CN203720321U - Power hedging test device for modularized multi-level converter valves - Google Patents
Power hedging test device for modularized multi-level converter valves Download PDFInfo
- Publication number
- CN203720321U CN203720321U CN201420038025.6U CN201420038025U CN203720321U CN 203720321 U CN203720321 U CN 203720321U CN 201420038025 U CN201420038025 U CN 201420038025U CN 203720321 U CN203720321 U CN 203720321U
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- converter valve
- reactance
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- brachium pontis
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Abstract
The utility model relates to a power hedging test device for modularized multi-level converter valves and belongs to the technical field of power electronics and direct current power transmission. The device comprises a direct current power supply, converter valves, connection reactances, a direct current supporting capacitor and the like, wherein the lower end of the first converter valve and the upper end of the second converter valves are connected together respectively via a first connection reactance and a second connection reactance to form a first bridge arm; and the lower end of the third converter valve and the upper end of the fourth converter valve are connected together respectively via a third connection reactance and a fourth connection reactance to form a second bridge arm. The phase angle difference between two converter bridge arm modulation strategies is used for controlling active power, the modulation ratio error between two bridge arm modulation strategies is used for controlling reactive power, so as to enable each converter valve to operate under set voltage and current stresses and enable test of steady-state operation working conditions to be carried out. According to the hedging test device, the structure of the circuit is simple, and steady-state operation test on the tested converter valves can be accurately carried out maximally.
Description
Technical field
The power that the utility model the relates to a kind of modularization multi-level converter converter valve test unit that liquidates, belongs to power electronics and HVDC Transmission Technology field.
Background technology
Flexible DC power transmission has become the novel electric power transmission mode of being potential most at present.Due to modularization multi-level converter (Modular Multilevel Converter, hereinafter to be referred as MMC) there is public direct-current end, and have easy expansion, meritorious idle can decoupling zero control, outstanding, the switching device small loss and other features of harmonic characteristic, be very suitable for flexible DC power transmission system.Voltage and the capacity of flexible DC power transmission modularization multi-level converter are high; before cannot putting into operation at the scene, carry out overall test; therefore the electric current and voltage stress that in the time of must effectively verifying that converter valve is moved under declared working condition by equivalent test means, institute can bear for a long time, and check the design that press-fits and connect the aspects such as technique, control power supply, control, protection, cooling, electromagnetic compatibility of converter valve whether to reach the requirement of technical standard.
Application number is that the power ring test unit > > of 201120310757.2 Chinese patent < < flexible DC power transmission MMC valve Tests at Steady State discloses a kind of test unit, and the method equivalence in tested valve section by equivalent test realizes working voltage, electric current and the hot strength under actual operating mode.But this device needs charge power supply and two direct supplys of complementary energy power supply, and required direct supply is more, and need to be in running test by extra voltage balance control algorithm by the energy distribution of complementary energy power supply to the DC capacitor of all valve modules.Connection and the method for operation and being connected and the method for operation inconsistent in actual device of converter valve in hookup, causes test operation condition and actual operating mode still to have certain difference on the other hand, affects verification the verifying results.
Application number is that Chinese patent < < flexible DC power transmission MMC converter valve operating test device and the test method > > of 201310090549.X discloses a kind of test unit and test method, but these apparatus and method are also to need charge power supply and a plurality of direct supplys of complementary energy power supply, and connection and the method for operation and being connected and the method for operation inconsistent in actual device of converter valve components in hookup, cause test operation condition and actual operating mode still to have certain difference, affect verification the verifying results.
Application number is that the back-to-back testing method > > of the Chinese patent < < flexible DC power transmission MMC valve Tests at Steady State of 201110244817.X discloses a kind of back-to-back testing method, the method is by jointly accessing same AC power by rectifying bridge arm and inverter bridge leg, the meritorious power supply itself of getting back to that power supply is sent, has reduced the requirement to power supply capacity.But this method need to make tested converter valve incoming transport power supply, also needs to realize the control algolithm that converter valve is incorporated to AC power in test process, realize comparatively complicated.And because converter valve in test exists certain harmonic wave, easily used AC power is produced and disturbed, also higher to the capacity requirement of AC power.
Summary of the invention
The purpose of this utility model is the power that the proposes a kind of modularization multi-level converter converter valve test unit that liquidates, make the circuit structure of steady-state operation equivalent test device of converter valve more simple, and the loss that liquidates and make direct supply only need provide test unit run duration to produce by the power between converter valve, another object of the present utility model is that electric current and voltage operating condition and actual operating mode that converter valve is born in hookup are also approaching, can to tested converter valve, carry out Tests at Steady State the most exactly.
The power of the modularization multi-level converter converter valve the utility model proposes test unit that liquidates, comprise direct supply, disconnector, charging by-pass switch, charging current limiter resistance, the first converter valve, the second converter valve, the 3rd converter valve, the 4th converter valve, first connect reactance, second and connect reactance, the 3rd connection reactance, the 4th connection reactance, the first DC support electric capacity and the second DC support electric capacity; The lower end of the first described converter valve and the upper end of the second converter valve are connected respectively reactance and link together and form the first brachium pontis with second by the first connection reactance, two tie points that connect reactance form the ac output end of the first brachium pontis; The lower end of the 3rd described converter valve and the upper end of the 4th converter valve are connected reactance by the 3rd respectively and are connected reactance with the 4th and link together and form the second brachium pontis, the tie point of two connection reactance forms the ac output end of the second brachium pontis, and the ac output end of the first brachium pontis is connected with the ac output end of the second brachium pontis; The positive pole of described direct supply is connected mutually with disconnector, described charging current limiter resistance is parallel with one another with charging by-pass switch, one end of parallel circuit is connected with the series circuit of direct supply and disconnector, and the upper end of the positive pole of the other end of parallel circuit and the first DC support electric capacity, the upper end of the first converter valve and the 3rd converter valve interconnects; The lower end of the lower end of the negative pole of the negative pole of described direct supply and the second DC support electric capacity, the second converter valve and the 4th converter valve interconnects, ground connection after the negative pole of the first DC support electric capacity is connected with the positive pole of the second DC support electric capacity; The first described converter valve, the second converter valve, the 3rd converter valve and the 4th converter valve comprise respectively the first semiconductor switch, the second semiconductor switch, the first diode, the second diode and DC capacitor, the collector of the first described semiconductor switch, the negative electrode of the first diode and the positive pole of DC capacitor interconnect, and the negative electrode of the anode of the emitter of the first semiconductor switch, the first diode, the collector of the second semiconductor switch, the second diode interconnects the upper end of rear formation converter valve; The anode of the emitter of the second semiconductor switch, the second diode and the negative pole of DC capacitor interconnect the lower end of rear formation converter valve.
The power of the modularization multi-level converter converter valve the utility model proposes its advantage of test unit that liquidates is: adopt the steady-state operation power of the modularization multi-level converter converter valve the utility model proposes test unit that liquidates, its circuit structure is simple, only need to adopt a direct supply.Active power in process of the test and reactive power only liquidate mobile between two brachium pontis, the loss that direct supply only need provide test unit run duration to produce.The wiring of tested converter valve in hookup and the method for operation and the wiring in actual device and the method for operation are in full accord, the electric current and voltage operating condition bearing and actual operating mode are also approaching, can to tested converter valve, carry out Tests at Steady State the most exactly.In test run, only need simple open loop to control amplitude and the phase place of change of current brachium pontis output voltage, do not need extra being incorporated into the power networks control and voltage all and control.
Accompanying drawing explanation
Fig. 1 is the liquidate circuit diagram of test unit of the power of the modularization multi-level converter converter valve that the utility model proposes.
Fig. 2 is the voltage and current oscillogram of the test unit that liquidates that the utility model proposes.
Embodiment
The power of the modularization multi-level converter converter valve the utility model proposes test unit that liquidates, its circuit diagram as shown in Figure 1, comprising:
Comprise direct supply E1, disconnector K1, charging by-pass switch K2, charging current limiter resistance R 1, the first converter valve, the second converter valve, the 3rd converter valve, the 4th converter valve, first connect reactance L1, second and connect reactance L2, the 3rd connection reactance L3, the 4th connection reactance L4, the first DC support capacitor C d1 and the second DC support capacitor C d2; The lower end of the first described converter valve and the upper end of the second converter valve are connected respectively reactance and link together and form the first brachium pontis with second by the first connection reactance, two tie points that connect reactance form the ac output end of the first brachium pontis; The lower end of the 3rd described converter valve and the upper end of the 4th converter valve are connected reactance by the 3rd respectively and are connected reactance with the 4th and link together and form the second brachium pontis, the tie point of two connection reactance forms the ac output end of the second brachium pontis, and the ac output end of the first brachium pontis is connected with the ac output end of the second brachium pontis;
The positive pole of described direct supply is connected mutually with disconnector, described charging current limiter resistance is parallel with one another with charging by-pass switch, one end of parallel circuit is connected with the series circuit of direct supply and disconnector, and the upper end of the positive pole of the other end of parallel circuit and the first DC support electric capacity, the upper end of the first converter valve and the 3rd converter valve interconnects;
The lower end of the lower end of the negative pole of the negative pole of described direct supply and the second DC support electric capacity, the second converter valve and the 4th converter valve interconnects, ground connection after the negative pole of the first DC support electric capacity is connected with the positive pole of the second DC support electric capacity;
The first described converter valve, the second converter valve the 3rd converter valve, the 4th converter valve comprise respectively the first semiconductor switch S1, the second semiconductor switch S2, the first diode D1, the second diode D2, DC capacitor C1, the collector of the first described semiconductor switch, the negative electrode of the first diode and the positive pole of DC capacitor interconnect, and the negative electrode of the anode of the emitter of the first semiconductor switch, the first diode, the collector of the second semiconductor switch, the second diode interconnects the upper end of rear formation converter valve; The anode of the emitter of the second semiconductor switch, the second diode and the negative pole of DC capacitor interconnect the lower end of rear formation converter valve.
Below in conjunction with accompanying drawing 1, introduce in detail the liquidate principle of work of test unit of the utility model.When the power that uses modularization multi-level converter converter valve of the present utility model liquidates test unit, first closed disconnector K1, direct supply E1 passes through charging current limiter resistance R 1 to converter valve capacitor charging; When converter valve capacitance voltage reaches preset value, closed charging by-pass switch K2, converter valve capacitor charging is complete.When steady-state operation, according to certain modulation strategy, send the first brachium pontis trigger pulse, the amplitude that makes the first brachium pontis ac output end voltage-to-ground is V
1, phase angle is δ
1; According to certain modulation strategy, send the second brachium pontis trigger pulse, the amplitude that makes the second brachium pontis ac output end voltage-to-ground is V
2, phase angle is δ
2.
If the modulation ratio of the pulsewidth modulation reference wave of the first brachium pontis is M
1, the first brachium pontis over the ground output voltage amplitude be:
U wherein
dmagnitude of voltage for direct supply E1.If the modulation ratio of the pulsewidth modulation reference wave of the second brachium pontis is M
2, phasing degree is δ
2, the output voltage amplitude over the ground of the second change of current brachium pontis is:
Electric current phasor between the first brachium pontis and the second brachium pontis is:
X=2 π f wherein
1l,f
1for electrical network work frequency, L is for connecting the inductance value of reactance L1, L2, L3 and L4.
Can calculate the active power that flows to the second brachium pontis by the first brachium pontis is:
By formula (1) and formula (2) substitution formula (4), can obtain
The reactive power that is flowed to the second brachium pontis by the first brachium pontis is:
Due to δ
1and δ
2between phase angle poor smaller, therefore can be similar to formula (6) is written as
By formula (1) and formula (2) substitution formula (7), can obtain
Through type (5) and formula (8) can obtain, only need simple open loop to control amplitude and the phasing degree of the first brachium pontis and the second brachium pontis modulation strategy, wherein amplitude is to control by the modulation ratio of modulation strategy, just can control active-power P and reactive power Q mobile between the first brachium pontis and the second brachium pontis.Active-power P can pass through the poor control of phase angle of two brachium pontis modulation strategies, and reactive power Q can be controlled by the modulation ratio of two brachium pontis modulation strategies.Like this, can make each converter valve work in the voltage and current stress of setting, carry out the test of steady state operating condition.Its voltage and current oscillogram as shown in Figure 2.
According to the principle of power-balance, when carrying out steady state operating condition test, active power and reactive power only liquidate mobile between the first brachium pontis and the second brachium pontis, can't flow in direct supply, therefore direct supply only need be provided by the loss that provides DC voltage and converter valve to produce when steady-state operation is tested, and required power is very little.
The mode of connection in actual module multilevel converter and operation logic are consistent to the mode of connection of converter valve in proving installation of the present utility model with it, electric current and voltage operating mode in actual device is also consistent to the electric current and voltage operating mode of bearing when therefore their operation is tested with it, can realize the equivalent test that approaches the most actual operating mode.
Claims (1)
1. the power of the modularization multi-level converter converter valve test unit that liquidates, it is characterized in that this device comprises direct supply, disconnector, charging by-pass switch, charging current limiter resistance, the first converter valve, the second converter valve, the 3rd converter valve, the 4th converter valve, first connect reactance, second and connect reactance, the 3rd connection reactance, the 4th connection reactance, the first DC support electric capacity and the second DC support electric capacity; The lower end of the first described converter valve and the upper end of the second converter valve are connected respectively reactance and link together and form the first brachium pontis with second by the first connection reactance, two tie points that connect reactance form the ac output end of the first brachium pontis; The lower end of the 3rd described converter valve and the upper end of the 4th converter valve are connected reactance by the 3rd respectively and are connected reactance with the 4th and link together and form the second brachium pontis, the tie point of two connection reactance forms the ac output end of the second brachium pontis, and the ac output end of the first brachium pontis is connected with the ac output end of the second brachium pontis; The positive pole of described direct supply is connected mutually with disconnector, described charging current limiter resistance is parallel with one another with charging by-pass switch, one end of parallel circuit is connected with the series circuit of direct supply and disconnector, and the upper end of the positive pole of the other end of parallel circuit and the first DC support electric capacity, the upper end of the first converter valve and the 3rd converter valve interconnects; The lower end of the lower end of the negative pole of the negative pole of described direct supply and the second DC support electric capacity, the second converter valve and the 4th converter valve interconnects, ground connection after the negative pole of the first DC support electric capacity is connected with the positive pole of the second DC support electric capacity; The first described converter valve, the second converter valve, the 3rd converter valve and the 4th converter valve comprise respectively the first semiconductor switch, the second semiconductor switch, the first diode, the second diode and DC capacitor, the collector of the first described semiconductor switch, the negative electrode of the first diode and the positive pole of DC capacitor interconnect, and the negative electrode of the anode of the emitter of the first semiconductor switch, the first diode, the collector of the second semiconductor switch, the second diode interconnects the upper end of rear formation converter valve; The anode of the emitter of the second semiconductor switch, the second diode and the negative pole of DC capacitor interconnect the lower end of rear formation converter valve.
Priority Applications (1)
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CN201420038025.6U CN203720321U (en) | 2014-01-21 | 2014-01-21 | Power hedging test device for modularized multi-level converter valves |
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CN201420038025.6U CN203720321U (en) | 2014-01-21 | 2014-01-21 | Power hedging test device for modularized multi-level converter valves |
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Cited By (7)
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CN103809114A (en) * | 2014-01-21 | 2014-05-21 | 清华大学 | Power hedge testing apparatus for converter valves of modularized multi-level converter |
CN105467308A (en) * | 2015-11-18 | 2016-04-06 | 中国西电电气股份有限公司 | Flexible DC power transmission engineering voltage source converter valve short circuit current test method |
CN106990309A (en) * | 2017-04-28 | 2017-07-28 | 荣信汇科电气技术有限责任公司 | A kind of converter valve Tests at Steady State device and method of use AC-testing supply |
CN106997012A (en) * | 2017-04-28 | 2017-08-01 | 荣信汇科电气技术有限责任公司 | The converter valve Tests at Steady State device and method of bias voltage is undertaken using electric capacity |
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Cited By (13)
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CN103809114B (en) * | 2014-01-21 | 2017-01-04 | 清华大学 | The power of a kind of modularization multi-level converter converter valve liquidates assay device |
CN103809114A (en) * | 2014-01-21 | 2014-05-21 | 清华大学 | Power hedge testing apparatus for converter valves of modularized multi-level converter |
CN105467308A (en) * | 2015-11-18 | 2016-04-06 | 中国西电电气股份有限公司 | Flexible DC power transmission engineering voltage source converter valve short circuit current test method |
CN105467308B (en) * | 2015-11-18 | 2018-02-23 | 中国西电电气股份有限公司 | A kind of flexible DC power transmission engineering voltage source converter valve short circuit current test method |
CN106990309A (en) * | 2017-04-28 | 2017-07-28 | 荣信汇科电气技术有限责任公司 | A kind of converter valve Tests at Steady State device and method of use AC-testing supply |
CN106997012A (en) * | 2017-04-28 | 2017-08-01 | 荣信汇科电气技术有限责任公司 | The converter valve Tests at Steady State device and method of bias voltage is undertaken using electric capacity |
CN106997012B (en) * | 2017-04-28 | 2023-07-14 | 荣信汇科电气股份有限公司 | Converter valve steady-state operation test device and method adopting capacitor to bear bias voltage |
CN106990309B (en) * | 2017-04-28 | 2023-07-07 | 荣信汇科电气股份有限公司 | Converter valve steady-state operation test device and method adopting alternating-current test power supply |
CN109950940B (en) * | 2017-12-20 | 2021-10-08 | 广东电网有限责任公司广州供电局 | Valve block charging device and valve block charging control method |
CN109950940A (en) * | 2017-12-20 | 2019-06-28 | 广州供电局有限公司 | Valve group charging unit and valve group charge control method |
CN108572297A (en) * | 2018-04-11 | 2018-09-25 | 中国矿业大学 | Power converter of switch reluctance motor busbar characteristic current method for diagnosing faults |
CN108572297B (en) * | 2018-04-11 | 2020-05-08 | 中国矿业大学 | Bus characteristic current fault diagnosis method for switched reluctance motor power converter |
CN110707718A (en) * | 2019-08-09 | 2020-01-17 | 国网浙江省电力有限公司杭州供电公司 | Control method for back-to-back power valve group hedging test |
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Granted publication date: 20140716 Effective date of abandoning: 20161019 |
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