DE3522130C2 - - Google Patents

Description

The invention relates to digital transmission stretch using optical fibers according to the preamble of claim 1.

Such digital transmission links using light waves conductors are the line equipment LA 140 GF from Weitver sweeping technology known (e.g. Telcom Report 7, 1984, No. 6, Pages 338-351).

In the known digital transmission link Optical fibers become the serial data stream of the user channels with 5 bit / 6 bit coding via a data and Clock input fed to a series / parallel register, the it generates 5 bit words and thus the 5 bit addresses of a memory queries. 6 bit Words queried, fed to a parallel series converter and delivered as a serial data stream at the output. Night egg lig here is that z. B. for a speech connection of the Be service personnel no additional channel to the user channel available is.

The invention is therefore based on the object digital transmission path of the generic type there going to improve that without any additional mash contains an additional channel to the user channel, d. H. offers an additional transmission path.

The solution to this problem arises from the mark the features of claim 1. The additional channel encoder and additional channel decoders in the line terminals the process-related recoding of the 5 bit / 6 bit sig channels of the useful channel. The additional ka thus created nal can z. B. for a voice connection of the operator be used. It is off on every line terminal tangible.  

The additional channel according to the invention is based on the fact that the 2 ⁵ = 32 different 5-bit words of the 5-bit / 6-bit coding are offset by more than the 6-bit words required. One of the possible 5 bit words at the input of the 5 bit / 6 bit encoder is assigned two different 6 bit words at the output, one of which is not required for normal 5 bit / 6 bit coding. Which of the two words is actually used depends on the binary state of the digital signal to be transmitted via the additional channel.

The circuit implementation of the useful channel follows by passing the 6 bit words through the decoder be watched over. Occurs the special 5 bit word that the two different 6 bit words are assigned, so through the output of the decoder, a switchover control stimulates. Depending on the binary state of the additional channel Input switches the switch control to the memory Switch command from or not. In the first case, the Store the one agreed 6 bit word in the second Case the other. Embedded in the 6 bit user channel at the end memory is therefore a sequence of two 6 bit words, which represent the binary content of the signal at the input ren.

The application of this digital transmission link with in the additional channel embedded is in particular then makes sense if the user data scrambles at the entrance are. Then, on the statistical average, the 32nd word is on Output of the serial parallel converter to the additional channel bil ending 5 bit word.

It is a process for integration from DE-OS 31 06 269 a service route in fiber optic transmission str known. Neither does the registration become green de lying problem on, are still the invention Solvent present.

Further advantageous embodiments of the invention result itself from the subclaims.

The invention is based on an exemplary embodiment of a digital transmission link using light waveguides explained in more detail. It shows

Fig. 1 is a schematic representation of the digital Übertra transmission link in the direction and counter direction with line terminating equipment and a plurality of intermediate repeaters between these arranged,

Fig. 2 shows the circuit diagram of an additional channel encoder for assignment to a line terminal and / or an intermediate regenerator in a transmission link according to Fig. 1 and

Fig. 3 shows the circuit diagram of a supplemental channel decoder for proper to a line terminal and / or an intermediate regenerator in a transmission path of FIG. 1.

The digital transmission link 10 shown in FIG. 1 essentially consists of a line terminal 11 at the beginning of the route, a line terminal 12 at the end of the route and a transmission line 14 provided between the line terminals 11, 12 . An optical fiber or glass fiber cable is used as the transmission line 14 . Depending on the length of the transmission path 10 , a plurality of intermediate regenerators 13 are assigned to the transmission line 14 . In parallel to the transmission line 14 , an additional channel 17 and telemetry channel 40 are provided, to which a monitoring 15 is assigned in the areas of the intermediate regenerators 13 .

If errors occur in the course of the transmission path 10 , for example a high bit error rate, ie <10 ^-3 bits, or mechanical breakage of the glass fibers serving as the transmission medium, the next following monitoring 15 automatically becomes the monitoring starter. To monitor the transmission link 10 , the line terminal 11 is assigned a telemetry channel modulator at the beginning of the route, which is connected to a telemetry channel demodulator in the first intermediate regenerator 13 .

To transmit the additional channel 17 , the line terminal 11 is assigned an additional channel encoder 18 at the beginning of the route, which is connected to an additional channel decoder 19 in the first intermediate regenerator 13 . This additional channel decoder 19 in turn is provided in the course of the additional channel 17 with a fault location monitoring 15 and connected to egg nem additional channel encoder 18 in the same intermediate regenerator 13 . The data to be transmitted in the direction 20 who each passed the additional channel encoder 18 until they have arrived in the additional channel decoder 19 of the line terminal 12 at the end of the route. The additional channel 17 can be gripped in any direction on the monitoring devices 15 . The same circuit is also provided for the opposite direction (arrow 21 ).

In the additional channel encoder 18 shown in FIG. 2, the incoming clock pulses T _E and data pulses D _{E are} first input to a series parallel converter 25 and from there to a memory 22 via the input side 23 . Between the series-parallel converter 25 and the memory 22 , the incoming 5 bit pulses are tapped and fed to a comparator 27 . At the same time those who picked up the clock input pulses and a bit clock BT = 139.264 MHz over a _^1/5 frequency divider 28 and a phase detector 30 to a second, ausgangssei term serial-parallel converter 26 added. This is just if connected to the memory output side 24 of the memory 22 . A coding input 33 coming from the comparator 27 or from the additional channel 17 is also connected to the memory 22 .

The phase detector 30 is on the _^1/5 frequency divider 28 the opposite side with a _^1/6 frequency divider 29 is connected as well as a filter 31, to which an Os zillator 32 connects. From this the clock pulse with a frequency of BT = 167 116.8 KHz starts. In this way, the 5-bit words supplied to the memory 22 are converted into 6-bit words and are further transmitted by the output-series parallel converter 26 as data output pulses D _A. The clock output pulses T _A coming from the oscillator 32 run in parallel.

In the additional channel decoder 19 shown in FIG. 3, the incoming 6-bit word pulses 34 are fed to a 6-bit shift register 35 and passed on to a first comparator 36 and a second comparator 37 arranged in parallel therewith for checking. The additional channel 17 can be read via a flip-flop 39 and a clock recovery 38 and the information applied to it can be understood. In parallel, the transmitted data F ₁ and F ₂ reach the 6-bit decoder 19 of the transmission path.

• Reference symbol list
  10 transmission path
  11 input line terminal
  12 Output line terminal
  13 intermediate generator
  14 optical fibers
  15 Fault location monitoring
  16 monitoring starters
  17 additional channel
  18 additional channel encoder
  19 additional channel decoder
  20 direction
  21 opposite direction
  22 memories
  23 Memory input page
  24 memory output side
  25 1. Series parallel converter
  26 2. Series parallel converter
  27 comparator
  28 _^1/5 frequency divider
  29 _^1/6 frequency divider
  30 phase detector
  31 harmonic filters
  32 oscillator
  33 coding input
  34 word impulse
  35 6 bit shift register
  36 1st comparator
  37 2. Comparator
  38 Clock recovery
  39 flip-flop
  40 telemetry channel.

Claims (4)

1.Digital transmission path by means of optical fibers, with a line terminal at the beginning of the route and with a line terminal at the end of the route and with a user channel routed via the fiber with 5 bit / 6 bit coding, characterized in that in the user channel one on the code redundancy the 5-bit / 6-bit coding additional channel 17 is embedded and that the line terminal 11 at the beginning of the route a 5-bit / 6-bit encoder with additional channel encoder 18 and the line terminal 12 at the end of the route a 6-bit / 5-bit Decoders with additional channel decoders 19 are assigned. 2. Digital transmission path according to claim 1, wherein intermediate regenerators are arranged at certain intervals between the line terminals, characterized in that each intermediate regenerator 13 for each transmission direction 20, 21, an additional channel decoder 19 and an additional channel encoder 18 are assigned. 3. Transmission link according to claim 2, characterized in that between the additional channel decoders 19 and the set channel encoders 18 of the intermediate regenerators 13 , a monitoring 15 is arranged. 4. Digital transmission path according to one of claims 1 to 3, characterized in that the line terminals 11, 12 and the intermediate regenerators 13 in pairs with additional channel encoders 18 and additional channel decoders 19 for data transmission in the direction 20 and opposite direction 21 are hen.