RU2042279C1 - System for transmission of digital telephone signals - Google Patents

Abstract

FIELD: telephone communication. SUBSTANCE: system for transmission of digital telephone signals includes modules of subscriber's concentration, each being connected to remote subscriber's modules, two-cable communication line, wire communication lines manufactured in the form of cable television lines and N digital telephone sets. Unit tracking remote subscriber's modules is connected through interface to cable television line and incorporates first and second signal matrix units, receiver of synchronization signals, threshold unit, decoder of number of communication channel, decoder of numbers digital telephone sets, first and second flip-flops controlling reset, controlling matrix unit, multichannel receiver, amplifier-former. Unit mating digital telephone sets coupled to the other end of cable television line through interface includes receiver of synchronization signals, unit of extraction of frequency of frame, gate former of permission pulse, coincidence unit, receiver, first and second pulse formers, telephone signal former, detector of unengaged channel control unit, transmitter, first and second OR gates, adder, former of number of digital telephone sets, buffer unit, former of clearing code. EFFECT: provision for realization of requirements on electromagnetic compatibility of telephone communication lines inside buildings. 6 dwg

Description

 The invention relates to techniques for telephone communications and can be used to create multi-channel communications.

 Digital telephone systems are known comprising a central unit and several remote stations connected by bi-directional communication lines and connected to terminal subscriber units.

 A telephone system is also known, which includes a plurality of base stations connected to a central telephone exchange and a plurality of handsets, each group of which corresponds to one base station, since each base station has a device for recognizing and receiving a call from a telephone exchange for handsets of the corresponding group, and each the handset can communicate with the appropriate base station.

 The prototype of the invention is a system for transmitting digital telephone signals of an electronic digital automatic telephone exchange EATS-CA.

 In the building of the telephone exchange are located subscriber concentration modules (IAC), each of which is connected by two cable lines to remote subscriber modules (UAM). Each UAM located in a residential building or office building is connected by telephone wire pairs to subscriber digital telephone sets (CTA). In the lines between IAC and UAM, temporary channel compaction is used. UAM receives signals from the MAC, the allocation of the synchronization signal, the distribution of information signals at the outputs corresponding to the CTA. The semantic (informational) value of the transmitted sequences of zeros and ones is determined by the receiver (EATL or CTA) and does not affect the process of transmission of pulses in communication channels.

 The disadvantage of the prototype is the use of spatially separated wire lines for connecting UAM with each CTA, since they belong to open lines and have noticeable radiation losses, the spectrum of the emitted signals captures the entire broadcasting long-wave range and reaches the low-frequency edge of the medium-wave range due to the short pulse duration. In addition, a large consumption of copper.

 The purpose of the invention is to ensure compliance with the requirements for electromagnetic compatibility (elimination of radiation losses) in the UAM-CTA lines.

 In FIG. 1 shows a functional diagram of a digital telephone signal transmission system; in FIG. 2 example of execution of control triggers and matrix devices; in FIG. 3 exemplary embodiment of a clock receiver; in FIG. 4 example of the implementation of matching devices; in FIG. 5 example implementation of a control unit; in FIG. 6 timing diagrams explaining the process of transmitting telephone signals.

 The digital telephone signal transmission system comprises a unit 1 for interfacing with UAM 2, which is connected via a matching device 3 to a TU cable 4. Block 1 contains signal matrix units 5 and 6, and a second input of the first one is connected to UAM 2 in transmission mode, and the output the second of them to the input of UAM 2 in the mode of receiving signals from the CTA. The input of the UAM 2 is connected by a cable pair to the MAK located in the building of the automatic telephone exchange (Fig. 1 is conditionally shown by an arrow). The interface unit 1 also contains a serially connected clock receiver 7 and a threshold unit 8, the output of which is connected to the inputs of the communication channel number decoder 9 and the telephone number decoder 10, the outputs of which are respectively through the first and second blocks 11 and 12 of the reset control triggers, the second inputs of which are connected with the second outputs of the decoder 9 of the communication channel number and the decoder 10 of the CTA number, respectively, connected to the corresponding inputs of the control matrix unit 13, the output of which is connected to the first inputs of th signal and the second matrix blocks 5 and 6, the first output of which is connected to a multichannel transmitter 14, and the second input of the second of them to the output of the multichannel receiver 15.

 The output of UAM 2 in reception mode is connected through an amplifier-driver 16 to a matching device 3, to the other inputs of which are connected the inputs of receivers 7 and 15 and the output of transmitter 14. Each CTA is connected to a communication line of UAM 2 TU cable 4 through a matching device 17 and a block pairing 18, which contains a channel for receiving and processing clocks, consisting of series-connected receiver clocks 19; block 20 of the selection of the frame frequency, the driver 21 of the gate, the driver 22 of the enabling pulse, the matching block 23, the second input of which is connected to the output of the receiver of the clock 19; a tunable receiver 24, the output of which is connected to the CTA through the pulse shaper 25 and the telephone signal shaper 26.

 In addition, the output of the receiver 24 through the detector 27 free communication channel is connected to the input "end of the search" of the control unit 28 tunable synchronously by the receiver 24 and the transmitter 29. The input "start of search" of the control unit 28 through the first circuit OR 30 is connected to the output of the matching unit 23 and to the off-hook signal. The second and third outputs of the control unit 28 are connected respectively to the first and second inputs of the adder 31, the third input of which is connected to the fourth output of the control unit 28 through the CTA number generator 32. The output of the adder 31 is connected to the inputs of the second OR circuit 33 and the buffer unit 34, to another the input of which is connected to the shaper 35 end code. The signal input of the transmitter 29 through the pulse former 36 is connected to the output of the CTA. The second input of the OR circuit 33 is connected to the output of the register of the buffer unit 34. In addition, the inputs of the receivers 19 and 24, the outputs of the transmitter 29 and the OR circuit 33 are connected to the corresponding inputs of the matching device 17.

 The trigger blocks 11 and 12 (see Fig. 2) are sets of triggers, respectively, according to the number of M communication channels and the number of N CTAs associated with this UAM. Decoders 9 and 10 have two groups of outputs. The outputs of the first groups are the codes of the number of the communication channel and the CTA number in the request mode by the off-hook signal. In the standby mode (by the signal of lowering the tube), the codes of the communication channel and CTA numbers in the standby mode pass to the outputs of the second groups, which differ from the codes in the request mode by the presence of positions identifying the standby mode. The control matrix device 13 is a set of M x N circuits AND located at the intersection of M buses from the first group of outputs of the decoder 9 and N buses from the first group of outputs from the corresponding keys 5 mn, 6 mn of the signal matrix devices 5 and 6.

The control unit 28 (see Fig. 5) is a series-connected clock generator GTI, the first delay line LZ ₁ , circuit I ₁ , the other input of which is connected to the output of the first trigger Tr ₁ , and an integrator, the output of which is the first output of the control unit . The GTI output is also connected to a series-connected I2 circuit, the other input of which is connected to the “start of search” input, and the FSI clock driver, the output of which is the second output of the control unit. To the output of LZ _{1 are} connected in series connected circuit And ₃ , the other input of which is also connected to the input "start of search", and the second delay line LZ ₂ , the output of which is the fourth output of the control unit. The output of circuit AND _{1 is} connected to the first pulse shaper FI ₁ , the second trigger TP, the second input of which is connected to the output of circuit I ₂ , and the second pulse shaper FI ₂ , the output of which is the third output of the control unit.

 The transmission of telephone signals is as follows.

A group signal with a frame frequency of 32 kHz comes to the input of UAM 2 via a cable pair with the MAC. The same signal (see Fig. 6a) through matching devices 3 and 17 via the TU-cable communication line 4 is fed to the input of the receiver-amplifier 19 of the interface unit with the CTA. Since the clock differs from the signal pulses in amplitude, the threshold unit 20 emits frame pulses. The gate driver 21, depending on the CTA number assigned to it by the UAM, produces a gate of length t _p , (see Fig. 6, b), which triggers a short pulse former 22 (see Fig. 6, c). If there is a pulse in the group signal at the position of the given CTA, the coincidence unit 23 is triggered and through the OR 30 circuit starts the step voltage generator (GOS) of the control unit 28, (see Figs. 5 and 6, d), thus tuning the frequency of the transmitter 29 and the receiver 24, i.e. the search for a free frequency communication channel begins; the receiver 24 and the transmitter 29 begin to synchronously discrete tune their frequencies. At the output of the receiver 24, the detector 27, which is a combination of a threshold block and an inverting circuit, gives "1" when a free channel is detected, i.e. channel, in which the signal is absent, and stops the tuning of the step voltage generator of the control unit 28.

Generator of clock pulses (GTI), the duration of which determines the duration t _and pitch adjustment transmitter and receiver, and the position of time slots of a communication channel numbers of codes and CTA, first starts the clock generator (SIF), then after a time t ₁ -t _lz1 (FIG. 6e) begins to generate step voltage using an integrator. Even after a time t ₂ -t _lz2 = t _{and / 2} starts the shaper 32 of the CTA number code. At arrival of the pulse at the input "end rebound" TP ₁ is tilted, and the output signal and appears, which through pulse shaper FI ₁ opens Tr ₂ which closes the rear edge of the GTI, i.e. the detection pulse (see Fig. 6, f) is set in the temporary position of the end of the GTI pulse, corresponding to the number of the next discrete tuning adjustment of the GOS and, respectively, of the transmitter 29 and receiver 24. This pulse determines the code of the communication channel number. The total time-pulse signal (see Fig. 6, g) is fed to the input of the buffer device 34, and also through the second circuit OR 33, matching devices 17 and 3 via the TU-cable communication line 4 is fed to the input of the clock signal 7, the output of which is Low-pass filter, attenuating shorter pulses coming from the MAC on the same TU-communication line.

 The receiver 7 operates on the principle of asynchronous communication: the sync group decoder (see Fig. 3) is triggered at the moment of arrival of the synchronization pulses of one subscriber, the sync group decoder starts the gate generator corresponding to the time positions of the time-pulse codes of the communication channel and CTA numbers. As a result of this, the time selector passes the code pulses of only the last sync group without passing the code pulses of other CTAs associated with this UAM. A threshold device 8 is necessary to prevent skipping and false triggering. From the output of the PU 8, the time-pulse code (see Fig. 6, g) passes to the inputs of the decoders 9 and 10 of the communication channel number and the call center number, respectively. At the outputs of these decoders, corresponding to the arrived codes, a pulse will appear. Triggers 11n and 12m pass these pulses to the corresponding inputs of circuits AND 13mn of the control matrix unit 13, the output of one of them contains a pulse that opens the keys of the same signal signal matrix blocks 5 and 6, the first of which 5mn transmits the signal from the output of UAM 2 'through the corresponding channel transmitter 14, the TU cable communication line 4 and the receiver 24 to the corresponding CTA, and the signal from the CTA via the transmitter 30, the TU cable communication line 4, the corresponding channel of the receiver 15, the 6mn key (where m is the number of the communication channel, n is the PTA number) comes in UAM 2 ". Lowering signal I run the tube lowering code generator 35. From the output of the former 35, this code enters the C-input of the shift register of the buffer block 34, starts it and completes the end code. The total code signal with the positions of the lowering tube from the output of the buffer block 34 register passes to the corresponding outputs decoders 9 and 10, which are connected to the second inputs of triggers 11m and 12n, as a result of which these triggers are reset and the signal through the corresponding And 13mn circuit closes the keys 5mn and 6mn, freeing the mth frequency communication channel.

 The transmitter 29 and receiver 24 are built on transistors KT315 or KT316 with tunable varicap KV112A in the frequency-setting circuit, the capacitance of which is changed discretely by the control unit 28. The CTA number generator 32 is a delay line with corresponding code positions taps connected to a multi-input adder.

 The buffer unit 34 is a shift register, the D-input of which is a signal, the S-input is a read control input from the rebound code generator 35. The bit width of the register corresponds to the number of temporary positions of the request code. In addition, an additional bit is provided for the rebound code of the shaper 35, which is read after the request code by the same signal that is written to the additional bit.

 Matching devices (see Fig. 5) can be built on transistors KT315, while the output impedance of the transistor cascade is matched with the wave impedance of the TU cable.

 Thus, the proposed system makes it possible to ensure the requirements of electromagnetic compatibility of communication lines inside buildings through the use of a cable network as a communication link between the UAM and the CTA group of the cable television network, and to reduce the number of the latter by constructing a clock channel for selecting a free frequency channel, which in turn will ensure high quality separation of channel signals in a cable network.

Claims (1)

DIGITAL TELEPHONE SIGNALS TRANSMISSION SYSTEM, comprising subscriber concentration modules (IAC), each of which is connected to remote subscriber modules (AIM) by a two-cable communication line, wired communication lines and N digital telephone sets (CTA), characterized in that the wired communication lines are made in in the form of cable television lines, one end of each of which is connected through a matching device (SU) and a pairing unit (BS) with the corresponding inputs of the corresponding UAM, and the pairing unit UAM (BS UAM) contains a clock carrier, a clock receiver, the output of which is connected to the inputs of the decoder of the private channel number of reception and transmission and the decoder of the CTA number, the first groups of outputs of which are connected to the first groups of inputs of the first and second blocks of control triggers, the second groups of inputs are connected to the second groups of outputs of the decoder the numbers of the frequency channel of the transmission reception and the decoder of the CTA number, and the outputs of the first and second blocks of control triggers are connected to the corresponding control inputs a measuring matrix block, the outputs of which are connected to the corresponding control inputs of the first and second signal matrix blocks, the information inputs of the first signal matrix block being the input of the CAM BS “for transmission”, and the outputs of the first signal matrix block are connected to the corresponding inputs of the multi-channel transmitter, while the outputs the second signal matrix block are the outputs of the UAM BS “for reception”, and the information inputs of the second signal matrix block are connected to the outputs of the multi-channel a receiver having an input, and the clock input of the receiver and the transmitter, and outputs the multichannel clock generator are respective inputs
the outputs of the BS UAM connected to the corresponding control system, and the other end of the cable television line is connected to the combined inputs by the outputs of the corresponding group of N matching devices, the outputs of which through the corresponding interface unit of the BS CTA are connected to the corresponding CTA, with each BS CTA containing a clock signal receiver, the output of which is through a series-connected block for selecting the frame frequency, the gate driver and the driver of the enabling pulse, the output of which is connected to the first input of the block the second input of which is connected to the output of the clock receiver, and the output of the matching unit is connected to the first input of the first OR circuit, the output of which is connected to the "start of search" input of the control unit, whose "end of search" input is connected to the first output of the receiver through a free channel detector the second output of which through the first pulse shaper is connected to the input of the telephone signal shaper, while the first input of the receiver is connected to the first output of the control unit connected to the first input of the transmitter, W the second input of which is connected to the output of the second pulse shaper, and the second and third outputs of the control unit are connected to the first and second inputs of the adder, the third input of which through the shaper of the CTA number is connected to the fourth output of the control unit, and the output of the adder is connected to the first inputs of the second OR element and the buffer unit, the output of which is connected to the second input of the second OR element, the output of which, as well as the output of the transmitter, the second input of the receiver and the input of the clock receiver are the corresponding inputs to CTA BS moves connected to the control system, and the second input of the buffer unit is connected to the output of the code shaper, the rebound, the input of which is the input of the “tube lowering signal”, as well as the input of the second pulse shaper, the second input of the first OR element, which is the input of the pick-up signal , and the output of the telephone signal conditioner are the corresponding inputs of the BS CTA outputs for connection to the CTA.

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