SU1536488A1 - Device for synchronization of converters for parallel operation - Google Patents

Abstract

The invention relates to converter technology and is intended for a guaranteed power supply system with static converters. The purpose of the invention is to increase the reliability of power supply and enhance the functionality by providing synchronization of the converters with the AC network. A device containing, for each converter of the synchronization circuit of the master oscillator 1, the clock pulses of the master oscillator and the phase-locked loop with the phase detector and phase effect generator 10, is equipped with a second phase detector 15 and a second phase generator 16, connected to its output, and a phase generator 16, a synchro pulse generator 12, first and the second shaper of time intervals is 180 e.h. 13, 14, frequency multiplier 17, element 2 OR 8 and controllable key 11. Synchronous clock generator 12 is connected by an output to the clock input of the master oscillator via key 11, and input is connected to the output of the frequency multiplier 17. The outputs of the phase formers of the phasing effect are connected to the input of the master oscillator designed to change the frequency of the phasing effect through the element 2 OR. 1 il.

Description

The invention relates to electrical engineering and can be used in backup power supply systems with static converters, for synchronizing converters that can be switched on for parallel operation in a guaranteed power supply system.

The purpose of the invention is to increase the reliability of power supply and enhance functionality by providing synchronization of the converters with the AC network. The drawing shows the device. The device contains a master oscillator 1, the first, second and third controlled keys 2–4, a distributor 5 pulses connected by an input to the output of the master oscillator, a command generation circuit for parallel operation 6, for switching on the master oscillator in master or slave mode 7 and parallel converter operation with network 8, phase-locked loop with phase, detector 9 at the input and shaper of phase effect at output 10, additionally entered fourth controlled key 11, driver 12 clock pulses, the first is the time spanner 13, the second time interval former 14, the second phase detector 15, the second phase effector 16, the frequency multiplier 17 and the element 2ILI 18.

The control input of the first control key 2 is connected to the circuit of the command for turning on the converter for parallel operation with other converters. The control inputs of the second and third controlled keys 3 and 4 are connected to the circuit to form the command to turn on the master oscillator in the master or slave mode. The output of the first key 2 is connected to the synchronization input of the master oscillator. The input of this key is intended to be connected to the output circuit of the clock pulses of the master oscillator, which is included in the master mode. The second key 3 is connected to the output side of the master oscillator. The output of this key is designed to be connected to the clock circuit for master oscillators that are included in the slave mode. Third key input 4, one

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the input of the phase detector 9 and one input of the second phase detector 15 are connected to the output of the second generator 14 of a time interval connected to the outputs 5 of the distributor. The second input of the phase detector 9 is designed to be connected to the output of the third switch 4 of the converter included in the master mode. The second input of the phase detector 15 and the input of the frequency multiplier 17 are connected to the output of the first time generator 13, the input of which is intended to be connected to one phase of the mains voltage. The output of the frequency multiplier 17 is connected to the input of the driver of 12 clock pulses, the output of which is connected via the fourth key 11 to the second clock input of the master oscillator. The control input of the fourth control key 11 is connected to the circuit forming a command to turn on the converter for parallel operation with the network. The outputs of the phase detectors 9 and 15 are connected to the inputs of the shaper 10 and 16 of the phasing effect, respectively, the outputs of which are connected through the element 2ILI to the input of the master oscillator 1, which is intended to change the frequency by the phasing effect.

The device works as follows.

The command to turn on the master oscillator in the master mode, provided that there is a command for parallel operation, the clock pulses of the master oscillator go through key 3 through the keys of the 2 slave transducers to the first clock inputs of their master oscillators, which start to work synchronously with the master master oscillator.

The phase detector 9 in the synchronization device of each converter generates at the output a phase difference signal between the pulses of its distributor, both the slave and the distributor of the master converter. The phase divergence signal is fed to the shaper 10 shaper, the output of which is fed through element 2ILI 18 to the input of the master oscillator 1, designed to change the frequency by the phase influence in order to eliminate the phase

discrepancies, i.e. phasing the output pulses of the distributors and, consequently, the output voltages of the transducers. This is the way in-phase synchronism of parallel converters operating on a common load.

If it is necessary to work the converter in parallel with the network, a command is formed by a chain 8, which, acting on the control input of the key 11, transfers it to the conducting state and through it to the second synchronization input of the master oscillator the synchro pulses of the synchro pulses, whose frequency is equal to output pulses of the multiplier 17 frequency.

A frequency multiplier converts the frequency of pulses (time intervals) formed from the mains voltage by the shaper of 13 time intervals, so that at nominal

formers on the total load. In this case, the command for parallel operation with the network can be given either to only the master converter or to each

5 home converter, which should be included in the parallel work with the network. Turning on the master oscillator in master mode is not required in the case of switching on for parallel operation with the network by commands given to each converter.

The positive effect provided by the use of the device is to expand the functionality of the device to synchronize converters included in parallel operation by imparting the ability to synchronize the converters with the AC network and, consequently, to increase the likelihood of uninterrupted power supply to consumers.

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the value of the frequency of the frequency of the pulse - 5, containing converters,. At the output of the multiplier, the owls are equal to those that are included in parallel operation, the minal value of the frequency is set, ie in improving the reliability of the electric generator. Thus, the supply of consumers, which do not allow the interruption of the supply voltage, is 30 normally fed from the alternating current network, and in case of its failure - from

The generator is synchronized with the network. To implement the phasing of the distributor pulses, and consequently the control pulses of the converter valves, the time interval 180 electr. Long. Formed from the network voltage by the driver 13 is fed to one input of the phase detector 15, the other input to which the time interval 180 electr .grad., formed by shaper 14. At the output of phase detector 15, a phase difference signal is generated between them, which affects the shaper 16, and through not th - to the input of the master oscillator, designed to change the frequency of the phasing effect in order to implement the phase inverters of the system of guaranteed power supply.

35 F o rm y

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the invention

A device for synchronizing converters included in parallel operation, comprising for each converter a master oscillator having a first synchronization input and an input for changing the frequency with a phasing effect, a first, second, third controlled key,

45 pulse distributor connected to the output of the master oscillator, a command generation circuit for parallel operation and for switching on the converter and its master oscillator

formers on the total load. In this case, the command for parallel operation with the network can be given either to only the master converter or to each

home converter, which should be included in the parallel work with the network. Turning on the master oscillator in master mode is not required in the case of switching on for parallel operation with the network by commands given to each converter.

The positive effect provided by the use of the device is to expand the functionality of the device to synchronize converters included in parallel operation by giving it the ability to ensure synchronization of the converters with the AC network, and consequently, to increase the likelihood of uninterrupted power supply to consumers.

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power inverter systems.

35 F o rm y

l and

the invention

A device for synchronizing converters included in parallel operation, comprising, for each converter, a master oscillator having a first synchronization input and an input for changing the frequency with a phasing influence, a first, second, third controlled key,

pulse distributor connected to the output of the master oscillator, a command generation circuit for parallel operation and for switching on the converter and its master oscillator

the formation of a time interval of 50 pa in master or slave mode,

the driver 14 with the same interval of the driver 13, and, consequently, the output voltage of the converter with the network voltage.

The device allows switching on a parallel operation with a network as an autonomously operating converter (to its load), and a phase locked loop with a phase detector at the input and a phasing effect driver at the output, and the control input of the first control key is connected to

control circuit for parallel operation, the control inputs of the second and third controlled keys are connected to the formation circuit

phase-locked loop with a phase detector at the input and a phasing effect driver. control output, the control input of the first control key is connected to

the chain of command formation for parallel operation, the control inputs of the second and third controlled keys are connected to the chain of formation

commands to turn on the master oscillator in master or slave mode, the output of the first control key is connected to the clock input of the master oscillator, the input of the first control key is intended to be connected to the clock circuit of the master oscillator to be included in the master mode, the second control key is connected to the output master oscillator, the output of the second controlled key is designed to connect to the circuit of clock pulses of master oscillators that are included in the slave mode, the input of the third controlled the key and one input of the phase detector are connected to the output circuit of the distributor, the other input of the phase detector is intended to be connected to the output of the third controlled key of the converter included in the master output mode of the phase effect generator connected to the input of the master oscillator, which is designed to change the frequency so that, in order to increase the reliability of power supply and enhance functionality by providing synchronization of converters with etyu AC, is provided with a fourth controllable key generator clock, the first and second shaper E slots 180 el.grad.,

Compiled by V. Bunakov Editor I. Kasarda Tehred M. Khodanych Proofreader M. Kucher va

Order 114

Circulation 481

VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5

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the second phase detector, the second phasing driver, the frequency multiplier and the element 2ILI, and the master oscillator is equipped with a second synchronization input, the control input of the fourth adjustable key is connected to the command generation circuit to turn on the converter for parallel operation with the network, the fourth control key is connected with the output of the sync pulse generator connected via a frequency multiplier with the output of the first time interval generator, the output of the fourth key is connected to the second clock input of the master oscillator, the output of the first time interval generator is connected to one input of the second phase detector, the input of the first time interval generator is designed to be connected to one phase of the network voltage, the output of the second phase detector is connected to the second phaser former input, the second input of the second phase the detector and the input of the third controlled key are connected to the output circuit of the pulse distributor through the second time interval generator, and the outputs of the phase formers are connected to the input of the master oscillator, which is intended to change the frequency by means of a phasing effect through the 2IL element.

Subscription

Claims (1)

Claim A device for synchronizing converters included in parallel operation, containing for each converter a master oscillator having a first synchronization input and an input for changing the frequency by a phasing effect, first, second, third controlled keys, a pulse distributor connected to the output of the master oscillator, a command generation circuit parallel operation, and to turn on the converter and its master oscillator in the master or slave mode, a phase-locked loop with a phase detector at the input and by a phasing impact generator at the l output, the control input of the first controlled key being connected to the command generation circuit for parallel operation, the control inputs of the second and third controlled keys connected to the command forming circuit for turning on the master oscillator in the master or slave mode, the output of the first controlled key is connected to the synchronization input of the master oscillator, the input of the first controlled key is designed to connect to the clock circuit of the master oscillator, included in the modes master, the second controlled key input connected to the output of the master oscillator, the output of the second managed key is designed to connect to the clock circuit of the master oscillators included in the slave mode, the input of the third controlled key and one input of the phase detector are connected to the output circuit of the distributor, the other in the phase detector for connecting to the output of the third controlled key of the converter, included in the master mode, the output of the phasing impact driver is connected to the input setting second generator for changing the frequency phasing exposure, wherein the h ^ O in order to improve reliability of power supply and expand the functionality. possibilities by providing synchronization of the converters with the AC network, it is equipped with fourth controlled keys, a clock driver, first and second time interval drivers of 180 electric degrees, a second phase detector, a second phasing driver, a frequency multiplier and an 2 OR element, and a master oscillator equipped with a second synchronization input, the control input of the fourth adjustable key being connected to the command formation circuit to turn on the 1Q converter in parallel work with the network, the input of the fourth controlled key is connected to the output of the generator of clock pulses connected through the frequency multiplier 15 to the output of the first driver of the time interval, the output of the fourth key is connected to the second synchronization input of the master oscillator, the output of the first driver of the temporary · 20th interval is connected to one input the second phase detector, the input of the first shaper of the time interval is designed to connect to one phase of the mains voltage, the output of the second phase detector is connected n with the input of the second driver of the phasing effect, the second input of the second phase detector and the input of the third controlled key are connected to the output circuit of the pulse distributor through the second driver of time intervals, and the outputs of the drivers of the phasing effect are connected to the input of the master oscillator, designed to change the frequency of the phasing effect through the element 2or.