DE1462572C3 - Circuit for converting cell multiplex signals - Google Patents

Description

The invention relates to a device for converting time division multiplex signals. One Such a conversion is for example in the coupling or the separation of time division multiplex signals necessary. This problem is of particular importance in a communications network using pulse code modulation (PCM) is working. The following requirements may arise, especially in the case of such a communications network appear:

1. A multiplication may be necessary, which should consist in the fact that several PCM signals, which have a slow repetition speed or a low degree of multiplication and are not always synchronized with each other by common clock pulses (clock-pulses) controlled, subjected to a time multiplication, coupled and in PCM signals with high repetition speed and high degree of multiplication are to be converted.

2. It may be necessary to separate this multiplication, including the reverse conversion the above multiplication is to be understood.

3. A multiplication may be necessary, which can be seen in the fact that several lower-order PCM signals that have a slow repetition speed or a low repetition speed Have a degree of multiplication and not always with part of the high repetition speed and PCM signals having a high multiplication factor are synchronized.

4. There can be a separation of the already coupled signals with a low degree of multiplication of the signals with a high degree of multiplication.

The conversion required for coupling and separating the asynchronous time-division multiplex signals generally causes a loss in the information to be transmitted. That has either a reduction in the transmission quality in the message system or a malfunction in the synchronization in the receivers for signals with a low degree of multiplication.

The invention is based on the object of the loss of information during the conversion for to avoid the coupling and separation of asynchronous time-division multiplex signals.

According to the invention, this object is achieved in that a means that the Stores signals with a low degree of multiplication, a means of saving a certain Amount of information with the signals to be subjected to the introduction with a high degree of multiplication is synchronized and reads the stored information, a means that the stored information adds the address code and generates the coupling signals, a means that the free time period of the signals to be subjected to the introduction with a high degree of multiplication up to Time for the generation of the coupling signals shifts equivalent, and a means that in the Place of the shifted free time segment introduces the coupling signals, are provided while on the receiving side a means which separates the coupling signals by means of the address code, a means, which returns the shifted free period of time to its original state, and a means, the information contained in the separated coupling signals of the signals with low Degree of multiplication stores, from the period for the generation of the address code, the repetition period of the signals with low multiplication

grad derives, the »retiming« -impulse wins and is stored. If during the length Δ t des

the original signals with a low multiplication-free period for the signals with a high

degree of regeneration, are arranged. Degree of multiplication also with the address code

It is advantageous if a means is provided to store the maximum amount of information that can be transmitted.

that if in the middle of the free period of time the 5 is cherted, the signals indicating this will be on

the coupling to be subjected to signals with high applied to the drive circuit 12, where the reading pulses Degree of multiplication generates the coupling signals. 13 are generated with the repetition rates of

the coupling until the expiry of the free PCM signals applied to 1 with a high multiplication ' Period of time. . with which the signal with a low multi-

It is also advantageous if a means is to be coupled in advance and are synchronized. 14th

is seen that the place of the coupling signals sets the circuit for generating the coupling

there by the regularity that represents instead of the signals that are driven by the reading pulses

Address codes in the high multiplication signals will. The content stored in 11 is associated with the

tion level is included, is disturbed. . Repetition frequencies of the signals with a high multiplication

It is also advantageous if, when the degree of verification is synchronized, read, the address code shift and regeneration of the free time segment (AD) with the required number of bits, a delay chain with the length of the read result is added to this and the coupling-free time segment corresponding Delay signals with the length Δ t are generated. With 16 is used measure. · .. ·. * · Denotes the coupling circuit at its entrance

The invention is illustrated below with the aid of a signal with a high degree of multiplication, with de _T

The embodiment shown in the drawing NEN the signal with a low degree of multiplication

explained in more detail. In the drawing shows is to be coupled, the same by the delay

Fig. 1, the embodiment of the invention, chain 15 signals delayed by Δ t and the above

and .-. ., in 14 generated coupling signals with the length Δ t

FIG. 2 shows an example of essential signal forms 25 are applied in each case. These signals are sent to 4 like

which follows the explanation of the mode of operation of the inven- tion coupled. First of all, those of 1 are not

Serve proper circuit. delayed signals with a high degree of multiplication

In Fig. 1: 1 denotes the input terminal for which is applied to the output. As soon as the coupling

PCM signals with a high degree of multiplication, in which signals of 14 are generated, are preferred

ren a part a PCM signal with low multi-30 and the former forbidden, so that the

degree of application is to be introduced, 2 the input terminal coupling signals are immediately switched to the output

for the signal with a low degree of multiplication, that will. After the time Δ t , the coupling

in the signals with a high degree of multiplication is terminated and then the hphen multipli-

is added, 3 the transmission-side device, which the cation level having input signals with the

Coupling conversion is carried out, 4 the output delay Δ t is connected to the output. in the

terminal for the point in time of the free time segment that then occurs due to the coupling conversion

obtained PCM signals with a high multiplier Δ t , these signals are transferred to the non-delayed

degree of transmission, 5 the transmission path for the PCM th input signals with a high degree of multiplication

Signals with a high degree of multiplication, 6 which are switched on and this becomes the original

output terminal for the PCM signals with a high multi-state 40 reached.

degree of application, that of the receiving-side device, This operation is based on the F i g. 2 still which carries out the separation conversion, explained in more detail. In this figure, 1 is a wave guide are, 7 the receiving-side device, the form of the low-order signals to be coupled as carries out the separation conversion, 8 the output the pulse train with the work cycle of 50% in the output terminal for the PCM signals with high multi-45. 2 shows the impulses, the, with the the high degree of multiplication, of which the previously introduced degree of multiplication signals synchro-PCM signal with a low degree of multiplication, are read off after this pulse train is separated, and 9 is the output terminal for the from to form a block of the coupling signals The number of bits is saved from the signals with a high degree of multiplication. 3 represents the place of, Initrennte low order PCM signal. 5 »pulse of signals with a high degree of multiplication

The PCM signals to be applied to 1 with high represent, with which the signal with low multiplication degree is to be coupled in their one frame tion degree, while 4, on the other hand, have a free time segment Δ t , in which the point delayed by Δ t shows. 5 are the signals to be coupled PCM signal with low multiplication with a high degree of multiplication, which is introduced at 4 won tion degree, the magnitude of Δ t 55 after the signal with low multiso is measured that the amount of information is plikationsgrad through the coupling circuit 16 can be introduced, which is formed by that leads. In this figure, AD denotes the address for the amount of information that contains the pulses to be introduced which indicate the introduction of the signal with a low PCM signal with a low degree of multiplication and an excess degree of multiplication. This address bears the address code (AD), the position of which is shown within 60 pulses with the degree of pulses obtained from the signal with a low frame of the signals with a high multiplier degree of multiplication. NATURALLY combined and introduced as a loading coupling signals indicative of the time Hch may in this case take the information amount of the address Δ ', in the Λ + 1-th time period, etc. codes t by the size of the time interval Δ. Since after the expiry of the time Δ t the are detuned. 65 hesitated signals 4 with a high degree of multiplication

With 11 the storage circuit is shown in which are switched, it can be seen from the figure that

the low multiple PCM signal applied to 2 affects the introduction of the coupling signals

degree of replication entered one after the other and inherent loss of information in the signals with

l 462 57 2

5 6

high degree of multiplication: does not occur and. the derlich, where the output terminal 8; always to the delay / A f at the point of the following free time- the? Delayed _; High section signals can be regenerated; At the; Frame, degree of multiplication: switched ;, is; The output into which the: coupling signals are not introduced; of the detector circuit 22? for the address impulses the above switchover condition is unnecessary, and! 5; also the "retiming circuit" 25, regenerates the signals applied to the V with: high multiple - the following frequencies; the separated signals with: degree of ion; will; unchanged on: the _: output 4; high, multiply ;, reads; the. in the. Regenera .: switched; At; the; above 'condition; is outside the tiönskreis'26s for, the signal; with low; Multiplides-free: period of time; for; the signals: with a high degree of cation in: the, storage circuit, stored degree of multiplication: the: lead point; the, - Kopp- io. Information and stores the separated signal with: special signals; not restricted; the: introduction low: degree of multiplication to the output; is that; after; Arrival of the signal; with; low terminal 9; Immediately from the comparison with the * condition of the degree of multiplication; possible; However for; the ^ coupling transformation on the. The end of the transmission must: to avoid: the loss of the information is evident; that. through- the; · above: inside the signals? with; high degree of multiplication im, 15; gung; the; Not subject to the coupling, at the time of the - free time segment - of the signals with; initial · signals with; high and; low, high degree of multiplication: the function; which: to, degree of multiplication of the 'received signals to run' this ^; free time period- the one? with a high degree of multiplication .: separated and; lively tour reserved, in 14; additionally provided to be generated; can; At the; The subject matter of the invention is: »o it is: namely, an arrangement * at; the at; the receiving device ?; die: die: detach- the coupling: and · die .: detachment thereby, without _: nungsumwandlüng; performs ;, will; the: to. Head loss; of the information are carried out, .that, lüngsumwandlung- quite: reverse condition! err in, the coupling device has enough free time segment - With 211 'here; the delay chain; those within: the signals with: high degree of multiplication; the received signals, with a high multiple in the: the signal; with a low _{degree of multiplication: the} degree of delay: A t gives, represented, is to be introduced, up to the point of creation: the granting; 22 the detector circuit; that of the one received. Signals: equivalent; postponed; and; in _; the captured signals detects the address code, means. Separation device the original state As soon as the address code in 22 ^! is detected, which is regenerated. ,.,. ■

Information given to: Separation Circle 23}. In the above explanation of the invention, An: the input: of the separation circuit is provided that: the number of the asynchronous signal received signals with a high multiplication with a low multiplication degree is one. If grad and the same signals as those to which the multiple signals with a low degree of multiplication delay Δ f are to be coupled through the delay chain 21; can the coupling no. and separation is applied, while the output is applied to the 35th voltage conversion through the repetition of the same output terminals 8 for the separated signals with the same condition as in the above without a high degree of multiplication and on the storages, if the preferred circuit 24 : given for the separated signal with low order of these couplings and each degree of multiplication is switched. The operation of the address pulse is formed individually distinguishable.
Separation circuit 23 is such that the 40 If the signals to be transmitted with a high delay A * subject input signals with a degree of multiplication, such as. bipolar impulses have a high degree of multiplication unchanged in relation to the evidences regularity, it is also possible to switch terminal 8 and when the Hch arrives, the address information, the information recorded in the import for the address impulses, indicates the address impulses without any special address identical on the 45 pulses not subject to the delay are obtained that in the introductory input signals with a high degree of multiplication switch the signals to be coupled this regularity, while the information for the in a range in which the function of the over ^ the address pulses following, is not disturbed within "the period of time, is disturbed.
Δ t contained signal with a low multiplication. If 50 occurs only on the binary code, but also on the point in time in which a free repetition period is applied for the separated common time-division multiplex signals with a specific signal with a high degree of multiplication. After the time segment is generated, the circuit is connected to the invention, the coupling and disconnecting output terminal 8 can be transferred to the delayed input conversion between the mutually asynchronous signals and the original state 55 time-division multiplexed signals is achieved without the loss of information. In the context in which no address pulse is detected, the above switching condition is not expected to have a great effect on the execution of the time division multiplexing, the above switching condition is not expected.

1 sheet of drawings

Claims (4)

Patent claims: 1.Circuit for conversion when coupling and separating time-division multiplex signals, in the case of the signals having a free time segment with a high degree of multiplication and from them, the low-multiplication signals that are generated over this period of time have transferable amount of information, are introduced and separated, characterized in that on the Send side a means that the signals with low Degree of multiplication stores, a means of storing a certain amount of information is synchronized with the signals to be subjected to the introduction with a high degree of multiplication and the stored Information reads, a means that adds the address code to the stored information and generating the coupling signals by means of the idle period of the introduction subjecting signals with a high degree of multiplication up to the point in time for generation of the coupling signals equivalently shifts, and a means that in the place of the shifted Free time segment introduces the coupling signals, while on the receiving side a means which separates the coupling signals by the address code, a means which returns the shifted free time period to its original state, and a Means that the information contained in the separated coupling signals of the signals with a low degree of multiplication, of the period for the generation of the address code derives the repetition period of the signals with a low degree of multiplication, the "retiming" pulses wins and regenerates the original signals with a low degree of multiplication, are arranged. 2. Circuit according to claim 1, characterized in that that a means is provided which, if in the middle of the free period of time the coupling to be subjected signals with a high degree of multiplication the coupling signals are generated, the coupling is maintained until the end of the free time period. 3. A circuit according to claim 1, characterized in that a means is provided which indicates the location of the coupling signals by the regularity, which instead of the address code in the signals with a high degree of multiplication is included, is disturbed. 4. A circuit according to claim 1, characterized in that during the shift and regeneration of the free time segment, a delay chain with the degree of delay corresponding to the length of the free time segment is used.