  • the interruptions 40 are further configured to be minimally visible and reflect all colors substantially similarly, including but not limited to the basic three colors of red, green and blue.
  • the plate 25 is transparent and allows a view of material behind it. Accordingly, the Flat TV appears less bulky than the case where the plate 25 is not transparent.
  • ambient light 50 is provided to the viewer 55 independent of the environment, thus alleviating the need for a properly colored back wall, having a small distance and being parallel to the Flat TV, as is the case for Flat TV's that project the ambient light toward the back wall.
  • the transparent plate 25 may be configured to hide at least the front portion the frame 20 (or any other desired portion) even in the TV-off condition when no ambient light exits therefrom. This is achieved, for example, by having interruptions that are not transparent in this region of the plate 25 in front of the frame 20 (or in front of the portion to be hidden from the viewer 55).
  • the plate 25 can be transparent throughout and thus not hide the frame 20, particularly if the frame 20 is aesthetically pleasing.
  • such a fully transparent plate 25 can still hide the frame 20 by supplying power to the light source 110 when the TV 15 is off, thus producing ambient light 50 (which may have predetermined characteristics, selectable or programmable by the user for example,) and hiding the frame 20 even when the TV 15 is off.
  • the interruptions 40 include white dots printed on the surface of the plate 25, or small pits in the plate surface that act as mirrors or reflectors, or any other configuration that reflects light, such as reflecting all colors of light substantially similarly.
  • pixel light 150 light coming from the pixels near the front edges of the display, referred to as pixel light 150, will be transmitted into the transparent plate 25 directly from front TV portions near the edges of the TV 15 at the interface between the TV 15 and the plate 25.
  • pixel light 150 may be coupled into the plate 25 from the TV 15 through the frame 20 in the case the frame 20 is made of material that allows optical transmission or coupling.
  • the pixel light 150 in the transparent plate 25 will be made visible by the interruptions 40 on or in the transparent plate 25.
  • the pixel light 150 will reflect from the interruptions 40 and exit the front surface of the plate 25 as ambient light 50 which will be visible to a viewer 55.
  • the ambient light 40 can follow the content of the picture displayed on the TV 15 in a so-called active mode.
  • the ambient light 40 is a single non-changing color, or a combination and/or a sequence of colors in a so-called passive mode, where a controllable light source may be used, as described in Provisional U.S.
  • Patent Application Serial Number 60/584,199 (Docket PHUS040282), filed on June 30, 2004, entitled “Passive Diffuser Frame System for Ambient Lighting Using a Video Display Unit as a Light Source”, and assigned to the assignee hereof, and as described in U.S. Patent Application Serial Number 60/584,200 (Docket PHUS040283), filed on June 30, 2004, entitled “Active Frame System for Ambient Lighting Using a Video Display as a Signal Source” and assigned to the assignee hereof, the contents of both of which are incorporated herein by reference in their entirety.
  • the pixels near the edge of the TV, used to form the pixel light 150 for coupling into the diffuser system 22, can display part of the normal video content, or can display content in response to an ambient signal used to display other desired content, such as a desired color that is constant or changing, which is around the normal video content displayed on the TV 15.
  • the ambient signal can be broadcast and received by the TV 15 similar to the displayed content.
  • the ambient signal can be formed by a processor 130 of the TV 15 or the diffuser system 22, as shown in FIG 7A.
  • the transparent plate 25 is configured to receive input light and to provide the ambient light 50, such as via reflections from the interruptions 40 which may be in the transparent plate 25 or surfaces thereof.
  • the interruptions 40 are located near or at the back surface of the transparent plate 25 and are configured to guide, e.g., reflect, the ambient light 50 out of the transparent plate 25 in a desired direction, such as toward a front of the display unit 15, for example, toward the viewer 55.
  • the pattern of interruptions 40 of the plate 25 may be any desired pattern, where FIG 7A shows an illustrative pattern of interruptions 40.
  • the pixel light 150 entering the transparent plate 25 will reflect from a mirror 120 located at front angled or curved edges of the plate 25 to reflect the pixel light 150 toward the outer ends of the plate 25.
  • the transparent plate 25 has the mirror 120 at front angled or curved edges to reflect the input light 110 toward ends of the transparent plate 25.
  • the mirror 120 is angled 45 degrees.
  • the mirror and ends of the transparent plate 25 may be curved or angled at any desired angle in relation to each other and in relation to the LCD panel 15.
  • the mirror may have other shapes, such as an elliptical shape as shown in FIG 2B.
  • the mirror 120 may be affixed, e.g., by gluing, directly on the corners of the transparent plate 25 if the corners have the proper shape.
  • FIGs 3A-3B show the mirror 120 (angled or curved) having holes 160.
  • FIG 4 shows another embodiment using a controllable light source 100 configured to provide input light 110 to the transparent plate 25 for exit as ambient light 50.
  • the light source 100 provides more light than the pixel light 150 provided by the display as described in connection with FIG 1.
  • the light source 100 may be located either in the diffuser system 22 or in the TV 15 since the plate 25 is transparent or semi transparent, for example.
  • the input light 110 is guided through the transparent plate 25 via an angled or curved mirror 220, similar to the mirror 120 described in connection with FIG 1, where the mirror 220 may also have holes 160 or be semi transparent.
  • Another mirror 222 located at the end of the plate 25 to reflect the input light 110 back into the plate 25 for reflection from the interruptions 40 and exit as the ambient light 50.
  • pixel light 150 may also couple into the plate 25 through the frame 20 as described in connection with FIG 1 in the case where the frame 20 is made of material that allows optical transmission or coupling, or though an interface between the TV 10 and plate 25 in the case where the plate 25 extend further toward the center of the TV beyond the frame 20, similar to that shown in FIG 1.
  • the pixel light 150 is less intense than the input light 110 from the light source 100, and thus the input light 110 will be dominant.
  • a lens 105 shown in FIG 4 may be included in front of the light source 100, such as a collimating lens 105 that collimates the light more directly onto the mirror 220.
  • a lens 105 shown in FIG 4 may be included in front of the light source 100, such as a collimating lens 105 that collimates the light more directly onto the mirror 220.
  • air such as an air pipe, guide, or the like
  • other media with similar optical properties may also be used, particularly when used in conjunction with the lens 105. If air is used, then the walls of this first part of the plate 25 should be mirrors or any other reflective material. The light is coupled into this first part of the plate 25 for optimal color mixing, and guided through the transparent material (including air) and the mirror 220 to the front part of transparent plate 25.
  • the second or front part of the plate 25 which is substantially in the same or parallel plane as the display unit 25, is made of a transparent material such as glass, plastic or any other similar transparent material, to provide a canvas for exit of ambient light that may follow, e.g., change colors, hues, saturation and/or intensity to follow, the content of the picture displayed on the TV 15, such as the video displayed near the periphery of the TV 15.
  • a transparent material such as glass, plastic or any other similar transparent material
  • the light source 100 may be any illumination system that provides changing colors, hues, saturation and/or intensity.
  • the light source 100 may include red, green and blue light emitting diodes (LEDs) separately controllable to provide desired characteristics such as color mixing, hues, saturation and/or intensity.
  • LEDs light emitting diodes
  • the light source 100 may include any other type of light source(s), alone or in combination, such as incandescent, gaseous discharge, fluorescent, phosphorescence, laser, photo-luminescent, electro-luminescent, cathode-luminescent, galvano-luminescent, crystallo-luminescent, kine-luminescent, thermo-luminescent, tribo-luminescent, sono- luminescent and/or radio-luminescent sources, as described in International Publication No.
  • incandescent gaseous discharge, fluorescent, phosphorescence, laser, photo-luminescent, electro-luminescent, cathode-luminescent, galvano-luminescent, crystallo-luminescent, kine-luminescent, thermo-luminescent, tribo-luminescent, sono- luminescent and/or radio-luminescent sources, as described in International Publication No.
  • the light source 100 (and consequently the input light 110) may be controlled by a processor 130 shown as dashed lines in FIG 7 A, in response to the content information displayed on the video display unit 15, such as via RF signals received by the display unit 15, or video signals derived from the RF signals using modulators or other circuits needed for such controlled operation, as described in the above referenced Provisional U.S. Patent Application Serial Numbers 60/584,199 and 60/584,200, as well described in the above noted International Publication No. WO 2005/062608. Accordingly, the ambient light 50 will be related to, and/or derived from, the content displayed on display unit 15 under the control of the processor 130.
  • FIG 5 shows another embodiment where the plate 25 extends both toward the center of the TV 15 (similar to that shown in FIG 3) and away from the center of the TV 15, as shown by reference numeral 300.
  • the mirror 220 of FIG 4 is replaced with another mirror 320 configured to direct the input light 110 from the light source 100 both toward and away from the TV 15.
  • the mirror 320 is V-shaped.
  • the mirror(s) 320 and the end(s) of the plate(s) 25 extending away from the TV 15 may be angled at any desired angle in relation to each other and in relation to the TV 15.
  • pixel light may also be coupled into the plate 25 through the frame 20 or through the interface between the plate 15 and TV 20 in the case where the plate 15 extends beyond the frame 20 as shown and described in connection with FIG 1.
  • FIG 6 shows yet another embodiment where there are two plates 25 in front of the frame 20.
  • the first plate 25 guides the light toward the center of the screen 15, and the second plate guides this light away from the screen center.
  • the input light 110 is first guided toward the center of the TV 15 by a mirror 420, and then guided toward the second or front part of the plate 25 (e.g., through a first 90 degree reflection) and then back away from the center of the TV (e.g., through a second 90 degree reflection) through a mirror 430 that provides such two 90 degree reflections for example.
  • a mirror 420 may be used instead of angled ones.
  • the collimating lens 105 shown in FIGs 3-5 may be omitted if desired.
  • ambient light can also be guided toward the back of the TV 15 if desired, as back spill, by having properly configured interruptions 40 that provide for light exit from the back of the transparent plate 25.
  • the potion of the plate 25 extending away from the center of the TV 15 may include any combination or pattern of interruptions 40 that reflect or provide front ambient light 50 or back spill ambient light. Further, such extending plate portions may also have an area with is devoid of interruptions, if desired, and thus appearing to be colored in accordance with the color of the ambient light but with minimal outward projection of ambient light.
  • the interruptions 40 and the clear areas may be located any place on the transparent plate 25 and have any desired pattern.
  • the transparent plate 25 may have clear portions and different types of interruptions for guiding exit of the ambient light in any desired direction(s).
  • the transparent plate 25 has a pattern of interruptions configured to direct exit of the ambient light toward the viewer 55 located in front of the display unit 15.
  • front directed ambient light 50 are equally applicable (with modifications, if any, which are apparent to those skilled in the art in view of the current disclosure) to other embodiments having plates with any one or combinations of areas or portions that provide front directed ambient light 50, back spill ambient light, or minimal projection of ambient light (i.e., having areas devoid of the interruptions 40).
  • the transparent plate 25 may be part of a diffuser system 22 that may include the processor 130.
  • the light source 100 is also part of the diffuser system 22 in the case of an active diffuser system.
  • the light source 100 may not be configured to follow content of the displayed video for a passive diffuser system, in which case the light source 100 provides a single color, combination and/or sequence of colors under the control of the processor 130, as described in the above referenced U.S. Patent Applications Serial Numbers 60/584,199 and 60/584,200, which also describe various active diffuser systems where light output from the displayed content or the light source is modified or controlled in various ways to provide ambient light that follows or relates to the displayed content, such as via using various combination of sensors, electromagnetic couplers, modulators and light source(s).
  • the processor 130 may be pre-programmed with defined settings selectable by the user such settings for mood (e.g., romantic) or for content type (e.g., action, comedy), or can be programmed by the user to provide a desired ambient light (e.g., color, hue, saturation, intensity) from the light source 100 via any interface device, such as via a remote control, keyboard, mouse or buttons provided on the TV 15.
  • a desired ambient light e.g., color, hue, saturation, intensity
  • the processor 130 may be configured to control the light source 100 to provide ambient light 50 ( as well as back spill if desired for the embodiments shown in FIGs 5-6) that follows color and intensity of the content displayed on the TV 15, especially the edges of the display region. For example, in response to a beach scene with blue skies and yellowish sand (at the bottom of the display region), the ambient light from the top potion of the transparent plate 25 will be bluish, while the ambient light from the bottom potion of the plate 25 will be yellowish.
  • the colors and intensities of the ambient light may be graduated spatially, such as becoming less blue and less intense further away from the top of the display area of the TV 15 showing a blue sky, and may eventually become closer to the color of nearby walls or room furniture/accessories/lighting, thus providing a blending effect.
  • ambient light from the extreme lateral edges of the plate 25 furthest away from the center of the TV 15 may follow or track room illumination and wall color immediately behind the TV 15 and seen as background by the viewer 55.
  • the processor 130 may be configured to control the light source 100 to provide ambient light 50 (and/or back spill if desired for the embodiments shown in FIGs 5-6) in response to the surrounding conditions as measured via sensors, such as the color any surrounding wall, the color and intensity of room lighting and the like.
  • a user interface such as via the remote control of the TV 15, may be provided to allow the user to chose various modes, including selecting portions or panels of the plates 25 for providing ambient light, in the case where the plate 25 includes separately controllable panels. For example, the user may select to disable the lower panel so no ambient light is provided from the lower portion of the plate 25.
  • the user may also control the mode of the ambient light, such as having the ambient light follow the displayed content, or be responsive to room lighting condition, or even have a manual mode to provide any desired color or color combination.
  • predetermined ambient modes may also be included, such as an action mode, a romantic mode etc., where the ambient light may be any predetermined color combination, intensities, hues, and/or saturation, and is provided in any desired, predetermined, and/or user controllable or user-programmable sequence.
  • One mode may be a disco mode or action, as described in the above noted International Publication No.
  • the light source includes discharge tubes such as xenon one, or strobe type light source, to provide bright flashes of light for special effects, such as explosions, thunder or the like.
  • the processor 100 is configured to control the light source 100 in response to audio signals of the content, where audio sensors may be used to monitor or detect the audio content, of the audio signal can be monitored directly by the processor or any other suitable sensors.
  • the transparent plate 25 may be part of a stand-alone diffuser system 22 that may include the processor 130.
  • the light source 100 is also part of the diffuser system 22 in the case of an active diffuser system.
  • the light source 100 may not be configured to follow content of the displayed video for a passive diffuser system, in which case the light source 100 provides a single color, combination and/or sequence of colors under the control of the processor 130, as described in the above referenced U.S. Patent Applications Serial Numbers 60/584,199 and 60/584,200, which also describes various active diffuser systems where light output from the displayed content or the light source is modified or controlled in various ways to provide ambient light that follows or relates to the displayed content, such as via using various combination of sensors, electromagnetic couplers, modulators and light source(s).
  • the processor 130 may be pre-programmed with defined settings selectable by the user such settings for mood (e.g., romantic) or for content type (e.g., action, comedy), or can be programmed by the user to provide a desired ambient light (e.g., color, hue, saturation, intensity) from the light source 100 via any interface device, such as via a remote control, keyboard, mouse or buttons provided on the TV or LCD panel 15.
  • a desired ambient light e.g., color, hue, saturation, intensity
  • the processor 130 may be dedicated to the diffuser system 22 or part of the television or display unit 15.
  • the processor 130 may include micro-processors, central processing units (CPUs), digital signal processors (DSPs), ASICs, or any other processor(s) or controller(s) such as digital optical devices, or analog electrical circuits that perform the same functions, and employ electronic techniques and architecture.
  • the processor 130 is typically under software control for example, and has or communicates with memory that stores the software and other data such as user preferences.
  • the processor 130 is configured to relate the ambient light 50 and/or back spill to video information displayed on the display unit 15.
  • the processor 130 may also include any intelligent device that can allow controlling directly or indirectly the light source so that character of the output light made therefrom changes, such as by changing any of the color, hue, saturation, intensity, or other photometric quality, e.g., specular reflection properties, retroreflective properties, etc.
  • content information signal RF, video, audio or the like
  • FIG 7A shows a frontal view of the embodiments shown in FIGs 5-6, where the transparent plate 25 extends away from the center of display unit 15 in all four directions, for example, to form a rectangular, square or any other desired shape, as shown by the dotted lines in FIG 7 A, for example.
  • the transparent plate 25 extends away from the display unit 15 in the right and left directions, or up and down directions, for example.
  • the transparent plate 25 is located around the entire TV 15, over the frame 20.
  • the transparent plate 25 may be located over only portions of the TV edge or frame 20 if desired, such as over the vertical or horizontal edges, or combinations thereof.
  • the pattern of interruptions 40 of the plate 25 may be any desired pattern.
  • the plate 25 (or portions thereof) may be fully populated with interruptions 40 in the shape of circles or any other desired shape, where there is nearly full coverage or solid area near the screen or display unit 15, and less coverage further away from the display unit 15, as shown in FIG 6.
  • the size, e.g., diameter, of the interruptions 40 may also change with distance from the display unit 15.
  • the diameter of the interruptions 40 changes from "large” (e.g., 2.5 mm) closest to the solid area to "small” (0.6 mm) further away from the screen
  • the plate 25 is transparent (or semi transparent) is that when the TV is off, the plate is transparent (or semi transparent) and thus does not obstruct views behind it. Additionally, the TV appears less bulky than the case where the plate is not transparent.
  • the plate can be non-transparent and act as a canvas for the ambient light, instead of the back wall acting as the canvas. Whether the plate 25 is transparent or not, the interruptions 40 reflect the ambient light 50 toward the viewer 55, for example, and thus act as a canvas eliminating the need for the back wall and associated disadvantages, such as a proper color, distance and orientation of the TV in relation to the back wall.
  • the frame 20 is made invisible during transmission of the ambient light 50 using pixel light 150 of the flat display 15 near the edge, or using input light 110 from the light source(s) 110, thus hiding the frame 20 which is perceives as being annoying.
  • control of the light source is particularly suited to be carried out by a computer software program.
  • Such software can of course be embodied in a computer-readable medium, such as an integrated chip, a peripheral device or memory coupled to the processor which may be a dedicated processor for performing in accordance with the present invention or may be a general-purpose processor wherein only one of many functions operates for performing in accordance with the present invention.
  • the processor may operate utilizing a program portion, multiple program segments, or may be a hardware device utilizing a dedicated or multi-purpose integrated circuit.
  • Each of the above systems for providing ambient light may be utilized in conjunction with further systems.

Landscapes

  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Devices For Indicating Variable Information By Combining Individual Elements (AREA)

Abstract

La présente invention a trait à un système d'affichage comportant une unité (15) et un système diffuseur pour la diffusion de lumière ambiante dans un espace environnant. Le système diffuseur comporte une plaque (25) qui recouvre sensiblement une portion du cadre (20) situé à l'avant de ladite unité. La plaque est agencée pour fournir de la lumière ambiante (50) à partir d'une lumière d'entrée fournie par une source lumineuse contrôlable et/ou à partir de lumière de pixels provenant de l'unité d'affichage via le cadre. La plaque comporte des interruptions (40) de tailles et/ou de densités variées qui sont configurées pour l'orientation de la lumière ambiante hors de la plaque. Un miroir (120) situé à une extrémité de la plaque dirige la lumière d'entrée et/ou de pixels vers les interruptions pour sa réflexion et sa sortie sous la forme de lumière ambiante.
PCT/IB2006/052928 2005-08-31 2006-08-23 Lumière ambiante à travers un cadre dissimulé Ceased WO2007026284A1 (fr)

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US71318505P 2005-08-31 2005-08-31
US60/713,185 2005-08-31

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WO2010073203A1 (fr) * 2008-12-23 2010-07-01 Koninklijke Philips Electronics N.V. Système d'éclairage d'ambiance pour un dispositif d'affichage et procédé de fonctionnement d'un tel système d'éclairage d'ambiance
EP2398006A2 (fr) * 2010-06-16 2011-12-21 Samsung Mobile Display Co., Ltd. Dispositif d'affichage d'images et affichage électroluminescent organique incluant une unité de décalage d'image
EP2425618A4 (fr) * 2009-06-08 2013-11-06 Samsung Electronics Co Ltd Dispositif d'affichage et son procédé de réglage
CN103412420A (zh) * 2013-07-30 2013-11-27 京东方科技集团股份有限公司 一种显示器、测试系统及其测试方法
JP2017511918A (ja) * 2014-02-11 2017-04-27 ハネウェル・インターナショナル・インコーポレーテッド 産業用オペレータコンソール用のアンビエントディスプレイ
CN107167956A (zh) * 2017-06-06 2017-09-15 华为技术有限公司 光学薄膜、显示装置以及终端设备

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WO2010073203A1 (fr) * 2008-12-23 2010-07-01 Koninklijke Philips Electronics N.V. Système d'éclairage d'ambiance pour un dispositif d'affichage et procédé de fonctionnement d'un tel système d'éclairage d'ambiance
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EP2425618A4 (fr) * 2009-06-08 2013-11-06 Samsung Electronics Co Ltd Dispositif d'affichage et son procédé de réglage
EP2398006A2 (fr) * 2010-06-16 2011-12-21 Samsung Mobile Display Co., Ltd. Dispositif d'affichage d'images et affichage électroluminescent organique incluant une unité de décalage d'image
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CN103412420A (zh) * 2013-07-30 2013-11-27 京东方科技集团股份有限公司 一种显示器、测试系统及其测试方法
WO2015014044A1 (fr) * 2013-07-30 2015-02-05 京东方科技集团股份有限公司 Affichage, système d'essai et son procédé d'essai
CN103412420B (zh) * 2013-07-30 2015-12-23 京东方科技集团股份有限公司 一种显示器、测试系统及其测试方法
JP2017511918A (ja) * 2014-02-11 2017-04-27 ハネウェル・インターナショナル・インコーポレーテッド 産業用オペレータコンソール用のアンビエントディスプレイ
CN107167956A (zh) * 2017-06-06 2017-09-15 华为技术有限公司 光学薄膜、显示装置以及终端设备
CN107167956B (zh) * 2017-06-06 2020-10-09 华为技术有限公司 光学薄膜、显示装置以及终端设备

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