DE19845229C1 - White light background lighting system, especially for flat displays, comprises blue-emitting LED chips and a diffuser foil with a coating containing a blue-to-white light conversion powder - Google Patents

Abstract

A white light background lighting system comprises blue-emitting LED chips (12) and a diffuser foil (15) with a coating (16) containing blue/white light conversion powder. A white light background lighting system comprises blue-emitting LED chips (12) mounted on a transparent circuit board (11) and a board frame for spacing the board from a diffuser foil (15) which forms the lighting surface. The diffuser foil (15) is provided, at its inner face facing the board (11), with a coating (16) comprising a blue/white light conversion powder and a carrier material.

Description

The invention relates to a backlight, especially for surface displays, with on one opaque circuit board arranged and over Conductor controllable light emitting diode chips and with one the circuit board holding frame on which the circuit board by far a diffuser film as Luminous area is set.

A generic backlight results from WO 90/13885 A1; in one embodiment of the therein described backlight is in one Plastic frames forming reflection surfaces Circuit board as a printed circuit board with arranged on it Light-emitting diode chips, and this is one to be illuminated by a diffuser film Luminous area arranged. The diffuser film is on that Frame set.  

It is complementary for such backlights to create different colors Known use, light in different colors to use emitting light-emitting diode chips. So far with such backlight white light are to be emitted according to the principle of additive color mixing different colored light emitting diodes Chips arranged on the circuit board. Such Design of a white light emitting However, backlighting is disadvantageous complex to manufacture and control.

The invention is therefore based on the object Backlighting in a simple way To design white light radiation.

The solution to this problem is inclusive advantageous refinements and developments from Content of the claims which this description are reproduced.

The basic idea of the invention provides that to generate a white light, the LED chips as Blue light emitting diode chips formed are and the diffuser film on their the circuit board facing inner surface with one of a blue emitted light transforming into white light Converter powder and a carrier material existing Coating is provided. With the invention is first the advantage connected that the circuit board with only one single type of light emitting diode chips must be equipped. So much for converting the blue light emitted into  White light on the underside facing the circuit board to apply only a coating to the diffuser film is associated with the advantage that due to the full-surface formation of the coating a high Homogeneity of the emitted white light ensured is. Differences in white light perception are due to the a uniform blue light-emitting diode Chips and the homogeneous coating as a luminous surface acting diffuser film largely excluded.

According to an embodiment of the invention provided that the coating by applying the Converter powder and carrier material existing mixture in the Screen printing process is applied to the diffuser film. This has the advantage that a simple Manufacture in particular of those that act as a luminous surface Diffuser film is possible. This is only the Mixture of the converter powder and the carrier material and this mixture is screen printed to apply to the diffuser film. This application can in several steps with an intermediary Intermediate drying take place.

According to an embodiment of the invention Converter powder made of an yttrium aluminate doped with Cerium, while the carrier material consists of one for the Processing in a screen printing process suitable for colorless Screen printing ink in the form of a synthetic solution Synthetic resins in organic solvents.

To improve the handling of the mixture when Application of the coating can be provided that  the mixture applied as a coating for improvement its processing properties in screen printing as additional component a portion of a Contains diluent, optionally additionally a portion of a delay reagent may also be provided can.

In the drawing is an embodiment of the invention reproduced, which is explained below. The only figure shows a backlight in section.

The backlight consists of a module, designated overall by 10 , which is formed by a peripheral frame 14 . The frame 14 holds a printed circuit board 11 on the bottom, on which light-emitting diode chips 12 are arranged in a manner known per se and are connected with a bond indicated by reference number 13 .

On the side of the frame 14 opposite the printed circuit board 11 , a diffuser film 15 is attached to the frame 14 as a luminous surface. The diffuser film 15 is provided with a coating 16 on its inner side facing the printed circuit board 11 .

This coating consists of a mixture of a blue emitted light in white light transforming converter powder with a carrier material. According to the invention, an yttrium aluminate doped with cerium with the chemical formula Y ₃ Al ₅ O ₁₂ : Ce can be used as converter powder, as is offered under the trade name L175 by Osram GmbH, Munich. According to a proposal of the invention, the carrier material is a colorless screen printing ink suitable for processing in the screen printing process in the form of a solution of synthetic synthetic resins in organic solvents, as it is known, for example, under the name Jet 200 according to Technical Notice 1/1998 from the company Farbenfabrik Proell GmbH & Co in 91773 Weissenburg, Germany. Portions of a diluent and optionally a retarding agent are optionally added to this mixture as a screen printing aid. The mixture described above is applied to the diffuser film 15 in a screen printing process, so that a coating 16 adheres to the diffuser film 15 . The setting of the mixing ratio of converter powder and carrier material is in the order of 1 to 1.5 to 1 to 5 and is also dependent on the intensity of the blue light emitted by the light-emitting diode chips used. The proportions of diluent or delay reagent that may be necessary or appropriate depend on the support material used in the individual case and the screen printing process used.

The diffuser film 15 is attached to the top of the frame 14 in a suitable manner, preferably glued to the frame 14 using a suitable adhesive. It can be provided here that the adhesive is applied only in the area of the surface of the diffuser film 15 resting on the frame 14 . To simplify the manufacturing, but can also be provided to apply the transparent adhesive over the entire surface on the coating 16 of the sheet 15, so that in the area of the non-abutting on the frame 14 surface of the coating 16 and the diffuser sheet 15, the adhesive as a protective surface for the Coating 16 is used. This does not affect the light emission.

Claims (6)

1.Backlight, in particular for surface displays, with light-emitting diode chips arranged on an opaque printed circuit board and controllable via conductor tracks and with a frame holding the printed circuit board, on which a diffuser film is defined as a luminous surface opposite the printed circuit board, characterized in that for producing a White light, the light-emitting diode chips are designed as blue-light-emitting light-emitting diode chips ( 12 ) and the diffuser film ( 15 ) on its inner surface facing the printed circuit board ( 11 ) with a coating consisting of a converter powder that transforms the blue-emitted light into white light and a carrier material ( 16 ) is provided. 2. Backlight according to claim 1, characterized in that the coating ( 16 ) is applied by applying the mixture consisting of converter powder and carrier material in a screen printing process to the diffuser film ( 15 ). 3. Backlight according to claim 1 or 2, characterized characterized in that the converter powder from a Yttrium aluminate doped with cerium. 4. Backlight according to one of claims 1 to 3, characterized in that the carrier material from one for processing by screen printing suitable colorless screen printing ink in the form of a Solution of synthetic resins in organic Solvents. 5. Backlight according to one of claims 1 to 4, characterized in that the mixture applied as a coating ( 16 ) contains as an additional component a proportion of a diluent as a screen printing aid. 6. Backlight according to one of claims 1 to 5, characterized in that the mixture applied as a coating ( 16 ) contains, as an additional component, a portion of a retardant as a screen printing aid.