DE3423818C2 - Digital generator for acoustic signals to be fed into a PCM time division multiplex telecommunications system, in particular a telephone system - Google Patents

Description

The invention relates to a digital generator for in a PCM time division multiplex telecommunications, in particular Telephone system to be fed acoustic signals, as detailed in the preamble of claim 1 is designated.

From DE-AS 19 45 155 it is known in an arrangement for feeding audio signals into time-division multiplex PCM switching systems the ampute curve of audio frequencies in the form of digitized Store samples. A memory area must be provided for each individual frequency, in which so many digitized amplitude samples, which are expediently formed directly as PCM words are stored so that one or more complete sinusoidal oscillations can be displayed. By repeatedly reading out such a memory area, the PCM word sequences obtained in the process can be used after a digital-to-analog conversion, the corresponding frequency of an audio signal is obtained will.

A method based on this principle and an arrangement for the distribution of audio signals and Call signals in a time division multiplex communication system is specified in DE-PS 23 14 272. It is proposed that that the audio character frequencies and the audio character rhythms are stored separately, and a special link in each case ensures that the desired audio sign is created, since this Procedure applied at subscriber stations is only one audible tone frequency (fundamental tone) over the incoming one Line received and only then linked to a specific time slot in a specific time slot Rhythm: fed into the receiver of the subscriber set via a digital-to-analog converter. the Linking the rhythm information with the selection of audio symbols is fixed and cannot

can easily be changed.

A digital audible tone generator that freely converts frequencies and rhythms to different audible tones can be linked to one another is specified in DE-OS 28 55 15 !. These are predominantly programmable Memory used, in which not only the various digitized audio amplitudes as PCM words are stored but also independently of which information about the different audio tones is stored. The ones that occur with audible tones Rhythms are stored as pause information in the same programmable read-only memory, in which also contains the PCM word groups to represent a specific frequency. To an assignment To enable the different audio tones to certain time channels are additional memories and Adding networks provided. To achieve a freely selectable combination of frequencies for audio signals are in the DE-OS 28 55 151 specified digital audible tone generator at least 6 different prograrrirrüerDarc cipcicncr Ci! orcicr'scn. further memory, Adding network and comparator represent a considerable expense, and the number of available Frequencies and rhythms cannot be easily increased.

From DE-OS 32 22 314 is also a digital tone generator for digital telecommunications, in particular Telephone exchanges known. It is possible to have any freely selectable push in any time period Transmit sound signal. For this purpose, memories are provided which digitally encoded amplitude values contain. They are read out cyclically during a tone generator operating cycle and one Allocated time slot. Storage and control means are also provided, with which the amplitude values can be changed. In DE-OS 32 22 314, however, it is not described how in addition to the sound signals also voice announcements in digital telecommunications, in particular Telephone exchanges can be coupled.

It is the object of the present invention to provide a digital generator for in a PCM-Zeitmu! Tiplex telecommunication, in particular to propose acoustic signals to be fed into the telephone system, in which the assignment of each audio key can be freely selected for a specific time channel, and also Voice announcements of any length can be implemented using the same principle that is used for generating the audible tone is applied. This object is achieved by a combination of features as described in the patent claim i is specified.

With the digital generator according to the invention it is achieved in an advantageous manner that only a few Read-only memories to be programmed in different ways must be available in order to be able to select a freely selectable To enable combination of rhythms and frequencies in the different auditory tones and that as well different voice announcements can be generated. It is possible to do this independently to freely change both audio tones and their assignment to individual time channels as well as voice announcements. Further developments of the invention emerge from the subclaims.

An exemplary embodiment of the invention is explained in more detail below with reference to a drawing. ^{A clock counter r} /. Controlled with the system clock 57, which is synchronized in a known manner by i'.nen synchronizing pulse SYN , supplies the control addresses for the timing memory ZL-SP with its higher-order outputs. A control memory ST-SP is controlled with the lower-value outputs. which has a memory area for each individual newspaper position with several individual -> / one addressable memory (s), in which element information is stored which, when cyclically reading out the memory, form control signals with precise timing within each position. Such control signals could also be formed by an extensive combination logic, but then there is the disadvantage that difficult adjustments are required when changes are made.

In the time slot memory ZL-SPisi, a memory line is provided for each individual time slot, in which information about the type of acoustic signal to be sent can be stored if such a signal is to be sent out at this time slot. For example, if the timing memory ZL-SP has a capacity of 64x8 bits. this means that up to 256 different acoustic signals can be freely assigned to 64 time slots. When reading out a Bitkornbinatiü * '-vüs from the Zciilagenspeicher ZL-SP , memory areas in the tone memory TON-SP or speech memory SPR-SP corresponding to the type of signal are controlled, where the PCM word groups are stored that belong to the desired tone frequency or the desired voice announcement.

The fine addressing for reading out individual PCM words from the tone memory TON-SP or the voice memory SPR-SPwWd is carried out by an address counter ADZ in conjunction with an address buffer ADP , with activation only taking place when there is a time slot in which an acoustic signal is present Signal is to be sent. This is done in that control signals for controlling the address buffer ADP and the address / counter ADZ are only output from the control memory ST-SP when there is a time slot in which audible tones or voice announcements are to be sent. The address buffer ADP and the address counter ADZ work together in such a way that the addressing of a time period indicated by the clock counter · TZ is switched through to the address buffer / IDP when there is a time slot in which audible tones or voice announcements are to be sent. The information present in the address buffer ADP, i.e. the address with which the tone memory TON-SP or the speech memory SPR-SP was previously activated, was sent to the output of the address buffer ADP and is loaded into the address counter .ADZ. Immediately afterwards the counter ADZ continues to be paid by an originating from the control memory ST SP control clock by one, so that an address will appear at its output, next to the ^J ji PCM word can be read. This cycle continues for so long within each time slot. Lis appears in a manner not shown together with the last PCM word of a word groupc additional information that resets the address counter ADZ back to the first address of the memory area concerned.

bo A memory T / A-SP is provided for the instant generation of pauses between the audible tones or between the announcements. which is addressed by a scanning: counter AZiau fend. The sampling counter AZ receives its control clock via a clock divider TT. on the depending

The ability of the minimum or maximum Paiiseniänge can be set via a routing R 1, in which sequence, for example, 5 or 10 or 20 ms the sampling counter AZ is controlled. The entrance of the

Clock divider TT can, for example, be connected to the most significant bit of clock counter TZ , so that very precise time taki is available for sampling counter AZ tm. The outputs of the sampling counter AZ are directly connected to the addressing inputs of the clock memory ί TA-AP , so that the previously programmed bit patterns of a memory line appear at the output of this memory at each sampling time. The clock memory TA-SP is organized in such a way that a bit column is provided for each type of rhythm, whereby, for example, the bits to be read out during a pause are written with zero and the bits in between with one. The bits read out from the clock memory TA-SP in this way reach a clock multiplier TA-MUX, the control inputs of which are connected to the outputs of the tone memory TONSP. According to the information that is read out together with a PCM word and the clock multiplexer Τ / ν / ν / ό / λ ', one of several bits is switched to the output of the clock multiplexer TA-MUX and arrives at a combination logic VL. 2. The combination logic VL 2 is controlled at certain times within a time channel with a clock from the control memory 57 "-5P, so that a zero generator NC is activated. When the zero generator NC is activated, instead of a PCM word from the tone memory TON arrives -SP or the speech memory SPRSP a special word with the value zero to the output buffer AP. In this way, the digital generator outputs zero words in the relevant time slot as long as from the clock memory 7 "4-.S" PP break bits relevant audio type can be read out.

With the help of the so-called selection bits read out from the tone memory TON-SP that do not belong to the actual PCM word. which are led to the clock multiplexer TA Ml Λ is! So it is possible - simply by programming the sound memory TON-SP accordingly. To freely combine rhythms and frequencies, so that audible tones can arise in any desired form.

A logic logic VL 1 is provided for the formation of advisory tones, which consist of different frequencies sent one after the other. This combination logic VL 1 is activated when a bit combination is read out from the timing memory ZL-SP , which characterizes a warning tone Zeitlagc. In the clock memory TA-SP and special bits are provided for warning tones, whereby the addressing of the tone memory TON-SP is influenced via the logic logic \ 'L I. Ir, the combinational logic VL 1 are more bits of the memory clock TA-SP mh at least one bit of the Zeiiiagencpeichers ZL-linked SP, several addressing bits of the audio memory SOUND .5 ^r ^ ev.ei! S can other so da3, although this is Drawing 5ί '■ _.! - '.'dng is shown. ΤΛ-SP causes daö after the audio frequency for a '.orj-j ^ eber.en Zeitabiauf in the audio memory SOUND SP another memory area is driven out of the PCM-W .- -: carried by the Taktspeicr, ■ _- , ngroups of a different frequency aus- ho read -λ ground- According to the number of bits that are provided for this in the clock memory TA-SP and are used via the logic VL i to vary the addressing of the tone memory TON-SP , the number ύ ^ τ successively aossendba- ^ 5 ren different tone frequencies be of different sizes.

For voice announcers, a voice memory SPRSP , which is independent of the tone memory TON-SP , is provided, which is only addressed when a signal is emitted from the time slot memory ZL-SP or from the Steucrungsspeicr / er ST-SPv'm signal that identifies a time slot in the one Announcement should be sent. By means of a multi-core routing R 2. which is only shown as a single core in the drawing. it can be achieved that the rough addressing of the speech memory SPR-SP is carried out either via the time slot memory ZL-SP or via the address counter ADZ . If the rough addressing, i.e. the control of memory areas, as shown in the drawing, is made dependent on the time slot memory ZL-SP , then shorter announcements result in different time slots. However, if the relevant bits of the gross address of the voice memory SPR-SP are connected to the more significant bits of the address counter ADZ , several areas of the voice memory SPR-SP can be combined into these

so that announcement texts of greater length can be created.

The PCM words emitted by the digital generator, that is to say from the tone memory TON-SP, the speech memory SPR-SP or the zero generator NG , reach an output buffer AP. if there is a time slot in which an acoustic signal is to be sent. For this purpose, the control unit 57- SP emits a pulse, with which the output buffer AP is opened to receive a PCM word. A serial bit sequence is generated in a known manner from each PCM word via a parallel-serial converter PS connected downstream. The serial PCM word is either output directly at a multiplex output AM for further processing or is fed into an existing busbar system in a timely manner with the aid of a delay device VZ via an output multiplexer A-MUX. The output multiplexer A-MUX is controlled in such a way that it only operates in the time slots in which the digital generator has to output a PCM word. picks up this and forwards it to the receiving busbar E-SS . In all other time slots, the output multiplexer A-MUX switches the transmit busbar S-5S through directly to the receive busbar E-SS. The digital generator can thus be easily adapted to existing PCM systems.

1 sheet of drawings

Claims (6)

Patent claims: 1. Digital generator for one ^; n a PCM time division multiplex telecommunication, in particular telephone systems to be fed acoustic signals, in which these signals are stored digitally as groups of PCM words, frequencies and rhythms are stored separately for each signal and are logically linked as required, in one timing memory is stored in a time slot to be transmitted acoustic signal, the designation of, and therefore the read out from the timing storage data are controlled audio memory, wherein the digitally stored for individual frequencies PCM groups of words are stored, characterized in that with a corresponding designation in the time slot memory (ZK -SP) instead of an area in a tone memory (TON-SP), an area in a speech memory (SPR-SP) is activated when voice announcements are to be output that a clock memory (TA-SP) is provided, which is provided by a sampling counter (AZ) is continuously addressed and delivers rhythm control words that are sent via a Tak tmultiplexer (TA-MUX) can be linked with control information, which is read out together with the PCM words stored in the tone memory (TON-SP) or in the speech memory (SPR-SP) , whereby the rhythm of the acoustic signal is determined that the time slot memory ( ZL-SP). Audio memory (TON-SP), voice memory (SPR .cp) and timing memory (TA-SP) are designed as programmable read-only memory, so tones Sprachansagt i and intermediate pauses of each type of signal can be allocated freely selectable, that with voice prompts by selectively addressing ( R 2) of the speech memory (SPR SP) either several shorter or less longer announcements are possible and that for the Einzeladrcssierung of lines in the audio memory (TON-SP) or in the voice memory (SPR-SP) an address counter (ADF) in conjunction with a Address buffer (ADr) is provided, with a line being provided for each of the time slots in the address buffer (ADP) that can be occupied by an acoustic signal, in which each time a PCM word is read out from the tone memory (TON-SP) or the speech memory (SPR- SP) the control address is cached for it, which is read out at the same time slot during the next control, loaded into the address counter (ADZ) and increased by 1 ei, whereby the control address f arises for the next PCM word. 2. Digital generator according to claim 1, characterized in that a control memory (ST- SP) is provided which has a memory area with several lines per time slot for each time slot, which are individually addressed by a clock counter (TZ), that this control memory (ST-SP) is designed as a programmable read-only memory and according to its programming ω production within each time slot occupied by acoustic signals clock-accurate control clocks for memory, counter and logic logic f VL ^ lic. 3. Digital generator according to claim 1, characterized in that an output buffer (AP) for b5 PCM word with a downstream parallel-Sericll-Wandlcr (PIS) is provided, over which the PCM words serially with a for a PCM time division multiplex Speed required by the system. 4. Digital generator according to claim 3, characterized in that the parallel-serial converter (PIS) is followed by a delay device (VZ) , and that an existing bus system (S-SS ) via an output multiplexer (A-MUX) connected to it , E-SS) is switched over to the digital generator whenever a time slot occupied by an acoustic signal is present, in which case a PCM word is output in a timely manner. 5. Digital generator according to claim 1, characterized in that in the case of audible tone sequences consisting of several frequencies (warning tone), special areas in the tone memory ( TON-SP) are controlled one after the other by the timing memory (ZL-SP) and the clock memory (TA- SP) read bits are linked to one another via a logic logic (VL 1). 6. A digital generator according to claim 1, characterized in that a combination logic (VL 2) is controlled with bits read out from the clock memory (TA-SP) , which provides an output signal for controlling a zero generator during the pauses occurring with acoustic signals (NC), which then generates a PCM word with the meaning "zero".