SU1084998A1 - Method of transmittiing-receiving using wide-band signals and system for transmitting-receiving by wide-band signals - Google Patents

Abstract

1. A method of receiving and transmitting broadband signals, with frequency-code subscriber separation, in which a broadband signal is generated at each base station, which is modulated with an information message and transmitted to subscriber stations, each of which receives a modulated Gishroband-1 signal from the base station, demodulate and extract the information soyocene, and when going out to the communication transmit a modulated broadband signal, at the base station the received modulated broadband signal from the corresponding subscriber station demodulate and extract an information message, characterized in that, in order to simplify the equipment of base stations by reducing the number of modems while simultaneously increasing the efficiency of using the frequency band, an address wideband signal is formed at each base station in a given frequency range with non-overlapping frequency and common for all base stations, the control broadband signal The channel is free, which is emitted continuously in each free hour At the subscriber station, when accessing the link, before transmitting information messages, a control wideband signal is received. The channel is free, the free frequency channel is recorded, and the control bandwidth signal, which is common for all subscriber stations, is transmitted through a dedicated free frequency channel. when receiving from S which, at the corresponding base station, an address wide-band signal is transmitted (the lan signal of the given base station (at the subscriber station) the address wideband signal in This is done by elementwise accumulation. 2. A system for receiving-transmitting wide-band signals. a separate division of subscribers, comprising a central station, base stations and subscriber stations, each base station containing a reference frequency generator, information signal (IC) generator. and successively connected transmitter, isolation element and receiver, 00 as well as N speech channel modems, the receiver information outputs being connected to the first inputs of voice channels modems, to the inputs of which the corresponding information outputs of the central station are connected, to the information inputs of the transmitter the first outputs of voice modems are connected channels, the second outputs of which are connected to the corresponding information 1 inputs of the central station, the outputs of the reference frequency generator are connected to the corresponding im transmitter and receiver inputs

Description

Each subscriber station contains a frequency synthesizer, a control unit and serially connected isolating elements, a receiver, an IC demodulator, a microphone, an IC modulator, a switch and a transmitter, the output of which is connected to the input of the isolating element, and an output is connected to the second input of the switch the modulator of control signals (US), and the receiver output to the input of the demodulator US, the first output of the frequency synthesizer is connected to the second input of the transmitter, and the second output to the second input of the receiver, characterized in that A stator modulator and a service signal demodulator (CC) and a clock generator are inputted to the input of the reference frequency generator, the service output of which is connected via a mono; CC street with the input of service signals of the transmitter, the output of service signals receiver through the demodulator CC is connected to the service entrance of the central station, the control inputs of which are connected to the third outputs of the voice channel modems, the output of the clock generator is connected to the third input am modems and voice channels to the IP generator, the output of which is connected to the fourth input speech modems I channels and na.abonentskoy station; delay lines, a comparison unit, an operation mode switch and a sequentially connected matched filter, an adder, a skewer block, a key and a memory block are entered, the output of the adder is connected to the second input of the adder via a delay line, the output of the declaring unit is connected to the first input of the comparison unit, the output of which connected to the control input of the key, the output of the memory unit is connected to the second input of the comparison unit and to the IC generator, the output of which is connected to the second inputs of the IC demodulator, the IC modulator and to the third input The speaker that controls the output of the microphone is connected to the trigger input of the mode switch. operation, the output of the demodulator of the IC is connected to the information input of the operation mode switch directly, and to the monitored input of the operation mode switch - via the control unit, the second input of which is connected to the output of the alarm of the microtelephone, the clock ON / OFF of the operation mode switches is connected the operating output of the mode selector switch is connected to the corresponding input of the modulator US and to the address input of the switch, and the output of the frequency control of the switch i modes of operation It is connected to the input of the frequency synthesizer, the output of the US demodulator is connected to the synchronization input of the operating mode switch, and the output of the receiver is connected to the input of the matched filter.

3, the system according to claim 2, which is related to the fact that each modem of the voice channel of the base station contains a serial connected US demodulator and a mode switch, the address output of which is connected to the address input of the switch directly and output to the first input of the switch through the US generator, the output of the modulator IC is connected to the third input of the switch, the output of the reference signal of the operating mode switch is connected to the first input of the IC demodulator, the auxiliary output of which is connected to the controller The input of the operation mode switch, the combined information input of the operation mode switch, the US demodulator input and the second input of the IC demodulator are the first input of the voice channel modem, the second and third inputs of which are the second input of the IC modulator and the second generator input US, and the combined first modulator input of the IC, the second input of the switch, and the reference input of the operation mode switch are a quarter of the voice channel modem, the first and second outputs of which are etstvenno output switch and the first output demodulation IC torus, and control output demodulation trra CSS is a third output of a voice channel modem.

one

The invention relates to radio engineering and can be used in communication systems, in particular in the development of a nationwide system.

MOBILE and stationary radio communications, including highly efficient systems of technological and industrial communications in industry

agricultural enterprises and agrotechnical complexes, as well as radio telephone systems of mass use.

A known method of receiving and transmitting broadband signals (PSS) in an asynchronous address radio system with a code for subscriber division, in which each subscriber is provided with an individual PSS for communication with other subscribers, for which the PSS occupying the entire selected frequency range is divided into segments, number which corresponds to the number of subscribers in the system. .

A device that implements the method contains a receiver connected via a frequency converter, a quadrature channel and a demodulator of information signals (IC) to a microtelephone, the output of which is connected via series-connected modulator IC and a generator of noise-like signals to a transmitter, the other input of which is connected to a reference frequency generator and the additional output of the quadrature channel is connected to the second input of the noise-like signal generator through the call unit 1.

The disadvantage of the method and device is the low efficiency of using the frequency range.

The closest to the invention is a method for receiving and transmitting the PSS, in which at each base station a PSS is formed, which is modulated with an information message and transmitted to subscriber stations, at each of which they receive a modulated PSS of the base station, and when they exit the modulated PSS is transmitted to the connection, the received modulated PTS from the corresponding subscriber station is received at the base station, the station is demodulated and an information message is extracted, and at each base station The control stations continuously generate and transmit the control PSS, which is received at the subscriber station and, by comparison with the PSS controllers received from other base stations, select the control PSS of the maximum level and transmit the required power C2 3 to the corresponding base station closest to the invention. is a system for receiving and transmitting PSS, comprising a central station, base stations and subscriber stations, each base station containing a reference frequency generator, an IC generator and serially connected transmitter, decoupling element and receiver, as well as N modems of voice channels, and information outputs receiver connected to

the first inputs of voice channel modems, to the second inputs of which the corresponding information in {central station) terminals are connected, to the information inputs of the transmitter, the first outputs of voice channel modems, the second outputs of which are connected to the corresponding information inputs of the central station, the outputs of the reference frequency generator to the corresponding inputs of the transmitter and receiver , and each subscriber station contains a frequency synthesizer, a control unit and a series connected isolator, receiver, IC demodulator, microphone telephone modulator IC, switch and transmitter, the output of which is connected to the input of the isolation element, the output of the modulator of the control signal is connected to the second input of the switch, and the receiver output to the input of the frequency synthesizer is connected to the second input of the transmitter, and the second output - to the second input of the receiver, the output of the demodulator US is connected to the inputs of the control unit, the output of which is connected to the power control input of the transmitter Z via the maximum value selection unit.

A disadvantage of the known method and system is the complication of base stations with an increase in the number of subscribers and the expansion of the used frequency range to ensure a given noise immunity.

The purpose of the invention is to simplify the equipment of the base stations by reducing the number of modems while increasing the efficiency of using the frequency band.

To achieve this goal, according to the method of reception and transmission, the PSS with frequency-code division of subscribers, in which at each station stations a PSS is formed, which is modulated with an information message and transmitted to subscriber stations, at each of which the base station is modulated, the base station is demodulated and extracted information messages, and upon going on the link they transmit the modulated PSS, at the base station the received modulated PSS from the corresponding subscriber station is demodulated and the information message, each base station forms an address in a given frequency range with non-overlapping frequency channels p common for all base stations, the control PSS The channel is free, which is emitted continuously in each free frequency channel, and at the subscriber station when the connection arrives by transmission

HS) of formation messages receive control PSS. The channel is free, over which a free frequency channel is recorded over the free frequency channel, a single PSS control channel is transmitted for all subscriber stations. The channel is transmitted to the corresponding base station for the base station. staiu.i, at the subscriber station, the addressed PSS is allocated by elementwise accumulation.

At the same time, in CHCTSF.iy for reception-transmission of GPS with frequency-frequency separation by subscribers, “containing a center station,” are base stations and E-boc stations, and each station contains a reference frequency generator, an IC generator, and additionally connected transmitters; , ps, isolating element and receiver f as well as To modem-voice channels, with the receiving terminals receiving terminals being connected to the first inputs of voice channels Modems to the second in;: which are connected appropriately; their information outputs are the center of the 1st station f to the information inputs the transmitter is connected to the transceiver channel modems that are not upstream; the second outputs of which are connected to the corresponding DBuch and information on the central station's inputs, the generator outputs: the reference frequencies are connected to the corresponding inputs of the transmitter and A miniature, and each subscriber station contains an ME with frequency frequencies, a control unit and successively connected isolating elements, a receiver, an IC demodulator, a micro-teleoonon, an IC modulator, and a transmitter, whose output is running; l: points to the input of the isolation element, and /) is connected to the second input of the switch, the output of the US modulator, and the receiver's output - to the input of the US demodulator, the first code of the frequency synthesizer is connected to the second input of the transmitter, and the second output to the second input of the receiver, on each base station entered modulator and demod The service signal receiver (CC) is connected to the clock generator, and the frequency control of the central station is connected to the input of the reference frequency generator, the service output of which is connected via the CC module to the CC input of the transmitter, the output C of the receiver is connected via the demodulator CC to the service input of the central station, - the control inputs of which are connected to the third w outputs of voice channel modems, the output of the clock generator is connected to the third inputs of the voice channel modems and to the IC generator whose output is connected to four There are delay lines, a comparison block, a mode switch and a consistently connected filter f, adder, decision unit, key and S memory block, the output of the adder through the delay line connected to the second adder input at the subscriber station. , the output of the soldering unit is connected to the first input of the comparison unit, the output of which is under the key to the control of the key input, the output of the memory unit is connected to the second input of the comparison unit and to the IC generator whose output is connected to the second IS input demodulators torus

S modulator IC and to the third input of the switch, the control output of the micro: telephone is connected to the start input f of the mode selector switch, the output of the IC demodulator is connected to the information input of the mode selector switch, and to the monitored input of the mode selector switch through the control unit , the second input of which is connected to the B1SOD of the signaling of the microphone, the clock mode of the operating mode switch is connected to the clock input of the decision unit, the control output of the operating mode switch and the frequency control output of the operating mode switch is connected to the input of the frequency synthesizer, the output of the US demodulator is connected to the synchronization input of the operating mode switch, and the receiver output is connected to the input of the matched filter.

In addition, each modem of the speech channel of the base station contains a serially connected demodulator of the US and an operation mode switch, whose address output is connected to the switch's address input directly, and the control output to the first input of the switch via the US generator, the output of the IC modulator is connected to the third input of the switch, the output of the reference signal of the operating mode switch is connected to the first input of the IC demodulator, the auxiliary output of which is connected to the control input of the mode switch Ota, wherein the combined information input operation mode switch, the input of the demodulator and a second input DC demodulation IC torus are first input of a voice channel modem, second and third inputs which

 are, respectively, the second input of the modulator of the IC and the second input of the generator US, and the combined first input of the modulator of the IC, the second input of the switch and the input of the reference signal

The 5 operating mode switches are the fourth input of the speech channel modem, the first and second outputs of which are the switch output and the first output of the IC demodulator, respectively, and the control output of the demodulator US is the third output of the voice channel modem.  FIG. Figure 1 shows the electrical structure of the system for reception and transmission of PSS; in fig. 2 shows an embodiment of a base station operation switch; in fig. H option. implementation of the switch mode of the subscriber station; in fig. 4 - timing diagrams that explain the operation of the system.  The method is carried out as follows.  In accordance with the cellular principle of communication organization, the entire service territory is divided into a large one.  the number of small zones with base stations in the center of each of them, and the frequency range provided for the system is divided into a number of subbands that are distributed between adjacent base stations.  Each subband contains a certain number of non-overlapping frequency channels, each of which is connected to one. subscriber Coy station.  To reduce the influence of mutual interference, each base station is provided with an address PTS, which is used by all subscriber stations within the range of a given base station to determine its location and transmit information.  I If the frequency channel of the base station is free, t. e.  it does not exchange information with the subscriber station, then the base station transmitter continuously emits in this frequency channel the common for all base stations control AL The channel is free.  This signal is used to synchronize the subscriber station, which, after tuning to each frequency channel, decides for a certain time on the presence of a controlled PSS.  The channel is free in the channel in question.  If the uplink PTS channel is free, the search in frequency is stopped, and at the subscriber station, the PSS control channel is formed and continuously transmitted in the same frequency channel for all subscriber stations to synchronize the base station.  The base station receives the control pulse. The channel is occupied by the subscriber station in its frequency subband and, instead of the control head, the PSS. The channel is free to transmit the address PTS to the subscriber station being served.  At the subscriber station, the disappearance of the control PSS is recorded. The channel is free and the transmission of the control P1C. The channel is terminated, while in the receiving path of the subscriber station, if there is synchronization and there is no information about the structure of the address Llnc, the transmitted sequence of the address PSS is accumulated by accumulating and sequentially correcting it. according to the results of the comparison.  The subscriber station uses the reconstructed addressing FPS to transmit its number to the base station with which it is connected, and later for the duration of the communication session with the base station for modulating and demodulating information messages.  If the subscriber is in the free movement mode and does not transmit information, the base station starts to transmit the control channel again in the free channel (PSS The channel is free.  When a mobile subscriber station enters the service area of another base station, the procedure for searching for a free channel, synchronization, and entry into communication is repeated.  The location information of the mobile subscribers is transmitted. base stations via wired communication lines to the central station, which stores the location data of all mobile subscribers and performs the necessary switching as they move.  The system for receiving and transmitting the PSS contains a central 1, base 2 and subscriber 3 stations, the latter includes 4 development components: receiver, receiver 5, demodulator 6 US, modulator 7 US, demodulator 8 IC, modulator 9 ICs, microtelephone 10, control unit 11, switch 12, transmitter 13, 14 frequency synthesizer, switch 15 operating modes, matched filter 16, adder 17, delay line 18, solver unit 19, comparison unit 20, key 21, memory unit 22 ti, generator 23 ICs, the base station includes an element 24 isolations, a transmitter 25, a receiver 26, a generator 27, reference ASTOT, 28 SS demodulator, 29 SS modulator, 30 sync pulse generator, 31 IC and N modems 32; P32 voice channels generator, each of which consists of 33 IC demodulator, 34 US demodulator, 35 operating modes switch, modulator 36 IC, generator 37 US and switch 38, moreover, the switch 35 of the operating modes of the base station contains triggers 39 and 40 of the static RS-type ;, analogue converter 41, control ling-ju 42 delay ,, block 43 av. Vekme f elements 2I 44 n 45 and inverter 46, and the switch 15 of the subscriber station operation modes contains trigger 47, generator 48, counter 49, trigger 50 p generator 51 pulse pulses counter 52, decoder 53, elements 2И 54--56 , inverter 57, - triggers 58 and 59 and one-shot 60.  The system operates as follows: 3 ohms. Transmitter 25 of base station 2 can transmit information through an element of 24 extensions over N frequency channels.  The frequency fluctuations for each frequency channel are generated by a generator 27 of the reference frequencies and c.x. fall on the common transmitter 25, as well as nipHeiviHHK 26, Interceptor 25 performs a balanced modulation of the carrier frequencies of the CS coming from 1 and from the modems 32, - 32j voice channels, after which frequency multiplexing, power amplification of the group signal and emission of radio signals to Efir are performed through element 24 of the sky.  Receiver 26 of the first bullet needs amplification of received group signals, frequency separation and balanced demodulation, with which the Bccless KCj frequencies are transmitted to the corresponding modems 32 -3 2 voice channels.  Transmitting and receiving chistognye.  Channels uniquely defined, flax. s, if received at the frequency f ,, f + (m-1) F. ,,  where f; - Г11Ирина-channel bandwidth, and f is the initial frequency of the reception band, then the transmission is made at the frequency of the subscriber station 3; the transmitted message arrives at the input of the transmitter 13; in which the carrier frequency is balanced modulated 14 frequencies ,, modulated gain. signal power and it through the element 4 decoupling, In the receiver 5, the received radio signals received through the element 4 are amplified and their 8 1 a la NS on demodulation, In each free channel the transmission is chg. W 25 of base station 2 transmits a user to a remote bus station which channel is free; it is generated by the 37 US generator when the enable signal from the switch of 35 operation modes is fed to it.  At the same time, the USE of the renepciTopa 37 CS entrance receives synchronizing EE and clock signals from the generator.  30, cHHXpoMviny. fibcoB Clock signals follow with frequency f, j. B / T, gle T - duration of PSS; B is the number of elementary pulses in the PSS / equal to the base of the pulse, and the synchronizing signals follow with the frequency f 1 / T (all the PPS generators are controlled by the synchronization and clock signals with the repetition frequency f.  and f, respectively).  At the address output of the operation mode switch 35, an appropriate code is set, which commutes to the output of the KorvwyTaTopa 38 its first input, through which the control line Channel passes through the input of the transmitter 25 and is radiated through the isolation element 24 (Fig. 4c) In the outgoing call mode, the transceiver of the subscriber station 3 is turned on when the subscriber turns on the microphone 10, and the switch of the operating mode 15 from the phone 10 receives a command to search for a free channel in frequency until the control channel is detected.  Detection is as follows.  Receiver 5 of subscriber station 3 using a 14 frequency synthesizer controlled by code signals from a switch. one. 5 modes of operation, tuned to a specific frequency channel. The receive path, including the 4 isolation element and the receiver 5 ,.  transmits the received signal (FIG.  46) to the input of the demodulator of a b / c which is configured to receive the control PSS The channel is free and demodulates the received signal for a certain time.  If the Control Channel is Free Detected, then the demodulator of the B / C sends the sequence of sync pulses with the frequency f j to the switch 15 operating modes, which stops the 14 frequency synthesizer on this frequency channel.  If the control uinc channel is not detected by the demodulator 6 US, then the switch 15 operating modes after a specified time sends a command to the 14 frequency synthesizer to go to the next frequency channel.  The moment t () corresponds to the moment of detection of controls ;; The channel is free, at this moment the switch of 15 operating modes stops the 14-frequency synthesizer and starts the J7 US modulator to set up the control | NPS channel is occupied that passes through switch 12 to the input of the transmitter}. 3 and further emitted (FIG. 46).  The LJOC control channel is connected via the path of the base station 2 (Fig, 4 g) from the output of receiver 26 to the corresponding modem 32 of the voice channel to the input of demodulator 34 US.  After detecting the control PSS, the Channel is occupied at time t (Fig. 4d) the US demodulator 34 sends clock pulses with frequency f to the mode selector switch 35. At this point, the operation mode selector 35 sets an code at which the permission to pass through the address bump 38 from the IC generator 31 is given.  Thus, after time t {fig. 4o |), the radiation of the PSS control frame is terminated. The channel is free from the base station 2 and the transmission of the address PTS starts. , At the output of the modulator b US of the subscriber station 3, the synchro-emuses disappear, which is fixed by the switch 15 of operation modes, according to which the ban on the formation and passage through the switch 12 is controlled.  From the output of the receiving path, the address BPS arrives at the circuit for restoring the structure of the received signal, since at subscriber station 3 there is no preparative information about the form of the addressable BES.  Upon receipt of the address, the PSS, distorted by interference in the radio signal propagation path, at subscriber station 3, based on the analysis of the address PSS for a number of periods, determines the signal pattern in a sensitive way. The received signal is fed to the input of the matched filter 16, then to the adder 17, to another input of which via the delay line 18 is fed the output signal of the adder delayed by time T equal to the duration of the address PTS.  The matched filter 16, the adder 17 and the delay line 18 are a recirculating drive that is the optimal device for receiving a periodic sequence of pulses and provides the necessary filtering of the address PSS from channel interference. The filtered address FPS as a sum liinc for several periods goes to decision block 19, to the other input of which incoming pulses are received with a clock frequency of J.  From the output of the decisive block, the address THS in the form of a sequence of binary symbols enters the comparison block 20 and through the key 21 into the memory block 22.  With a large number of savings, the number of errors decreases.  Received in block.  22, the memory sequence controls the generator 2 of the IC, from the output of which the address gateway through the switch 12 enters the transmitter 13 and is radiated.  At the beginning of the work during the restoration of the structure, the received address 1 × PPS may differ significantly from those transmitted by the base station 2.  However, with an increase in the number of accumulations, the number of errors decreases and a moment comes when their number reaches a predetermined level.  This time is determined by the comparison unit 20, which locks the key 21, and the memory unit 22 stores the code sequence of the last address PTS.  Subsequently, the IC generator 23 periodically with the frequency f generates an address BSS whose structure is recorded in memory block 22, and sends the address tinc as a reference code to the inputs of the IC modulator 9 and the IC demodulator 8.  The output of the modulator 9 ICs through the switch 12 is connected to the input of the transmitter 13.  As a result, the transmitting and receiving paths of the subscriber station 3 are ready to transmit and receive information.  Starting from the moment tj (FIG. 4d) the 2-address PSS received at the base station is fed to the IC demodulator 33 and to the information input of the operation mode switch 35, in which mutual synchronization is performed on the delay of the received address CRP and the reference signal received from the IC generator 31, as well as detection of errors caused by interference in the radio propagation path and inaccurate restoration of the signal structure at the subscriber station 3.  As soon as the number of errors becomes less than admissible, the mode selector switch 35 gives the switch 38 the command to connect the output of the modulator 36 of the IC to the input of the transmitter 25.  Thus, the transmitting and receiving paths of the base station 2 are ready to exchange messages with the subscriber station 3 and the central station 1.  At time t (FIG. 45) the synchronization entry mode is terminated at the subscriber and base stations, the transmission and reception of information messages begins.  In the mode of receiving information from subscribers in the demodulator 33 of the IC of the base station 2, the feature transmitted from the subscriber station 3 is highlighted, which from the additional output of the demodulator 33 NN enters the mode selector switch 35.  In an outgoing call, this sign accompanies a discrete message transmitted to the central station containing the number of the called subscriber.  By this feature, the operation mode switch 35 keeps the switch 38 in a state that ensures the transmission of information signals from the output of the modulator 36 -IC to the transmitter 25.  Thus, the reception and transmission of telephone messages between the central 1, base 2 and subscriber 3 stations is ensured.  In the mode of free movement of subscribers in the service area on the centre station 1, the location of each mobile subscriber station 3 is continuously recorded. For this purpose, the subscriber station 3, which is located in the coverage area of base station 2, is transmitted to its own number, accompanied by a corresponding sign.  In this case, the switch 35 modes of operation after the transfer to the central station 1 of the number of the new subscriber station 3 switches the switch 38 to the passage of the charger NPC Channel-free from the generator 37 US.  At central station 1, a new subscriber location is registered in the system, and this frequency channel is released.  To place an incoming call (mobile subscriber call from central station 1) on.  The base station 2 is operated by the 29 CC modulator and the 28 SS demodulator. Through the 29 CC modulator, the called subscriber numbers coming from the central station 1 and service information are transmitted. In the mode where the subscriber is free from negotiations, the transceiver of the subscriber station 3 is set to.  call signal reception.  When an individual number of the subscriber station 3 is detected in the general call flow from the output of the demodulator 8 of the IC to the telephone 10, a call signal of this abbreviation is sent. enta, and on the switch of 15 operating modes, the command for setting the synthesizer 14 frequencies to the provided free frequency channel.  When a subscriber moves in the service area, the level of the signal at the output of the demodulator 8 of the IC of the subscriber station 3 is monitored by control unit 11, which. Depending on the condition of the microphone 10 (on or off), the 15 modes of operation switch to one of the two commands: configure the 7 US modulator to form service SPC Worse to find a new quality control free frequency channel on the controller. sps The channel is free to transmit the official number of the subscriber station 3.  When the headset is turned on, the serial YLS Degradation is received at base station 2 and transmitted to the central station, which tunes the receivers of the neighboring base stations to detect the service G. GC Deterioration, selects a new frequency channel, which is provided by subscriber station 3 to continue receiving and transmitting telephone messages.  At the neighboring base stations, the detection of service PSS.  The degradation of the quality is accomplished by the demodulator 28 SS after tuning the receiver 26 to the corresponding frequency channel by a command sent to the reference generator 27; frequencies from central station 1.  With the microtelephone 10 turned off, the procedure for synchronizing and transmitting the number of subscriber station 3 is similar to the operations performed to determine the subscriber's location when the subscriber station 3 is turned on.   When the stations are turned on, the triggers 39 and 40 of the operating mode switch 35 are reset to zero by a reset signal received at the R inputs. The forward outputs of the trigger 39 and 40 form a two-bit control code for the operation of the switch 38. In the initial state (OO), switching is performed. the first input of the Lrmmutator 38 for the passage of the control 1LS Channel is free from the generator 37 US, the core is controlled by a signal from the inverse output of the trigger 40.  When a sync pulse sequence arrives from demodulator 34, Trigger 40 is triggered, while the new control code (01) provides such a mode of the switch 38 when the address of the PSS arrives at the input of the transmitter 25 and the control PLC emits the channel to free.  In order to synchronize the base station, the analog converter 41 analyzes the signal delay time from the subscriber station 3 and accordingly adjusts the delay value of the signals from the generator on the controlled delay line 42. Pa 31 of the ICs arriving at the input of the demodulator 33 of the IC The delayed signal simultaneously arrives at the comparison unit 43 to determine the number of errors in the address PTS recovered at the subscriber station 3.  If their number exceeds the threshold level, the radiation of the addressing continues, otherwise the signal from the output of the comparator unit 43 is supplied to elements 2I 44 and 45, at which the presence of a sign received at the base station of the message is analyzed.  With a zero sign, the triggers 39; And 40 of the operation mode switch 35 are reset to resume the transmission of the control PSS. The channel is free,

If there is a single feature, the trigger 39 is brought to the state of the logical unit and the two-digit code (11) on the control code of the switch 35 {operation mode switches the switch to the message transfer mode from the modulator 36 of the IC.

When the subscriber station 3 is turned on, the triggers 47 and 59 of the operation mode switch 15 are brought to the zero state and the generator 48 is turned on, which with the help of the counter 49 generates the control code for the frequency synthesizer 14.

Upon detection of the control signaling circuit, the channel is free of the signal from the demodulator of the torus 6, the US sets the trigger 47 to a single position, the generator 48 stops, and the frequency search stops.

The signal from the direct output of the trigger 47 is fed to the generator 51 of the macro BHX pulses and the trigger 50, the signal from the output of which provides the control transmission, its PSS channel is occupied.

The counter 52 and the remoter 53 generate frame synchronization signals with a frequency fg arriving at the 2I 55 and 56 elements. If there is a control PSS, the channel is free, the signal from the output of the 2I 55 element performs a time adjustment

generator 51 clock pulse. Since the termination of the receipt of the manager. The channel is free signal from the output of the inverter 57 causes the trigger 50 to the zero state and through the trigger 58 allows the clock to pass through the element 2I 54 to the input of the decision block 19. The trigger 59 and the one-shot 60 provide the formation of the PCS

0 Poor quality. Upon transition, the subscriber to the new zone will receive a new frequency channel, the code of which is transmitted from the central station and fed from the output of the de modulator 8 of the IC to the counter 49 of the operation mode switch 15.

The proposed method is to provide each base

0 station of address spac for communication with subscribers, allows to significantly reduce the required volume of the signal system and thereby achieve a more efficient use of the range

5 frequencies are unchanged quality of transmitted messages. The absence in the subscriber station of a priori information about the structure of addressable BSPSs of base stations and their restoration for transmitting messages significantly reduces the memory size of subscriber stations and excludes the equipment for generating and processing signals of all subscriber stations from base station equipment.

FIG. Z

ff

7t

.

Claims (1)

1. The method of reception and transmission of wide * band-pass signals, with frequency-code division of subscribers., In which a broadband signal is formed at each base station, which is modulated by an information message and transmitted to subscriber stations, at each of which a modulated wide-band signal of the base stations, demodulate and isolate information messages, and when communicating, they transmit a modulated broadband signal, at the base station the received modulated broadband signal from the corresponding subscriber station demodulate and allocate an information message, characterized in that, in order to simplify the equipment of the base stations by reducing the number of modems while increasing the efficiency of the use of the frequency range, an address broadband signal is generated at each base station in a predetermined