SU1520620A1 - Device for current protection against damages in ac circuit - Google Patents

Abstract

This invention relates to electrical engineering, in particular, to relay protection devices. The aim of the invention is to increase the sensitivity of a single-phase short-circuit protection device when current transformers with toroidal magnetic conductors made of high-quality permaloids with a rectangular hysteresis are used as current sensors. The goal is achieved by providing a higher degree of symmetry in the operation of current transformers by eliminating the influence of the dynamic resistance of the input circuits of power key elements in different half-periods and from sample to sample, which leads to a significant reduction in the magnitude of the current error of current transformers with toroidal magnetic cores with a rectangular hysteresis loop in the working area of the primary currents. 2 Il.

Description

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providing a higher degree of symmetry in the operation of current transformers by eliminating the influence of the dynamic resistance of the input circuits of the power key elements in different half-periods and from sample to sample, which

This invention relates to electrical engineering, in particular, to relay protection devices.

The purpose of the invention is to increase the sensitivity of a single-phase short-circuit protection device, when current transformers with toroidal magnetic conductors made of high-quality permaloids with a rectangular hysteresis loop are used as current sensors. ,

Fig. I is a circuit diagram of the device; figure 2 - diagram of the power key element; FIG. 3 is a circuit for switching on emitters of optocoupler thyristors of power key elements.

The device for current protection against damage in the AC network contains current transformers by the number of phases of the network, the first terminals of the measuring resistors 2 are connected to the beginnings of the secondary windings, the second terminals of which are combined. The ends of the secondary windings of current transformers 1 are connected to the inputs of the power rectifier 3, to the outputs of which through a separating diode 4, each of which is connected according to the corresponding group of the power terminal 3, the storage capacitors 5 are connected. The first plate of one storage capacitor 5 is connected on to the cathode of the thyristor 6, the anode of which through the winding 7 of the electromechanical actuator is connected to the first plate of the second storage capacitor 5. The second plates of the capacitors 5 are connected between each other and connected to a common point of the circuit - the combined second terminals of measuring resistors 2, the first terminals of which, connected to the beginning of the secondary windings of current transformers 1, are also connected to the three inputs of the current control body 8, the fourth input of which is connected to the common point leads to a significant decrease the magnitude of the current error of current transformers with toroidal paper conductors with a rectangular hysteresis loop in the working zone of the primary currents. 3 il.

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not the circuit, the fifth input of the current control body 8 is connected to the cathode of the thyristor 6, the control electrode of which is connected to the first output of the current control body 8, the second output of which is connected to the first lining of the second storage capacitor 5. Power are connected to the ends of the secondary windings of current transformers 1 key elements 9 according to the number of network phases, the outputs of which are connected between the corresponding inputs of the power rectifier - 3 and the common point of the circuit. Power key elements 9 made in the form of a thyristor optocouplers containing emitters 10 connected in series, and the photodetectors 11, connected in pairs anti-parallel.

The device also contains a control unit 12, while the emitters 10 are connected between the connection point of the anode group of the power rectifier 3 and the anode of the Zener diode 13 and the collector of the additional transistor 14. The Zener diode 13 and the additional transistor 14 form a threshold organ of the power control unit 12 of the power key elements 9. Additional transistor 14, to the collector of which the first output of the emitters is connected, is connected by the base to the cathode of the Zener diode 13, and to the collector of the transistor switch 15 of the control unit 12 by the emitter. A series-connected stabilitron 13 and a base-emitter junction of an additional transistor 14 are shunted by a chain of two in series and according to the second diode 16 and the first diode 17, the common point of the second diode 16 and the first diode 17 is connected to the common point of the circuit, and the anode of the first diode 17 - to the anode, the zener diode 13 and the second output of the emitters of 10 thyristor optocouplers. The cathode of the second diode 16 is connected to the collector of the transistor kyucha 15. The transistor 18, which controls the transistor switch 15, is connected by an emitter to the anode of the second diode 16, to which the common point of the circuit is also connected, by a collector through the third resistor 19 to the base of the resistance switch 15, the base through the second resistor 20 connects to the connection point of the cathode grouser of the power supply cell 3 and the emitter of the transistor switch 15, and through the first resistor 21 to the connection point by the anode of the power rectifier group 3 and the first diode 17.

The third diode 22 is connected by an anode to

the junction point of the E1 "1Tter uravl yut-15 element 9. The voltage across the measuring transistor 18, the second diode 16 resistor 2, is proportional to

the value of the primary current phase, is fed to the input of the body 8 control current.

and the first diode 17, and the cathode to the connection point of the second output of the first resistor 21, the first output of the second resistor 20 and the base control 2 and load, interfacial or single phase transistor 18. The fourth cut is a short cut, phase disconnected in emergency situation (the perer 23 is connected by the first output to the connection point of the base of the transistor switch 15 with the third resistor 19, and the second output to the connection point of the second output of the second resistor 20 to the actuator of the transistor switch 15. The first output of the second resistor 20 is connected to the base the control transistor 18. In this case, the resistances of the third resistor 19 and the second resistor 20 are not equal to themselves, and the resistance of the first resistor 21 is equal to half the resistance value of the second resistor 20.

The device works as follows.

Since the scheme is symmetric, we consider its operation in one half-period for one of the phases. At the beginning of each. the secondary period of the secondary current occurs podzar d through the power rectifier 3 and one of the separation diodes 4 of the corresponding cumulative

em according to a given program command on the thyristor 6, and both of the two capacitors 5, included

25 in series, discharged to the winding 7 of the electromechanical executive organ.

Voltage monitoring from two storage capacitors 5

30 is implemented through a servo (stabilized at 23). Due to the fact that the additional transistor 14 is connected according to a common base circuit, the current-voltage characteristics of the emitters 10 do not affect the threshold of the control unit 12.

In single-phase and three-phase modes, voltage monitoring on capacitors in each half-cycle of the primary current

d0 is performed separately.

In the positive half-period, the zener diode 13 is connected to the storage capacitor 5 through the corresponding separation diode 4, the first

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the capacitor 5. In this case, the power key diode 17 of the control unit 12, the base element 9 is closed. As soon as the emitter junction transistor 14 and

the voltage on the storage capacitor 5 will exceed the voltage level of the stabilization of the Zener diode 13, the additional transistor 14 is turned on, connected according to the common base circuit, and all the emitters 10 of the optocoupler thyristors of the power key elements 9 are excited, which leads to ON switch

one of a pair of closed optocoupler thyristors, i.e. to enable power key element 9.

Including, power key element 9 short-circuits the secondary winding1520620

When the polarity of the secondary current changes, the power key element 9 is turned off and the described process repeats for another storage capacitor 5 charged to the opposite polarity and another from a pair of closed optocoupler thyristors.

The current flows through the measuring resistor 2, regardless of the switching state of the power switch, interphase. Or single-phase short connection, phase failure)

which in an emergency situation (it sends a command on the thyristor 6 on, according to a predetermined program, and both of the two capacitors 5, included

25 in series, discharged to the winding 7 of the electromechanical executive organ.

Voltage monitoring from two storage capacitors 5

30 is implemented by means of a servo (stabilizer 23). Due to the fact that the additional transistor 14 is connected according to a common base circuit, the current-voltage characteristics of the emitters 10 do not affect the threshold of the control unit 12.

In single-phase and three-phase modes, voltage monitoring on capacitors in each half-cycle of the primary current

d0 is performed separately.

In the positive half-period, the zener diode 13 is connected to the storage capacitor 5 through the corresponding separation diode 4, the first

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open transistor switch 15,

The saturation of the transistor 15 is ensured by the control transistor 18, which is unlocked by the current that flows through the second resistor 20 of the control unit 12, the second diode 16 is locked.

In the negative half-cycle of the primary current, Zener diode 13 controls the voltage level at the other storage capacitor 5, connecting X to it through the base-emitter junction of the additional transistor 14,

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open the second diode 16 and the corresponding dividing diode 4. The first diode 17 is closed. The transistor switch 15 is also closed, since the control transistor 18 is closed by a bias current flowing through the third open diode 22 and the first bias resistor 21.

The resistors of the third resistor 19 and the second resistor 20 are equal to each other and are twice the resistance of the first resistor 21. This relationship must be met to ensure proper functioning of the circuit in two-phase operation. In this mode of operation, due to a phase shift of 180 °, the charging of both storage capacitors 5 occurs simultaneously. Voltage monitoring on storage capacitors 5 in this mode is provided by means of the transistor switch 15 of the control unit 12, which is set up for priority control of the voltage on the capacitor charged by negative half-wave current. Since the voltage ripple factor on the storage capacitors 5 is sufficiently small, the accepted ratio of resistance. the resistors of the second 20 and first 21 provide this priority by locking the control transistor 18, which leads to the locking of the transistor switch 15.

When operating the control unit 12, both power switches 9 (in both phases) are switched on, since all the radiators are connected in series. The inclusion symmetry is ensured by the equality (in absolute value) of the instantaneous values of the currents in the two-phase mode.

Therefore, as soon as the corresponding optocoupler thyristor of the power key element 9 of the phase is turned on, where the current has a negative polarity, the control transistor 18 opens, causing the transistor switch 15 to open, and the zener diode 13 switches to the voltage control on the second storage capacitor 5 recharging positive half-wave current.

In the proposed device when using

The use of toroidal current transformers with a rectangular hysteresis loop provides for symmetry of the load in both half periods. Specified

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load symmetry is achieved by eliminating the influence of the dynamic resistances of the control transitions of mainstream key elements, which is observed when using simulators. The dynamic resistance of the triac control transition also changes from sample to sample due to technological variation of parameters. Formula of invention

A device for overcurrent protection against damages in an AC network, containing current transformers according to the number of network phases, to the secondary windings of which three current control inputs are connected and the first terminals of measuring resistors, the second high, the waters of which are combined and connected to the fourth current control organ input , the first output of which is connected to the control electrode of the thyristor, the cathode of which is connected to the fifth input of the current control and the first plate of the accumulating co-detector, the second facing of which is connected The thyristor anode is connected to the second current control organ and the first plate of the second storage capacitor, the second face of which is connected to the second second measuring resistor terminals, to the ends of the secondary windings of current transformers. The inputs are connected to the common point of the measuring resistors. power rectifier, power key elements by the number of phases of the network, the outputs of which are included between the corresponding inputs of the power rectifier and the total m measuring resistors, a control unit made in the form of three diodes, a transistor switch, a control transistor, four resistors and a zener diode threshold, the first and second diodes are connected to each other in series, the anode of the first diode is connected to the first output of the first resistor, the cathode the second diode is connected to the collector of the transistor key, and the connection point of the first and second diodes is connected to the anode of the third diode whose cathode is connected to the connection point of the second output — the first resistor, Second of PE-O,

the resistor and the control transistor base, the emitter of which is connected to the common point of measuring resistors, the collector through the third resistor is connected to the first output of the fourth resistor and to the base of the transistor switch, the emitter of which is connected to the second, conclusions of the second and fourth resistors equal to each other, and the resistance of the first resistor is equal to half the value of the resistance of the second resistor, characterized in that, in order to increase the sensitivity of the protection device from single-phase short circuits, when current transformers with toroidal magnetic conductors made of high quality permallows with a rectangular hysteresis loop are used as current sensors, two isolation diodes are additionally introduced into the device.

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each of the storage capacitor is connected to the output of the power rectifier through the corresponding separation diode connected according to the corresponding group of the power rectifier, the power key elements are made in the form of thyristor optocouplers, the emitters of which are connected in series, the photodetectors pairwise counter-parallel, to the threshold organ of the control unit - in addition, a transistor is inserted, the emitter of which is connected to the collector of the transistor switch, the emitter of which is connected to the cathode force group About the rectifier, and the collector of the additional transistor is connected to the first output of the emitters of the thyristor optocouplers, the base is connected with the cathode of the Zener diode, the anode of which, the anode of the first diode and the second output of the emitters of the thyristor optocouplers are connected and connected to the anode group of the power edge of the mitel.

Yes

Claims (1)

Claim A device for current protection against damage in an alternating current network, containing current transformers according to the number of phases of the network, to the beginnings of the secondary windings of which are connected three inputs of the current control and the first conclusions of the measuring resistors, the second conclusions of which are combined and connected to the fourth input of the current control, the first the output of which is connected to the control electrode of the thyristor, the cathode of which is connected to the fifth input of the current control and the first lining of the storage kondeya-, sator, the second lining of which is connected and to the common point of the measuring resistors, the thyristor anode is connected through the winding of the electromechanical measuring body to the second output of the current control and the first lining of the second storage capacitor, the second lining of which is connected to the combined second terminals of the measuring resistors, to the ends of the secondary windings of the current transformers. The inputs of the power rectifier are connected , power key elements according to the number of phases of the network whose outputs are connected between the corresponding inputs of the power rectifier and the common point and measuring resistors, a control unit made in the form of three diodes, a transistor switch, a control transistor, four resistors and a threshold organ on a zener diode, while the first and second diodes are connected together in series, the anode of the first diode is connected to the first output of the first resistor, the cathode of the second diode - to the collector of the transistor switch, and the connection point of the first and second diodes is connected to the anode of the third diode, the cathode of which is connected to the connection point of the second output of the first resistor, the first output second re; the resistor and base of the control transistor, the emitter of which is connected to a common point of the measuring resistors, the collector through the third resistor is connected to the first terminal of the fourth ³ resistors and to the base of the transistor switch, the emitter of which is connected to the second, terminals of the second and fourth resistors / and the resistances of the second and third resistors are equal to each other, and the resistance of the first resistor is equal to half the resistance value of the second resistor, characterized in that, in order to increase the sensitivity of the protection device single-phase short circuits when using current transformers with toroidal magnetic cores, 2θ made of high-quality permaloys with a rectangular hysteresis loop, two isolation diodes are additionally introduced into the device, and each storage capacitor is connected through an appropriate isolation diode connected in accordance with the corresponding group of power rectifier connected to the output of the power rectifier, power key elements are made in the form of thyristor optocouplers, from whose emitters are connected in series, the photodetectors are pairwise counter-parallel, a transistor is additionally inserted into the threshold organ of the control unit, the emitter of which is connected to the collector of the transistor switch, the emitter of which is connected to the cathode group of the power rectifier, and the collector of the additional transistor is connected to the first output of the thyristor optocouplers emitters, the base is with the zener diode cathode, the anode of which, the anode of the first diode and the second output of thyristor optocouplers emitters are combined and connected to the anode load ne power rectifier.