DE3303624C1 - Plug-in connectors for optical fibres having electrical interfaces - Google Patents

Abstract

In the embodiment according to the invention of plug-in connectors for optical fibres having electrical interfaces, the plug-in contacts are rigidly attached to the optical fibre. The plug-in contacts are connected to a plug housing in which there is located in each case a hybrid circuit embodied on a substrate and fitted with semiconductor components. This hybrid circuit is constructed at one end of the optical fibre as an electrically/optically converting transmitting device, and at the other end of the optical fibre as an optically/electrically converting receiving device. Exclusively electrical signals are switched via the plug-in connector. The plug-in connector is embodied as a multiple contact, and so apart from the signal line the power supply for the hybrid circuit located in the plug housing is also fed.

Description

Since the electrically / optically or optically / electrically converting transmission and receiving devices are fixedly arranged in the assemblies, which are used for further If signal processing is required, complex assembly equipment must be available so that the optical waveguide can be coupled with low attenuation with high precision can. The measures to be carried out in compliance with special regulations are described, for example, on page 26 in issue 2 of the electronics industry 1981. As can be seen from these explanations, the optical waveguide is inseparable connected to the respective transmitting and receiving device. If now, as before described the transmitting and receiving device also with a module is firmly connected, a light waveguide cannot easily be replaced or extended because it is also firmly connected to the relevant assembly is.

From US-PS 37 92 248 it is known, oplo / clcktro nischc l, mpfangs- and modules in pluggable housings, so that a pluggable fiber optic connection arises, which has rcin electrical interfaces. A multiple arrangement of this type is shown and described in US Pat. No. 4,184,070. With these arrangements the disadvantages described above are eliminated because it is flexible pluggable arrangement.

Fig. 1 of the documents mentioned but show dcutlich that in the Connector housings, where the optical fiber ends, only the wall opto / electronic Components is arranged. In Fig. 1 in the tJS-PS 41 84 070 is a reference attached, after which the driver and amplifier electronics are in other Stellc and not are located in the connector housing. This creates a relatively long distance between the Job. where the optical-electrical or electrical-optical conversion takes place and an amplifier, so that the arrangement is very prone to failure. This affects very unfavorable on the electromagnetic compatibility (EM V).

In addition, there is no optimal electrical adaptation to the optical Behavior of the fiber optic cable and the coupling properties of the transforming Components possible because they are not arranged together. So it is conceivable that when you replace a fiber optic cable, the transmission properties deteriorate in an inadmissible manner, if not with a large power reserve the matching circuits is factored in. The object of the invention is to a pluggable connection for fiber optic cables with electrical interfaces imagine, with the transmission properties of the optical waveguide and the changing scanning and receiving components are optimized together by adjustment measures can be that the electrical input and output signals regardless of Damping and coupling behavior are.

This task is solved by a combination of features like them in claim 1 is specified.

This is achieved in an advantageous manner that through the immediate Neighborhood of reception or

Transmission components and associated amplifiers have a very low susceptibility to interference and thus a very good electromagnetic compatibility is given. aside from that the mechanical attachment when mounting the optical fiber on the connector the optical fiber and the electrical balancing processes together or directly be carried out one after the other. Because only the minimum electricity required for sufficient control of the light emitting diode can be set with the arrangement according to the invention favorable aging and service life conditions for reached the opto / electronic components.

Further developments of the invention emerge from the subclaims.

An embodiment of the invention is based on a Drawing explained in more detail. The drawing shows how an optical fiber 1 is inserted into a housing 3 provided with plug contacts 2. The end of the The optical waveguide is located directly above the one located on a substrate 4 optical transmitter or receiver component 5. Around the insulation and protective layers of the optical waveguide to be centered and fastened so that they are not against each other are displaceable, a guide bush 6 is provided. With this guide bush 6 the l.ichtwellenlciter 1 with a potting compound 8 is so between the contact pins 9 and thus attached to the substrate 4 that the during the assembly process can no longer change the set optimal position. The contact pins 9 are by means of a gauge so precisely fitted into the substrate 4 that it fits exactly into the im Fit contacts 2 located in the grid spacing and also as reference points can be used for all assembly processes.

When manufacturing the plug-in connections, the Substrate 4 applied hybrid circuits with unencapsulated semiconductors in known Equipped in a manner which also includes the optical transmitting and receiving components 5 are located. The conductor tracks of the hybrid circuit are directly connected to the contact pins 9 connected, whereby the power and signal feed takes place via the plug contacts 2. The contact pins 9 serve as reference points when optimally centering the optical waveguide 1, if this is brought into connection with the optical transmitting or receiving component 5 will. This process is accurate by means of electrical or optical measuring methods determines which position of the fiber optic cable i in relation to the optical transmission or Receiving component 5 causes the most favorable transmission power This situation is initially fixed with a fast-curing plastic, not shown, which corresponds in its optical properties to those of the optical waveguide 1.

Then the optical waveguide 1 with the previously attached guide bushing 6 by means of a potting compound 8 with the substrate and thus also with the optical Transmitting or receiving component 5 firmly and permanently connected. This overall arrangement is then introduced into the housing 3, the optical waveguide 1 with a kink protection 7 is provided to prevent that for a glass fiber the specified minimum bending radius is not reached.

An optical waveguide provided with such a plug connection is ideally suited for shorter transmission links within a switching system, for example for the exchange of broadband signals or for the transmission of Pulses with a high bit rate and can then be plugged in directly in pre-assembled lengths can be used. In this application, the fiber optic cable is at one end 1 the hybrid circuit located on the substrate 4 is an electrical-optical converting one Transmission component 5 equipped and designed as a transmission arrangement, and at the other end of the optical waveguide 1 is accordingly located as a receiving device executed hybrid circuit, which of course then with an optical / electrical converting receiving component 5 (phototransistor) is equipped. However, it is too possible, the pluggable connections for fiber optic cables with liingel.cn transmission lines apply, then only one end of the optical fiber with a pluggable Connection is provided which contains either a transmitting or a receiving arrangement. The continuation or extension of the optical waveguide is then done in a known manner Way through the optical fiber directly connecting optical connectors.

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Claims (9)

Claims: 1. Pluggable connections for fiber optic cables with electrical interfaces, the signal transmission being through light pulses takes place at the transmission point by converting electrical current into light and converted back into electrical current impulses at the receiving point be, with multiple plug contacts fixed at both ends of a fiber optic cable are attached, via which only electrical signals are switched, and the plug contacts are each connected to a plug housing, wherein the Ends of the optical waveguide fixed to the optical transmitter or receiver component are connected, characterized in that within the connector housing (3) a hybrid circuit applied to a substrate (4) is located on the next the optical transmitting or receiving component (5) the entire transmitting or receiving circuit, consisting of further unencapsulated semiconductors and passive components is that the power supply for the hybrid circuit via additional plug contacts (2) is supplied, the inside of the hybrid circuit on the substrate (4) printed passive components, individually adjusted so that a optimal transmission or reception performance is achieved, and that for a fiber optic transmission path a complete adjustment is carried out. 2. Pluggable connections according to claim 1, characterized in that that with the substrate (4) connected contact pins (9) inserted by means of a jig with which such a precise arrangement is achieved that these contact pins (9) can serve as reference points for all subsequent assembly processes. 3. Pluggable connections according to claim 1, characterized in that that when attaching the optical waveguide (1) to the optical transmitter or Receiving component (5) a 1 acoustic direction is used, with a relative movement in all directions between the substrate (4) of the hybrid circuit and the optical waveguide (1) is made possible, an optimal coupling being achieved will. 4. Pluggable connection according to claim 3, characterized in that that a guide bushing (6) is provided in which the insulation and protective layers of the optical waveguide (1) are centered and fastened so that they are not against each other are movable. 5. Pluggable connections according to claim 3, characterized in that that the guide socket (6) attached to the optical waveguide (1) serves as a holder when grinding and polishing the optical fiber end is suitable. 6. Pluggable connections according to claim 1, characterized in that that the connector housing (3) is designed so that the end of the optical waveguide (1) can be attached to it with strain relief. 7. Pluggable connections according to claim 6, characterized in that that a kink protection (7) is provided on the connector housing (3), which the undershoot a minimal bending radius prevented. 8. Pluggable connections according to claim 1, characterized in that that the connector housing (3) is filled with a potting compound (8). 9. Pluggable connections according to claim 1, characterized in that that the electrical plug contacts (2) contain springs that can be plugged on Connection posts are suitable. The invention relates to pluggable connections for optical waveguides with electrical interfaces, as described in the preamble of claim 1 is described in more detail. With those made of fiberglass developed in recent years Optical fibers can transmit broadband signals with comparatively low levels Transfer attenuation. The fiber optic fiber optic cable has as the transmission medium also the advantage that the signal transmission is largely free of interference. For The operation of optical fibers for signal transmission are sendc and receive arrangements necessary. a signal to be applied to the light guide electrically / optically convert, resulting in a clever signal at the receiving end of the fiber optic cable can be won. A summary of the message transmission with Optical fiber is under the generic term: Optical communications engineering, in continuation sequences printed in the »Electronics Industry« (beginning of part 1 in volume 6, 1980, from Page 31). In part 9 of said continuation sequence, point 15 is the connection technology treated separately in optical messaging systems. This treatise begins on Page 25 of the "Electronics Industry", Issue 2, 1981. Furthermore, under the points 15. 3 connectors and 16 commercially available optical. Connectors in the continuation sequences 10 (Book 3, 1981 page 43) and 11 (Book 4, 1981, page 31) show the possibilities like optical fibers with each other and also with the transmitting and receiving devices can be connected. It is expressly pointed out that there is a plug for the connection high accuracy requirements must be met by fiber optic cables. Farther it is said that in addition to this mechanical precision, the connectors also have a low Have attenuation and must be easy to assemble. The to a plug connection corresponding items are relatively complex and expensive, like this for example from Figure 16, point 10 on page 32 in Heft4 Electronics Industry from 1981 is shown. These conditions do not only apply to connections from Optical fibers with each other but also for the coupling of the transmission and Receiving facilities.