SU920961A1 - Electric power supply system - Google Patents

Description

(54) POWER SUPPLY SYSTEM

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The invention relates to the electrical, engineering and can be used in parallel operation of the converter units.

Power sources from parallel-connected converter units are known, including converters, current measuring transformers and current transducers of transducers, total current sensor, reference elements and converter control systems. In these sources, the secondary winding of each current transformer is connected in series with a corresponding current sensor and, together with the primary winding of the total current sensor, the indicated circuits are connected in parallel group, the outputs of the current sensors of the converters are connected to one of the inputs of the respective comparison units, to the other input of which the total sensor is connected current, and the outputs of the comparison units are connected to

appropriate converter control systems tn,

In these power sources, a complex system comprising current transformers, current transducers for transducers and a total current sensor is used to monitor the amount of current of each unit and the total current. In addition, in the indicated power sources

The automatic load balancing system between parallel-running units most often does not have sufficient stability due to the fact that the parameters and dynamic characteristics of the elements of the automatic load distribution system are not identical and this leads to overloading of the units.

The closest technical solution to the proposed is a power supply system containing parallel-connected converter units, one of which is

the other is driven, and each unit consists of a voltage converter, a current sensor, a reference element, to the output of which an amplifier and a converter control system are connected, in the driving unit to one of the inputs of the comparison element is connected to a reference voltage source and The input of the converter control system is connected to the output of the amplifier, and in the slave units the output of the current sensors of the master and slave units fzl are connected to the inputs of the reference element.

The disadvantage of this source. power supply) is that in it, when parallel to (lx) converting units, it is necessary to additionally use a total current sensor and because of this the cost of the power supply increases. Another disadvantage of this source is that the system of automatic uniform load distribution between parallel operating units often does not have sufficient stability due to the fact that the parameters and dynamic characteristics of the automatic control systems of the conversion units are not identical and this leads to overloading of the units.

The purpose of the invention is to simplify the power supply source and reduce the overload of the aggregates in the event of self-oscillations in the distribution of the load between parallel-working converter units.

This goal is achieved by the fact that in an electrical system that contains parallel-connected converter units, one of which is made master and the others are slaves, each unit consists of a voltage converter, a current sensor, a reference element, to the output of which the amplifier is connected, and converter control, in the master unit to one of the inputs of the reference element a reference voltage source is connected and the input of the converter control systems is connected to the amplifier output, and in the slave aggregate The outputs of the current sensors of the master and slave units are connected to the inputs of the comparison element, the outputs of the current sensors of the master and slave units are connected in series and the total output of the sensors is connected to the second input of the comparison element of the master unit, and in each slave unit the amplifier is connected to the converter control system through the input element OR, one of the inputs of which is connected to the output of the amplifier leading ai

regatta.

The drawing shows a structural diagram of the proposed power supply system consisting of two converters connected in parallel

aggregates.

This power source contains converters 1 and 2c of control systems 3 and, elements of comparison 5 and 6, the outputs of which are connected to the inputs of amplifiers 7 and 8, current sensors E and 1.0 with load resistors 11–13, reference voltage I, connected to the element is comparable to 6, and the element OR 15, connected between the amplifier 7 and the control system 3.

The power supply operates as follows.

During the operation of converter units, the voltage on resistors 11 and 12 is proportional to the load, respectively, of converters 1 and 2, and the voltage on resistor 13 is proportional to the total load of the units. The voltage from the resistor 13 is fed to the input of the comparison element 6 and is compared here with the voltage from the source of the reference voltage 14, which is fed to another

input of the comparison element. The error signal between the indicated voltages from the reference element 6 is fed through the amplifier 8 to the input of the control system k and through the element

OR 15 - to the input of the control system 3. As a result of this control system, acting on the converters 1 and 2, eliminate the deviation from the set value of the current load

power supply. .one

Claims (2)

To equalize the load between the units, the voltage of resistor 12 is supplied to the first input of the comparison element 5 as a reference signal, and the voltage from the resistor 11 to the second input. The error signal between the indicated voltages is amplified by the amplifier 7 and supplied through the OR 15 element to the input of the control system 3. As a result, when there is a difference in the load of the units, the input of the Control System 3 receives a signal exceeding the signal from the amplifier 8. Under the influence of the incoming signal, the control system 3, converters are for 1-snizhaet. downloading it by equating it to the loading of the transducer 2. In the above power source unit of the transmitter includes torogo to 2, - L is a master and the unit with the transducer 4 - driven. When self-oscillations occur in the load distributed between the aggregates, the signal at the input of the control system remains unchanged, and a variable signal starts to arrive at the input of the control system, which is not less than the signal at the output of the amplifier 8. The specified signal limit the input of control system 3 occurs because as soon as the signal at the output of amplifier 7 becomes less than the output signal of amplifier 8, the OR 15 element shuts off the output of the amplifier, tel 7 ot from the input of the control system 3 and connects to the specified input output of amplifier 8. In those moments when the control signal to both control systems comes from amplifier 8, the load between the units is distributed in accordance with their internal resistances, and in this case, as practice shows, one unit is overloaded relative to the other more than 20%. Formula of the Invention A power supply system containing parallel-connected inverter units, one of which is made master and the rest are slave, each unit consisting of a voltage converter, yes t, the current element, the reference element, to the output of which the amplifier is connected, and the converter control system, in the master, the unit has a reference voltage source to one of the inputs of the comparison element, and the input of the converter control system is connected to the amplifier output, and in the slave units, The element inputs — t are connected to the outputs of current sensors of the master and slave units, so that, in order to simplify and reduce the overload of the units when auto-oscillations occur in load distribution, Between the units, the current sensor outputs of the master and slave units are connected in series, and the total sensor output is connected to the second input of the comparison unit of the master unit, and in each slave unit, the amplifier is connected to the converter control system through the input element OR, to one of the inputs of which the amplifier output is connected lead unit. Sources of information taken into account during the examination 1. USSR author's certificate No. 610283, cl. H 02 R 13/16, 1978. 2. Japanese Patent No. 52-3 5, class H 02 R 13/18, 1978. about v