FR2524230A1 - Information transmission system for optical fibre link - uses generator to modulate information signal with service signals, and low pass filter to maintain constant output of laser diode - Google Patents

Abstract

Binary information (Ip) and service (Ivs) signals are applied to their respective modulators (17,15). The modulated service signal is applied to a low frequency generator (16) and its output is passed to the modulator for the information signal. The modulator output drives a current generator (18) supplying a laser diode (11) whose output is transmitted along an optical fibre (2) to a receiver. Part of the laser output is transmitted along another optical fibre (13) to a photodiode (12). A low pass filter (20) provides a low frequency signal whose amplitude is compared (21) with a reference. The comparator output drives a second current generator (22) which supplies a threshold current for the laser to maintain a constant low frequency signal.

Description

SYSTEM FOR TRANSMITTING INFORMATION ON
A FIBER OPTIC TYPE SERVICE TRACK
The present invention relates generally to the field of information transmission over optical fiber and relates more particularly to a system for transmitting information on a service channel simultaneously with main information.

 The term “service channel” or “order channel” is understood to mean a propagation medium of the optical fiber type intended for transmitting a certain number of ancillary signals such as remote monitoring signals from repeaters and regenerators spanning the length of the transmission line.

 Different techniques are known for transmitting additional information at the same time as the main information. In the field of transmission over optical fiber, one of them consists in transmitting on the one hand the main information on a transmission channel of the optical fiber type, and on the other hand the additional information on a service channel constituted by an annex channel of the coaxial type. However, it is desirable to transmit the additional information on the same transmission medium as the main information. In this case, it is necessary that the transmission of information on the service channel does not disturb the characteristics of the main information transmitted.

 On the other hand, the transmitter used in the transmission of main information, in particular at high speed, on optical fiber comprises a transmitting base consisting of a laser diode, a control photodiode and a laser coupling optic. -fiber inserted in a connector plug for the connection of said base to the fiber optic cable, and an electronic control device intended to regulate or stabilize the optical power emitted by the laser diode.

 Various device structures are known for stabilizing the optical power emitted by a laser diode. One of them uses a low frequency signal, for example of the order of 10 KHz, and of constant amplitude, for example of the order of 1% of the amplitude of the information, oscillating around the polarization point of the laser diode chosen on the transfer characteristic of said diode (output power as a function of current) as being the point for which the polarization current takes a so-called threshold value to which the minimum optical power of the laser diode. This low frequency signal modulates the low level of the main information to be transmitted, the latter being intended to be transmitted in the optical fiber at the maximum optical power of the laser diode. By maintaining constant the maximum power of the laser diode, signal regulation low frequency stabilizes the polarization of said diode at its minimum optical power, and therefore stabilizes the amplitude of the optical power emitted by the laser diode.

 The present invention relates to a system for transmitting information on a service channel simultaneously with main information, and this on the same optical fiber and without disturbing the main information. This transmission system is of a simple structure and implements a low frequency signal of constant amplitude fulfilling, in addition to its known function of stabilizing the polarization of a laser diode at its minimum optical power and stabilizing the amplitude modulating the transmitted optical power, a second function consisting in representing the information to be transmitted on the service channel, so that this low frequency signal now used for transmission as for reception conveys the additional information.

More specifically, the subject of the invention is - a system for transmitting information over a service channel constituted by an optical fiber, comprising:
- a transmitter of information in the form of light radiation in the optical fiber, comprising a laser diode, the polarization of which is stabilized at an optical power determined by means of a low frequency signal of constant amplitude;
- a receiver of light radiation after propagation in the fiber; characterized in that the low frequency signal represents the information to be transmitted on the service channel, and in that the receiver comprises a photodetector detecting the low frequency signal transmitted and first means for restoring the information represented by the detected low frequency signal.

 According to another characteristic of the invention, the service channel associated with a main information transmission channel consists of the same optical fiber, and the determined optical power is equal to the minimum optical power known as the threshold of the laser diode , the low frequency signal of constant amplitude thus stabilizing the polarization of the laser diode at its minimum optical power.

Other characteristics and advantages of the invention will appear better in the detailed description which follows and refers to the appended drawings, given only by way of example and in which:
- Figure 1 shows the transfer characteristic of a laser diode whose optical output power is stabilized by means of a low frequency signal;
- Figure 2 shows a global diagram of the main information transmission system associated with additional information according to the invention;
- Figure 3 shows the diagram of an embodiment of the transmitter used in the system according to the invention;
- Figure 4 shows the signal at the output of the transmitter of Figure 3; and
- Figure 5 shows the diagram of an embodiment of the receiver used in the system according to the invention.

 In these different figures, the same references relate to the same elements.

 FIG. 1 represents the known transfer characteristic of a laser diode, that is to say the curve giving the output power P of the laser diode as a function of the current I of this diode.

 As is known, in the presence of main information to be transmitted, the current of the laser diode results from the superposition of its direct bias current and its modulation current, so that the amplitude of the light signals transmitted in a fiber optical depends on the optical power emitted by the laser diode.

 As it appears in FIG. 1, the point of polarization of the laser diode is chosen at the level of the bend C of its transfer characteristic, the slope of which is determined by the ratio QP / QI.

 As is also known, at the bend C of the transfer characteristic, the bias current of the laser diode takes on a so-called threshold value 1 threshold to which the minimum optical power P min corresponds.

The modulation current of the laser diode, represented as a function of time in FIG. 1, is constituted by the main information Ip to be transmitted, for example binary, whose states 1 all take the same value of the current corresponding to the maximum optical power Pmax '
In order to stabilize the polarization of the laser diode at its minimum optical power, and to stabilize the modulation amplitude of the optical power emitted by the laser diode, it is known to use a low frequency signal represented in IBF on the Figure 1, frequency for example of the order of 10 KHz and constant amplitude, for example of the order of 1% of the amplitude of the binary information Ip. This low frequency signal IBF oscillates constantly around the point of polarization C of the laser diode, and modulates the low level of the binary information Ip, that is to say the states 0 of this information. Thus, this low frequency modulation signal IBF can be considered as a reference signal whose regulation allows on the one hand to correctly polarize the laser diode at its minimum optical power, and on the other hand to keep the modulation amplitude constant of the optical power emitted by the laser diode.

 In the diagram of FIG. 2, there is shown at 2 a fiber optic transmission line intended to transmit main information simultaneously with ancillary information such as remote monitoring signals from the repeaters and regenerator staggered along the transmission line . For the main information, the optical fiber 2 constitutes what is called a transmission channel, and this same optical fiber constitutes what is called a service channel or order channel for the transmission of the additional information.

 The two ends of the optical fiber 2 are optically coupled to respectively transmitter 1 and receiver 3 boxes of the transmission system according to the invention.

 FIG. 3 schematically represents a preferred embodiment of the transmitter, in accordance with the invention, used for the transmission of main information Ip, for example binary, simultaneously with additional information lvs, for example binary, the latter constituting the information to be transmitted on the service road.

 This transmitter comprises a transmitting base 10 produced in the form of a box in which are arranged the laser diode 11 supplied with + V and the emitted optical power of which is injected into the fiber 2, means for taking part of the power optical emitted by the laser diode and conversion into electrical power constituted for example by a photodiode 12 supplied with + V and a fiber 13 optically coupled between the laser diode II and the photodiode 12.

 For the transmission of lys binary information on the service channel simultaneously with the main binary information Ip, the transmitter also includes a frequency modulator 15, of conventional structure, intended to correspond respectively to states 0 and 1 of the IVS information to transmit on the service channel, two different low frequencies. Thus, a frequency f1, for example of the order of 20 KHz, corresponds to states 1 of the IVS information, and a frequency f2, for example of the order of 30 KHz, corresponds to the states 0 of this information.

 It will be noted that the binary information to be transmitted on the service channel could be replaced by digital information with more than two different states, such as for example ternary or quaternary information, to which one would assign more than two distinct frequencies, without going outside the framework of the invention.

As it appears in FIG. 3, the modulator 15 is followed by a low frequency generator 16, of conventional structure, delivering at output a low frequency signal IBF representative of states 1 and O of binary information IVs at the two frequencies f1 and f
The generator 16 is followed by a modulator 17, of conventional structure, receiving the main binary information in whose states 1 all have the same amplitude, and in which the low frequency signal IBF modulates the low level of the main information Ip, c ' that is to say the states 0 of this information. The signal delivered by the modulator 17 is presented to a current generator 18, of conventional structure, connected to the laser diode 11, and delivering the modulation current of said laser diode.

 As can be clearly seen in FIG. 3, the transmitter further comprises a servo control loop intended to stabilize the polarization of the laser diode 11 at its minimum optical power called the threshold, this loop being connected between the photodiode 12 and the laser diode 11. By keeping the maximum power of said laser diode constant, this loop therefore makes it possible to stabilize the amplitude of modulation of the optical power emitted by the laser diode.

 More specifically, this control loop comprises a low-pass filter 20, of conventional structure, supplying the low frequency signal IBF whose amplitude is compared in a level comparator 21, of conventional structure, to a reference substantially equal to the slope of the transfer characteristic of the laser diode chosen at the level of the elbow C (FIG. 1) corresponding to the threshold current 1 threshold and to the minimum power P min of the laser diode. Thus, the comparator 21 delivers the low frequency signal IBF whose amplitude is kept constant.

 The comparator 21 is followed by a current generator 22, of conventional structure, delivering the bias current of the laser diode li corresponding to the threshold current Iseuil for which the laser diode is correctly biased. Under these conditions, the polarization of the laser diode 1 1 is stabilized at its minimum optical power Pmin, and therefore the modulation amplitude of the optical power is stabilized between the maximum power Pmax and the minimum power. min of the laser diode.

Thus, according to an essential characteristic of the invention, the low frequency signal IBF modulating the low level of the main information lp fulfills a double function, namely:
a stabilization of the polarization of the laser diode at its minimum optical power, and a stabilization of the amplitude of modulation of the optical power;
- a representation of the information to be transmitted on the service channel, for its simultaneous transmission with the main information on the same transmission medium.

 FIG. 4 represents, as a function of time, the signal emitted by the laser diode 11 of FIG. 3. This signal consists of the main binary information whose low level is modulated by the low frequency signal IBF of constant amplitude. This if general IBF consists of a signal IBF1 of frequencies corresponding to the states 1 of the information to be transmitted on the service channel, and of a signal 113F2 of frequency corresponding to the states 0 of this information.

 It will be noted that the low frequency signal modulating the low level of the optical power of the laser diode makes it possible to transmit the additional information even in the absence of the main information.

 FIG. 5 schematically represents an embodiment of the receiver associated with the transmitter as illustrated in FIG. 3.

 This receiver firstly comprises means 30 for converting the light radiation received after propagation into the optical fiber 2 into an electrical signal. These means 30 consist of a photodetector diode, such as for example an avalanche photodiode or a semiconductor diode PIN type, followed by a low noise amplifier 31. The photodetector diode outputs a signal representing the main binary information associated with the low frequency signal representative of the binary information transmitted on the service channel, as shown in FIG. 4.

 The amplifier 31 is followed by a routing filter 32, of dassic structure, making it possible to separate the main information detected Ip from the detected low frequency signal IBF.

 As it appears in FIG. 5, the receiver further comprises means 34 for restoring the information transmitted on the service channel. These means 34 comprise two filters 35 and 36 making it possible to separate the two frequencies f1 and f2 corresponding respectively to states 1 and 0 of the binary information transmitted on the service channel.

 The two filters 35 and 36 are followed by a signal detector 37, of conventional structure, making it possible to reconstruct the binary information IVs transmitted on the service channel.

 The transmission system according to the invention has been described above with reference to a low frequency signal modulated in frequency for the transmission of information on the service channel. Of course, this low frequency signal can also be modulated in phase or by phase jumps, without departing from the scope of the invention.

 Of course, the invention is in no way limited to the embodiment described and shown and includes all the technical equivalents of the means described as well as their combinations if these are carried out according to the spirit of the invention and implemented in the The scope of the following claims.

Claims (5)

 1. System for transmitting information (they) on a service channel constituted by an optical fiber, comprising:  - a transmitter of information in the form of light radiation in the optical fiber, comprising a laser diode (11), the polarization of which is stabilized at an optical power determined by means of a low frequency signal of constant amplitude  - a receiver of light radiation after propagation in the fiber (2); characterized in that the low frequency signal (IBF) represents the information to be transmitted on the service channel, and in that the receiver comprises a photodetector (30) detecting the low frequency signal transmitted and first means of restitution (34) information represented by the detected low frequency signal.  2. System according to claim 1, characterized in that the determined optical power is equal to the minimum so-called threshold optical power (Pmin) of the laser diode (11), the low frequency signal of constant amplitude (IBF) thus stabilizing the polarization of the laser diode to its minimum optical power.  3. System according to claim 2, for the transmission of information (IVS) on the service channel simultaneously with digital main information (Ip) on a transmission channel sion, characterized in that the service channel and the channel transmission consist of the same optical fiber (2), in that the amplitude of the main information (Ip) intended to be emitted by the laser diode (11) is between the maximum optical power (PmaX) and the optical power minimum (Pmin) of the laser diode, the maximum power being kept constant, in that the low frequency signal (IBF) representing the information to be transmitted on the service channel modulates the low level of the main information (Ip), and in that the receiver comprises second means for restitution (32) of the main information.  4. System according to claim 3, characterized in that the information (ive) to be transmitted on the service channel is digital information coded and frequency modulated so that the respective states of said digital information correspond to respective respective low frequencies , the low frequency signal (IBF) modulating the low level of the main information thus representing the states of the digital information at said different frequencies, and in that the first restitution means (34) comprise filtering means (35, 36) of each different frequencies, thus making it possible to reconstruct the digital information (Ivs) transmitted on the service channel.  5. System according to one of claims 2 to 4, characterized in that the transmitter comprises means for taking (12) part of the optical power emitted by the laser diode (11) and converting it into electric power , and a circuit intended to stabilize the polarization of the laser diode at its minimum optical power by means of the low frequency signal (IBF), connected between the conversion means and the laser diode, this circuit comprising in series a low-pass filter ( 20), a level comparator (21) for regulating the amplitude of the low frequency signal, and a current generator (22) connected to the laser diode and delivering a threshold current corresponding to the minimum optical power of the laser diode (11).