CH627893A5 - Method and arrangement for adding digital signals to a digital multiplex signal - Google Patents

Description

The object of the invention is to provide a method FIGS. 1 and 2 have been explained in detail in the representation of the state of the art and an arrangement for carrying out the method according to the state of the art, so that at this point the transfer of the inserted digital signals further explanations of these figures dispense with disturbances in the frame synchronism of the received digital can.

Valley multiplex signal makes independent and a propagation The arrangement of FIG. 3 consists of the first of a frame synchro receiving part ETI that occurred at a single point, the first transmitting part STI and the connection disturbance via the connected transmission network 30 fertilize between the two parts for the Digi-prevented transmission. tal multiplex signal D1, the bit clock T1 and the first frame

According to the invention, the object is achieved in that ment clock signal TC. The digital signals to be inserted are fed a second from the bit clock signal, the insertion of the digital signals at the terminals F22 on the transmitting part.

In the first receiving part ETI, the captured frame password is suppressed in a known manner and, irrespective of the 3i bit clock T1, is recovered from the received digital multiplex signal Dl, the intended frame password into the one to be emitted, and also detects and monitors an im Digital multiplex signal is used that the detection circuit contained in the interference receiving part in known free operation, the second frame clock signal by the synchro way the frame password.

nisierimpulse of the first frame clock signal is controlled and the first transmitting part STI has its own clock divider, that in the case of a frame synchronization disturbance in the received- the digital multiplex signal required for synchronization of the multiplexer, the digital multiplex signal received by the first frame clock signal from the bit clock signal T1 received by the receiving part control of the second frame clock signal generated. Such a clock divider is shown in FIG. 5. That is interrupted. The first transmitting part STI outputs a new at its output F1

The main advantage of the method according to the invention lies in the generated digital multiplex signal, which has a new one in that the newly inserted frame identifier has an incorrect frame password and that the inserted digital signals function freely in the intended time segments or time channels, is also always error-free in the direction and therefore contains the code words provided.

equally low effort the propagation of a frame- If the frame synchronism of the received

synchronization error is prevented. digital multiplex signal at connection F21 of the first

An expedient variant of the inventive receiving part ET is that driving from the first receiving part ETI results from the fact that the control of the second generated first frame clock signal TC interferes. In this case, the frame clock signal is suppressed by the first frame clock signal and the one controlled by the frame detection circuit is suppressed as soon as at least three consecutive outputs of the first frame clock signal TC are suppressed. Select

Frame passwords are received incorrectly. When the transmitting part malfunctions, it emits at its output

With regard to the security and simplicity of the 55 Fl ab a digital multiplex signal, the newly inserted fade-in of the digital signals, the further development of the prescribed frame password and that of the interface invention result from the fact that in addition to the frame F22an fed digital signals contains undisturbed. From password also the remaining parts of the sync word of the disturbance, only the digital multiplex signal received in the non-reassigned time segment is suppressed and the information contained therein is affected.

digital multiplex signal to be emitted in the intended 6o. The further development of the arrangement form shown in FIG. 4 can be used again. 3 additionally contains a gate circuit gate, which in the

In the case of widely spaced sources for the digital signal - the connection between naie carrying the first frame clock signal, it is often difficult to separate these sources from a central the second receiving part ET2 and the second transmitting part ST2

Place to synchronize. In this case a variant is inserted. The gate circuit gate is also expedient in the case of a dropout of the method according to the invention for inserting digital delay element t from an output A of the second received signals, in which ET2 is controlled when inserting digital signal part. The output A is connected to a multiplex signal contained in the second signal, which is not completely synchronous to the received digital reception part ET2, to these digital signals, and receives a positive or negative signal when the frame synchro-

627893

a control signal that closes the gate circuit.

The received digital multiplex signal is one with a bit rate of 2048 kbit / s, which is also the bit rate of the digital multiplex signal to be output. The bit rate of the 4 digital signals to be inserted is 64 5 kbits / s, which in the present case should be synchronous with the digital multiplex signal. In addition, the second receiving part ET2 is supplied with the bit clock with a frequency of 2048 kHz and the transmitting part with the bit clock of the digital signals to be inserted of 64 kHz. To simplify the circuit, the transmitter part not only reinserts the frame password in the digital multiplex signal, but also the complete code word “zero”.

2, this code word alternately contains the frame password RKW and the message word MW, which contains the two message bits D and N. Since these 5) D and N signals are signals that characterize the state of individual parts of the transmission path, these signal bits must be transmitted from the second receiving part ET2 to the second transmitting part ST2 via separate lines and newly in the transmitting part into the code word zero be used. To simplify the transmission of these bits, these are converted into permanent signals in the second receiving part ET2.

When examining frame synchronization errors, it has been found that a faulty synchronous state in the majority of cases does not exceed a time of 0.5 ms. For this reason, a time of approximately 1 ms was selected for the drop-out delay by which the gate circuit is opened again after the frame synchronization fault has been eliminated.

The exemplary embodiment according to FIG. 4 is for use 30 in a digital interface in which both the clock signals of the digital multiplex signal and the digital signals to be inserted are also transmitted. For this reason, a clock generation circuit in the receiving section could be dispensed with.

The arrangement according to FIG. 4 also enables the insertion of plesiochronous digital signals into the digital multiplex signal. For this purpose, the digital signals must be adapted to the bit rate of the digital multiplex signal by means of a positive-negative stuffing method, which is described in more detail in a parallel application. In this case, additional stuffing information must be transmitted with a very low 40 bit rate. This stuffing information can advantageously in the

Codeword 16 are transmitted, which is used in accordance with FIG. 2 for the transmission of the mediation characteristics. For this purpose, a stuffing frame is formed as a superframe from 64 frames of the 2048 kbit / s digital multiplex signal. A four-bit code word of the additional information is transmitted in each stuffing frame for each of the 30 transmission channels. The frame identifier of the stuffing frame is transmitted in channel 16 of frames 1,17,33 and 49, so the repetition frequency of the stuffing frame is 125 Hz. The frame identifier of the stuffing frame is contained in the first to fifth and in the eighth bit of code word 16, the sixth and seventh Bits of this code word are provided for alarm messages between the end points of the transmission link.

Compared to the digital multiplex device according to FIG. 4, the digital multiplex device for the insertion of almost synchronous, i.e. plesiochronous digital signals also contains a monitoring circuit for the stuffing box identification, an additional divider which emits a clock frequency of 125 Hz, an additional insertion device for the stuffing box password in the transmitter and a timer for the control of the gate circuit gate, which has a drop-out delay of about 8 ms corresponding to the repetition frequency of the stuffing box of 125 Hz to eliminate stuffing box interference.

FIG. 5 shows the generation of the clock signals required in the transmission parts of the arrangements according to FIGS. 3 and 4. A nine-stage clock divider uses the bit clock with the frequency of 2048 kHz to generate several frequency divisions with the factor 2: 1 the individual clocks required. These clocks represent the basic clocks, which have a duty cycle of 1: 2. For special cases, additional clock cycles with different duty cycles can be easily derived from these basic clock cycles by means of gate circuits in the known manner. If plesiochronous digital signals are inserted, a clock signal with a frequency of 125 Hz is also required. For this reason, an additional five-stage divider is provided for the insertion of plesiochronous signals, which is connected to the output of the nine-stage divider TT and is controlled by its 4 kHz clock signal. The dividers are set via the input TC, to which a signal which is inverse to the first frame clock signal in the case of the nine-stage divider and an inverse to the clock signal of the stuffing frame is fed.

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2 sheets of drawings

Claims (5)

627893 2 PATENT CLAIMS between the receiving section (ET2) and the transmitting section (ST2) 1. A method for inserting at least almost syn- are provided for the transmission of parts of the synchronous-chronic digital signals into a received digital multiplex word of the pulse frame of the received digital multiplex signal, which is one of several multi-bit code words and one na [s serve (Fig. 4). Has a synchronous word with a frame password existing periodic frame structure, in an insertion point of a time division multiplex system, in which the received digital A multiplex system is used to derive a bit clock signal and a first frame clock signal consisting of individual synchronization pulses, characterized in that from the bit clock 10, the invention relates to a method for inserting signal into a received at least almost synchronous digital signal, which controls the insertion of the digital signals. Frame clock signal is generated that the received frame gene digital multiplex signal, which suppresses a multi-bit password (RKW) and independently of this has the code words and a sync word with a frame-provided frame password in the digital password to be output, new in multiplex signal is used that in the interference-free l5 an insertion point of a time division multiplex system, in which a bit clock signal and pulse of the first frame clock signal are controlled by operation of the second frame clock signal by synchronizing the received digital multiplex signal and that in the case of a first consisting of individual synchronization pulses, a frame synchronization disturbance in the received digital frame clock signal is derived and an arrangement for the valley multiplex signal that is carried out by the first frame clock signal and that this method is carried out. Control of the second frame clock signal interrupted 20 When digital multiplex signals are transmitted over a longer transmission distance, there is often a need for 2. The method according to claim 1, characterized in individual intermediate stations from the plurality of transmissions that the control of the second frame clock signal by means of digital multiplex signals containing transmission channels interrupts the first frame clock signal as soon as minimum signals are to be hidden and new signals are to be shown or but at least three consecutive frame passwords (RKW) 25 reserved channels. Fig. 1 shows such an incorrectly received. Digital multiplex device for fading in individual channels 3. The method according to claim 1, characterized gekennzeich- in a digital multiplex signal. The digital multiplexing device, in addition to the frame password (RKW), also receives at its input interface F21 a digital multi-remaining parts (MW) of the synchronous word of the received tiplex signal with the nominal bit rate of 2048 kbit / s, to the wide digital -Multiplexed signal suppressed and in the 30 input input F22an to be delivered it receives several digital signals originating from digital multiplex signal in the intended form newly entered telephone channels, which are each set. N nominal bit rate of 64 kbit / s. The 64 kbit / s signals are 4. The method according to claims 1 to 3, characterized in that n free transmission channels in the digital multiplex signal are characterized in such a way that when digital signals are inserted, a new digital signal is produced which is also not completely synchronized with the received digital multi 35 has a nominal bit rate of 2048 kbit / s and at which the out-signal is a positive / negative output interface Fl ab is emitted onto these digital signals. The digital multiplex stuffing method is used and that the additional signal has a periodic frame structure, the stuffing information is transmitted in a code word of the frame that is not fully used for signal transmission — several multi-bit code words for signals to be transmitted and for the transmission. ejn synchronous word corresponding to several transmission channels 5. The method according to claim 4, characterized gekennzeich- len 40 and has a synchronization channel. Such a net that for the transmission of the stuffing information that for the identification frame structure is shown in FIG. 2. Character transmission provided code word (KZU) with used. Fig. 2 shows the pulse frame of a 2048 kbit / s is used. Signals with a frame period of 124 n, s, as in 6. Order to carry out the procedure according to CCITT recommendation G. 732. The framework of claim 1, characterized in that a receiver (ETI) connected to the 45 consists of 32 channels, each of which can have an 8-bit codeword receiving signal input (F21an). Of these channels, 30 can be seen that are to be transmitted, which contains a clock derivation, and the received 30 are assigned to source channels, which can be, for example, digital multiplex signal (D1), the bit clock signal (T1) and the frame can be telephone channels. The source channels are ment clock signal (TC) of the received digital multiplex signal divided into two groups, the first group CF1-15, each separately at its outputs to a downstream 50, holds channels 1 to 15 and the second group CF 17-31 Transmitting part (STI) outputs that the receiving part has a monitoring channel 17 to 31. In the first transmission channel 0, as a synchronization device for the frame clock signal, it contains that this chronword alternately either the frame identifier monitoring device the output of the receiving part word RKW or the reporting word MW transferred. Frame (ET1) for the frame clock signal (TC) controls that the transmitting part password and message word MW have the structure shown in the figure via separate inputs for the digital multiplex signal (D1), 55 structure, the bits D and N are used for this Remote signaling the bit clock signal (T1), the frame clock signal (TC) and via alarms, while the bits marked with X and Y have gears (F22an) for the digital signals to be inserted and service bits for the national and international that the transmission part (STI) a device for generating a use are provided. In the still free transmission further frame clock signal from the recorded bit clock channel 16, which is designated KZU in FIG. 2, the signal (TI) and a multiplexing device are contained (FIG. 3). 60 transmission-related license plate information 7. Arrangement according to claim 6, characterized thereby. records that the connection between the output of the Receiving part (ET2) for the generated frame clock signal (TC) also act in such a way that data signals are transmitted and the downstream input of the transmitting part (ST2) becomes a gene. In this case, it is possible to insert in the individual gate circuit (gate), which link (64) each a 64 kbit / s digital signal via a delay 65 transmission channels through the device transmitted in the receiving part (ET2). This option is also to be used in the present case for monitoring the pulse frame of the digital multiplex. It is sufficient if signals are controlled and that further connections (D, N) the 64 kbit / s signals at least almost synchronously, ie pie 3,627,893 siochronous to the digital multiplex signal. In the case of the non-tiv stuffing method and in which the additional full synchronism is carried out, the Bitra stuffing information is adapted in a way that is not completely for signal transmission by means of a stuffing method that is transmitted in the Swiss code word used. With regard to Patent No. 620 804 is dealt with. the utilization of the frame words At the output-side interface Fl ab, the digital transmission channels 5 may be expedient to send a digital multiplex signal to the multiplexing device with the transmission of the stuffing information, which Bit rate from 2048 kBit / s onwards, to use the code word provided only in the newly assigned time transmission. sections, that is, in the newly assigned transmission channels, particularly expedient arrangements for carrying out the above-described method at the receiving-side interface are distinguished in the patentees of digital multiplex signals. 10 Proverbs 6 and 7 defined. When inserting digital signals into a digital multi-based on the execution tiplex signal shown in the drawing in the manner described above, the examples will be explained in more detail below. Difficulty arises that when the frame is disturbed, it becomes synchronized. Show: nism of the received digital multiplex signal also a Fig. 1 a digital multiplex device according to the prior art Digital multiplex signal with a disturbed pulse frame in accordance with the technology for inserting digital signals, will give. As a result, the frame interference from the one Fig. 2 the pulse frame of a digital multiplex signal after Section of the transmission route in the following routes - the CCITT. Recommendation G. 732, 3 sections, so that not only the transmission of FIG. 3 an arrangement according to the invention for inserting original digital multiplex signal, but also that of digital signals in a digital multiplex signal, inserted digital signals is prevented. Especially 20 Fig. 4 the arrangement according to FIG. 3, with the insertion of the overall-serious, this is for larger transmission links, in th synchronous word and for which a plurality of digital multiplex devices for signaling FIG. 5 the generation of the transmission-side clock signals in the transmission branch are connected in chain. part of the arrangement according to FIG. 4