NL1005538C2 - Consecutive backlight illumination assembly for an LCD using a fluorescent layer. - Google Patents

Description

VO 1047

Title: Consecutive backlight illumination assembly for an LCD using a fluorescent layer.

Background of the invention

The invention relates to a backlight assembly for a liquid crystal display (LCD) and more particularly to a consecutive illumination backlight assembly for an LCD using a fluorescent layer.

Generally, an LCD is roughly divided into an LCD panel and a backlight assembly. Here, the LCD panel is sandwiched between two polarizing plates and includes two substrates, a liquid crystal layer sandwiched between two substrates and a color filter layer formed on one side of the substrate. The LCD is called a light receiving device when a color image is formed by filtering light emitted from the backlight assembly with the color filter. The color filter used for imaging decreases the amount of light emitted, and decreases the efficiency in the use of light emitted from the backlight assembly.

To solve this problem, an LCD with a fluorescent layer as shown in Fig. 1 has been developed. As shown in Fig. 1, a fluorescent layer 11 is provided on the front of a liquid crystal assembly 13 on which red (R), green (G) and blue (B) light-emitting phosphors are layered. Also, a black matrix layer 14 made of graphite is formed between the phosphors.

In the LCD of the above structure, light 100 emitted from a backlight source (not shown 30) passes through a transparent electrode 15 and then passes through the liquid crystal assembly 13 depending on whether voltage is applied to 1005538-2 that part, arriving at the fluorescent layer 11. The light arriving at the fluorescent layer 11 excites the appropriate phosphors for illumination. Since the above-mentioned LCD realizes a color image by directly illuminating the phosphors, there is no need to place a color filter between them. As a result, the amount of light passing through LCD increases, resulting in sharper contrast.

however, in a conventional backlight assembly, a light transmission plate (not shown) mounted on the back of the LCD panel distributes the light emitted from the light source to the LCD panel. However, it is impossible to provide equal illumination across the entire LCD panel using the light transmission plate.

The conventional backlight assembly further illuminates the entire rear of the LCD panel, thereby wasting electrical energy.

Summary of the Invention It is an object of the present invention to provide an LCD backlight assembly using a fluorescent layer for sequentially and repeatedly scanning the back of an LCD panel to thereby provide a continuous screen with an after-image effect of the eyes without wasting electrical power.

To achieve this goal, a consecutive backlight illumination assembly for an LCD using a fluorescent layer is provided, comprising: a plurality of cold cathode fluorescent tubes stacked in parallel and of a length corresponding to the length of an LCD panel; and support plates for supporting the cold cathode fluorescent tubes and providing electrical connections to the cold cathode fluorescent tubes at both ends thereof, characterized in that the cold cathode fluorescent tubes are successively illuminated 1005538-3 to provide a continuous image on a screen, and emit violet rays with a wavelength of 380-420 nm to excite phosphors of the fluorescent layer.

It is preferred here that the cold cathode fluorescent tube is provided with at least one element selected from the group consisting of Co, Ni and Fe, and contains at least one phosphorus consisting of the group of: SrP2 (> 7: Eu, SrMgP207: Eu, Sr3 (P04) 2: Eu, (Sr, Ba) Al2Si208: Eu, 10 Y2Si2 <> 7: Ce, ZnGa204: Li, Ti, YTa04: Nb, CaW04, BaFX: Eu (where X is a halogen), (Sr, Ca) 02B2O3: Eu, SrAli2014: Eu and Y2S1O5: Ce.

Also provided is a consecutive backlight illumination assembly for an LCD using a fluorescent layer comprising: a number of light-emitting diodes as the light source, and a number of support plates stacked in parallel so that each support plate supports a line of light-emitting diodes characterized in that the light-emitting diodes are successively illuminated by 20 lines to form a continuous image on a screen, and emit violet radiation with a wavelength from 380 nm to 420 nm to excite phosphors of the fluorescent layer.

Preferably, the light-emitting diode is formed from a GaN semiconductor, and the fluorescent layer consists of a blue light-emitting phosphor, a green light-emitting phosphor and a red light-emitting phosphor, the blue light-emitting phosphor has at least one composition selected from the group of: 30 Sri0 (P04) 6Cli2iEu2 +, (Sr0 | 9Cao, i) io (P04) 6: Eu2 +,

Sr3MgSi208: Eu2 +, Ba3MgSÏ208: Eu2 +, ZnS: Ag, Cl, ZnS: Ag, Al,

ZnS: Ag, ZnO: Ag and ZnS: Ag, Ga, and wherein the green light-emitting phosphor has selected at least one composition from the group of: SrAl204: Eu2 +, SrGa2S4: Eu2 +, Y3AI5O12 * Ce3 +, 35 ZnS: Cu, ZnS : Cu, Al, CdS: Cu, Al and ZnS: Cu, Au, Al, and the red light-emitting phosphor has selected at least one composition from the group of: 6MgO * AS20s: Mn, 1005538 - 4 - 3.5MgO · 0.5MgF2 * GeO2: Mn, SrY2S4: Eu, SrY2S4: Mn, K5Eu (W04) 4, Y202S: Eu and Y2C> 3: Eu.

Brief description of the drawings

The foregoing objects and advantages of the present invention will become more apparent by describing in detail preferred embodiments thereof with reference to the accompanying drawings, in which: Fig. 1 is a schematic structure diagram of a typical liquid crystal display (LCD) with a fluorescent layer for illuminating a backlight assembly; Fig. 2 is a schematic perspective view of an LCD with a backlight assembly according to a preferred embodiment of the invention; and FIG. 3 is a schematic perspective view of the LCD with a backlight assembly according to another preferred embodiment of the invention.

Detailed description of the invention

With reference to Fig. 2, a backlight assembly 30 according to the present invention is provided on the back of a liquid crystal display (LCD) panel 20. The LCD panel 20 includes a bottom substrate 21, a top substrate 22, a plurality of transparent electrodes 23 formed horizontally on top of the bottom substrate 21 and vertically on the bottom of the top substrate 22, so that the electrodes of the top and bottom substrates 21 and 22 intersect, and a liquid crystal layer 24 between the bottom and top substrates 21 and 22. Also, abraded alignment films 30 (not shown) are formed on the surfaces of the lower and upper substrates 21 and 22 facing each other and the liquid crystal molecules of the liquid crystal layer 24 are aligned according to the abrasion direction of the alignment films.

1005538 - 5 -

In addition, bottom and top polarization plates (not shown) are provided on each outer surface of the bottom and top substrates 21 and 22, and a fluorescent layer 25 coated with red (R), green 5 (G) and blue (B) light -emitting phosphors mounted on top of the top polarization plate.

The backlight assembly 30 of the present invention includes a plurality of cold cathode fluorescent tubes 31 disposed on the rear of the LCD panel 20. The cold cathode fluorescent tubes 31 are stacked in parallel and have a length corresponding to the length of the LCD panel 20. The cold cathode fluorescent tubes 31 are carried by carrier plates 32 and 33 at their ends and are electrically connected to a power source (not shown).

U.S. Patents 4,678,285 and 4,830,469 disclose a light source emitting ultraviolet or near ultraviolet radiation having the wavelength of 370 nm or less to excite phosphors. However, the ultraviolet radiation or the near ultraviolet radiation will easily change the characteristics of the liquid crystal molecules. Thus, the cold cathode fluorescent tube 31 of the backlight assembly 30 of the present invention has a light source emitting violet radiation having a wavelength range of 380-420 nm, which is described by the inventors (in U.S. Patent Application No. 08 / 385,514) . That is, the light source comprises one phosphor selected from the group consisting of: SrP207: Eu, SrMgP2 <> 7: Eu, Sr3 (P04) 2: Eu # (Sr, Ba) Al2Si20e: Eu, 30 y2Si207: Ce, ZnGa2C > 4: Li, Ti, YTaO 2 Nb, CaWO 4, BaFX: Eu (where X is a halogen), (Sr, Ca) 0 * 2B 2 O 3: Eu, SrAli 2 O 4: Eu and Y 2 SiO 5: Ce. The violet radiation emitted from the light source effectively illuminates the phosphors of the fluorescent layer 25 without changing the characteristics of the liquid crystal molecules.

Preferably, the phosphors disclosed in the above-mentioned U.S. Patents and 1005538-6

United States Patent Application No. 08 / 385,514 used as phosphors of the fluorescent layer 25. That is, the fluorescent layer consists of a blue light-emitting phosphor, a green light-emitting phosphor, and a red light-emitting phosphor, wherein the blue light-emitting phosphor has at least one composition selected from the group of: Sr10 (P04) 6C1i2: Eu2 +, (Sr0 / 9Ca0 (i) i0 (P04) 6: Eu2 +,

Sr3MgSi20g: Eu2 +, Ba3MgSi2Oa: Eu2 +, ZnS: Ag, Cl, ZnS: Ag, Al,

ZnS: Ag, ZnO: Ag and ZnS: Ag, Ga, the green light emitting phosphor has selected at least one composition from the group of: SrAl204: Eu2 +, SrGa2S4: Eu2 +, Y3A150i2: Ce3 +, ZnS: Cu, ZnS: Cu, Al, CdS: Cu, Al and ZnS: Cu, Au, Al, and the red light-emitting phosphor has selected at least one composition from the group of: 6MgO As205: Mn, 3.5MgO · 0.5MgF2 · Ge02: Mn, SrY2S4: Eu, SrY2S4: Mn, K5Eu (W04) 4, Y202S: Eu and Y203: Eu.

Also, to avoid illuminating light of wavelengths above 420 nm, the cold cathode fluorescent tubes 31 are coated with a film of at least one composition selected from the group consisting of cobalt (Co), nickel 20 (Ni) and iron (Fe) .

According to the backlight assembly of the present invention, the cold cathode fluorescent tubes 31 may be sequentially illuminated in the same manner as television screens are scanned. That is, the top fluorescent tube 3ΐχ is illuminated, then after a predetermined time, the top fluorescent tube 31χ is turned off. When the top fluorescent tube 3ΐχ is turned off, the next fluorescent tube 312 is illuminated. (Even though the fluorescent tube 3ii is turned off, still diminishing illumination glows). Then, when the fluorescent tube 312 is turned off, a fluorescent tube 313 is illuminated below the fluorescent tube 312. This is repeated for all fluorescent tubes up to a fluorescent tube 31n. In this manner, all cold cathode fluorescent tubes 31 are illuminated. Preferably, an illumination period of each fluorescent tube 31 is controlled such that a viewer perceives the sequentially illuminated image as a continuous image due to the after-image effect of the eyes. Therefore, the consecutive line illumination of the cold cathode fluorescent tubes 313 has the same effect as surface illumination of the entire fluorescent layer 25.

The light from the consecutive backlight illumination assembly is polarized through the bottom polarization plate (not shown) and then passes through the bottom substrate 21 and reaches the liquid crystal layer 24. when a voltage is applied to the transparent electrode 23 from a power source independent of a power source of the backlight assembly, the liquid crystal molecules, which are usually arranged in spiral form, are directed with respect to the transparent electrodes 23. Thus, light passes successively through the liquid crystal layer 24, the top substrate 22 and the top polarization plate ( not drawn) and then reaches the fluorescent layer 25. The light arriving at the fluorescent layer 25 excites the appropriate phosphors of the fluorescent layer 25 which are illuminated and thereby provide a color image.

Fig. 3 shows the consecutive illumination backlight assembly according to another preferred embodiment of the present invention. As shown in Fig. 3, a number of support plates 42 are stacked in parallel and each support plate is provided with a number of light-emitting diodes 41. The light-emitting diodes 41 are made of GaN semiconductor to easily control the wavelength of the light broadcast from it.

The plurality of light-emitting diodes 41 are arranged in lines and each line of light-emitting diodes 41 is carried by one of the support plates 42. The light-emitting diodes 41 of one line are simultaneously lit or turned off and light-emitting diodes 41 are sequentially lit or turned off per line, providing a continuous image. The violet radiation 1005538-8 emitted from the light-emitting diodes 41 passes through an LCD panel 50 to excite phosphors 51 of a fluorescent layer.

The consecutive line illumination of the present invention provides a uniform illumination of light across the LCD panel as well as a surface illumination effect of the entire fluorescent layer and thereby reduces energy consumption.

1005538

Claims (7)

1. Consecutive illumination backlight assembly for a liquid crystal display (LCD) using a fluorescent layer, comprising: a plurality of cold cathode fluorescent tubes stacked in parallel and of a length corresponding to the length of an LCD panel; and support plates for supporting the cold cathode fluorescent tubes at both ends thereof and providing electrical connections to the fluorescent cold cathode tubes at both ends thereof, characterized in that the cold cathode fluorescent tubes are successively illuminated to to form a continuous image on a screen, and emit violet radiation with the wavelength of 380-420 nm to excite phosphors of the fluorescent layer. Consecutive illumination backlight assembly according to claim 1, characterized in that the fluorescent layer consists of a blue light-emitting phosphor, a green light-emitting phosphor and a red light-emitting phosphor, the blue light-emitting phosphor at least has selected a composition from the group of: Srio (PO4) 6Cli2: Eu2 +, <Sr0 / 9Caofi) 10 {PO4) 6: Eu2 +, Sr3MgSi208: Eu2 +, Ba3MgSi208: Eu2 +, ZnS: Ag, Cl, ZnS: Ag, Al, ZnS: Ag, ZnO: Ag and ZnS: Ag, Ga, the green light emitting phosphor has at least one composition selected from the group of: SrAl204: Eu2 +, SrGa2S4: Eu2 + , Y3Al50i2: Ce3 +, ZnS: Cu, ZnS: Cu, Al, CdS: Cu, Al and ZnS: Cu, Au, Al, and the red light-emitting phosphor has selected at least one composition from the group of: 6Mg0 * As205 : Mn, 3.5MgO-0.5MgF2-GeO2: Mh, SrY2S4: Eu, SrY2S4: Mh, K5Eu (W04) 4, Y202S: Eu and Y203: Eu. Consecutive lighting-backlight assembly according to claim 1, characterized in 1005538 Consecutive illumination backlight assembly according to claim 3, characterized in that the cold cathode fluorescent tube is coated with at least one element selected from the group consisting of Co, Ni 10 and Fe. 4 I - 10 - that the cold cathode fluorescent tube has at least one phosphor consisting of the group of: SrP207: Eu, SrMgP207: Eu, Sr3 (P04) 2: Eu, (Sr, Ba) Al2Si20g: Eu, Y2Si2C> 7 : Ce, ZnGa204: Li, Ti / YTa04: Nb, CaW04, BaFX: Eu (where X is a 5 halogen), (Sr, Ca) 0-2B203: Eu, SrAl12014: Eu and Y2Si05: Ce. A consecutive backlight illumination assembly for an LCD using a fluorescent layer, comprising: a plurality of light-emitting diodes as the light source; and a plurality of support plates stacked in parallel so that each support plate supports a line of light-emitting diodes, characterized in that the light-emitting diodes are sequentially illuminated by lines to form a continuous image on a screen, and violet radiation emit a wavelength from 380 nm to 420 nm to excite phosphors of the fluorescent layer. 6. Consecutive lighting-backlight assembly according to claim 5, characterized in that the fluorescent layer consists of a blue light-emitting phosphor, a green light-emitting phosphor and a red light-emitting phosphor, the blue light-emitting phosphor at least has selected a composition from the group of: Sr4o (P04) 6CI12: Eu2 + / 30 (Sr0 (9Cao, 1)! 0 (P04) 6: Eu2 +, Sr3MgSi208: Eu2 +, Ba3MgSi2Oe: Eu2 +, ZnS: Ag, Cl, ZnS: Ag, Al, ZnS: Ag, ZnO: Ag and ZnS: Ag, Ga, the green light-emitting phosphor has selected at least one composition from the group of: SrAl204: Eu2 +, SrGa2S4: Eu2 +, Υ3Αΐ5 <0ΐ2: Ce3 +, ZnS: Cu , ZnS: Cu, Al, CdS: Cu, Al and ZnS: Cu, Au, Al, 35 and the red light-emitting phosphor has selected at least one composition from the group of: 6Mg0-As205: Mn, 1005538 * · - 11 - 3.5MgO-0.5MgF2-GeO2: Mh, SrY2S4: Eu, SrY2S4: Mn, K5Eu (W04) 4 / Y202S: Eu and Y2C> 3: Eu. Consecutive lighting-backlight assembly according to claim 5, characterized in that the light-emitting diode 5 consists of a GaN semiconductor. 1005538 1