DE3618037C1 - Optical component - Google Patents

Abstract

A description is given of an optical component having a light-transmitting cube (1), a light entry surface (11), a plurality of light exit surfaces (12, 13, 14) and a liquid crystal layer (9, 10) which is provided in a diagonal cube surface and which, depending on a voltage applied to electrodes (8), reflects a light beam incident on the light entry surface or is transparent to this beam. The component according to the invention is distinguished in that the liquid crystal layers are provided in at least two of those diagonal cube surfaces which have a side in common with the light entry surface, and in that at least three bounding surfaces of the cube serve as light exit surfaces. Not only is it thereby possible to connect a plurality of light output channels to one input channel, but in addition the component according to the invention can also be used to block or retroreflect the incident light beam. <IMAGE>

Description

The invention relates to an optical switching element according to the preamble of claim 1.

Such switching elements are used, for example to connect a light guide cable with another light guide Cables from a group of fiber optic cables are optional connect.

A switching element according to the preamble of the patent for example 1 is from "Electronics", February 1986, p. 19. This switching element is in a cube diagonal provided with several electrodes provided a dielectric liquid layer, by applying a voltage within the dice slide gonal surface shifted and thus the reflection or Transmission behavior of the switching element can be changed can. As a result, an input channel can optionally be used with a can be connected by two output channels. A connection an input channel with more than two output channels in the known from the above article Switching element not provided.

An optical switching element in which an input channel can be connected to more than two output channels is known for example from DE-PS 31 24 488. This switching element consists of a series of prismatic plates, a λ / ₂ plate, a liquid crystal switching matrix cell and light absorbers, which are intended to prevent crosstalk between adjacent channels, which can be caused, for example, by total reflection.

However, this known optical switch has a number of disadvantages: The light is polarized in the switching element, i. H. a Part of the light with a certain "polarization direction tung "is extinguished in the absorbers. Furthermore, the Construction of the known device especially then compli adorns when a light input channel with a number of Light output channels should be connected optionally.

In addition, from DE-AS 21 02 585 is also a optical switching element with liquid crystal layers be knows, but are arranged one behind the other. These Arrangement has the basic disadvantage that with a Cascading of the individual switching elements in each kaska only two switch positions can be realized.

In addition, all of these known optical occurs Switching elements on a considerable loss of light. In order to it is not possible to have a number of switching elements without To connect intermediate amplification in series.

The invention has for its object a reaction fast optical switch with a simple structure ben, which has only a slight loss of light in the switching element Has.

An inventive solution to this problem is with their Developments characterized in the claims.

Surprisingly, a solution to the invention succeeds moderate task in that of an optical switch ment according to the preamble of claim 1 gene and this element by the in the characterizing part specified features is trained.

Because the liquid crystal layer is constant in the gap area of the cube remains and not, as with the above ten, known switching element, is shifted, that switching element according to the invention significantly shorter switching times on.

Such a cube is also much easier to be delivered as the prism plates mentioned above at the stand technology, the boundary surfaces of which are not right Include angles derived angles.

Furthermore, liquid crystal layers according to the invention are their reflection or transmission behavior controllable is featured in at least two of the cube diagonal surfaces see that with the Be interface have one side in common. This arrangement tion of the liquid crystal layers for the switching radio tion of the switching element according to the invention responsible has a number of advantages:

The structure of the switching element according to the invention is sym metric. This means that the light entry and the light exit surfaces are interchanged so that bidirectional operation is also possible.

In addition, it is also possible to have two or more Liquid crystal layers in the reflective state too convict. As a result, the light beam can be blocked or be reflected back onto the light entry surface. The switching element according to the invention is thus also as a retrore flector or used as a switching element that is not only optionally different channels (bidirectional) with each other that connects, but that also interrupt the signal path can (claim 10).

On the other hand, it is in the Schaltele invention ment possible to be all liquid crystal layers switch that a beam of light entering the light area enters, almost undiminished and undeflected from the opposite boundary surface emerges.

This makes it possible to stack several dice in a row switch, so that a switching element is created that one Input channel with more than five output channels (maximum Number of output channels in a cube) connects.

Furthermore, the weakening of the light beam when reflected a liquid crystal arranged in the manner according to the invention Stall layer is extremely low, can according to claim 2 also in connection with light exit surfaces, to which the Beam must be deflected, light entry surfaces of others cubes designed according to the invention are arranged.

The formation of the cube characterized in claim 3 has the advantage that each cube is easy to make is. By cascading (claim 2) such Wür You can still use a large number of output channels connect to an input channel.

In claims 4 and 5 are possibilities of construction of a cube according to claim 3, characterized by the the production is further simplified.

The optical switching element according to the invention is self-ver usable for all switching operations, at which a light beam toggles on or off shall be.

Suitable due to the inexpensive and compact construction the switching element according to the invention in particular Connection of fiber optic cables (claim 6). The Ankoppe fiber optic cables to the entry and exit faces of the cube can be featured in almost any way be taken. A preferred way of coupling is characterized in claim 7.

The switching element according to the invention can also be "more active Switches ", i.e., as a switch that switches the Information about the desired switching status switched switched luminous flux. Possible training such an active switch are in the claims 8 and 9 marked.

The invention is based on an embodiment example with reference to the drawing be wrote in the shows

Fig. 1 shows the structure of an optical switching element according to the invention with a cube,

FIGS. 2a and b, embodiments in which a plurality of cube "consecutively" are connected.

Fig. 1 shows a die used in the inventive switching element 1, which has a light entry surface 11 and three light exit surfaces 12, 13 and 14. Two light guide cables 22 and 23 can be coupled to the light exit surfaces 12 and 14 , for example by means of gradient lenses 21 ( Selfoc lenses). The light entering the light entry surface 11 can also be coupled in by means of a Selfoc lens (not shown).

In the exemplary embodiment shown, the cube 1 consists of four prism-shaped elements 2 , 3 , 4 and 5 , which are assembled via spacers 6 , so that a small space is formed between their catheter surfaces 7 . Translucent electrodes 8 , which may consist of indium tin oxide (Ito), for example, are applied to the catheter surfaces. A liquid crystal layer is located in each of the spaces 9 and 10 formed.

For example, if you apply a positive voltage to elements 2 and 3 and a negative voltage to elements 4 and 5 , the liquid crystal layer 10 becomes reflective. Thus, the light entering through the light entry surface 11 is reflected to the light exit surface 12 . On the other hand, the light is reflected to the light exit surface 14 when a positive voltage is applied to the elements 2 and 5 and a negative voltage is applied to the elements 3 and 4 . On the other hand, if all elements are at the same potential, a light beam entering through the light entry surface 11 passes through the cube 1 practically unattenuated to the light exit surface 13 .

FIGS. 2a and 2b show different ways of the dice 1 according to the invention designed to increase the number of output channels, which can be connected to a light input port to connect them in series. In the "passive" arrangement shown in FIG. 2a, the light exit channel, which is to be connected to the light entry channel, is predetermined by control electronics, not shown, according to a specific program. In the "active" series circuit of cubes shown in Fig. 2b, the fact is exploited that when all the cube elements 2 to 5 are at the same potential, a light beam passes through the cubes 1 ₁ to 1 ₄ almost unattenuated.

So that it is possible to send a "control protocol" in front of the actual signal, which is received by a light-electric converter 15 arranged following the light-emitting surface 14 of the last cube. The converter 15 is connected to control electronics 16 which, in accordance with the protocol sent, convert the liquid crystal layer assigned to the desired output channel into the reflective state. For example after a certain time, the control electronics switch the individual cubes back to passage, so that the photoelectric converter 15 can receive the next control protocol.

In the above, the invention is exemplary without limitation kung described the general inventive concept been. Within this general idea of the invention are of course the most diverse modifications etc. possible :.

For example, it is possible to use a cube in which all adjacent to the light entry surface Cube diagonal surfaces have liquid crystal layers. With such a structure, not only five Output channels optionally connected to an input channel, but also an "ideal" retroreflector will.

To couple the incoming and outgoing light on Place of Selfoc used in the embodiment Lenses, of course, other means, such as ball lenses etc. are used. However, Selfoc lenses have the advantage of the high coupling tolerance.

Under the term "light" used above electromagnetic radiation with wavelengths from UV to Understand infrared.

Furthermore, it is also possible, if appropriate, in the Liquid crystal layer provided for cube diagonal surfaces to be replaced by other layers whose reflection and transmission behavior for the incident light in particular by applying an electrical voltage is changeable.

Claims (8)

1. Optical switching element with a translucent cube ( 1 ), the cube surfaces of which form a light entry surface ( 11 ) and a plurality of light exit surfaces ( 12 , 13 , 14 ), and with a liquid layer ( 9 , 10 ) provided in at least one cube diagonal surface which is a function of a voltage applied to electrodes ( 8 ) causes a reflection or a straight passage of a light beam incident through the light entry surface, characterized by the following features:

• the liquid layer is designed as a liquid crystal layer,
• liquid crystal layers are provided in at least two of those cube diagonal surfaces which have one side in common with the light entry surface,
• - At least three boundary surfaces of the cube serve as light exit surfaces ( 12 , 13 , 14 ).

2. Switching element according to claim 1, characterized in that several cubes ( 1 ₁ ... 1 ₄ ) with the same orientation are arranged one behind the other in the beam direction . 3. Switching element according to claim 1 or 2, characterized in that liquid crystal layers are provided in two of the diagonal surfaces which have parallel sides in common with the light entry surface. 4. Switching element according to claim 3, characterized in that each cube is divided along the two diagonal surfaces and translucent electrodes (8 ) for the liquid crystal layers are evaporated onto the Innenflä surfaces . 5. Switching element according to claim 4, characterized in that the liquid crystal layers are held by capillary forces. 6. Switching element according to one of claims 1 to 5, characterized in that on the light entry surface ( 11 ) of the first translucent cube and on the light exit surfaces ( 12 ... 14 ) glass fiber cables are coupled. 7. Switching element according to claim 6, characterized in that the glass fiber cables are coupled with Sel foc lenses ( 20 ). 8. Switching element according to one of claims 1 to 7, characterized in that behind the last one, the light entry surface opposite light exit surface a photoelectric converter is arranged with a control unit for the applied to the electrodes Tensions is connected. 9. switching element according to claim 8, characterized in that the applied to the electrodes voltage by coding the incoming light pulses are controllable. 10. Switching element according to one of claims 1 to 9, characterized in that for blocking and retrore flexion of the light beam at least two liquid crystal layers of a cube reflect in the same time the state can be transferred.