SU1524081A1 - Device for transmitting information via three-phase power transmission system - Google Patents

Abstract

The invention relates to industrial automation and can be used for remote control of objects over a single-wire communication line using three-phase transmission line on the transmitting and receiving sides. The purpose of the invention is to increase the reliability of the transmitted information. The device contains on the transmitting side the first 1.1, second 1.2, and third 1.3 time driver units, the first 2.1 and second 2.2 pulse shapers, respectively, of positive and negative polarity, the first 3 and second 4 diode groups, the first 5 and second 6 limiting resistors, on the receiving side - the first 7.1, the second 7.2 and the third 7.3 pulse decoders, single-wire communication line 8. The device provides for the formation of information signals from the voltage of the corresponding phase at the time of passage of the corresponding interfacial voltage es zero, which allows to set in decoders zener voltage pulses with stabilization large maximum value phase voltages, and thereby improve the reliability of the transmitted information. 3 il.

Description

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The invention relates to industrial automation and can be nciiiinbsovano for remote control objects on a single-wire communication line using the three-phase transmission line on the transmitting and receiving sides.

The purpose of the invention is to increase the reliability of the transmitted information. Q

FIG. 1 shows a diagram of the device on the transmission side; figure 2 - the same on the receiving side; Fig. 3 is a diagram of information signals formed from the phase voltages of a three-phase transmission line.

The device contains on the transmitting side (Fig. 1) the first 1.1, second 1.2 and third 1.3 time driver blocks, the first 2.1 and second 2.2 pulse shapers, the first 3 and second 4 groups of isolating diodes, the first 5 and second 6 limiting resistors, on the receiving to the side (Fig. 2) the first 7.1, second 7.2 and third 7.3 pulse decoders, single-wire communication line 8, each time the master unit consists of resistor 9, capacitor 0, first 11 and second 12 diodes, LED 13.1.1 (or 13.2. 1, or 13.3.1) of the corresponding first optocoupler 13 .. (or 13.2, or 13.3), LED 14.1.1. (or 14.2.1, or 14.3.1) of the corresponding second optocoupler 14.1 (or 14.2, or 14.3), two and fourth 33 diodes, the first behind and second 35 resistors, the first 36 and second 37 zener diodes, the first 38 and second 39 optocouplers having responsibly LEDs 38.1 and 39. and phototransistors 38.2 and 39.2.

The device works as follows.

On the transmitting side (Fig. 1), the time master blocks prepare a task for the beginning and duration of the information signals. Block 1.1 prepares a signal formation task from the voltage of phase A.

The onset of a positive polarity signal is determined by the presence of a phase L circuit, a resistor 9, a capacitor 10, a diode 11, an optocoupler LED, 13.1, phase C at the time of recharging the capacitor 10 when the AC voltage passes through zero, the time lasts the current is set by the parameters of resistor 9, capacitor 10, stabilitron 15 and is fixed by the open state of optocoupler transistor 13. The negative signal is prepared when current flows through the circuit phase C, the optr LED at 14.1, diode 12, capacitor 10, resistor 9 , phase l and is fixed from Indoor state of the Tpan3nciOpa optro on 14.1.

Block 1.2 prepares the signal shaping task from phase 3

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anodic stub1; lithium 15, the first form - at the transition of the interfacial voltage

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and the fourth 33 diodes, the first one and the second and the second 35 resistors, the first 36 and second 37 zener diodes, the first 38 and second 39 optocouplers, have LEDs 38.1 and 39.1 and phototransistors 38.2 and 39.2, respectively.

The device works as follows.

On the transmitting side (Fig. 1), the time setting blocks prepare the task for the beginning and duration of the information signals. Block 1.1 prepares the signal shaping task from the voltage of phase A.

The onset of the positive polarity signal is determined by the current in the circuit, phase L, resistor 9, capacitor 10, diode 11, optocoupler LED, 13.1, phase C at the time of capacitor 10 recharging when the AC voltage passes through zero, the current flow time is set the parameters of the resistor 9, the capacitor 10, the zener diode 15 and is fixed by the open state of the transistor optocoupler 13.1. The preparation of the negative polarity signal occurs when current flows through the circuit phase C, the LED of the optocoupler 14.1, diode 12, capacitor 10, resistor 9, phase L and is detected by the open state Tpan3nciOpa of the optocoupler 14.1.

Block 1.2 prepares the signal shaping task from phase 3

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 when passing the interfacial voltage

The world of pulses consists of a transistor switch -16, the first 17 and the second 18 resistors, the two-zener diode 19, the first 20, the second 21 and the third 22 keys, phototransistors 13.1.2, 13.2.2 and 13.3.2 COOT- of the first optocouple 13.1, 13.2 and 13.3 of the corresponding first, second and third time driver blocks, the three-phase supply voltage loop

The second pulse shaper consists of a transistor switch 23, the first 24 and second 25 resistors, a two-anode Zener diode 26, the first 27, the second 28 and the third 29 keys, phototransistors 14.1.2, 14.2.2 and 14.3.2, respectively, the second optocouplers 14.1, 14.2 and 14.3 corresponding to the first, second, and third time of the set I: their blocks.

On the assortment side (Fig. 2), each pulse decoder consists of the first 30, the second 31, and the third 32

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networks of positive polarity through a resistor 5 when applying to the base of the transistor 16 is a polishing machine with respect to the emitter potential through a resistor 17 and three parallel chains of phototransistors 13.1.2 optocoupler 13.1 and a key 20, of a phototransistor 13.2.2 optocoupler 13.2 and a key 21, ph the transistor 13.3.2 optocoupler 13.3 and the key 22.

With the key 20 closed and the phototransistor 13.1.2 open, the optocoupler 13.1 opens a transistor junction 16 and a signal is transmitted to the communication line, the form

VA through zero. Block 1.3 prepares a signal shaping task from the voltage of the phase C when the interfacial voltage of the SA passes through zero. Positive polarity signals are generated and transmitted by a transistor switch 16 with a resistor 18 of the rectified rectifier0

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networks of positive polarity through a resistor 5 when applying to the base of the transistor 16 is a polishing machine with respect to the emitter potential through a resistor 17 and three parallel chains of phototransistors 13.1.2 optocoupler 13.1 and a key 20, of a phototransistor 13.2.2 optocoupler 13.2 and a key 21, phototransistor 13.3 .2 optocoupler 13.3 and key 22.

When the switch 20 is closed and the phototransistor 13.1.2 is open, the optocoupler 13.1 opens a transistor pin 16 and a signal generated from the voltage phase A is transmitted to the communication line, and the optocoupler 13.2.2 is closed at the closed transistor 21.2 A signal that forms from the voltage of the phase is not damaged. B, when closed, 22 and an open phototransistor 13.3.2. the ontron 13.3 transmits the signal generated from the voltage of the phase C to the zipper line. The zener diode 19 limits the voltage value at the transition emitter-transistor switch base.16,

Formation and transfer to the communication line of negative polarity signals is carried out by a transistor switch 23 with a resistor 25 from a three-phase supply voltage of a negative polarity rectified by a switch, via a resistor 6, when the transistor switch 23 is positive to the base. to the emitter pot1P1I 1la through resistor p 24 and three parallel chains from phototransistor 1A.1.2 optocoupler 14. and key 27, from phototransistor 14.2.2 optocoupler 14.2 and key 28, from phototransistor 14.3.2 ontron 14.3 and key 29, With closed K1N9ce 27 and is open The phototransistor 14.1.2 of the optocoupler 14.1 transmits the signal generated from the voltage of the phase L to the communication line, since the transistor switch 23 is opened. When the switch 28 is closed and the optical photoresistor 14.2.2 of the optocoupler 14.2 is open, the signal is not damaged formed from voltage} phase b, with a closed cell phone 29 and an open phototransistor 14.3.2 optocoupler 14.3, a signal generated from the phase C voltage is transmitted to the communication line. The stabilizer 26 limits the voltage at the junction emitter - base transistor switch 23. The emitter of the transistor 16 and the collector tr nzistora 23 are connected to a single wire lin1I1 bond.

On the receiving side of the device League, 2) information signals from line 8 of the communication are transmitted to the decoders 7.1-7.3 pulses. The decoder 7.1 responds only to signals generated from the voltage of phase A. A positive polarity signal passes through the B1.1VOD circuit of the communication line 8, a diode 32, an optocoupler LED 38, a zener diode 37, a resistor 35, phase B, Through a diode 31 the cathode of the Zener diode 37 is supplied with the voltage of phase C, which excludes the pro (152408)

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the signal is generated from the voltage of phase C, the circuit output JHI-8 communication 8, diode 32, led optocoupler 38, zener diode 37, resistor 35, phase b, the transmission of the information signal is detected by the open state of the phototransistor 38.2 optocoupler 38. The negative polarity signal passes through the circuit output of the line 8 connection, the diode ZZ, LED 39.1 optocoupler 39, Zener diode 36, resistor 34, phase B. Phase C voltage is applied to the anode of Zener diode 36 through diode 30, which prevents the passage of a signal formed from the voltage of phase C along a circuit and, diode 33, the LED 39.1 of the optocoupler 39, the zener diode 36, phase B. The passage of the information signal is detected by the open state of the phototransistor 39.2 of the optocoupler 39.

The decoder 7.2 reacts only to information signals generated from the voltage of phase B by connecting the second output of the first resistor to phase C, and the cathode of the first diode to phase A of the supply network.

The decoder 7.3 responds only to information signals formed from the voltage of phase C by connecting the second output of the first resistor to phase A, and the cathode of the first diode to phase B of the supply mains.

By switching on the transmitting side (Fn. 1) of keys 20-22 and 27-29, the device provides for transmission of 64 code information signals over a single-wire communication line.

The information signals (fig. 3) are formed so that at the moment of their passage the values of the amplitudes of the interfacial voltages AB, BC and CA, the definition of 1X, the magnitude of the currents in the input circuits of the decoders, are close to the maximum values, which allows Zener diode pulse decoders with a stabilization voltage; n1-, greater than the maximum value of phase voltages, and thereby increase the noise immunity of the device and its noncriticality to the reduction of the insulation resistance of the communication line. The device provides high reliability of transmission and reception of information under production conditions at guests' fluctuations of the supply voltage.

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Claims (1)

Invention Formula A device for transmitting information over a three-phase transmission line, containing on the transmitting side the first and second groups of dissociation diodes, the first and second pulse shapers, containing keys, a single wire, on the receiving side, the first, second and third pulse decoders, containing the first diodes, the anodes of which are combined with the anodes of the first zener diodes, the cathodes of which are connected to the first terminals of the first resistors, the second respectively the diodes, resistors and zener diodes, characterized in that The reliability of the transmitted information, restrictive resistors are introduced into the device, 1F1 transistor switch, 2-channel Zener diode, resistors and phototransistors of corresponding cartridges, the first second and third time driver units, each of which contains a resistor, capacitor, diodes, are inserted into each device of the pulse shaper. The zener diode and the LEDs of the first and second optocouplers, the phototransistors of which are installed in one of the first pulse formers, the first pin of the two zener diode and the first pin; 1 resistor; one time unit to the corresponding three-phase power line, BTOpoi i the resistor tip is connected to the second output of the two-anode zener diode and the first output of the capacitor, the second output of which is connected to the anode of the first and cathode of the second diode, the cathode of the first diode through the LED of the first optocoupler, and the anode of the second diode through the LED of the second onton are connected to the first output of the two-anode zener diode, in each pulse shaper the first output of the first resistor is connected to Hur transistor switch, a second terminal of the first resistor connected to the first terminal through the biplate and parallel zener five 0 five 0 five 0 five 0 connected chains of the corresponding key and phototransistor of optocouplers in series connected to the transistor switch base, between the emitter and the base of which a second resistor is connected, the second output of the two-anode zener diode is connected to the emitter of the transistor switch, the emitter of the transistor switch of the first pulse shaper and the collector of the transistor switch of the second pulse generator combers connected to a single line of communication, the collector of the transistor switch of the first pulse shaper through The first limiting resistor is connected to the cathodes of the dissipating diodes of the first group, the emitter of the transistor switch of the second pulse shaper through the second limiting resistor is connected to the anodes of the converging diodes of the second group,. the anodes of the first diodes and the cathodes of the second diodes of the second group are connected to C (the corresponding phases are three phases of the transmission line, the third output terminal and the fourth and fourth, first and second optocouplers in each decoder are connected to the second output terminal The first resistor and the first call of the second resistor are combined and connected to the corresponding phase of the three-phase electrical transmission line, the cathode of the first diode and the anode of the second diode are combined and subs: to the corresponding phase of the three-phase l The third power diode and the third diode anode and fourth diode diode are connected and connected to a single-wire communication line, the second output of the second resistor is connected to the anode of the second zener diode, whose cathode is connected to the second diode via the first diode LED to the cathode of the third diode The anode of the first diode is alternated with the LED of the second optocoupler connected to the anode of the fourth diode; the phototransistors of the first and second optocouplers are informational H1Y outputs of the pulse decoder. Phase A FIG. 2 I The sun Ca