SU981899A1 - Voltage indicator - Google Patents

Description

() VOLTAGE SIGNALIZER

one

The invention relates to electrical measuring equipment and can be used to monitor voltage in automated process control systems, for example, in communication devices with an object.

A voltage detector is known, which contains a polarized relay with two windings connected in parallel to the load, a capacitor is connected to the circuit of one of which, and a diode and a thyristor are connected in series to the other circuit, the control electrode of which is connected to the load supply circuit with the thyristor blocking polarity , the winding and the thyristor are shunted by an capacitor, and the diode is connected in the direction of C 1 relative to the power source.

However, this signal.atrix is characterized by limited functionality, insufficient

short-term power failure due to the presence of a constant discharge time of the capacitor and its own response time of the electromechanical relay.

The closest in technical essence to the present invention is a voltage detector containing a remote switch with two

The windings connected by the first leads to the negative power bus and the first and second diodes shunted respectively, the transistor, resistors and zener diode, the anode of which

15 through the third diode is connected to the positive power bus, and through the first resistor is connected to the negative bus, the cathode of the Zener diode is connected to the base of the transistor and through the second and

Claims (2)

20, the third resistors are connected to the minus bus, the emitter of the transistor is connected via a third resistor to the minus bus, and a capacitor is connected in parallel with this resistor 5, and the collector of the transistor is connected to the second output of the second winding of the remote switch; in series with the first winding of which, on the side of its second output, the closing contact of the reset circuit connected to the positive and negative power supply buses is included ... The disadvantages of this voltage detector are limited functionality and low speed, which does not allow to control short-term loss of supply voltage, which can cause distortion of signals in communication devices with an object. The purpose of the invention is to expand the functional capabilities of a voltage signaling device and increase its quick action. The goal is achieved by the fact that the voltage detector contains a remote switch with two windings, the first terminals connected to the negative power bus and the first and second diodes shunted, respectively, the transistor, the emitter of which through the first resistor is connected to the positive power supply bus, and through the second resistor is connected to its minusistor connected to the base of the transistor; the optocoupler-inverter, the fourth resistor, the thyristor, the start block, the third and the quarters are additionally introduced diodes and neutral relay, the winding of which is shuntiroizan the fifth diode and is connected to the minus bus by the first lead, and the second lead through the closing contact of the dithionic switch and the third diode connected to the collector of the transistor connected to the second lead of the first winding of the transistor switch, and through the opening contact of the remote switch is connected to the base of the transistor, and through the fourth diode connected to the cathode of the thyristor, connected through the second a neutral contact closing contact with the second output of the remote control's second winding, the thyristor anode is connected to the positive bus, its control electrode is connected to output 98 4 of the trigger unit connected by its input to the output of the communication device With the object, and the thyristor cathode through the fourth resistor connected to the input of the optocoupler-inverter switch, connected by its output to the first input of the central processor, the second input of which is connected to the closing contact of the remote switch. The block diagram of the detector is given. The voltage detector contains a remote relay, the windings 1 and 2 of which are connected between the plus bus 3 and the minus bus of the power supply 5 in parallel with the communication device 6 by an object. The closing contact 7 of the neutral relay and the thyristor 8 are connected in series with the winding 1, and a diode 9 is connected in parallel to the winding 1 of the remote switch; the resistor 10, the emitter-collector junction of the transistor 11 and the neutral contact 12 are connected in series; the winding 12 is bypassed with diode 13 Resistor 10 is connected via resistor 1 to the negative bus of power supply 5, to which the base of transistor 11 is connected via resistor 15, collector 11 of diode 16 is connected through diode 16 and contact terminal 17 of remote transducer the key switch is connected to the winding 18 of a neutral relay shunted by a diode 19, the winding 18 of a neutral relay is connected via a disconnecting contact 20 of a remote switch to the base of transistor 11, which in turn through a diode 21 is connected to a cathode of thyristor 8 connected via a resistor 22 to the input of an optocouple switch - an inverter 23, the output of which is the first output of the voltage detector. The second output of the voltage detector is the closing contact 2k of the remote switch, and both outputs of the detector are controlled by the central processor 25, the output of the communication device 6 with the object is connected to the input of the starting block 26, the output of which controls the operation of the thyristor 8, the device operates as follows. When the supply voltage of the direct current source 5 is present, the contact 17 is closed and the contacts 2 and 2k of the remote switch are open, the thyristor 8 is open, and the transistor 11 is closed due to the positive potential supplied to its base through diode 21 from the open thyristor 8 cathode. a signal in the form of a positive potential from the cathode of the thyristor 8 through the limiting resistor 22 is fed to the input of the optocoupler switch-inverter 23 whose digital output forms the first output of the voltage detector. When the supply voltage of the direct current source 5 is present, digital information is input to the inputs of the central processor 25 from the first and second outputs of the voltage detector in the form: first output O second output O (short-circuiting contact 2k of the remote switch is open). When the supply voltage of the direct current source 5 is lost, the digital information on the first and second outputs of the voltage indicator is changed by 10 respectively, since in this case the signal on the first output changes directly and the remote switch remains open. In this case, the digital signal at the output of the optocoupler switch of the inverter 23 changes simultaneously with the loss of voltage, which indicates a high speed of the voltage detector. After restoring the voltage of source 5, the winding 18 of the neutral relay across the circuit: resistor 10, emitter-collector junction of the resistor 11, diode 16 and the closed contact 17 of the remote switch is under voltage of source 5 and the neutral relay closes its contacts 7 and 12 in the windings 1 and 2 of the remote switch. In this case, the thyristor 8 remains closed, and the winding 1 of the remote switch is de-energized. At the same time in the circuit: the resistor 10 emitter-collector junction of transistor 11, the closed contact 12 of the neutral relay and the winding 2 of the remote switch current flows, which causes the remote switch to operate on the winding 2, the remote switch opens its contact 17, de-energizing thereby the winding 18 of the neutral relay, which opens its contacts 7 and 12 in the winding circuits 1 and 2 of the remote switch and closes the contacts 20 and 2. At the same time, digital information is output from the voltage detector outputs in the form of: first output 1, second output 1, which indicates that the voltage on buses 3 and 4 of source 5 has recovered. At the same time, the central processor 25 outputs a control signal to the input of the communication device 6 with an object, which acts on the launch unit 26, which in turn generates a signal at its output that opens the thyristor 8. As a result, the neutral relay coil 18 along the circuit: open thyristor 8, diode 21, closed contact 20 of the distance switch is under voltage and it closes its contacts 7 and 12 in the windings 1 and 2 of the remote switch, and the base of transistor 11 is connected to the circuit: open thyristor 8, diode 21 receives potential which locks the emitter-collector junction of transistor 11. With this, the winding 2 of the remote switch is de-energized, and the winding 1 due to the open thyristor 8 and the closed contact 7 of the neutral relay under voltage. The remote switch operates on winding 1, closes its contact 17 and opens contact 20, as a result of which the winding 18 of the neutral relay de-energizes and it opens its contacts 7 and 12 in the chains of windings t and 2 of the remote switch and opens the contact digital information is issued: on the first output O, on the second O, which signals that the control command from the central processor 25 has been executed and the circuit of the detector returned to the initial state "Digital Information , Peelability and a yield stress signaling depending on the condition of the power source 5, is shown in the table. Initial Prolonged Voltage Drop Short of short voltage The table shows that at the outset of the communication device with the object to work, there are zeros on both outputs of the voltage detector. With a prolonged loss of voltage, the state of the first output is reversed, and the transition rate is significantly higher compared with the known signaling device. In this case, the remote switch does not operate when the power supply voltage drops, but after it has been restored, because when the response time is not significant, as the information about the absence of voltage in this case is saved at the first output of the detector. After the supply voltage recovers, t, e with its short-term loss, the information on both outputs of the mash signal is reversed. The proposed alarm device provides not only control of the presence or absence of voltage, but also control with increased speed, as the signaling speed of the detector is determined only by vre switching off the thyristor and the switching time of the inverter optocoupler switch, which in total add up to a few microseconds, which corresponds to an increase in the speed of the alarm device by more than three orders of magnitude, Digital recognition of the nature of the loss of pressure and its control The improved performance allows the use of the proposed voltage analyzer in communication devices with an object in automated process control systems. The use of the proposed voltage signalizer allows an increase in the accuracy of monitoring and controlling the state of the object. Claims A voltage detector comprising a remote switch with two windings connected by first leads to a negative power bus and first and second diodes shunted, respectively, a transistor whose emitter is connected to its negative ground through a first resistor and a second resistor bus, which through the third resistor is connected to the base of the transistor, characterized in that, in order to expand the functionality and increase speed, the o an optocoupler-inverter switch, a fourth resistor, a thyristor, a start-up unit, a third and fourth diodes and a neutral relay, the winding of which is shunted by the fifth diode and connected to the negative bus with the first output and the second output through the closing contact of the remote switch and the third diode to the the collector of the transistor connected through the first closing contact of the neutral relay with the second output of the first winding of the remote switch, and through the disconnecting contact of the remote switch, connected to the base of the transistor, and through the fourth diode is connected to the thyristor cathode connected via the second contact of the neutral relay to the second output of the second winding of the remote switch, the thyristor anode is connected to the positive bus, its control electrode is connected to the output of the start block connected to the output of the communication device with the object, and the thyristor cathode through the fourth resistor is connected to the input of the optocoupler-inverter switch connected by its output to the first input of the central the processor, the second input of which is connected to the closing contact of the remote switch. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 335765, cl. H 02 H 3/2, OZ.POBE. 2o USSR Author's Certificate no., Class „H P2 H 3/2, 08.0b., 77.