RU2136050C1 - Subscriber's call identifying discriminator - Google Patents

Abstract

FIELD: automatic control and communications including electronic fire alarm. SUBSTANCE: device has a number of subscriber's sensors each being provided with interface unit connected to power supply through first resistor and single shared alarm line; it also has series-interconnected pulse generator, pulse selector, counter, register, and decoder with light-indicator unit, as well as voice indicator unit, pulse shapers, NAND coincidence circuits, OR circuits, flip-flops, and push-button whose first contact is connected to common wire. One channel of device functions to compare length of signal arriving at shared alarm line with maximum possible length of expected noise. Second channel is used to determine difference between length of signal arriving at shared alarm line and predetermined maximum possible length of expected noise; if this difference is above zero, data on mentioned difference is stored in register. Third channel is control channel that functions to generate signal enabling transmission of information about address of subscriber's sensor that has operated to audio and light indicating units or signal disabling transmission of such information. It also initiates device resetting. EFFECT: improved reliability of subscriber call and eliminated noise appearing during address pulse transmission. 2 cl, 3 dwg

Description

 The invention relates to the field of automation control and communication, including electronic security and fire alarms.

 A fire alarm device is known according to the author's certificate of the USSR N 1298789, MKI G 08 B 23/00, containing sensors connected to the receiving console by a beam consisting of separate buses, a pulse selector, a delay element, triggers, an encoder, a register, a block of indicators. This device has high noise immunity due to the fact that interference pulses appearing on the input buses do not cause the device to trip due to the use of a pulse selector, the output of which appears only if there is a pulse at its input with a duration more than predetermined, and this duration is known to be longer duration of the interference pulse. The signal from one of the tires goes to an indicator that signals an emergency situation at the facility, determined by the bus number, and the indicator of the cause of the accident also turns on. Subsequent pulses make the emergency indicators light up, and the status of the indicator of the cause of the accident will remain unchanged.

 The disadvantage of the invention as. N 1298789 is the presence of a large number of wires in the bus, each of which connects one subscriber to the receiving input of the alarm device, which leads to a significant increase in the cost of the device, an increase in its weight and dimensions.

 A fire alarm device according to the patent of the Russian Federation N 2024062, MKI G 08 B 17/00, adopted by the authors as the closest analogue of the prototype, is also known. The device contains sensors, a communication line, a pulse selector, a register, light and sound indication blocks, a power supply.

 In order to increase work efficiency, simplify the device and increase noise immunity, an optocoupler element, a current-limiting resistor, an amplifier, a pulse generator, the first, second, third and fourth pulse shapers, an OR element, an initial installation button, a counter, a decoder, blocks were introduced into it interfacing according to the number of sensors, a pulse selector containing a counter, the counting input of which is the counting input of the pulse selector and connected to one input of the And element, zeroing the counter input and one input of three the hera are combined and are the zeroing input of the pulse selector, the counter output is connected to another trigger input, the output of which is connected to another input of the And element, the output of which is the output of the pulse selector, each interface block contains the And element, one input of which is the information input of the interface unit and is connected to the corresponding communication line of the device, the input of the first integrator and one key terminal are combined to form the synchronization bus of the interface unit, the other key terminal, the common output of the first and second horn of integrators and one terminal of the installation button are connected to one power terminal of the device, the input of the second integrator is connected to another power bus of the device, the output of the first integrator is connected to another input of the And element, the output of which is connected to one input of the trigger, the output of the second integrator and the other terminal of the installation button connected to another trigger input, the output of which through a single-shot is connected to the control input of the key, the input buses of the device are connected respectively to the information inputs of the pairing units The sync buses of the coupler units are combined and connected to one input terminal of the optocoupler element, the other input terminal of which is connected via a current-limiting resistor to another device power terminal, the output of the optocoupler element through the amplifier is connected to the triggering input of the pulse generator, the first input of the first pulse shaper and one input of the OR element, the output of the first pulse shaper is connected to another input of the OR element, the output of which through the second pulse shaper it is connected to the zeroing input of the pulse selector and the input of the third pulse generator, the output of the pulse generator is connected to the counting input of the pulse selector, the output of which is connected to the counting input of the counter and the triggering input of the sound signaling device, the output of the third pulse generator is connected to the clock input of the register and through the fourth pulse generator to resetting the counter input, the initial setting button is connected to the resetting input of the first pulse shaper and the mute signal input izatora, a register output through the decoder unit connected to a light indicator.

 The device according to patent N 2024062 rejects an interference pulse arising at the input in the absence of an address signal from a subscriber, and also eliminates the mutual overlap of address signals from two or more subscribers.

 The main disadvantage of the invention according to the patent of the Russian Federation N 2024062 is the lack of reliability of the call of a particular subscriber due to the lack of the ability of the device to sweep away the possible interference during the generation of the address signal. In this case, the prototype device can generate a distorted signal, leading to false actions of the operator.

 The objective of the invention is to increase the reliability of a call to a particular subscriber, which is solved by the technical result, namely, eliminating the influence on the information about the number of the triggered sensor of the subscriber interference that occurred during the duration of its address pulse, by comparing the maximum possible duration of the expected interference and the duration of the interference that arose in the collective signal line.

 The specified technical result is achieved due to the fact that in the selective identification device of the call from the subscriber, containing a number of subscriber sensors, each of which is equipped with a pairing unit, and to each pairing unit is connected a power supply unit through a first resistor and a single collective signal line connected in series between a pulse generator, a pulse selector, a counter, a register and a decoder with a light indication unit, as well as an audio indication unit, pulse shapers, circuit boards adenia NAND, OR circuits, triggers and a button, the first contact of which is connected to a common wire, at the suggestion of the authors, the trigger input of the pulse generator through the first trigger, the clock input of the register through the pulse shaper are connected to the output of each pair , the pulse shaper of the maximum duration of the expected interference, the inverter NOT, and the first input of the matching circuit 4I-NOT, to the output of the pulse shaper of the maximum duration of the expected interference and to the output of inv The driver is NOT connected by the corresponding inputs to the first matching circuit 2I-NOT, to the second input of the matching circuit 4I-NOT connected via the second pulse shaper to the output of the pulse shaper of the maximum duration of the expected interference, to the third input of the matching circuit 4I-NOT connected the output of the second trigger, the resetting input of which is connected with the output of the first coincidence circuit 2 AND NOT through circuit 2 OR, and the output of the first pulse shaper and the clock input of the register are connected to the installation input of the second trigger, to the output of the circuit coincides 4I-NOT connected the installation input of the third trigger and the first input of the 4 OR circuit, the first input of the 2I matching circuit is connected to the output of the third trigger, the second input of which is connected to the output of the fourth trigger, the installation input of which is connected to the output of the second 2I-NOT matching circuit, the first the input of which is connected to the inverse output of the circuit of the first pulse former, to the second input of the second coincidence circuit 2I-NOT connected is the output of 2I-NOT circuit, the inputs of which are connected to the corresponding outputs of the counter, the output of circuit 2I is connected nen with the enable input of the decoder, zeroing the input of the third and fourth triggers are connected to the second contact of the button, to the second input of the OR circuit 4 and to the second resistor, which in turn is connected to the power supply, at the same time the third input of the OR circuit 4 is connected to the third a resistor connected to the power supply and a capacitor connected to a common wire, while the output of the OR circuit 4 through the third pulse former is connected to the zeroing input of the counter, pulse selector and the first trigger, to the fourth input of the circuit 4 OR the output of the third 2I-NOT coincidence circuit, the first input of which is connected to the inverse output of the N OR circuit, and the second input is connected to the inverse output of the first pulse shaper, in addition, the inverse output of the pulse shaper of the maximum duration of interference is connected to the fourth input of the 4I-NOT matching circuit, the second input of the OR circuit 2 is connected to the second contact of the button and the outputs of the decoder are connected to the triggering input of the sound indication block through the OR circuit.

 Between a single signal line of collective use and the inputs of the pulse shaper of the maximum duration of the expected interference, the inverter NOT, the first pulse shaper, the setup input of the first trigger and the first input of the 4I-NOT matching circuit, a optocoupler and an amplifier can be connected in series, while the power supply unit is made in in the form of two galvanically isolated power sources, the output of the first power source being connected via a power bus to all interface units and through a first resistor and vetodiod optocoupler is connected with a common signal line shared, and the second power supply output is connected to the cathode of the optocoupler photodetector and through a power bus coupled to the amplifier and the device chips, wherein the anode of the optocoupler photodetector coupled to the input of the amplifier.

 A selective device for identifying a call from a subscriber provides an increase in the reliability of recognition of a call of a particular subscriber by reducing the effect of interference on the information about the number of the triggered sensor located on a specific object. This technical result is achieved in cases where interference occurs in the time interval from the moment the subscriber’s sensor is triggered until the end of the subscriber’s signal generation. And in the case when interference occurs when there is no subscriber signal, a false alarm is eliminated due to the double comparison of the maximum possible duration of the expected interference and the duration of the interference that arose in the signal line for collective use.

In FIG. 1 is a block diagram of a selective subscriber call identification device as a basic implementation example;
in FIG. 2 is a block diagram of a selective device with modernization elements;
in FIG. 3 - plot voltage at the output of the device blocks.

 A selective subscriber call identification device (Fig. 1) contains a number of subscriber sensors 1, each of which is equipped with a pairing unit 2. Each power supply unit 2 is connected to a power supply unit 3 directly and through a first resistor 4 and a single collective signal line 5. The device also contains a pulse generator 6, a pulse selector 7, a counter 8, a register 9, and a decoder 10 with a light indication unit 11, as well as an audio indication unit 12 connected in series with each other. To the output of each pairing unit 2 through a common signal line 5 for collective use, the trigger input of the pulse generator 6 is connected via the first RS-trigger 13, the clock c-input of register 9 through the first pulse driver 14, the pulse driver 15 of the maximum duration of the expected interference, the inverter is NOT 16 and the first input of the matching circuit 4I-NOT 17. To the output of the pulse shaper 15 of the maximum duration of the expected interference and to the output of the inverter NOT 16 is connected the corresponding inputs to the first matching circuit 2I-NOT 18. To the second at entry coincidence circuit 4I NOR 17 is connected via a second pulse generator 19 output a pulse shaper 15, the maximum duration of the expected interference. The Q-output of the second RS-flip-flop 20 is connected to the third input of the matching circuit 4I-NOT 17, the zeroing R-input of which is connected to the output of the first matching circuit 2I-NOT 18 through the circuit 2 OR 21, and to the installation S-input of the second RS-flip-flop 20 the output of the first driver 14 of the pulse and the clock c-input of the register 9 are connected. To the output of the matching circuit 4I-NOT 17 are connected the installation S-input of the third RS-trigger 22 and the first input of the circuit 4 OR 23. To the Q-output of the third RS-trigger 22 connected the first input of the matching circuit 2I 24, to the second input of which is connected the Q-output of four th RS-trigger 25, to the mounting S-input of which is connected to the output of the second NOR 2I coincidence circuit 26. The first input of the second matching circuit 2I NOR 26 is connected to the inverted output of the circuit of the first pulse shaper 14. The output of the N OR 27 circuit, the inputs of which are connected to the corresponding outputs of the counter 8, is connected to the second input of the second coincidence circuit 2I-NOT 26. The output of the coincidence circuit 2I 24 is connected to the resolving E-input of the decoder 10. Zeroing the R-input of the third RS-flip-flop 22 and the fourth RS-flip-flop 25 is connected to the button contact 28, with the second resistor 29, which in turn is connected to the power supply unit 3. A third resistor 30 connected to the power supply unit 3 and a capacitor 31 connected to a common wire 32, to which another button contact 33 is connected, are connected to the third input of the OR 4 circuit 4. The output of circuit 4 OR 23 through the third driver 34 of the pulse is connected to the zeroing R-input of the counter 8, to zeroing the R-input of the selector 7 pulses and zeroing the R-input of the first RS-trigger 13. To the fourth input of the circuit 4 OR 23 is connected the output of the third matching circuit 2I-NOT 35, the first input of which is connected to the inverse output of the N OR 27 circuit, and the second input is connected to the inverse output of the first pulse shaper 14. The inverse output of the pulse shaper 15 of the maximum duration of the expected interference is connected to the fourth input of the matching circuit 4I-NOT 17. The second input of the circuit 2 OR 21 is connected to the contact 28 of the button. The outputs of the decoder 10 are connected to the triggering input of the sound indication unit 12 through an OR 36 circuit. Between a single collective signal line 5 (Fig. 2) and connected together in parallel with the input of the pulse shaper 15 of the maximum duration of the expected interference, the input of the inverter NOT 16, the input of the first shaper 14 pulses, the installation S-input of the first RS-trigger 13 and the first input of the matching circuit 4I-NOT 17 are connected in series to the optocoupler 37 and amplifier 38, and the power supply unit 3 in this case is made in the form of two galvs unconnected power sources 39 and 40, and the output of the power source 39 is connected via a power bus 41 to all conjugation units 2, and through the first resistor 4 and the LED 42 of the optocoupler 37 is connected to a single signal line 5 for collective use, and the output of the power source 40 is connected to the cathode of the photodetector 43 of the optocoupler 37 and through its power bus 44 is connected to the amplifier 38 and the device microcircuit, while the anode of the photodetector 43 of the optocoupler 37 is connected to the input of the amplifier 38.

 A selective device for identifying a call from a subscriber (Fig. 1) operates as follows. When you turn on the power supply 3 by means of a third resistor 30 and a capacitor 31, the pulse selector 7, counter 8, first RS-trigger 13, second RS-trigger 20, third RS-trigger 22 and fourth RS-trigger 25 are reset, due to the fact that during the time determined by the parameters of the third resistor 30 and capacitor 31, a low voltage level is maintained at the third input of the OR 4 circuit 4, as a result of which the third pulse shaper 34 generates a zeroing pulse.

 The following is a description of the operation of the device for three situations arising in the absence or presence of interference.

 Situation 1. There is no interference in the time interval from the moment the subscriber’s sensor is triggered until the end of the signal generation. When one of the sensors 1 located in one of the premises of the protected object is triggered, the conjugation unit 2 of the triggered sensor 1 generates a voltage pulse at the output (Fig. 3) of a specific duration for it. On the leading edge of this signal at the Q-output of the first RS-trigger 13 sets a high voltage level. From this moment, the pulse generator 6 begins to generate voltage pulses of a fixed frequency, which are fed to the input of the pulse selector 7. In the selector 7, the time of continuous arrival of pulses from the generator 6 is compared with a predetermined maximum duration of the expected interference, and if the time of the continuous arrival of pulses from the generator 6 relative to the time of the predetermined maximum duration of the expected interference is exceeded, the pulses of the generator 6 are transmitted to the counting input of the counter 8 through the selector 7. On the trailing edge of the signal generated by the interface unit 2, the first pulse shaper 14 is launched, the output signal of which is fixed in the register 9, the number of pulses counted by counter 8 and sets a high voltage level at the Q-output of the second RS-flip-flop 20. At the same time, the pulse shaper 15 of the maximum duration of the expected interference is started. The first 2I-NOT 18 circuit compares the signal levels from the pulse shaper 15 of the maximum duration of the expected interference and the level of the inverted signal coming from the output of the inverter NOT 16.

 In the absence of interference in the interval of the duration of the signal generated by the interface unit 2, a voltage pulse will not be generated at the output of the first matching circuit 2I-NOT 18 and, therefore, a high voltage level will remain at the Q-output of the second RS-flip-flop 20. At the same time, when the trailing edge of the signal is formed, the output of the N-OR circuit 27 and the inverse output of the first pulse shaper 14 have a high voltage level, which causes the fourth RS-flip-flop 25 to be installed at the Q-output through the second matching circuit 2I- NOT 26. On the trailing edge of the pulse generated by the pulse shaper 15 of the maximum duration of the expected interference, the second pulse shaper 19 is launched, which generates a pulse of a high voltage level with a duration equal to the maximum Call duration of the expected interference. At this time, a high voltage level is present at all four inputs of the 4I-NOT 17 matching circuit and a pulse is generated at the output of the 4I-NOT 17 matching circuit, setting a high voltage level at the Q-output of the third RS-flip-flop 22. Thus, at both inputs of the matching circuit 2 and 24 there is a high voltage level, which allows the decoder 10 to issue the address stored in the register 9 of the activated sensor 1 to the light indication unit 11 and start the sound indication unit 12 through the OR circuit 36 (Figs. 1 and 3).

 When forming at the output of the coincidence circuit 4I-NOT 17, at the output of the OR 4 circuit 4, the third pulse shaper 34 is launched through the OR 4 circuit 23. The output signal of the third pulse shaper 34 resets the counter 8, the pulse selector 7 and the first RS-trigger 13. Thus , the selective call identification device from the subscriber transmitted the address of the triggered sensor 1 and prepared to receive the next signal. Turning off the light block 11 and the sound indication block 12 is carried out by the operator by interlocking the contacts 28 and 33 of the button. As a result of the closure of the contacts 28 and 33 between themselves, the third RS-flip-flop 22, the fourth RS-flip-flop 25, and the second RS-flip-flop 20 are reset through the OR 2 circuit 21 and the first RS-flip-flop 13 through the OR-circuits 4 and the third driver 34 momentum. This is how the device operates in the absence of interference.

 Situation 2. The occurrence of interference in the time interval from the moment the subscriber’s sensor is triggered until the end of the subscriber’s signal generation, excluding the period of time not exceeding the maximum duration of the expected interference at the beginning and end of the signal duration.

 When one of the sensors 1 is activated, its interface unit 2 generates a voltage pulse of a specific duration for it at its output. On the leading edge of this pulse (Fig. 3), a high voltage level is set at the Q-output of the first RS-trigger 13. From this moment, the pulse generator 6 begins to generate voltage pulses of a fixed frequency, which are fed to the input of the pulse selector 7. 3 to the selector 7, the time of continuous arrival of pulses from the generator 6 is compared with a predetermined maximum duration of the expected interference, and in case of exceeding the time of the continuous arrival of pulses from the generator 6 relative to the time of the predetermined maximum duration of the expected interference, the pulses of the generator 6 are transmitted to the counting input of the counter 8 through the selector 7. At the time of the appearance of interference superimposed on the signal of the pairing unit 2 of the triggered sensor 1, its leading edge is perceived by the device as a trailing edge t subscriber signal and said rising edge of the pulse interference is started first pulse shaper 14, the output of which records in the register 9, the counted pulse number counter 8 and installs the Q-output of the second RS-trigger 20, a high voltage level. At the same time, the pulse shaper 15 of the maximum duration of the expected interference is started. The first 2I-NOT 18 circuit compares the signal levels from the pulse shaper 15 of the maximum duration of the expected interference and the level of the inverted signal coming from the output of the inverter NOT 16. Due to the fact that the duration of the interference pulse is less than the duration of the pulse generated by the pulse shaper 15 of the maximum duration of the expected interference, by the output of the first coincidence circuit 2I-NOT 18 generates a pulse, which, using circuit 2 OR 21 sets the Q-output of the second RS-trigger 20 low voltage level, resulting in and the output of the coincidence circuit 4I NOR 17 will remain high voltage level, and the voltage at the Q-output of the third RS-flip-flop 22 will remain low. Therefore, the decoder 10 will not receive permission from the matching circuit 2I 24 to transmit information stored in the register 9, the light indication unit 11 and the sound indication unit 12. When subsequent interference pulses appear, the device operates as described above until the end of the subscriber's signal duration. After the formation of the trailing edge of the subscriber’s signal is completed, information is transmitted on the number of the triggered sensor 1 stored in register 9 by the decoder 10 to the light indication unit 11 and the sound indication unit 12 is started by means of the OR circuit 36.

 Situation 3. The occurrence of interference in the absence of a subscriber signal in a single line 5 collective use. When the leading edge of the interference pulse appears in the absence of a subscriber signal, a high voltage level is established at the Q-output of the first RS-trigger 13, and the pulse shaper 15 of the maximum duration of the interference is launched. From this moment, the pulse generator 6 begins to generate voltage pulses of a fixed frequency, which are fed to the input of the pulse selector 7. In the selector 7, the time of continuous arrival of pulses from the generator 6 is compared with a predetermined maximum duration of the expected interference. By the time the trailing edge of the interference pulse appears, the output of the 7 pulse selector and at the outputs of the counter 8 will have a low voltage level, since the pulse duration of the interference that has occurred is less than the predetermined maximum duration of the expected interference, which means that the Q level of the fourth RS-flip-flop 25 will remain low voltage. At the same time, a low voltage level will be established at the Q-output of the second RS-flip-flop 20, due to its zeroing by the first matching circuit 2I-NOT 18 by means of OR 2 circuit 21. At the same time, a low voltage level remains at the Q-output of the third RS-flip-flop 22. The presence of a low voltage level at the inputs of the matching circuit 2I 24 does not give the decoder 10 permission to issue information to the light indication unit 11 and to start the sound indication unit 12. At the same time, a voltage pulse is generated at the output of the third coincidence circuit 2I-NOT 35, triggering a third pulse shaper 34 through circuit 4 OR 23, which resets the counter 8, pulse selector 7 and the first RS-trigger 13. The device is again ready to receive and analysis of information from subscribers. Thus, false alarm is excluded in case of interference in all three described situations.

 In conclusion, we can conclude that the invention allows to obtain a technical result, namely, to reduce the degree of interference effect on the information about the number of the triggered subscriber’s sensor, thereby increasing the reliability of the call to a particular subscriber.

Claims (2)

 1. A selective subscriber call identification device containing a number of subscriber sensors, each of which is equipped with a pairing unit, the output of each pairing unit is connected to a single shared signal line connected to the first resistor to which a power unit is connected, and a pulse generator is connected in series , a pulse selector, a counter, a register and a decoder with a light indication unit, as well as an audio indication unit, pulse shapers, AND-NOT coincidence schemes, OR circuits, triggers and a button, the first contact of which is connected to a common wire, characterized in that the single shared signal line is connected to the inputs of the pulse shaper of the maximum duration of the expected interference, the inverter NOT, the first pulse shaper associated with the clock input of the register, the first input of the 4I-NOT matching circuit and the installation input of the first trigger associated with the triggering input of the pulse generator to the output of the pulse shaper of the maximum duration of the expected interference and to the output of the inverter DO NOT connect The first 2I-NOT match circuitry is provided with the corresponding inputs, the output of the pulse shaper of the maximum duration of the expected interference is connected to the second input of the 4I-NOT match circuit via the second pulse shaper, the output of the second trigger is connected to the third input of the 4I-NOT match circuit, the zeroing input of which is connected to the output the first coincidence circuit 2 AND NOT via the 2 OR circuit, the output of the first pulse shaper and the clock input of the register are connected to the installation input of the second trigger, the output of the coincidence circuit 4 AND is NOT connected the input of the third trigger and the first input of the 4-OR circuit, the first input of the 2I matching circuit is connected to the output of the third trigger, the second input is connected to the output of the fourth trigger, the installation input of which is connected to the output of the second 2I-NOT matching circuit, the first input of which is connected to the inverse the output of the circuit of the first pulse shaper, the output of the N-OR circuit, the inputs of which are connected to the corresponding outputs of the counter, the output of the coincidence circuit 2I is connected to the enable input to the second input of the second coincidence circuit 2I-NOT the decoder’s house, resetting the input of the third and fourth triggers, is connected to the second contact of the button, to the second input of the 4 OR circuit and to the second resistor that is connected to the power supply, the third resistor connected to the power supply and the capacitor connected to the third input of the 4 OR circuit are connected a common wire, the output of the 4OR circuit through a third pulse shaper is connected to the zeroing input of the counter, pulse selector and the first trigger, the output of the third 2I-NOT matching circuit is connected to the fourth input of the 4OR circuit, the first input of which connected to the inverse output of the N-OR circuit, the second input is connected to the inverse output of the first pulse shaper, the inverse output of the pulse shaper of the maximum duration of the expected interference is connected to the fourth input of the 4I-NOT matching circuit, the second input of the 2OR circuit is connected to the second button contact and the decoder outputs are connected with the trigger input of the sound indication block through the OR circuit.  2. The device according to p. 1, characterized in that the connection between a single signal line for collective use and the inputs of the pulse shaper of the maximum duration of the expected interference, the inverter NOT, the first pulse shaper, the installation input of the first trigger and the first input of the 4I-NOT circuit is made in series connected optocoupler and amplifier, the power supply is made in the form of two galvanically isolated power sources, and the output of the first power source is connected through the power bus to the couplers, and the communication between first resistor and a single signal line shared performed through the LED of the optocoupler, the second power supply output is connected to the cathode of the optocoupler photodetector and through a power bus coupled to the amplifier and the chip device, the anode of the optocoupler photodetector coupled to the input of the amplifier.

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