RU2097941C1 - Device for addressed reception - Google Patents

Abstract

FIELD: communication equipment, in particular, network of radio stations which operate in different networks and modes. SUBSTANCE: device has switch, signal converter, comparison unit, integrator, solver, generator, frequency divider, control register, decoder, two- state element, pulse selector. EFFECT: decreased time for establishing connection for different operation modes and types of user sets, possibility to receive formal commands due to increased information capacity of calling signals. 1 dwg

Description

 The invention relates to communication technology and can be used to receive targeted (selective, selective) call signals from several radio stations operating in various modes and radio networks.

 A number of devices are known for receiving selective calling over several radio channels.

 The main disadvantage of these devices is that the establishment of communication between subscribers takes considerable time. Moreover, the process of establishing special radio communication modes is the longest. This is due to the fact that after receiving an address call, subscribers exchange callsigns and make sure that there is a connection between them, then, using conditional phrases or negotiation tables, they agree on the transition to a certain radio mode and the type of communication terminal equipment on which they will work. After that, the equipment turns on, the necessary operating modes are set, and the subscribers again enter into communication.

 Thus, the total time of getting into communication is 2-3 orders of magnitude longer than the transmission (reception) of the address call signals.

 The closest in technical essence to the claimed object (prototype) is "A device for receiving an address call, containing a switch, a control register, a signal converter, a clock generator, a decoder, a comparison unit, an integrator, a bistable element, an indication unit, a frequency divider, an element And, OR element and reset element.

 However, this device has the same disadvantages as the above counterparts.

 To eliminate the noted drawbacks, an address call receiving device containing a switch connected in series, a signal converter, a comparison unit and an integrator, a generator, a frequency divider and a control register connected in series, as well as a decoder and a bistable element, while the control register output is connected to the switch input and the second input of the decoder, the output of which is connected to the second input of the comparison unit, the second output of the signal converter is connected to the input of the generator, the second the path of which is connected to the input of the decoder, and the first output of the integrator is connected to the input of the bistable element, is equipped with a pulse selector and a decider in series, the output of the signal converter being connected to the input of the pulse selector, the output of the control register connected to the second input of the integrator, the second output of which is connected to the control input of the deciding device, and the output of the bistable element is connected to the second input of the frequency divider.

 A comparative analysis of the claimed device with the prototype shows that the proposed solution is characterized by the presence of new blocks (pulse selector and solver), a reduced composition of the blocks included in the prototype, and new connections between the elements of the proposed device.

 Thus, the proposed device meets the criteria of the invention of "Novelty."

 Comparison of the proposed device with other technical solutions shows that the introduced blocks are known. However, their introduction into the proposed device in the indicated relationships with other elements allows one to obtain new properties, which leads to an increase in the information content of the output signals and a reduction in the time of establishing radio communications in various modes, characterized by the use of one or another type of terminal communication equipment.

 This allows us to conclude that the technical solution meets the criterion of "Significant differences".

 An address call receiving device, the structural electrical circuit of which is shown in FIG. 1, contains a series-connected switch 1, a signal converter 2, a comparison unit 3, an integrator 4 and a decision block 5, a series-connected clock 6, a frequency divider 7 and a control register 8, as well as a decoder 9, the output of which is connected to the second input of block 3 comparison, the bistable element 10 and the pulse selector 11, while the output of the control register 8 to the control inputs of the switch 1, the decoder 9 and the reset input of the integrator 4, the second output of which is connected to the input of the bistable element 10, the output of the cat It is connected to the reset input of the frequency divider 7, the output of the signal converter 2 is connected to the input of the pulse selector 11, the outputs of which are connected to the inputs of the deciding unit 5, the second output of the signal converter 2 is connected to the clock input of the clock generator 6, the second output of which is connected to the clock input of the decoder nine.

 The device for receiving an address call operates as follows.

Call signals exchanged between subscribers of a multi-channel communication system are pulse code sequences (for example, M-sequences) transmitted over communication channels in the form of a sequence of two tonal frequencies. In this case, one of the frequencies f ₁ corresponds to a single pulse, the second f _{2 to} zero.

 To ensure special communication modes, each subscriber is allocated a certain set of equipment on which this communication can be carried out. When establishing special communication modes, information about the type (number) of a particular equipment is transmitted to the called party in the form of a specific duration (or a combination of durations) of zero and single pulses.

 The outputs of the analyzed channels of the multichannel communication system using the switch 1 are alternately connected to the input of the signal converter 2, which generates certain pulse sequences in accordance with the incoming information, which are fed to the first input of the comparison unit 3, and, in addition, are used to synchronize the phase of the generator 6, which a clock for the decoder 9, the output of which is connected to the second input of the comparison unit 3.

 The decoder 9 provides the formation of a code sequence (M-sequence) corresponding to the address of the receiver of the address call. The formation of M-sequences is carried out in a known manner using a shift register with logical feedbacks.

 The operation of the switch 2 and the change of code sequences coming from the output of the decoder 9 is provided by the control register 8. The clock pulses for the control register 8 are formed by dividing the sequence of clock pulses generated by the clock generator 6 using a frequency divider 7. In this case, the pulse repetition period from the output of the frequency divider 7 determines the time for which the address call receiver is connected to the analyzed communication channel.

 Block 3 compares the received code sequence with the code sequence received from the output of the decoder 9. The code sequences are compared on a pulse-by-word basis. The coincidence of each pair of pulses is fixed in the integrator 4. Integrator 4 can be implemented on the basis of a decimal counter that provides counting N coincidence pulses (the Number N is selected from the admissible probability of false reception of a code pattern with a length of N elements).

 When the first pulse of coincidence appears, the signal from the output of the integrator 4 is fed to the input of the bistable element 10. The bistable element 10 is a waiting multivibrator, which forms a pulse under the influence of this signal. The duration of the multivibrator pulse is chosen so that during its operation, counting N coincidence pulses is ensured. From the output of the multivibrator, the pulse is fed to the reset input of the frequency divider 7, which is transferred to the zero (initial) state. This prevents the arrival of pulses from the output of the frequency divider 7 to the control register 8 and switching to another channel for the entire analysis of the channel on which the call arrived.

 After counting N pulses of coincidence of information about this from the first output of the integrator 4 is issued to the decisive unit 5. This signal indicates a call and at the same time is permissive for unit 5 to process the information received at other inputs.

 If, for any reason, N coincidence pulses are not calculated, the integration results are not displayed and, upon completion of the pulse of the bistable element 10, with the next clock pulse coming from the frequency divider 7, the device proceeds to the analysis of the next channel. In this case, the signal appearing at the output of the control register 8 is also fed to the reset input of the integrator 4, translating it into the zero (initial) state. Thus, each transition to the analysis of the next channel in the device ensures the obligatory zeroing of the integrator 4, which helps to prevent false operation of the device due to the presence in the integrator 4 of residual information about the results of the analysis of the previous channel and ensures reliable operation of the device.

 Simultaneously with the reception of a code pulse sequence of a call signal, the device extracts information embedded in the durations of single and zero pulses, i.e. information about the communication mode and the equipment used. The selection of this information is provided using the selector 11 pulses.

 The pulse selector 11 is a set of pulse duration selectors, each of which provides only a strictly defined duration from its input to the output of the pulses. The principles for the technical implementation of such devices are widely known.

Since each subscriber of the communication system is allocated an individual set of equipment, each type of equipment can be equally numbered for all subscribers, and information on the number of equipment will carry the duration (combination of durations) of the pulses of the call signal. For example, a single impulse with a duration of τ ₁ t determines the use of equipment of the 1st type; a single pulse with a duration of τ ₁ 0,8t - the use of the 2nd type, etc. zero pulse of duration τ ₀ 0.7t - use of i-1 type of equipment; impulse τ ₀ 0.6t using the ith type of equipment. Thus, using only three gradations of the durations of single and zero pulses, information can be transmitted on nine types (numbers) of equipment, which is usually 1.5-2 times the number of equipment installed at subscribers' workstations. This allows you to use the remaining combinations to transmit formalized commands.

 From the output of the signal converter 2, the pulses of the address call code sequence are fed to the input of the pulse selector 11 and appear on one (or two when using combinations of pulse durations) from its outputs, from which they are fed to the input of the decision block 5. In block 5, depending on the received signals, the corresponding alarm is triggered, for example, an LED lights up, the number of which corresponds to the number of the operating mode proposed for use, and a signal is issued to turn on the required equipment.

 Thus, the device for receiving an address call provides a significant reduction in the time it takes to establish various operating modes and subscribers to enter into communication.

Claims (1)

 An address call receiving device comprising a switch, a signal converter, a comparison unit, an integrator and a bistable element, a clock generator and a frequency divider connected in series, a control register and a decoder connected in series with the other input of the comparison unit, the clock input of the decoder is connected to the corresponding output of the clock generator, the synchronizing input of which is connected to the corresponding output of the signal converter, and the control The input of the switch is connected to the output of the control register, characterized in that a pulse selector and a deciding unit are connected in series, the output of the signal converter being connected to the input of the pulse selector, the output of the control register connected to the reset input of the integrator, the other output of which is connected to the control input of the deciding unit, the output of the bistable element is connected to the reset input of the frequency divider, the output of which is connected to the input of the control register.