RU2880U1 - DEVICE FOR TRANSMITTING INFORMATION FROM SECURITY SENSORS - Google Patents

Abstract

A device for transmitting information from security sensors, containing a hub module and individual transponder modules connected to it in parallel through a two-wire line, while the group hub module includes a time slot former, one output of which is connected to the synchronization input of random access memory, and two other paraphase outputs connected to the control inputs of two key amplifiers, while the group hub module contains a block of control resistors, a device, a threshold element, and each of the modules of an individual responder includes a delay unit, a trigger, and a diode bridge connected to a two-wire line and a switching unit connected to security loops, characterized in that the group concentrator module contains an additional pair of key amplifiers whose control inputs are connected with paraphase outputs of the shaper of time intervals, with two inputs of the first pair of key amplifiers and two inputs of an additional pair of key amplifiers, connected in parallel oh, connected to a constant voltage supply, and the other two inputs of the first pair and an additional pair of key amplifiers connected in parallel are connected to a common wire of the power source, their inputs are connected to the fourth additional output of the shaper of time intervals, while the outputs of an additional pair of key amplifiers are connected to the wires of the two-wire line and to the differential inputs of the amplifier, the output of which is connected to the input of the low-pass filter, the output of which is connected through the threshold element to information

Description

DEVICE FOR TRANSMITTING INFORMATION FROM SECURITY SENSORS

The device relates to the field of electrical engineering, namely to information transmission systems, and can be used in various alarm systems and control systems for technological equipment parameters.

A device for transmitting information (B.V. Shevkoplyas, Microprocessor structures. Engineering solutions, M., Radio and communications, 1990, S. 372), consisting of transmitters, receivers and a power supply unit of a communication line connected to a three-wire highway. A transmitter that performs functions similar to an individual transponder consists of a control unit, an optocoupler key and a transformer with a rectifier similar to the diode bridge of an individual transponder. The receiver and the power supply, performing functions similar to a group concentrator, consist of a control device, optocouplers, a transformer with rectifier diodes and a sinusoidal voltage generator with an output transformer, respectively.

The disadvantages of the analogue are: high energy consumption and high material costs for the element base, the use of a three-wire communication line, the lack of the ability to control the breakage of the trunk.

The closest in technical essence to the claimed device is the comet-K detector selected as a prototype (subscriber kit. Technical description and operating instructions. MD2 136000TO of the Vector plant St. Petersburg, pp. 27.37.63-65.69-71 ), consisting of a group concentrator module and eight modules of individual transponders connected in parallel to it, while the group concentrator module consists of a time interval shaper, one output of which MPK G08B

The first is connected to the synchronization input of random access memory, and two other, paraphase, outputs are connected to the control inputs of two key amplifiers, the outputs of which are connected respectively to the wires of the two-wire line, while the two inputs of these key amplifiers are connected in parallel. connected to a constant voltage supply, and the other two inputs, also connected in parallel, are connected to the block of control resistors and to the input of the amplifier, the second terminal b) of the lock of the control resistors connected to a common power wire. and the output of the amplifier is connected to the input of the threshold element. the output of which is connected to the information input of random access memory. Each individual transponder module is a diode bridge, the inputs of which are connected to the wires of the two-wire line and to the outputs of the switching unit, to the inputs of which the conclusions of security loops are connected. The bi-directional control input of the switching unit is connected to the output of the delay unit, the other output of which is connected to the trigger, while the outputs of the diode bridge are connected to the power supply terminals of the trigger. The disadvantages of the Comet-K detector are:

- a small number of subscribers connected to one line:

-low noise immunity;

-the need for individual settings of each individual respondent.

The technical task of creating a utility model is:

-increasing the number of individual responders served along one line;

-provision of high noise immunity of the system;

This object is achieved in that in the known device for transmitting information from security sensors containing a group concentrator module, to which individual transponder modules are connected in parallel through a two-wire communication line, the group concentrator module includes a time interval shaper, one output of which is connected to a synchronization input random access memory. and the other two are paraphase. the outputs are connected to the control inputs of two key amplifiers, while the group hub module contains a block of control resistors, an amplifier. a threshold element, and each of the individual transponder modules includes a delay unit, a trigger, and a diode bridge connected to a two-wire line and a switching unit connected to security loops, according to a utility model, a group concentrator module contains an additional pair of key amplifiers whose control inputs are connected to paraphase outputs shaper time intervals, with two inputs of the first pair of key amplifiers and two inputs of an additional pair of key amplifiers. connected in parallel, connected to a constant voltage supply. and the other two inputs of the first pair and the additional pair of key amplifiers connected in parallel are connected to the common wire of the power source, their interlock inputs are connected to the fourth additional output of the shaper of time intervals, while the outputs of the additional pair of key amplifiers are connected to the wires of the two-wire line and the differential inputs of the amplifier whose output is connected to the input of the low-pass filter. the output of which through the threshold element is connected to the information input of the random access memory, and the outputs of the first pair of key amplifiers are connected to a two-wire line through the resistors of the block of control resistors, and each pier, Vy of the individual transponder, additionally includes up to eight loop cables and a control unit, the inputs the diode bridge is connected to the wires of the two-wire line and the outputs of the switching unit, through which the conclusions of the security loops with even numbers are connected to one the wire of the two-wire line, and with the odd ones to the other, while the combined second loop outputs are connected to one of the outputs of the diode bridge, which is the common power output of the elements of the individual transponder, and the second output of the diode bridge is a source of supply voltage to all elements of the device, while the two-wire the line is connected to the inputs of the two-element delay unit, the outputs of which are connected to the installation inputs of the trigger, and its direct and inverse outputs are connected to the inputs of the control unit. lowered with the switching unit eight-bit control bus.

The introduction of an additional pair of key amplifiers allows you to change the operating mode of the time slot former in the same way that it forms a time sequence of signals in the form of bursts of impulses separated by pauses. The number of pulses in a packet corresponds to the number of security loops for a particular individual transponder, and the number of pulse packets corresponds to the number of individual responders connected to the line, which makes it possible to increase their number at the same frequency of polling security loops. connected to one line up to 25b. The proposed scheme of a group concentrator by changing the connections of the block of control resistors with key amplifiers and a communication line. as well as the performance of the amplifier using a differential c-circuit, it is possible to exclude the influence of common-mode interference in the communication line. Application d. Individual responder two-element delay unit sovmesh //

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Along with a symmetrical two-input trigger, along with the signal delay function provides additional filtering of interference. The proposed method for connecting protected loops through a switching unit to a communication line does not violate its symmetry. All this in combination significantly increases the noise immunity of the device as a whole.

In FIG. 1.2 is a diagram of a device for transmitting information from security sensors, containing a group concentrator module (FIG. 1), to which modules of individual transponders are connected in parallel through a two-wire communication line 7 (FIG. 2). The group concentrator module consists of a time interval shaper 1, one output of which is connected to the synchronization input of random access memory 2. and the other two phase-phase outputs are connected to the control inputs of the key amplifiers 3.5 and key amplifiers 4.6, respectively, while the fourth output is connected to the inputs blocking the key amplifier 3 and the key amplifier 4. The outputs of the key amplifier 3 and the key amplifier 4 are connected to the wires of the two-wire line 7 and the differential inputs of the amplifier 8 respectively. the output of the key amplifier 5 is connected to the output of the key amplifier 3 through the resistor 9 of the control resistor unit, and the output of the key amplifier 6 is connected to the output of the key amplifier 4 through the resistor 10 of the control resistor block, two inputs of the key amplifiers 3.4 and two corresponding inputs of the key amplifiers 5.6, connected in parallel, connected to a constant voltage supply, and the other two inputs of key amplifiers 3.4 and two corresponding inputs of key amplifiers 5.6, connected in parallel, connected to a common wire power source. The output of Amplifier 8 is connected to the input of the low-pass filter 11. The output of which is connected to the input of the threshold element 12. And the output of the threshold element 12 is connected to the information input of random access memory 2. Each individual responder module (Fig. 2) represents a diode bridge 1. Inputs which are connected to line 7 and eight outputs of the switching unit 2, and even outputs are connected to one wire of line 7. and odd outputs are connected to the second wire of line 7. Loop leads are connected to the inputs of switching unit 2 3.4.5.6.8.9.10.11. The combined second terminals of these loops are connected to the combined anodes of the 16.17 bridge diodes 1, which are the common power output of the individual transponder. The combined cathodes of the diodes 18.19 of the diode bridge 1 are the source of supply voltage for all elements of the individual transponder. The inputs of the delay unit 12 are also connected to line 7, the outputs of which are connected to the installation inputs of the trigger 13. The outputs of the direct and inverse triggers 13 are connected to the inputs of the control unit 14, while the control unit is connected to the switching unit 2 by an eight-bit control bus I 5.

The device operates as follows. The time slot former 1 in the group hub provides an initial setup signal through key amplifiers 3,4 to line 7 so that one wire of line 7 has a positive potential relative to the other wire. Key amplifiers 5.6 are switched synchronously with 3 and 4, however, they do not affect the value of the signals in the line, because the outputs of the amplifiers are connected to the wires of line 7 through the resistors 9.10 of the block of control resistors. The initial setup signal has a longer duration compared to other pulses in the line. This signal through the delay units 12 of the individual responders arrives at the triggers 13, setting them

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c) st (5th G. Control units 14, highlighting the initial installation signal by its duration, set their own addresses for all individual transponders (Each transponder connected to this line has its own address). During the initial installation, an individual transponder is activated (by address О Next, the time slot driver 1 switches the key amplifiers so that the potentials of the wires of line 7 change their signs relative to each other.After a time ts determined by the delay units 12, the triggers 13 of all indies ideal suitcores switch to state O. Then, the time interval shaper through the key amplifiers performs reverse re-signaling of the signals in the line, which causes the triggers 13 to be set to state 1 after 1s. Two-time voltage polarity reversal after the initial installation, called synchronizing and leading to double switching of the triggers 13. are used to prepare the control unit 14 of the individually activated 1 responder to issue enable signals to the control bus 15 comm unit 2. During the operation of the initial installation signal, as well as during synchronizing polarity reversal, the individual elements of the individual transponder circuit are fed through diode bridge 1. The next two voltage polarity reversals in line 7. called by the workers, are carried out only with the participation of key amplifiers 5,6, and Key Amplifiers 3.4 are disabled. After the negative potential is established on the conductor 28 of line 7 with respect to the conductor 29. after 1h, the trigger 13 of the activated individual transponder is set to state O. By this signal, the control unit 14 closes the first key 20 in the switching unit 2 connected to the conductor 29 line 7. Thus, one terminal of loop 3 through -ID a closed key 20 is connected to wire 29 of line 7. and the second terminal is connected to wire 28 through open diode 16 of bridge 1. If cable 3 is closed at this moment, it shorts the wires line 7, which leads to an increase in the voltage drop across the resistors 9.10 block of control resistors in the group hub. The voltage difference arising on the resistors 9.10 is fed to the input of the differential amplifier 8, then, through the low-pass filter 11, to the threshold element 12, where, depending on the magnitude of this difference, an O or 1 signal is generated. This signal is input random access memory 2 and, simultaneously with the second polarity reversal of the signals in the line, is written to it. The filter 11, along with the suppression of interference, ensures the storage of information at the input of block 2 during recording. During the second working polarity reversal, when there is a positive potential at 28 with respect to 29, the diode 16 of the bridge 1 closes, and the diode 17 opens. The loop 3 through the public key 20 and the open diode 17 of the bridge 1 is connected to one wire 29 of the line and ceases to affect its state. Those. polarity reversal automatically disconnects the loop 3 from the line, which allows after a time is determined by the delay unit 12, the trigger 13 to switch to the opposite state. The signal from the trigger 13 through the block 14 causes the key 20 to open and the key 21 to close, connecting the loop 4 through 21 and the open diode 17 to line 7. The further passage of the signal about the state of the loop 4 is similar to that described above for the loop 3. After the polling of the loop 4, the key amplifiers 3 and 4 are again included in the work, starting a synchronization cycle to prepare the connection to the communication line of the next pair of loops of the individual responder. The interrogation cycle of the following pairs of loops through sequentially closing keys 22,23,24,25,26 and 27 is similar to that described for loops 3,4. After interrogating all the loops of the individual transponder, the shaper 1 of the group concentrator generates a pause signal in line 7, which is similar to the initial setting signal, but has the opposite polarity. This signal is perceived by all individual transponders, synchronizing their operation, puts the previously activated transponder into a passive state, and activates the transponder with the next address in order. After polling the loops of the last individual transponder connected to the line, the initial setup signal is generated again and the next cycle begins. In random access memory 2, information on the status of all loops connected to the two-wire line through individual transponders will be accumulated in one cycle.

Claims (1)

A device for transmitting information from security sensors, containing a hub module and individual transponder modules connected to it in parallel through a two-wire line, while the group hub module includes a time slot former, one output of which is connected to the synchronization input of random access memory, and two other paraphase outputs connected to the control inputs of two key amplifiers, while the group hub module contains a block of control resistors, a device, a threshold element, and each of the modules of an individual responder includes a delay unit, a trigger, and a diode bridge connected to a two-wire line and a switching unit connected to security loops, characterized in that the group concentrator module contains an additional pair of key amplifiers whose control inputs are connected with paraphase outputs of the shaper of time intervals, with two inputs of the first pair of key amplifiers and two inputs of an additional pair of key amplifiers, connected in parallel oh, connected to a constant voltage supply, and the other two inputs of the first pair and an additional pair of key amplifiers connected in parallel are connected to a common wire of the power source, their inputs are connected to the fourth additional output of the shaper of time intervals, while the outputs of an additional pair of key amplifiers are connected to the wires of the two-wire line and to the differential inputs of the amplifier, the output of which is connected to the input of the low-pass filter, the output of which is connected through the threshold element to information ion input of random access memory, and the outputs of the first pair of key amplifiers are connected to the two-wire line through the resistors of the control resistor unit, each individual responder module additionally includes up to eight security loops and a control unit, the diode bridge inputs connected to the wires of the two-wire line and the outputs of the switching block through which the conclusions of security loops with even numbers are connected to one wire of a two-wire line, and with odd numbers to another, when this m the combined second terminals of the loops are connected to one of the outputs of the diode bridge, which is the common output of the individual transponder elements, and the second output of the diode bridge is the voltage source of all elements of the device, while the two-wire line is connected to the inputs of the two-element delay unit, the outputs of which are connected to installation inputs of the trigger, and its direct and inverse outputs are connected to the inputs of the control unit connected to the switching unit by an eight-bit control bus Nia.