DE3048288A1 - LED arrangement for markers and indicators - has semiconductor body on support plate covered by reflector with light emitting aperture for parallel light outlet - Google Patents

Abstract

The light line arrangement is intended for indication in tape recorders, radios, or for voltage indication. It consists of at least one light-emitting semi-conductor element with at least one semi-conductor substrate on a support plate. The semi-conductor substrate (3) is mounted on the support plate (1) near its edge (8). Over the semi-conductor substrate is mounted a reflector (5) with a light emitting aperture (6). The reflector is of such design that the light is emitted parallel to the plane of the support plate. Preferably a line of several semi-conductors are mounted in the above mentioned manner on the support plate. In such case the reflector has a light emitting aperture for each semi-conductor element. The apertures may be filled with a transparent plastics containing dispersion agents, the plastics simultaneously encasing the semi-conductor elements. The support plate is typically of insulating material.

Description

Arrangement of at least one

light-emitting semiconductor component The invention relates to a Arrangement of at least one light-emitting semiconductor component with at least a halide conductor arranged on a carrier plate körpr.

In electrical engineering, building blocks are often made up of rows light-emitting diodes are used with the help of a suitable control circuit for example, can be operated so that a certain size by a variable luminous point or by a luminous strip of variable extent is indicated. Such light lines are used, for example, for level control; display in tape or radio equipment or used as a voltage indicator. Furthermore, there are orders from luminescent components arranged in rows, for example in data processing required as a punch card reader. The distance between two light emitting diodes within the Line then corresponds to the grid size of punched cards. When known LED lines are the semiconductor body attached to a carrier plate and so with light guide bodies or reflectors covered that the light exit perpendicular to the plane of the carrier plate he follows. When installing an LED line in a front panel of a device, the relatively large space requirements of these known row arrangements perceived as disadvantageous, being particularly annoying that those located on the circuit board and to be connected Conductors run parallel to the plane of the front panel.

The invention is based on the object of a light-emitting semiconductor arrangement specify which requires little space and which can be easily integrated into device front panels can be installed. In an arrangement, this task is performed as described at the outset Type solved according to the invention in that the semiconductor body on the carrier plate. is arranged in the vicinity of an edge and that on the carrier plate above the semiconductor body a reflector body provided with a light exit opening is arranged which is designed so that the light is substantially parallel to the plane of the carrier plate exit.

In a preferred embodiment are on the carrier plate for Formation of an LED line several lines attached to one edge of the carrier plate Arranged semiconductor body. The reflector body then preferably has for each individual semiconductor body a separate light exit opening.

The inventive arrangement has the particular advantage that at their installation in device front panels in the plane perpendicular to the light exit opening there is little space required. The design of the reflector is with simple means achieved that the light in the plane of the extension direction of the Carrier plate emerges from the individual light exit openings.

The light exit openings are preferably made with a translucent one Plastic filled, which at the same time envelops the semiconductor body and preferably a contains the scattering of the light promoting agent.

The invention and its further advantageous embodiment is shown in the following is explained in more detail using an exemplary embodiment.

FIG. 1 shows the carrier body in a perspective view with the applied semiconductor components and the reflector body.

In the figure 2 is a section through the completely assembled light line shown.

According to FIG. 1, the carrier body consists of a thin, elongated one Plate made of insulating plastic or ceramic, for example. On one surface side of the plate there are those for the contacting Semiconductor components provided interconnects and pads, for example consist of copper. One provided as a connection surface for all semiconductor bodies relatively wide interconnect 7 extends along an edge 8 of the carrier plate. The semiconductor bodies 3, which are for example is luminescent diodes, attached to form contacts. Perpendicular to the channel 7 run parallel to one another one corresponding to the number of semiconductor bodies Number of interconnects 2, each with the second electrode of the assigned semiconductor body be electrically connected. This connection is made by means of thin contacting wires 4, extending from the semiconductor body to the adjacent end of the associated interconnect 2 extend, established. The connection interconnect 7 is also parallel to via a the interconnects 2 running interconnect 7a with that of the edge 8 geqenüberlage Connected to the edge of the carrier plate on which the LED line is controlled.

A reflector body 5 is placed on the carrier plate 1 in such a way that the semiconductor bodies 3 are covered by the reflector and those in the reflector body contained light exit openings 6 arranged in the plane of the carrier plate 1 are. As can be seen from the sectional representation in FIG. 2, is located With the reflector body in place, there is a semiconductor body 3 in each opening 6, whereby the wall of the opening surrounds the semiconductor body in such a way that that of the semiconductor body outgoing light is reflected on this wall and in a parallel plane exits to the surface of the carrier plate 1 from the light exit openings. the Light outlet openings can be round, square or rectangular Have cross-section and are preferably with a translucent at the same time the plastic 9 surrounding the semiconductor body is filled. For better light scattering can in this plastic / glass powder or other particles causing light scattering be brought in.

The reflector consists for example of a mixture of epoxy resin with approx. 50 percent by weight titanium dioxide.

This is a white, diffuse reflective material. In one embodiment, a support plate with the dimensions 77.5 x 20 x 1.5 mm 30 applied to each semiconductor body containing a luminescent diode. In this case, the reflector has 30 openings with, for example, a round cross-section of 2 mm in diameter at a grid spacing of 2.5 mm. The reflector body in this case has the external dimensions 77.5 x 12 x 4 mm, so that when installing the LED line in a front panel only a front plate cutout with the dimensions 77.5 x 4 mm was required and there was a space requirement of 22 m behind the front panel.

There is also the option of placing one or on the carrier plate to accommodate several integrated and the Ansteuerunq the LED row serving circuits. Furthermore, instead of a carrier plate made of insulating material, a self-supporting Metal strips can be used by punching or etching as required Channel pattern was structured. Supporting connecting webs between the individual Conductor tracks are then cut free after contacting the semiconductor components eliminated.

Claims (9)

Claims 1) Arrangement of at least one light-emitting Semiconductor component with at least one semiconductor body arranged on a carrier plate, gekenneichnet characterized in that the semiconductor body (3) on the carrier plate (1) in is arranged in the vicinity of an edge (8), and that on the carrier plate above the semiconductor body a reflector body (5) provided with a light exit opening (6) is arranged is, which is designed so that the light is substantially parallel to the plane of the Carrier plate emerges. 2) Arrangement according to claim 1, characterized in that on the Carrier plate (1) several, linearly attached to an edge (8) of the carrier plate Semiconductor body (3) are arranged. 3) Arrangement according to claim 2, characterized in that the reflector body has a light exit opening for each semiconductor body. 4) Arrangement according to one of the preceding claims, characterized in that that the light exit openings (6) with a translucent, a scattering agent containing plastic (9) are filled, the plastic at the same time the semiconductor body (3) enveloped. 5) Arrangement according to one of the preceding claims, characterized in that that the carrier plate (1) consists of an insulator on which the semiconductor body (3) load-bearing surface side with metallic interconnects and contact areas (2, 7) is provided. 6) Arrangement according to one of claims 1 to 4, characterized in that that the carrier plate is structured from a pattern corresponding to the required interconnect pattern, self-supporting metal strip. 7) Arrangement according to one of the preceding claims, characterized in that that the reflector body (5) consists of a white, diffusely reflective material. 8) Arrangement according to claim 7, characterized in that the reflector body (5) consists of a mixture of epoxy resin with approx. 5 weight percent titanium dioxide. 9) Arrangement according to one of the preceding claims, characterized in that that on the carrier plate provided with a plurality of luminescent diodes (3) (1) At the same time, at least one integrated one serving to control the luminescent diodes Semiconductor circuit is arranged.