CN105652128B - A kind of novel high-voltage frequency converter burn-in test platform - Google Patents

Abstract

The invention discloses a kind of novel high-voltage frequency converter burn-in test platforms, include the input switch QF1 for accessing and being sequentially connected in series from power grid inlet wire, high-voltage variable frequency power source, output filter reactor L1, input switch QF2, the testboard position for assembling tested high-voltage frequency converter, grid-connected reactor L2, and grid-connected switch QF3 and control system, the both ends grid-connected switch QF3 are connect with the output end of the output end of output filter reactor L1, grid-connected reactor L2 respectively；The control system is used to control input switch QF1, input switch QF2 and the on off state of grid-connected switch QF3 switches, and control is tested amplitude, frequency and Phase Tracking the high-voltage variable frequency power source output of high-voltage frequency converter output voltage.This high-voltage frequency converter burn-in test platform can be universally used in the high-voltage frequency converter of different model, and test platform can provide specific main power source, and within 3%, the voltage class and frequency of main power source can be realized stepless adjustable harmonic content.

Description

A kind of novel high-voltage frequency converter burn-in test platform

Technical field

The present invention relates to high frequency transformer, especially a kind of novel high-voltage frequency converter burn-in test platform.

Background technology

With the development of power electronic technique, high-voltage frequency converter is widely used to electric power, metallurgy, petrochemical industry, tap water, coal The fields such as charcoal save a large amount of electric energy, create considerable economic benefit and social benefit.And current high-voltage frequency converter Just develop towards high-power, diversification direction, how to meet the high voltage variable of different voltages grade, different frequency and different capabilities The full power test of frequency device manufacture is the problem put before us, it is necessary to develop new test platform.

Domestic universal high-voltage frequency converter burn-in test platform is mainly specific voltage grade and specific frequency at present The motor that frequency converter band adapts to therewith, and both at home and abroad high-voltage frequency converter voltage class mainly have 3kV, 4.16kV, 6kV, 10kV, frequency have 50Hz or 60Hz, and test platform is in order to adapt to the test of the high-voltage frequency converter of different model, often through boosting Transformer or step-down transformer provide the main power source of corresponding voltage grade to the high-voltage frequency converter of different model, under this mode The frequency of main power source can not be adjusted, and can not fully meet the test request of different model high-voltage frequency converter.In addition domestic high voltage variable The load motor of frequency device test platform is generally 50Hz, and the high-voltage frequency converter operating condition in certain export projects is 4.16kV, 60Hz are adjustable, and the load motor of test platform can not be completely matching.

Invention content

In order to solve the above technical problems, the object of the present invention is to provide a kind of novel high-voltage frequency converter burn-in tests to put down Platform.

The technical solution adopted by the present invention is：

A kind of novel high-voltage frequency converter burn-in test platform includes that the input for accessing and being sequentially connected in series from power grid inlet wire is opened Close QF1, high-voltage variable frequency power source, output filter reactor L1, input switch QF2, the test for assembling tested high-voltage frequency converter Platform position, grid-connected reactor L2 and grid-connected switch QF3 and control system, the both ends grid-connected switch QF3 respectively with output filtered electrical The output end connection of the output end of anti-device L1, grid-connected reactor L2；The control system is for controlling input switch QF1, input The on off state of switch QF2 and grid-connected switch QF3 switches, and control is tested amplitude, the frequency of high-voltage frequency converter output voltage And amplitude, frequency and the phase of Phase Tracking high-voltage variable frequency power source output voltage.

Further, the control system includes sequentially connected touch screen and/or DCS, PLC, master control borad and optical communication Daughter board, uses RS232 serial communications between PLC and master control borad, touch screen and/or DCS for input running frequency to PLC and by PLC feeds back to master control borad, and PLC is additionally operable to control input switch QF1, input switch QF2 and the on off state of grid-connected switch QF3 and cuts It changes, the amplitude, frequency and Phase Tracking that master control borad is used to be tested high-voltage frequency converter output voltage by the control of optical communication daughter board are high Amplitude, frequency and the phase of voltage variable-frequency power supply output voltage, the optical communication daughter board is using optical fiber and tested high-voltage frequency converter All unit control panel communications.

Further, the master control borad includes sequentially connected FPGA, DSP and pulse administrative unit；FPGA is connect with PLC And for the sampling of high-voltage variable frequency power source output voltage, sampling, locking phase and the locking phase of tested high-voltage frequency converter output voltage and electric current Success judges；DSP be used for according to FPGA be transmitted through come frequency and phase data, in real time adjust be tested high-voltage frequency converter output frequently Rate achievees the purpose that phase modulation, and same frequently with the base of phase with high-voltage variable frequency power source voltage in tested high-voltage frequency converter output voltage Under plinth, the amplitude of DSP outputs is adjusted so that voltage of the output voltage of high-voltage frequency converter as close as high-voltage variable frequency power source Amplitude；Pulse administrative unit is responsible for generating three-phase PWM drive signal and is transferred to optical communication daughter board, and then acts on tested high pressure Frequency converter.

Further, the locking phase of the FPGA includes the following steps：It samples bicyclic decoupling output and is tested high-voltage frequency converter output The positive sequence q axis components of voltage, positive sequence q axis components are compared after PI controls with given angular frequency, using integral ring Section 1/s obtains locking phase angle.

Beneficial effects of the present invention：

1）This high-voltage frequency converter burn-in test platform can be universally used in the high-voltage frequency converter of different model, and test platform can provide Specific main power source, within 3%, the voltage class and frequency of main power source can be realized stepless adjustable harmonic content；

2）The loss of this high-voltage frequency converter burn-in test platform energy is less, it can be achieved that energy recycling, external electrical network is only Need the loss to system supplement frequency converter and reactor；

3）High-voltage frequency converter in this test platform may operate at 50Hz or 60Hz and carry out grid-connected feedback, after grid-connected Aging current is voluntarily set；

4）This high-voltage frequency converter test platform is flexible and convenient to use, versatile, at low cost, occupancy is small.

Description of the drawings

To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment Attached drawing is briefly described.Obviously, described attached drawing is a part of the embodiment of the present invention, rather than is all implemented Example, those skilled in the art is under the premise of description of the drawings, other design schemes and attached drawing of acquisition：

Fig. 1 is the control principle drawing of high-voltage frequency converter burn-in test platform of the present invention；

Fig. 2 is the control system architecture schematic diagram of high-voltage frequency converter burn-in test platform of the present invention；

Fig. 3 is principle of phase lock loop figure of the present invention.

Specific implementation mode

Referring to Fig.1 shown in-Fig. 2, for a kind of novel high-voltage frequency converter burn-in test platform of the present invention, including from power grid Inlet wire access and be sequentially connected in series input switch QF1, high-voltage variable frequency power source, output filter reactor L1, input switch QF2, use It is tested testboard position, grid-connected reactor L2 and the grid-connected switch QF3 and control system of high-voltage frequency converter in assembly, this is grid-connected The both ends switch QF3 are connect with the output end of the output end of output filter reactor L1, grid-connected reactor L2 respectively；The control system It unites and switches for controlling input switch QF1, input switch QF2 and the on off state of grid-connected switch QF3, and control is tested high pressure The amplitude of frequency converter output voltage, amplitude, frequency and the phase of frequency and Phase Tracking high-voltage variable frequency power source output voltage.

Concrete principle is：Network voltage is sent to high-voltage variable frequency power source by input switch QF1, the output of this high-voltage variable frequency power source Voltage class and frequency can realize, high-voltage variable frequency power source output waveform filtered electricity stepless adjustable from 0-10kV, 0-60Hz The pure sine wave of output three-phase after anti-device L1 filtering, it can be directly as communication power supply, this main power source passes through high pressure Tested high-voltage frequency converter is sent into after frequency converter input switch QF2, the model of this high-voltage frequency converter can be selected arbitrarily, be tested high pressure Amplitude, frequency and the phase of frequency converter output voltage need to track the amplitude, frequency and phase of high-voltage variable frequency power source output voltage, protect Hold fully synchronized grid-connected by grid-connected reactor L2 and grid-connected switch QF3 later, realization energy recycling, high-voltage variable frequency power source High-voltage frequency converter and reactor own loss only need to be supplemented to system.

The control system includes sequentially connected touch screen and/or DCS, PLC, master control borad and optical communication daughter board, PLC RS232 serial communications, touch screen and/or DCS is used to be fed back to PLC and by PLC for inputting running frequency between master control borad To master control borad, PLC is additionally operable to control input switch QF1, the on off state of input switch QF2 and grid-connected switch QF3 switches, master control Plate is used to be tested the amplitude, frequency and Phase Tracking high-pressure frequency-conversion electricity of high-voltage frequency converter output voltage by the control of optical communication daughter board Amplitude, frequency and the phase of source output voltage, the optical communication daughter board use all units of optical fiber and tested high-voltage frequency converter Control panel communicates.

Wherein, the master control borad includes sequentially connected FPGA, DSP and pulse administrative unit；FPGA is connect simultaneously with PLC For the sampling of high-voltage variable frequency power source output voltage, tested high-voltage frequency converter output voltage and electric current sampling, locking phase and locking phase at Work(judges；DSP be used for according to FPGA be transmitted through come frequency and phase data, in real time adjust be tested high-voltage frequency converter output frequently Rate achievees the purpose that phase modulation, and same frequently with the base of phase with high-voltage variable frequency power source voltage in tested high-voltage frequency converter output voltage Under plinth, the amplitude of DSP outputs is adjusted so that voltage of the output voltage of high-voltage frequency converter as close as high-voltage variable frequency power source Amplitude；Pulse administrative unit is responsible for generating three-phase PWM drive signal and is transferred to optical communication daughter board, and then acts on tested high pressure Frequency converter, while the state of each unit is obtained, if unit is faulty to make corresponding processing（Bypass）, and operating mode and event Barrier situation is reported to PLC.

As shown in figure 3, the locking phase of FPGA includes the following steps：It samples bicyclic decoupling output and is tested high-voltage frequency converter output electricity The positive sequence q axis components of pressure, positive sequence q axis components are compared after PI controls with given angular frequency, using integral element 1/s obtains locking phase angle.

The foregoing is merely the preferred embodiments of the present invention, and the present invention is not limited to the above embodiments, as long as with Essentially identical means realize that the technical solution of the object of the invention belongs within protection scope of the present invention.

Claims (4)

1. a kind of novel high-voltage frequency converter burn-in test platform, it is characterised in that：Including accessing from power grid inlet wire and going here and there successively The input switch QF1 of connection, high-voltage variable frequency power source, filter reactor L1, input switch QF2 are exported, for assembling tested high voltage variable The testboard position of frequency device, grid-connected reactor L2 and grid-connected switch QF3 and control system, the both ends grid-connected switch QF3 respectively with Export the output end connection of the output end, grid-connected reactor L2 of filter reactor L1；The control system is opened for controlling input It closes QF1, input switch QF2 and the on off state of grid-connected switch QF3 switches, and control is tested high-voltage frequency converter output voltage Amplitude, frequency and the phase of amplitude, frequency and Phase Tracking high-voltage variable frequency power source output voltage.

2. a kind of novel high-voltage frequency converter burn-in test platform according to claim 1, it is characterised in that：The control System includes sequentially connected touch screen and/or DCS, PLC, master control borad and optical communication daughter board, is used between PLC and master control borad For inputting running frequency to PLC and feeding back to master control borad by PLC, PLC is also used by RS232 serial communications, touch screen and/or DCS Switch in the on off state of control input switch QF1, input switch QF2 and grid-connected switch QF3, master control borad is for passing through optical communication Daughter board control is tested the width of the amplitude of high-voltage frequency converter output voltage, frequency and Phase Tracking high-voltage variable frequency power source output voltage Value, frequency and phase, the optical communication daughter board are communicated using optical fiber and all unit control panels of tested high-voltage frequency converter.

3. a kind of novel high-voltage frequency converter burn-in test platform according to claim 2, it is characterised in that：The master control Plate includes sequentially connected FPGA, DSP and pulse administrative unit；FPGA connect with PLC and is used for high-voltage variable frequency power source output Sampling, locking phase and the locking phase of voltage sample, tested high-voltage frequency converter output voltage and electric current successfully judge；DSP is used for basis FPGA is transmitted through the frequency and phase data come, and adjusts the output frequency for being tested high-voltage frequency converter in real time, achievees the purpose that phase modulation, with And under basis of the tested high-voltage frequency converter output voltage with high-voltage variable frequency power source voltage with frequency with phase, adjust the width of DSP outputs Value so that voltage magnitude of the output voltage of high-voltage frequency converter close to high-voltage variable frequency power source；Pulse administrative unit is responsible for generation three Phase PWM drive signal is simultaneously transferred to optical communication daughter board, and then acts on tested high-voltage frequency converter.

4. a kind of novel high-voltage frequency converter burn-in test platform according to claim 3, it is characterised in that：The FPGA Locking phase include the following steps：Sample the positive sequence q axis components that bicyclic decoupling output is tested high-voltage frequency converter output voltage, positive sequence q Axis component is compared after PI controls with given angular frequency, and locking phase angle is obtained using integral element 1/s.