DE3221943A1 - Method for optical time division multiplex transmission via an optical waveguide of a switching system, in particular a telephone switching system - Google Patents

Abstract

Method for optical time division multiplex transmission via an optical waveguide of a switching system. Between system devices capable of transmission and/or reception which are connected to the optical waveguide, transmission of control signals, which set such light systems, and of subscriber information is provided. In the pulse frame defined by frame identification signals, a first block of time slots serves to transmit the control signals and a second block of time slots serves to transmit the subscriber information. Each transmission-capable system device contains a counter or clock in order to allocate a transmission time slot to the transmission-capable system device concerned. The transmitting system device occupies the system device designated to receive the subscriber information by transmitting the address of this system device in the transmission time slot, where this designated system device is set, e.g. is switched to a different switching state. The frame identification signal (RK1, RK2) contains short light flashes whose intensity is significantly greater than the maximum intensity of the subscriber information and the control signals, the light flash in each case resetting the counter or clock in the system devices to its initial state. <IMAGE>

Description

Method for an optical time division multiplex transmission

Via an optical fiber of a switching system, in particular a telephone switching system.

(Addition to P 32 il 966.6 = VPA 82 P 1261 DE) The invention is based on the method specified in the preamble of claim 1, which by itself the earlier main patent / main application P 2 11 966.6 is described above. The invention In addition, it also trains those further developments of this process, which already specified in the subclaims of the main patent / main application are. The method according to the invention can therefore also take advantage of these developments of the subject of the main patent / main application and not just the advantages of the The subject matter of the home / main registration itself.

The object of the invention is the frame identification signal by a easily carried out and only a short duration demanding additional measure easy from the sequence of transmitted optical signals or

to be able to recognize. The frame identification signal that can be filtered in this way is permitted the rapid forced synchronization of all connected to the relevant light guide System organs themselves immediately after a temporary power failure or immediately after any other disturbance of this synchronization. The invention is also intended to allow arbitrary codes instead of the HDB3 code for the transmission of the digits formed, with the subscriber information modulated optical signals for low-interference To be able to use recognition of the phone number identification signals. So the invention increases the operational reliability, also through a very simple measure Ness of the process described in the main patent / main application to be further developed here.

This object is achieved by the measures specified in claim 1 solved, so in the end mainly due to the particularly simple use a short, particularly light-intensive flash of light as a frame identification signal that controls the relevant clocks or counters.

The measures specified in the subclaims allow additional measures To achieve advantages, namely the measure according to claim 2, through the use different flashes of light for the first and the second Bloc the duration of the two To be able to choose blocks of different sizes, especially from light flash to To be able to choose different sizes of light flash; 4, a mutilation of the Information that is transmitted in the number channels following the flash of light be to avoid; 4, to couple the flashes of light in a particularly simple way, and 5, the flash of light, i. e.

the frame identification signal, from the sequence of all transmitted to be able to recognize optical signals quickly and reliably.

The invention is explained in more detail with reference to the two figures, wherein Fig. 1 largely corresponds to Fig., ^ Of the main patent / main application and time channels together with the frame identification signal time formed by light flashes, FIG. 2 largely corresponds to Fig. 5 of the wautpatent / main application and an application ispiel with frame identification signal and transmitted in individual time channels optical signals shows.

In Fig. 1 are the particularly high, short-duration frame identification signals RK1 and RK2 are shown with their associated blocks 31 and B2. You have e.g. the three to six times the amplitude of the other transmitted optical signals, cf. Fig. 2. The duration of these flashes of light RK1, RK2 is, for example, only 7ns.

According to the invention, the frame identification signal is thus provided by such a short flash of light is formed, which is clearly darker than the maximum light intensity of the optical signals modulated with information. These particularly bright Because of their high amplitude, flashes of light are light as such within the whole of the signals recognizable and filterable. Because of this easy recognizability, now harmless if the light stiffness during the duration of the transmission of information is always zero - e.g. because there is currently information about the upcoming time channels be transmitted.

So the frame identification signals formed by flashes of light are very easily recognizable even in the event of disturbances during the transmission of the signals, even if no HDB3 code is used. The invention thus increases the reliability of operation by a particularly simple means.

Figs. 1 and 2 show examples in which the flashes of light two have different amplitudes, see the amplitudes of RK1 and RK2. To this Way, for the first block B1, a light flash of one amplitude RK1 and for the second block B2 a light flash of the other amplitude RK2 can be used. In this way the various blocks are reliable through frame identification signals controllable if the durations of each Blocks are different, e.g. differ from block to block, e.g. depending on the number of channels of the first block B1, which is currently occupied for the transmission of the control commands TSxy are.

In principle, however, it is also possible to identify the first and second blocks by means of differently designed frame identification signals - light flashes - to draw. Even if the frame identification signals are formed by particularly bright, short flashes of light of identical magnitude, the flashes of light for the first block can be formed differently than the flashes of light for the second block - e.g. in the frame identification sina introducing the first block by a single such flash of light RK1 and the frame identification signal introducing the second block can be formed by two closely successive flashes of this type.

In this case, the assignment of the frame identification signals is recognized on the one hand or the other block not the amplitude of the flashes of light, but theirs Number evaluated.

Incidentally, you can evaluate it at the entrance of the light receiver, for example of the receiving system organ attach a threshold value circuit that reacts to flashes of light RK1, RK2, but not to the optical signals modulated with information signals TSxy, ISxy responds. The frame identification signal recognized in this way can be passed through the threshold value circuit separated from the other signals and as one that forces the synchronization Control command e.g.

be fed to a counter or a clock.

The flash of light can easily be attached to a specially designed one Lasers are generated and coupled into the respective light guide.

In some switching systems, e.g. to the T5 applications to enable a longer pause of e.g. 400ns to the frame identification signal if not e.g. 500ms, up to the first time channel of the following block.

Within the first part of this pause p of e.g.

400ns, however, special control signals, e.g. measured values for the respective Crosstalk attenuation are transmitted between adjacent optical fibers. Because that Receiving element, e.g. the diode in the light receiver, initially mostly from the light flash is completely overdriven, before the transmission of the signals ISxy / TSy / measured values a short break ep of e.g. at least 5ns can be inserted in which the override is reduced.

5 claims 2 figures

Claims (5)

Claims. Method for an optical time division multiplex transmission over a Optical fiber of a switching system, in particular a telephone switching system, wherein - a plurality of send and / or receive system organs on the light guide is connected, between these system organs a transfer --- of system organs adjusting control signals and --- of subscriber information, which via the set system organs are forwarded to participants, is provided, and - in the pulse frame defined by frame identification signals --- a first block of closely spaced time slots for the transmission of the control signals and --- Another, second block of closely spaced time slots for Serve transmission of the subscriber information, - each connected to the light guide broadcast system organ contains a counter or a clock, according to the Number or duration of time slots between the beginning of the first block up to a transmission time slot of this first block this transmission time slot of the relevant transmission sen: to assign the capable system organ and thus to determine for the transfer, the respective sending system organ at the beginning of its transmission of control signals the system organ intended to receive the subscriber information by sending it out the address of this particular system organ in the transmission time slot and / or in a Group of further control time slots of the first block occupied, as well as - this certain system organ by means of this address and / or by means of likewise in the end time slot and / or particular ones transmitted in the control time slots Control signals set, e.g. controlled to a different switching state, is, according to patent / patent application P 32 11 96., d u r c h e k e n n n e i c h n e t that - the frame identification signal (RK1, RK2) each contains a short flash of light that is clearly, e.g. five times, more light than the maximum light intensity of the participant information and the control signals in the first and second block (B1, B2) and - the light flash (RZ (, RK2) respectively the counter or the clock in the system organs connected to the light guide resets to the initial state. 2. The method according to claim 1, d a d u r c h g e k e n n z e i c h n e t that - the light flash (RK1) assigned to the first block (B1) is a has a different amplitude than the light flash assigned to the second block (B2) (RK2). 3. The method according to claim 1 or 2, d a d u r c h g e k e n nz e i c h n e t that - the flash of light is immediately followed by a break (ep), in that a transmission of control signals and / or subscriber information take place, follows. 4. The method according to claim 1, 2 or 3, d a d u r c h g e k It is noted that - the flash of light is generated by a special laser and is coupled into the relevant light guide. 5. The input of the light-controlled one connected to the light guide Receiver of a system organ for a method according to one of the claims 1 to L d a d u r c h g e k e n n n z e i c h n e t that - the entrance of the receiver contains a threshold value circuit that responds to the flash of light (RK1, RK2) but does not respond to the subscriber information and control commands and thus forwards the flash of light as a clock signal.