WO2002025744A1

WO2002025744A1 - Light-emitting diode comprising a luminous element

Info

Publication number: WO2002025744A1
Application number: PCT/DE2001/003630
Authority: WO
Inventors: Holger JÜRGENSEN; Heinz Willms; Dieter Podhajecky
Original assignee: Aixtron Ag
Priority date: 2000-09-21
Filing date: 2001-09-20
Publication date: 2002-03-28
Also published as: DE10047462A1

Abstract

A light-emitting diode comprises a luminous element that is roughened at least in one area. The roughened element area leads to an enlargement of the angle of emission on a light-emitting diode. The inventive light-emitting diode is thus suited, above all, for light-emitting diode configurations, in which a number of light-emitting diodes are adjacently arranged and a uniform emission of light should be effected. The roughened area is preferably produced by sand blasting or by spraying on a substance that reacts with the luminous element. The inventive light-emitting diode can be advantageously used inside a light-emitting diode configuration for a signaling system, for example, a traffic light.

Description

LED with a filament

The invention relates to a light emitting diode with a luminous element.

Light-emitting diodes are also referred to as luminescent diodes, light-emitting diodes (LEDs) or electroluminescent cells. Light-emitting diodes are semiconductor diodes with a PN junction operated in the forward direction, which is doped in such a way that light radiation is emitted when charge carriers are injected as a result of a recombination. Depending on the doping, red, green or white light is emitted. The radiation power is proportional to the diode current, so that intensity modulation is possible. Light-emitting diodes arranged in a grid serve z. B. as numerical display devices.

Light emitting diodes are manufactured in a wide variety of designs and it is regularly ensured that the light emitting diodes have the highest possible luminosity. The luminosity or efficiency of an LED depends on the internal quantum efficiency and the radiation efficiency. Various manufacturing processes aim to optimize these parameters. The invention relates to light emitting diodes of any design. The light-emitting diodes can be bell-shaped or mesa-shaped, for example, or can be integrated into a component. In particular for display panels and lighting devices, a large number of LEDs are frequently arranged closely next to one another and, for example, soldered onto a printed circuit board in order to specifically apply a voltage to certain LEDs. These light-emitting diode arrangements or light-emitting diode arrays thus generate a light which consists of many individual light points. For various applications, however, it would be advantageous to obtain a uniformly illuminated pane or surface.

The invention is therefore based on the object of further developing a light-emitting diode with a luminous element in such a way that it is better suited to illuminating surfaces.

This object is achieved in that at least one area of the filament is roughened.

First of all, many attempts were made to increase the packing density of the luminous elements of a large number of light-emitting diodes. In addition to attempts to arrange the light fixtures, attempts were also made to change the design of the light fixtures. However, the invention is based on the knowledge that a mere roughening of the surface of the luminous body can result in a refraction of light when the light rays emerge, which causes an increase in the beam angle on conventional LEDs. This diffusing is a simple process that can be carried out on standard LEDs without much effort. The construction of the LEDs manufactured in large quantities can therefore remain changed and the tight arrangement of LEDs on printed circuit boards can be less stringent, provided that light-emitting diodes with roughened areas are used on the luminous element

In order to solve the problem on which the invention is based, the entire luminous element of the light-emitting diode can be roughened. However, it is also sufficient if only special areas are roughened. It is advantageous if the roughened area has the most light-emitting area of the filament. Roughening the surface has the greatest effect, particularly in the particularly light-emitting illuminant area.

The roughened area can also be technically provided within the filament. However, it is advantageous if the roughened area is arranged on the surface of the luminous element. This makes it easier, depending on the application, to roughen the luminous element or not after the luminous element has been manufactured or after the entire light-emitting diode has been manufactured.

The roughening is intended to increase the radiation angle by diffusing. For this purpose, different surface structures can be made in different orders of magnitude. The roughened area is preferably translucent but opaque. Such matt surfaces lead to particularly good efficiency. Depending on the production method of the roughened filament by varying the shape of the filament when casting the filament or after-treatment of the filament, the roughened area will have an irregular or regular fine structure.

The object according to the invention is also achieved by a light-emitting diode arrangement with a power supply line and a plurality of light-emitting diodes, in which the light-emitting diodes have at least one area in which the luminous element is roughened. This arrangement of light-emitting diodes enables surfaces to be illuminated as evenly as possible.

The luminous element can be part of the light-emitting diode. However, the light emitting diodes can also be arranged in a luminous element. For this purpose, several LEDs are housed in a glass, plastic or other transparent body. In this case, either the light-emitting diode itself can have a roughened area or the luminous element is roughened at least in special areas. A preferred embodiment provides that the roughened area of the filament is arranged on the side of the filament facing away from the power supply line.

It is advantageous if the entire side of the light-emitting diode arrangement facing away from the power supply line is roughened.

In terms of method, the object on which the invention is based is achieved with a method for producing a light-emitting diode or a light-emitting diode. oden arrangement solved, in which the light emitting diode or the light emitting diodes of the light emitting diode arrangement are exposed to a particle beam.

It has been found that both the individual light-emitting diodes and the entire light-emitting diode arrangement can be roughened in a simple manner by sand or glass bead blasting in such a way that the scattering of the radiation angle on which the invention is based is achieved without any particular effort.

As an alternative, it is proposed that, in order to produce a light-emitting diode or a light-emitting diode arrangement, the light-emitting diode or the light-emitting diodes of the light-emitting diode arrangement are brought into connection with a substance which reacts with the material of the luminous element. For this purpose, the light-emitting diodes can, for example, be immersed in an etching liquid or coated with an etching paste. A spray of a readily evaporating caustic agent is particularly advantageous, which is sprayed onto the light-emitting diode arrangement and causes the surface of the light-emitting diodes to be roughened before the evaporation.

The surface treatment by means of a spray or a particle beam has the particular advantage that the spray jet can be used in the opposite direction to the light emission direction of the light-emitting diode or the light-emitting diode arrangement and thus automatically treats the particularly relevant surface areas of the luminous elements, while other areas are only less exposed to the beam. The light-emitting diodes or light-emitting diode arrangements described are particularly suitable for light surfaces in which emphasis is placed on uniform illumination. Advantageous applications are therefore in the area of signal systems or advertising signs. Traffic lights are a preferred area of application for road traffic, since the use of the described light-emitting diodes or light-emitting diode arrangements makes it possible to dispense with the previously required diffusing screens.

The invention is explained in more detail below using an exemplary embodiment with reference to the drawing. In the drawing shows

the only figure is a section through a circuit board with two light-emitting diodes.

The light-emitting diode arrangement 1 shown in the figure consists of two light-emitting diodes 2, 3, which are only shown by way of example and are soldered to a printed circuit board 4. In the exemplary embodiment, only two light-emitting diodes 2, 3 are shown. As a rule, however, the printed circuit boards 4 have a large number of light-emitting diodes arranged flat next to one another.

The light-emitting diodes 2, 3 are soldered onto the printed circuit board 4 with their contact feet 5, 6 and 7, 8, respectively, so that the light-emitting diodes 2, 3 are arranged as closely as possible to form a light-emitting surface. The light emitting diodes 2, 3 consist of the filament 9, 10 and the contact feet 5 to 8, which extend into the filament. Between the upper ends 11, 12 and 13, 14 of the contact feet 5 to 8 is the PN junction 15 and 16, which depending on the doping and decolorization of the filament leads to light radiation when a voltage is applied to the contact feet 5 to 8.

The luminous elements 9 and 10 shown have been sandblasted after the application of the light-emitting diodes 2, 3 to the printed circuit board 4, so that the luminous elements 9 and 10 have roughened surfaces 17, 18 on the side of the luminous elements opposite the printed circuit board.

Depending on the intensity of the sandblasting process, further surfaces of the luminous elements 9, 10, such as the collars 19, 20, are also sandblasted.

It can easily be gathered from the exemplary embodiment that the roughness on the surfaces 17 and 18 can also be easily achieved by caustic sprays and the light-emitting diodes can be treated both before application to the printed circuit board and afterwards to produce the diffuse surfaces.

Claims

claims:

1. LED (2, 3) with a luminous element (9, 10), characterized in that at least one area (17, 18) of the luminous element (9, 10) is roughened.

2. Light-emitting diode according to claim 1, characterized in that the roughened area (17, 18) has the most light-emitting area of the luminous element (9, 10).

3. Light-emitting diode according to claim 1 or 2, characterized in that the roughened area (17, 18) is arranged on the surface of the luminous element (9, 10).

4. Light-emitting diode according to one of the preceding claims, characterized in that the roughened area (17, 18) is translucent but opaque.

5. Light-emitting diode according to one of the preceding claims, characterized in that the roughened area (17, 18) has an irregular or regular fine structure.

6. light-emitting diode arrangement (1) with a power supply line and a plurality of light-emitting diodes (2, 3), characterized in that it has light-emitting diodes (2, 3) in which at least one area (17, 18) of a luminous element (9, 10) is roughened ,

7. LED arrangement according to claim 6, characterized in that the LEDs 2 (2, 3) are arranged in a luminous element.

8. LED arrangement according to one of claims 6 or 7, characterized in that the roughened area (17, 18) of the

Luminous body (9, 10) is arranged on the side of the luminous body (9, 10) facing away from the power supply line.

9. Light-emitting diode arrangement according to one of claims 6 to 8, characterized in that the entire side of the light-emitting diode arrangement (1) facing away from the power supply line is roughened.

10. A method for producing a light-emitting diode (2, 3) or a light-emitting diode arrangement (1), characterized in that the light-emitting diode (2, 3) or the light-emitting diodes (2, 3) of the light-emitting diode arrangement (1) are exposed to a particle beam.

11. A method for producing a light-emitting diode (2, 3) or a light-emitting diode arrangement, characterized in that the light-emitting diode (2, 3) or the light-emitting diodes (2, 3) of the light-emitting diode arrangement (1) with a substance reacting with the material of the luminous element in Be connected.

2. Use of a light-emitting diode (2, 3) or a light-emitting diode arrangement (1) according to one of the preceding claims for the production of a signal system or an advertising sign.