SU1734166A1 - Device for switching over of load - Google Patents

Abstract

The essence of the invention: the device contains transformers according to the number of primary independent sources of alternating current. The beginnings of the secondary windings of the transfer of mators are connected to each other through the drogging boom, the middle points of which windings are: connected to the load. The ends are secondary: the windings can be short-circuited using bridge rectifiers and a group of thyristors. A battery is also connected to the load; capacitors. With two normally operating sources of alternating current; Both transformers are connected in parallel, since the ends of their secondary windings are shorted. The voltage on the load is kept set by the inclusion of a certain number of sections of a capacitor bank. In case of an accident in one of the power sources, the load is carried out from a working source. 2 hp f-ly, 1 ill. THX

Description

The invention relates to electrical engineering, in particular, to power supply systems of the most responsible consumers of alternating current, for example a computer.

The aim of the invention is to increase the reliability of the device.

The goal is achieved by the fact that in a device for switching a load containing m-phase bridge rectifiers, the combined anodes and cathodes of which are connected respectively to the cathodes and anodes of auxiliary thyristors, the anodes of which are combined, the switching capacitor connected by a single plate with the combined anodes of the auxiliary thyristors, commuting thyristor, control circuit, transformers, the ends of the secondary windings of which are connected to the terminals of alternating current

m-phase bridge rectifiers, the primary windings of transformers are connected to n independent sources of alternating current, a resistor, one output of which is connected to the anode of the diode, the cathode of which is connected to the anode of the diode, the cathode of which is combined with the anode of the switching thyristor and one terminal of the reactor, the other clip of which connected to another capacitor plate, the thyristor control unit contains a block of voltage sensors that are triggered when the voltage amplitude of the sources reaches the required level, the inputs of which are connected to the beginning and end of each phase the secondary windings of transformers, and the outputs to the inputs of the logic unit, which includes the control channel of the switching thyristors and n identical control channels

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Auxiliary thyristors, each of the n channels contains a one-oscillator, the output of which is the output of the logic unit and through an amplifying unit for switching on the thyristors is connected to the control electrode of the corresponding auxiliary thyristor, and the input of the single-oscillator is connected to the output of the NAND element, one the input of which is connected to the corresponding output of the voltage sensor unit, the control channel of the switching thyristor, which is connected to the control electrode of the switching gallery through the amplifying unit for switching on the thyristors the last channel is made in the form of one-vibration pulse-switching pulse switching thyristor, and the start inputs on the negative front of these single-vibration DOBs are connected to the outputs of the sensor unit: the beginnings of the secondary windings RP of the transformers are connected phase by phase of the reactors, the load is connected to the midpoint, the capacitor battery and another pin of the resistor. The cathodes p of switching thyristors are connected to cathodes of auxiliary thyristors, and the logic unit includes n identical control channels of switching thyristors, the outputs of one-oscillators of which are connected through amplifying blocks of turning on thyristors with control electrodes of switching thyristors and with the second input of the element AND NOT of the corresponding auxiliary thyristor .

In order to ensure the selective disconnection of transformers during short circuits in the sources, the secondary windings of the measuring transformers of the voltage sensor unit are connected to the AC inputs n of the rectifying bridges with a common anode to which one of the resistors of the n + 1 ray star is connected, the n resistors of which are connected to the corresponding cathodes and direct inputs of level comparators, the inverse inputs of which are interconnected and with the star node of the resistors.

In order to improve the quality of the voltage at a variable load, the capacitor bank is made adjustable depending on the voltage deviation.

Fig. 1 shows a circuit diagram of a specific device that supplies a constant load; Fig. 2 is a block diagram of the control unit (); FIG. 3 is a block diagram of the sensor unit; Fig. 4 is a block diagram of the control node logic.

The device contains multiphase bridge rectifiers 1 and 2, the anodes and cathodes of which are connected respectively to the anodes and cathodes of auxiliary thyristors

3 and 4, the anodes of which are combined, the switching capacitor 5, connected by one plate with the combined anodes of the auxiliary thyristors 3 and 4, the switching thyristors 6 and 7, the control unit 8,

0 transformers 9 and 10, the ends of the secondary windings of which are connected to three () alternating current terminals of multiphase bridge rectifiers 1 and 2, and the beginning - between themselves through communication reactors 11-13

5 with a midpoint at which: a load 14, the zero output of which is combined with the fourth terminal of the bridge rectifiers 1 and 2, the capacitor battery 15 and one of the terminals of the resistor 16.

0 primary windings of transformers 9

and 10 are connected to two synchronous sources 17 and 18 of alternating current. Another pin of the resistor 16 is connected to the anode of the diode 19, the cathode of which is combined with the anode

5 switching thyristors 6 and 7 and one clamp of the reactor 20, the other clip of which is connected to another plate of switching capacitor 5, and the cathodes of switching thyristors 6 and 7 are connected to the anodes of the respective bridge rectifiers and to the cathodes of auxiliary thyristors 3 and 4.

The control circuit 8 contains a block of voltage sensors 21, the inputs of which are connected to the beginning and end of each phase of the secondary windings of transformers 9 and 10, and the outputs of the sensor unit 21 to the inputs of the logic block 22 whose outputs through the thyristor switch-on unit 23 are connected

0 with thyristor control electrodes 3 4, 6 and 7.

The voltage sensor unit 21 consists of two identical subunits. Each subunit contains three-phase measuring

5 transformers 24 and 25, the primary windings of which are connected to the windings of transformers 9 and 10, respectively, and the secondary windings to the inputs of three-phase bridge rectifiers 26 and 27 with common anodes, to

0 which is connected to one of the three-beam star resistors. Two other resistors 29 and 30 are connected to the corresponding cathodes of bridges 26 and 27 and direct inputs of the comparators 31 and 32 levels, inverse inputs

5 of which are interconnected and with the star node of the resistors 28-30.

Logic block 22 contains two identical channel pairs. Each pair contains a logical element 2I-HE 33 (36), one input of which is connected to the output of a corresponding comparator 31 (32) and input of a single vibrator 34 (37), the output of which is connected to the second input of element 2I-HE 33 (36) and to the corresponding the channel of the amplifying unit 23 of control of the switching thyristor 6 (7). The output of logic element 33 (36) is the input of the one-shot 35 (38), the output of which is connected to the input of the amplifying unit 23 controlling the auxiliary thyristor 3 (4).

The device works as follows.

When applying voltage from one of the sources, for example, 17 to the primary winding of the transformer 9, the voltage from its secondary winding decreases in the voltage sensor unit 21 by the measuring transformer 24, is rectified by a three-phase bridge rectifier 26 and goes to the level comparator 31, where the voltage of bridge 26 is compared with the voltage on the common resistor 28. If the difference of these voltages is positive, then from the output of the comparator 31 to the logic block 22 a signal of the logical unit is supplied, otherwise - zero

When a logical unit is supplied, its signal is set at the first input of element 2I-HE 33. At the second input there is also a level of logical unit, since the state of the single-oscillator 34 does not change and the control pulse to the switching thyristor channel is not applied. A logical zero appears at the output of element 33, and a pulse at the output of the one-shot 35, which opens the corresponding channel of the auxiliary thyristor 3 in block 23. The thyristor 3 shunts the output of the rectifying bridge 1 and connects the star windings of the transformer 9. Starts charge switching capacitor 5 along the circuit: the beginning of phase A of the secondary winding of the transformer 9, resistor 16, diode 19, reactor 20, capacitor 5, auxiliary thyristor 3, bridge rectifier 1, ends of the secondary winding of the transformer 9. Condenser battery less load voltage deviation and non-sinusoidal factor.

After supplying voltage from another source 18 and fixing its predetermined level on the secondary winding of the transformer 10 with a voltage sensor of block 21, the latter outputs a logical unit signal to a logic block that opens the control channel of auxiliary thyristor 4 of the thyristor switch-on unit 23. After switching on the thyristor 4 transformers operate in parallel

In parallel operation, the current between sources 17 and 18, the voltage of which may not be the same, through transformers 9 and 10 is limited by the inductance of communication reactors 11–13 with a midpoint. The semi-windings of the reactors are connected according to equalizing currents between the sources and opposite to the load current. As a result of limiting power flows, transformer power is almost entirely used to power the load.

If one of the sources is damaged, for example source 17, or transformers, for example transformer 9,

5, a voltage deviation occurs at the secondary windings of the transformers. This deviation is sensed by the voltage sensor unit 21 and at the output of the comparator 31 a low voltage level is applied, which is supplied to the element 2I-HE 33 and the one-oscillator 34 of the logic unit 22. The single-oscillator 34 generates a low-level impulse of a given duration and ensures the switching on of the switching

5 thyristor 6.

At the output of element 34, there is a zero pulse, which is supplied to the second inputs of elements 2I-NOT, blocking the switching-on channel of auxiliary thyristor 3. Discharging capacitor 5 is discharged along the circuit: plus capacitor, reactor 20, switching thyristor 6, auxiliary thyristor 3 in reverse direction, minus the condenser 5. In addition, the discharge current of the capacitor also flows through the four-phase rectifier bridges 1 and 2 connected in parallel to the auxiliary thyristors, as a result of which s is applied reverse voltage equal to the forward drop at rectifying bridges. After the termination of the current through the auxiliary thyristor 3, the capacitor continues to discharge through the rectifying bridge 1 until the overcharging current of the capacitor decreases to zero and does not close the switching thyristor 6. After the auxiliary thyristor 3 is closed, the transformer 9 is disconnected from the load . The load 14 is powered from one transformer 10 until a predetermined level of secondary voltage of the transformer is fixed 9

5 with voltage sensors in block 21. Thereafter, the transformer 9 is automatically put into operation by turning on the thyristor 3 in the same way as previously discussed.

With short circuits in one of the sources, for example source 17, a significant decrease in the voltage on the transformer 10 of another source is possible. In this case, the output of the bridge rectifier 26 is set to a voltage lower than rectifier 27. Consequently, voltage is lower on resistor 29 and higher on resistor 30 than on resistor 28. Therefore, a logic zero signal is output to logic block 22 , the voltage at the input of which is lower, namely the comparator 33. This ensures switching on the switching 6 and turning off the auxiliary 3 thyristors of the transformer 9.

The device also allows to power the load from a number of sources, more than two. In this case, the number of transformers, bridge rectifiers, auxiliary and switching thyristors corresponds to the number of sources, and the number of communication reactors — tr. For example, when a device is connected to three sources, the number of transformers, bridge rectifiers, auxiliary and switching thyristors, communication reactors is 3 each.

With a variable load, a version of the device with a capacitor bank is possible, the steps of which are switched as a function of the voltage deviation on the load.

Claims (3)

1. A device for switching a load containing m-phase bridge rectifiers, the combined anodes and cathodes of which are connected respectively to the cathodes and anodes of auxiliary thyristors, the anodes of which are combined, the switching capacitor connected by the same plate with the combined anodes of the auxiliary thyristors, the first switching thyristor, node thyristor control, transformers, the ends of the secondary windings of which are connected to the terminals of the alternating current of the m-phase bridge rectifiers, the primary windings of the transforms The resistors are connected to n independent AC sources, a resistor, one output of which is connected to the anode of a diode, the cathode of which is connected to the anode of the first commutation thyristor and one reactor clamp, the other clip of which is connected to another capacitor plate, the thyristor control unit contains operating when the amplitude of the voltage sources reaches the required level, the inputs of which are connected to the beginning and end of each phase of the secondary windings of the transformers, and the outputs to the inputs of the unit ogiki including a control channel and a switching thyristor n identical control channels auxiliary thyristors, each auxiliary thyristor of n control channels comprises odnovib- Rathore, whose output is output through the logic block and amplification block 0 switching on the thyristors is connected with the control electrode of the corresponding auxiliary thyristor, and the input of the one-vibrator is connected to the output of the NAND element, one input of which is connected to 5 by the corresponding output of the voltage sensor unit, the control thyristor control channel, which is connected to the control thyristor control electrode through the amplifying thyristor switching unit, the last channel is made in the form of a switching thyristor switching pulse, and the trigger inputs on the negative front of these single vibrators are connected with 5 outputs of the sensor unit, characterized in that, in order to increase the reliability of the power supply, the device is equipped with additional p-1 switching thyristors, and secondary windings are started 0 transformers are connected in phase through reactors, the midpoint of which is connected to terminals for connecting the load, capacitor battery and other resistor leads, switching cathodes cathodes are connected to auxiliary thyristors cathodes, and the anodes of all switching thyristors are combined, the logic unit includes n-1 additional control channels for switching thyristors, made in the form of single-oscillators, the outputs of control channels for all switching thyristors are connected through amplifying blocks including audio thyristors with the gate commutating thyristors elektroda5 mi and second inputs of AND-NO elements corresponding control channel of the auxiliary thyristor. 2. Device pop.1, which differs from the fact that the voltage sensor block contains n transformers, n bridge rectifiers and n comparators, the secondary windings of the transformers of the sensor block are connected to the AC inputs of the corresponding rectifying bridges, the anodes of all rectifying diodes the bridges are combined and one of the resistors connected according to the n + 1 ray star circuit is connected to them, the other n resistors of which are connected to the corresponding cathodes of the rectifying bridges and the direct inputs of the level comparators, inverse the inputs of which are interconnected and with the star node of the resistors. 3. The device according to claim 1, in accordance with the fact that, in order to improve the quality of the voltage under variable load, the capacitor battery is made with an adjustable capacitance. H W eleven 12 fig FIG. 2