SU1029313A1 - Device for protection of static voltage converter - Google Patents

Abstract

DEVICE FOR ZMCITES OF STATIC CONVERTER “APPLICATIONS” performed on power switching elements according to a push-pull circuit, containing a Current Sensor, made on two transformers of a transformer, the input winding of which is connected to the triangle in a triangle and connected: by its outputs to the power circuit of the components, the components of the components of the components will be connected. the input diagonal of which is connected to the output winding of the transformer, while the output of the rectifier is connected to the input of the threshold element and to the base of the key transistor, in which The lecturer of which includes a signal element and a thyristor actuator, the anode of which is connected via a fuse with to connect the positive output of the power supply and the input of the converter, and the cathode of the thyristor actuator is connected to the terminal to connect the negative output of the power supply, which is different in order to improve reliability , it is supplied with an additional threshold element, a transformer and a rectifier, an additional transistor key and a key element based on thyri a switch and two transistors, a time relay connected to - an output of the threshold element and a control electrode of the thyristor actuator, the input winding of the additional transformer is connected to the terminals for connecting the load and its output winding is connected to the input terminals of the additional, rectifier, output the pins of which are connected respectively (Left to the base and the emitter of the transistor of the additional key, the complex of which is connected to the base of the transistor of the main key, and the input winding is about The main transformer is connected to the connectors of the additional key element transistors, the emitters of which are connected to the terminal for connecting the mini N output terminal of the power source and the base of which is connected to the actuator thyristor anode of the additional key element, the control electrode of which is connected through the additional element: threshold element to the emitter of the transistor of an additional key.

Description

The invention relates to converter technology and can be used to protect static voltage converters made on power switching elements in a push-pull pattern, against: short-circuit currents and overload currents.

A device for protection of a static voltage converter is known, which contains a current connected to the power circuit of the switching elements of the converter, a rectifier connected to the base of the key-. This element and with the threshold element, which is connected to the power source through the execution unit.

The disadvantage of this device is low reliability, due to the loss of efficiency of the converter when the current sensor circuit is open.

The closest in technical essence and the achieved result to the proposed is a device for protection of a static voltage converter containing a current sensor - made on two resistors and a transformer, input winding, which is connected to the resistors in a triangle and connected to the power circuit of switching elements , a diode rectifier whose input diagonal is connected to the output winding of the transfer of a mator, while the output of the rectifier is connected to the input of the threshold element and to the base of the transducer a key with a grounded emitter, the collector of which includes a signal element, and a thyristor actuator, the anode of which is connected via a fuse, with a terminal for connecting the positive output of the power supply and the input of the converter, and the cathode of the thyristor actuating element connected with a terminal for connecting the negative output of the source power G2D.

A disadvantage of this device is the low reliability due to the loss of efficiency of the converter in the event of a break in the circuit of one of the current sensor resistors.

The purpose of the invention is to increase the reliability of the device for protecting a static voltage converter.

The goal is achieved by the fact that the device is equipped with an additional threshold element, a transformer and a rectifier, an additional transistor switch and a key element on the basis of a thyristor and two transistors, a time relay connected between the output of the threshold element and the control electrode of the thyristor actuator, and the input winding of the additional transformer is connected to the terminals for connecting the load and its output winding is connected to the input terminals of the additional rectifier The output pins of which are connected respectively to the base and emitter of the transistor of the additional key, the collector of which is connected to the base of the transistor of the main one. the key, and the input transformer of the main transformer is connected to the collectors of transistors of the additional key element, the emitters of which are connected to the terminal for connecting and minus output of the power source and the base of which is connected to the anode of the thyristor of the actuator through the thyristor of the additional key element, the control electrode of which is connected through an additional threshold element to em 1tter of the transistor of the additional key.

The drawing shows a circuit diagram of a device for protecting a static voltage converter.

The device contains a current sensor 1, which includes a transformer 2 and resistors 3 and 4, with the primary winding of the transformer 2 and resistors 3 and 4 connected by a triangle. The tops of which are connected to the power bus and power switching elements (transistors) of the static voltage converter 5, made on a push-pull bridge circuit, the diagonal of which includes load 6. The secondary winding of the transformer 2 is included in the input diagonal of the diode rectifier 7, the output of which is connected to the base of the transistor of the key element 8, the collector of which is connected to the signal element 9 in the form of an incandescent lamp and 4eg) e3 series-connected threshold element 10 and time relay 11 - to the input of A supporting element 12 supplying a voltage to the converter 5 and made in the form of a direct current source of the current source of the fuse 13 and a thyristor switch 14 connected in series. Parallel to the load 6 of the converter, the input winding of the additional transformer 15 is turned on, the output winding of which is through an additional rectifier The driver 16 is connected to the input of an additional key element 17 connected to the output of the main rectifier 7 and simultaneously connected through an additional threshold lement 18-key input member 19 connected to the terminals of the primary winding of the transformer 2 and the current sensor 1 to a common bus supply. Key element 19 is made

, Eie. thyristor switch 20, connected in series with the power supply circuit through the current limiting resistor 21, equalizing resistors 22 and 23, transistors 24 and 25 ,. connected in parallel to the resistors 3 and 4 current sensor 1.

The device works as follows.

When the power source is switched on, the power commutation elements of the static voltage converter 5 are switched in pairs with the frequency of the master oscillator (not shown), as a result of which the alternating sign voltage of a rectangular form arises on the load b, which, after transforming with an additional transformer 15 and straightening with an additional rectifier The driver 16 is fed to the input of the additional key element 17 and includes. him.

Under the influence of the currents flowing through the shoulders of the converter 5, alternating across each of the resistors 3 and 4 of the current sensor 1, voltage pulses with a duration equal to half the period are applied to the input winding of the transformer 2, as a result of which the alternating sign is removed from the output winding of the transformer 2 voltage.

This voltage is rectified by the rectifier 7 and simultaneously arrives at the inputs of the threshold element 10, the key element 8 and through the additional key element 17 - at the input of the additional threshold element 18. The transformer ratio of the transformer 2 is chosen such that the output of the rectifier 7 in the idle mode of the converter 6 was sufficient to turn on the key element 8, the condition of turning on the incandescent lamp 9, indicating a normal device. converter shields. The tripping voltage of the threshold element U is chosen somewhat higher than the constant voltage taken from the output of the rectifier 7 in the nominal load mode, and the tripping voltage of the additional threshold element 18 is selected based on the triggering condition of the key device 19 when the circuit of one of the resistors 3 and 4. The tripping voltage of the additional threshold element 18 selects the tripping voltages of the threshold element 10. In the operating mode, the voltage at the incoming strap of the transformer 2

(1 -c,

 E is the voltage source of the converter; RUJ- shunt resistance; RH - resistance load. When an open circuit of one of the shunts 3 or 4, the voltage on the input winding of the transformer 2 is and -F t

where is the reduced resistance.

 control circuits, feeding. from the transformer. The control circuits are made powerful, the resistance of the shunts in order to save energy is chosen (Small, and R 7 Ns, therefore Uj. Thus, in the nominal load mode and at idle converter 5, the threshold element

10 and the additional threshold element 18 remain in the off state, wherein the actuation of the actuating element 12 and the activation of the key element 19 does not occur.

When an overload condition occurs in the converter, the voltage increases (voltage across resistors 3 and 4 of current sensor 1 and output voltage of rectifier 7, which becomes sufficient to turn on threshold element 10, but not enough

The activation of the additional threshold element 18 and the key element 19. The threshold element 10 is activated, as a result of which the time relay 11 is activated, which, after a predetermined time f, triggers and transmits a signal from the output of the threshold element 10 to the input of the actuator 12, causing the latter to operate i.e. turning on thyristor 14 and as

the result of this, blown fuse 13 and de-energization of the converter 5, Response time C

11, the time chosen for the additional threshold element 18 and the key device 19, i.e. the turn-on time of a triac key 20 and shunt transistors 24 and 25, and with modern element base

does not exceed a few µs.

When a short circuit occurs in the converter or in the load circuit, the voltage drop across the resistors 3 and 4 of the current sensor 1 increases almost to the value of the voltage of the power source and the output of the rectifier 7 receives a voltage that is much greater than the threshold voltage of the threshold element 10 and an additional threshold element 18. However, due to the fact that at this time there is no voltage at the input winding of the additional transformer 15, and, therefore, at the output, add nogo rectifier 16j additional key howl element 17 goes into the OFF state, as a result of naked direct voltage output from the rectifier 7 to the input of the additional threshold element 18 is not provided, and the key member 19 remains off r consisting SRI. In this case, the threshold element 10 is also turned on, and by the time ZT expires, the executive 12 of the terminal 12 is triggered and the converter 5 is de-energized. I. In the event of an open circuit in one of the relay erasors 3 and 4 of the current sensor 1 during one of the half-periods An impulse of increased amplitude voltage is applied to the input winding of transformer 2, as a result of which the output of rectifier 7 produces a voltage exceeding in its magnitude the response voltage of threshold element 10 and additional threshold element 18. Due to the fact that the additional key element 17 is in the On state, the threshold element 10 and the additional threshold element 18 are simultaneously turned on, which causes the II-time relay and the key element 19 to turn on. The inclusion of the key element 19 is accompanied by the activation of the thyristor switch 20, As a result, the shunting of transistors 24 and 25, connected in parallel to the resistors 3 and 4 of the current sensor 1, changes into a saturated state. Toki, the flow through pyYeCHig. converter 5, aaNbi is supplied to the common power bus through open transistors 24 and 25, the voltage at the output of the rectifier 7 decreases to a value at which the key element 8, threshold element 10 and additional threshold element 18 are simultaneously turned off. the on state of the threshold element 10 is less than the time -K, therefore, the operation of the time relay 11 and the actuator does not occur, while the key element 19 remains in the jbJlino state, and the converter 5 retains n is its efficiency, off key element 8 results in switching off the signaling element 9, which indicates a fault in the converter and need Easchity minute -dimensional received on its elimination. In the event of the break or shorting of one of the transformer 2 strings, as well as in the case of shorting of resistors 3 and 4 or ONE of the low voltage, the output of the rectifier 7 leads to a decrease in voltage, which leads to the switching off of the key element 9, however, the threshold element 10 and the additional element 18 remains in the off state, i.e. the converter does not lose its efficiency, in the event of a break in the circuits of both resistors 3 and 4 due to the absence of a circuit for the flow of currents through power terminals 1 of the transducer elements 5, the latter loses its efficiency, thus switching off the signal element 9. Operation the proposed feature; Retention increases the reliability of the device for flooded static voltage converter.

Claims (1)

DEVICE FOR PROTECTING A STATIC VOLTAGE CONVERTER, made on power switching elements according to a push-pull circuit, containing a current sensor made on two resistors and a transformer, the input winding of which is connected to the resistors in a triangle and connected by its findings to the power circuit of the switching elements, an diode rectifier which is connected to the output winding of the transformer, while the output of the rectifier is connected to the input of the threshold element and to the base of the transistor key, into the collector the signal element and the thyristor actuator, the anode of which is connected through a fuse with a glue for connecting the positive output of the power source and the input of the converter, 1a the cathode of the thyristor executive (element is connected to the terminal for connecting the negative output of the power source, characterized in that, in order to increase reliability, it is equipped with an additional threshold element, a transformer and a rectifier, an additional transistor key and a key element based on thyristor pa and two tranzists (ditch, time relay connected between the output of the threshold element and the control electrode of the thyristor actuator, wherein the input winding of the transformer is connected to the additional terminals for connection of the load and the output winding is connected to the input terminals pre- _Q additionally. rectifier, output <q the outputs of which are connected respectively to the base and emitter of the transistor of the additional key, the collector of which is connected to the base of the transistor of the main key, and the input winding! the main transformer is connected to the collectors of transistors of the additional key element, the emitters of which are connected to the terminal for connecting the negative output of the power supply and the bases of which are connected to the anode of the thyristor of the actuating element through the thyristor of the additional key element, the control electrode of which is connected through an additional threshold element to the emitter of the transistor of the additional key . ^ Trwr ^{ii, _} ns