WO2007036458A1

WO2007036458A1 - Electro-optical conversion gun for chassis base connection

Info

Publication number: WO2007036458A1
Application number: PCT/EP2006/066496
Authority: WO
Inventors: Luc Jolibois
Original assignee: Thales
Priority date: 2005-09-23
Filing date: 2006-09-19
Publication date: 2007-04-05
Also published as: FR2891371B1; FR2891371A1

Abstract

The invention concerns an opto-electronic connection, that is a device receiving an optical information and transmitting an optical information, as well as an electro-optical connection which performs the inverse transformation. An electro-optical gun (10) removably fixed to one fiber optic end (11) comprises electrical contacts (13). The invention is characterized in that the gun (10) is designed to be plugged in the optical part of a mixed connector for optical and electrical connection so as to present its electrical contacts (13) in the same order as the electrical contacts of the electrical part of the connector.

Description

Electro-optical conversion gun for chassis bottom connection

The invention relates to a photo-electronic connection, that is to say to a device receiving information of an optical nature and transmitting information of an electronic nature, it also relates to an electro-optical connection which performs the inverse transformation.

In the field of equipment on board aircraft capable of transmitting and receiving electrical signals, we are moving towards a connection to infrastructure networks aimed at exchanging digital information between the equipment. Initially, networks based on copper physical links were created to transmit digital signals with a bit rate of up to a few tens, then a few hundred kilobits per second. For the most recent aircraft, optical or electrical links have been created point to point or multipoint points whose bit rate reaches up to one hundred megabits per second. Future carriers will be equipped with optical transmission systems that can reach a rate of the order of Giga-bits per second. For such architectures, it is necessary to place devices operating a photoelectric or electro-optical conversion, at each end of the optical links connecting the equipment. A first solution for producing such conversion devices is to integrate them to the equipment themselves. This solution has the disadvantage of reducing the usable space within the equipment, which often takes the form of electronic equipment boxes. In addition, the optical connectors do not accommodate the pollution caused by the dust found in aircraft chassis. Finally, the repeated handling of the housings are also not favorable to these connectors which require careful handling so that the optical fibers are perfectly centered and aligned.

To solve this problem, it has been proposed in patent FR 2,688, 600A1, to deport the electro-optical or photoelectronic conversion out of the equipment and to combine an electrical connector and a photoelectronic or electro-optical conversion device. . According to this proposition, a conversion and interconnection device is inserted between an optical fiber remaining stationed in the aircraft and a connector having electrical contacts and equipping for example the face of an electronic equipment box. The connection between the device and the optical fiber on the one hand and between the device and the connector on the other hand being removable.

It appears that the conversion and interconnection device according to this design is easily removable in case of failure. However, during the replacement period, disassembly of the device leaves the end of the optical fiber without protection against dust, which can considerably complicate the operation of replacing the device, given the difficulty of access of these connections. A second disadvantage of this design is logistical: the conversion and interconnection device is a replaceable unit of very small size and low cost but it represents a significant cost in terms of assembly since an adjustment of the distance between end of the optical fiber and the device are needed as well as a centering of the fiber.

The present invention aims to provide a device that avoids these disadvantages. It provides an electrical interface between an electrical connector and an optical fiber, therefore insensitive to dust, the device can be easily replaceable because of its plug-in nature.

To obtain this result, the invention provides an electro-optical conversion gun fixed immovably to an end of an optical fiber, the barrel having electrical contacts, characterized in that it is shaped to plug into the optical part of a mixed connector for optical and electrical connection so as to present its electrical contacts according to the same scheduling as the electrical contacts of the electrical part of the connector. The invention will be better understood and other advantages will appear on reading the detailed description of an embodiment given by way of example, a description illustrated by the attached drawing in which:

FIG. 1 represents an electronic equipment box and a chassis basket base connector; - Figure 2 shows, in sectional view, a gun according to the invention;

- Figure 3 shows, in sectional view, an electronic equipment box plugged into a connector in which is anchored a gun according to the invention.

For the sake of simplicity, the same elements will bear the same references in the different figures.

Figure 1 shows, in perspective view, a housing 1 of electronic equipment may contain printed circuit boards not shown in the figure. The housing 1 is of parallelepipedal shape, it has an opening 2 located on one of its faces and a connector 3 mounted in the opening 2.

The housing 1 is intended to be plugged into a frame not shown in the figure. The chassis comprises a backplane connector 4 in which the perfectly complementary connector 3 of connector 4 fits together. Connector 3 has only electrical contacts which are through, ie they connect the inside and the outside. outside the enclosure 1. Chassis and enclosure may be subjected to severe mechanical or thermal environments. The connectors must also withstand the same environments. There are recognized standards that ensure that standard connectors are suitable for such environments. Chassis manufacturers rely on these standards to ensure that the connectors that equip their chassis support difficult conditions of use such as those encountered when placing a box in a restricted access area. The term standard connector is a connector that meets the stringency standards for severe environments required by chassis manufacturers. On connector 4, a conversion barrel 10 according to the invention is anchored. The barrel extends an optical fiber January 1 to which it is fixed irremovably.

FIG. 2 represents a conversion gun 10 according to the invention extended by an optical fiber 11. The barrel has the shape of a cylinder, the dimensions of the cylinder are for example a diameter of the order of 3 millimeters and a length (height) of 2 centimeters.

The barrel 10 has electrical contacts 13 on a first section. The optical fiber 11 is inserted into the barrel by a second section. The optical fiber 11 serves as a conductive guide for an optical signal of wavelength λ. The optical fiber is of the multi-mode type, for example having a core whose diameter measures 62.5 micrometers, or the optical fiber is of the single-mode type and in this case comprises a core of diameter equal for example to 9 micrometers. The barrel also includes:

a substrate serving to support electronic components; a lens for shaping an optical signal, the lens being shaped to operate at the wavelength λ but which can also be achromatic. The substrate is placed inside the cylinder formed by the barrel, it consisting for example of an epoxy plate on which are placed electronic components connected to each other by electrically conductive tracks drawn on the substrate. The electrical contacts are in contact with the tracks of the substrate. At least two of the electrical contacts provide electrical power to the electrical components of the barrel, to the components, for example in the form of a reference voltage or current and a mass.

If the barrel has an electro-optical conversion function, it receives an electrical signal on electrical contacts and produces an optical signal on the optical fiber. In this case, the barrel comprises an optical signal transmission device. The electrical signal received by the gun attacks a modulator. The modulated electrical signal produced by the modulator is used to modulate the optical signal produced by the optical signal transmitting device. The emission device is for example a light emitting diode or a laser diode. The optical signal produced by the transmitting device is spatially shaped by the lens to be coupled to the optical fiber. The power of the optical signal emitted by the transmission device is for example a milli-Watt. The caloric power dissipated by all the components in operation is equal for example to ten milli-Watt, it is evacuated into the body of the barrel by means of thermal drains.

If the barrel has a photo-electronic conversion function, it receives an optical signal through the optical fiber and produces an electrical signal on electrical contacts. In this case, the barrel comprises a detection device sensitive to the optical signal. The received optical signal is focused by the lens on a photo-sensitive surface of the detection device. The detection device is for example a PIN photodiode or an avalanche photodiode, it produces, in response, an electrical signal. The electrical signal drives a demodulator that produces a demodulated electrical signal. The demodulated electrical signal is transmitted to electrical contacts of the barrel. The power of the optical signal received by the detection device is for example a milli-Watt. The caloric power dissipated by all the components in operation is equal for example to ten milli-Watt, it is discharged into the body of the barrel by means of thermal drains.

Figure 3 shows in sectional view, a housing 1 of electronic equipment plugged into a frame not shown in the figure. A housing bottom connector 3 having through-contacts connecting the inside and outside of the housing 1 and having inner ends and outer ends.

Advantageously, the connector 3 is a bottom housing connector corresponding to a specification belonging to the following list: ARINC 600, MIL 83 527, ARINC 404A.

The connector 3 is perfectly fitted in a connector 4 of the chassis backplane. A conversion gun 10 is anchored in the backplane connector 4. Electrical contacts 11 of the barrel are in electrical contacts with outer ends of the housing 1. Advantageously, the barrel 10 is shaped to anchor on a chassis backplane connector corresponding to a specification belonging to the following list: ARINC 600 , MIL 83 527, ARINC 404A.

In this way, the housing 1 communicates with elements distributed out of the housing, via an optical link. The interface this optical link is electric, which is advantageous in terms of robustness and ease of handling and replacement.

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Claims

An electro-optical conversion barrel (10) fixedly secured to one end of an optical fiber (11), the barrel (10) having electrical contacts (13), characterized in that it is configured to plugging into the optical part of a connector (4) mixed for optical and electrical connection so as to present its electrical contacts (13) in the same ordering as electrical contacts of the electrical part of a connector (3) perfectly complementary to the connector (4).

2. Canon (10) according to claim 1 characterized in that it receives an optical signal by the optical fiber (11) and produces an electrical signal on the electrical contacts (13).

3. Canon (10) according to claim 1 characterized in that it receives an electrical signal on the electrical contacts (13) and produces an optical signal on the optical fiber (1 1).

4. Canon (10) according to claim 2 characterized in that it comprises a detection device sensitive to the optical signal.

5. Canon (10) according to claim 4 characterized in that the detection device is of PIN photodiode type.

6. Canon (10) according to claim 4 characterized in that the detection device is of avalanche photodiode type.

7. Canon (10) according to claim 3 characterized in that it comprises an optical signal transmission device.

8. Canon (10) according to claim 7 characterized in that the emission device is of the electroluminescent diode type.

9. Canon (10) according to claim 7 characterized in that the emission device is of the laser diode type.

10. Canon (10) according to one of the preceding claims characterized in that the connector is a connector (3) bottom housing to a specification belonging to the following list: ARINC 600, MIL 83 527, ARINC 404A.

11. Canon (10) according to one of the preceding claims characterized in that it is shaped to anchor on a connector (4) of chassis backplane to a specification belonging to the following list: ARINC 600, MIL 83 527, ARINC 404A.

12. Canon (10) according to one of the preceding claims characterized in that the electrical contacts (13) provide power to the barrel.