CN209592991U - A kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology - Google Patents
A kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology Download PDFInfo
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- CN209592991U CN209592991U CN201920415490.XU CN201920415490U CN209592991U CN 209592991 U CN209592991 U CN 209592991U CN 201920415490 U CN201920415490 U CN 201920415490U CN 209592991 U CN209592991 U CN 209592991U
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- 239000003990 capacitor Substances 0.000 claims description 26
- 238000004891 communication Methods 0.000 claims description 10
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- 239000004065 semiconductor Substances 0.000 claims description 7
- 238000012544 monitoring process Methods 0.000 claims description 3
- 238000010586 diagram Methods 0.000 description 8
- 238000000034 method Methods 0.000 description 7
- 230000005611 electricity Effects 0.000 description 5
- 230000006837 decompression Effects 0.000 description 2
- 238000004146 energy storage Methods 0.000 description 2
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Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J3/00—Circuit arrangements for ac mains or ac distribution networks
- H02J3/12—Circuit arrangements for ac mains or ac distribution networks for adjusting voltage in ac networks by changing a characteristic of the network load
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J3/00—Circuit arrangements for ac mains or ac distribution networks
- H02J3/28—Arrangements for balancing of the load in a network by storage of energy
- H02J3/32—Arrangements for balancing of the load in a network by storage of energy using batteries with converting means
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J3/00—Circuit arrangements for ac mains or ac distribution networks
- H02J3/36—Arrangements for transfer of electric power between ac networks via a high-tension dc link
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/60—Arrangements for transfer of electric power between AC networks or generators via a high voltage DC link [HVCD]
Abstract
The utility model discloses a kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology, including direct current input circuit, exchange primary input circuit and with the exchange side input circuit that exchange parallel connection of primary input circuit;Exchanging other input circuit includes bypass input switch, and exchange primary input circuit includes that input isolating transformer, AC/DC rectifier, DC/AC inverter and output isolation transformer, direct current input circuit include DC/DC reversible transducer;It exchanges other input circuit input terminal and connects mains bus, switched by bypass input and connect with static switch, static switch is connected with voltage dip sensitive load;It exchanges primary input loop input and connects mains bus, the alternating current of input is connect by inputting isolating transformer with AC/DC rectifier;Direct current input circuit input terminal connects battery group.
Description
Technical field
The utility model relates to a kind of voltage dip abatement equipments based on alternating current-direct current hybrid power supply technology, belong to electric power certainly
Dynamicization technical field.
Background technique
Currently, for the load in industry spot, if voltage change or suddenly change will lead to it cannot
Normal work or function reduction, this kind of load is referred to as voltage sensitivity load.
In recent years, as the requirement to power quality is continuously improved, various aspects increasingly pay close attention to dynamic power quality problem,
Wherein most serious surely belongs to voltage dip.Voltage dip can cause the malfunction of sensitive controller, cause computer system failure,
Automation equipment malfunction, variable-frequency governor pause;Cause contactor tripping or under-voltage protection to start, causes motor, elevator
It pauses;Fluctuation, process flow interruption, operation confusion are eventually led to, few then hundreds of thousands member, the warp of more then up to ten million members are caused
Ji loss, it is serious also to will cause great personal injury and environmental pollution accident.It is a large amount of by the electrical equipment to industry spot
Investigation, we have concluded that sensitive equipment temporarily drops in industry spot portion voltage, is specifically divided into following several types: including all kinds of calculating
Machine, DCS, PLC;All kinds of contactors, relay etc.;All kinds of frequency converters, servo-driver etc..
Currently, the Treatment process of DC support is mostly used for the voltage dip resolution of three-phase alternating current frequency converter, this
Be it is associated with the circuit topological structure of frequency converter, frequency converter facilitates direct current to access there are DC bus interface.But it is right
In other kinds of voltage dip sensitive load, due to the limitation of its circuit topological structure, no DC bus interface can not be used
DC support technology, i.e., for some sensitive loads due to directlying adopt Alternating Current Power Supply, unregulated power electronics topological structure can not be using straight
Flow support technology.Therefore, for these can not be using sensitive load of the DC support technology to administer voltage dip, it is necessary to
Seek another voltage dip resolution.
Utility model content
The technical problem to be solved by the utility model is to provide a kind of voltage based on alternating current-direct current hybrid power supply technology is temporary
Abatement equipment drops, and the voltage dip which may be implemented industry spot voltage dip sensitive load is administered, especially for those
Voltage dip sensitive load of its circuit topological structure without DC bus interface and the electrical equipment for directlying adopt Alternating Current Power Supply,
So as to effectively prevent voltage dip sensitive load because shutting down phenomenon without reason caused by voltage dip event, and then it is effectively ensured
Industrial continuity.
In order to solve the above technical problems, the technology employed by the present utility model is
A kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology, including direct current input circuit, exchange master
Input circuit and with exchange input circuit by the exchange of primary input circuit parallel connection;Exchanging other input circuit includes that bypass input is opened
It closes, exchange primary input circuit includes inputting isolating transformer, AC/DC rectifier, DC/AC inverter and output isolation transformer,
Direct current input circuit includes DC/DC reversible transducer;It exchanges other input circuit input terminal and connects mains bus, pass through bypass
Input switch is connect with static switch, and static switch is connected with voltage dip sensitive load;Primary input loop input is exchanged to connect
Mains bus is connect, the alternating current of input is connect by inputting isolating transformer with AC/DC rectifier;Direct current input circuit is defeated
Enter end connection battery group, the direct current of battery group input is straight with AC/DC rectifier after the boosting of DC/DC reversible transducer
It flows bus to be connected, the DC bus after AC/DC rectifier rectification is connected with DC/AC inverter, the output end of DC/AC inverter
It is connected with output isolation transformer, output isolation transformer is connected after static switch with voltage dip sensitive load;Also wrap
Include single chip machine controlling circuit;The driving end phase of single chip machine controlling circuit and DC/AC inverter driving moved end and DC/DC reversible transducer
Even.
Wherein, voltage dip abatement equipment further includes human-computer interaction interface, and single chip machine controlling circuit passes through SPI communication interface
It is connect with human-computer interaction interface, single chip machine controlling circuit is connected by RS-485 communication interface with outside monitoring host computer.
Wherein, the single-chip microcontroller model STM32F405RG that single chip machine controlling circuit uses, including crystal oscillator Y, crystal oscillator capacitor
C1, crystal oscillator capacitor C2, power filtering capacitor C8 and power filtering capacitor C9;It further include input ac voltage sample port AN0, defeated
It is female to enter alternating current sample port AN2, output AC voltage sample port AN1, output alternating current sample port AN3, direct current
Line voltage sample port AN4, accumulator battery voltage sample port AN5, battery current sample port AN6 and radiator temperature
Sample port AN7;PWM1, PWM2, PWM3, PWM4 signal of single-chip microcontroller are used to control four metal-oxide-semiconductors of DC/AC inverter,
PWM5, PWM6, PWM7, PWM8 signal are used to control four IGBT of DC/DC reversible transducer.
Wherein, AC/DC rectifier uses full-bridge uncontrollable rectifier topological structure, and L, N are alternating current input, D1, D2, D3, D4
For full-bridge rectification diode, C1 is filter capacitor.
Wherein, DC/AC inverter uses full bridge inverter, and C2 is input filter capacitor, and Q1~Q4 is metal-oxide-semiconductor, and L1 is
Output inductor, C3 are output filter capacitor, obtain smooth sine wave after L1 and C3 filtering.
Wherein, DC/DC reversible transducer uses the Buck/Boost circuit topological structure of two-way crisscross parallel, wherein
Output of the DC48V from battery group, C4 and C5 are low-pressure side filter capacitor, and L2 and L3 are inductance, and Q5~Q8 is IGBT module,
C6 and C7 is high-pressure side filter capacitor.
Compared with the prior art, technical solutions of the utility model have the beneficial effect that
The utility model can realize that the voltage dip of industry spot voltage dip sensitive load is administered, and guarantee that sensitive load supplies
The continuity and reliability of electricity;Firstly, the utility model abatement equipment can realize that the voltage dip of most of sensitive loads is administered,
Treatment range is wide;Secondly, there is isolating transformer inside the utility model abatement equipment, input/output terminal has electrical isolation, peace
Full high reliablity;Finally, the utility model abatement equipment temporarily drops and exchange can be to quick under two kinds of situations of power loss in alternating voltage
Sense load is protected.
Detailed description of the invention
Fig. 1 is the systematic schematic diagram of the utility model abatement equipment;
Fig. 2 is the circuit diagram of AC/DC rectifier in the utility model abatement equipment;
Fig. 3 is the circuit diagram of DC/AC inverter in the utility model abatement equipment;
Fig. 4 is the circuit diagram of DC/DC DC transformer in the utility model abatement equipment;
Fig. 5 is the circuit diagram of isolating transformer in the utility model abatement equipment;
Fig. 6 is the circuit diagram of single chip machine controlling circuit in the utility model abatement equipment;
Fig. 7 is the control flow chart of the utility model abatement equipment;
Fig. 8 is the voltage close loop control principle drawing of the utility model abatement equipment;
Fig. 9 is the closed-loop current control schematic diagram of the utility model abatement equipment.
Specific embodiment
According to following embodiments, the utility model may be better understood.However, those skilled in the art is easy reason
It solves, content described in embodiment is merely to illustrate the utility model, detailed without that should will not limit institute in claims
The utility model carefully described.
As shown in Figure 1, voltage dip abatement equipment of the utility model based on alternating current-direct current hybrid power supply technology, including direct current
Input circuit, exchange primary input circuit and with exchange the parallel connection of primary input circuit exchange side input circuit;Exchange is other to be inputted back
Road include bypass input switch, exchange primary input circuit include input isolating transformer, AC/DC rectifier, DC/AC inverter and
Output isolation transformer, direct current input circuit include DC/DC reversible transducer;Other input circuit input terminal connection alternating current is exchanged to hand over
Bus is flowed, is switched by bypass input and is connect with static switch, static switch is connected with voltage dip sensitive load;Exchange master is defeated
Entry loop input terminal connects mains bus, and the alternating current of input is connect by inputting isolating transformer with AC/DC rectifier;
Direct current input circuit input terminal connect battery group, battery group input direct current through DC/DC reversible transducer boosting after with
The DC bus of AC/DC rectifier is connected, and the DC bus after AC/DC rectifier rectification is connected with DC/AC inverter, DC/
The output end of AC inverter is connected with output isolation transformer, and output isolation transformer is quick with voltage dip after static switch
Feel load to be connected;It further include single chip machine controlling circuit;Single chip machine controlling circuit and DC/AC inverter driving moved end and DC/DC are two-way
The driving end of converter is connected.
The utility model voltage dip abatement equipment further includes human-computer interaction interface, and single chip machine controlling circuit is logical by SPI
Communication interface is connect with human-computer interaction interface, and single chip machine controlling circuit monitors host computer phase by RS-485 communication interface and outside
Even.
Battery group is composed in series by the lead-acid accumulator of 4 section 12V100Ah, and the direct current of output is two-way by DC/DC
It is connected directly after converter boost with the DC bus after AC/DC rectifier rectification, when voltage dip occurs in the alternating current of input
Or still be able to continue to provide DC power supply to DC/AC inverter after power loss, guarantee the continuity of sensitive load power supply.AC/DC is whole
It flows device and uses full-bridge uncontrollable rectifier circuit, and the capacitor filtering after being rectified;DC/DC reversible transducer has two-way changing function
Can, on the one hand the low pressure of battery group can be increased to required DC voltage, on the other hand, DC bus takes after rectification
Supply electricity to battery charging.DC/AC inverter uses Full-bridge SPWM inverter circuit, by DC inverter at required alternating current,
It powers after output isolation transformer is isolated to sensitive load, static switch is made of thyristor, has two-way handoff functionality, real
The handoff functionality of existing DC/AC inverter output AC and alternating current bypass;Input isolating transformer and output isolation transformer are adopted
With AC power frequency isolating transformer, the electrical isolation of exchange is realized.In addition, the battery group of the utility model abatement equipment is placed on
Device external can be powered using battery group, can also use outer low pressure direct current supply, and battery group maintenance is simply square
Just, high reliablity;In addition, internal DC/DC reversible transducer can also give battery charging.
The input terminal and alternating current and the same phase of battery group of voltage dip abatement equipment based on alternating current-direct current hybrid power supply
Even, output end is connected after output isolation transformer with voltage dip sensitive load, bis- to DC/DC using single chip machine controlling circuit
It is precisely controlled to converter and the realization of DC/AC inverter;By installing isolating transformer additional in input/output terminal, realizes source, becomes
The electrical isolation of parallel operation ontology, load end ensure that the safety of system and the reliability of sensitive load power supply;Pass through additional energy storage
Unit realizes voltage dip protection when exchange power loss, and battery group maintenance is convenient;In addition, the abatement equipment is in alternating current
Pressure gives load to power normal through alternating current bypass, when alternating voltage temporarily drops, gives load to power by DC/AC inverter, when switching
Between short, load undisturbed.
As shown in Fig. 2, AC/DC rectification unit uses full-bridge uncontrollable rectifier topological structure, L, N are that alternating current inputs, D1,
D2, D3, D4 are full-bridge rectification diode, and C1 is filter capacitor, make output direct current more smooth.
As shown in figure 3, DC/AC inversion unit uses full bridge inverter, using unipolarity frequency multiplication SPWM modulation scheme, C2
For input filter capacitor, Q1~Q4 is metal-oxide-semiconductor, and L1 is output inductor, and C3 is output filter capacitor, can be with after LC is filtered
Obtain smooth sine wave.
As shown in figure 4, DC/DC reversible transducer uses the Buck/Boost circuit topological structure of two-way crisscross parallel,
Output of the middle DC48V from battery group, C4 and C5 are low-pressure side filter capacitor, and L2 and L3 are inductance, and Q5~Q8 is IGBT mould
Block, C6 and C7 are high-pressure side filter capacitor, and the charge and discharge control to battery group may be implemented.
As shown in figure 5, isolating transformer realizes the electrical isolation of alternating current using Industrial Frequency Transformer, the safety of system is improved
Property and reliability.
As shown in fig. 6, single-chip microcontroller digital control circuit schematic diagram, single-chip microcontroller model STM32F405RG, Y indicate crystal oscillator,
C1, C2 are crystal oscillator capacitor, and C8 and C9 are power filtering capacitor;AN0, AN2 are input ac voltage and current sample port, AN1
It is output AC voltage and current sample port with AN3, AN4 is DC bus-bar voltage sample port, and AN5 and AN6 are battery
Group voltage and current sample port, AN7 are radiator temperature sample port, PWM1, PWM2, PWM3, PWM4 signal of single-chip microcontroller
For controlling the make-and-break time of four metal-oxide-semiconductors of DC/AC inverter, PWM5, PWM6, PWM7, PWM8 signal are used to control DC/DC bis-
To the make-and-break time of four IGBT of converter;The port 485TX and 485RX of single-chip microcontroller is RS-485 communication interface, realize with
The communication of external monitoring systems, single-chip microcontroller realize data by its SPI communication interface (SDI, SCK, SDO) and human-computer interaction interface
Communication, convenient data on the spot are shown and parameter setting.
The utility model is in this way using the function that alternating current-direct current hybrid power supply technology realizes that sensitive load voltage dip is administered
It realizes:
The utility model abatement equipment is series between alternating current (battery group) and sensitive load, in each module and each parameter
After initialization, by the control flow chart of Fig. 7 it is found that single-chip microcontroller acquires input ac voltage, direct current by the AD unit of itself
Busbar voltage carries out relevant data processing and data operation, samples calculated value according to alternating voltage and DC bus-bar voltage is adopted
Sample value carries out logical operation, executes relevant software control procedure.
When single-chip microcontroller detects that alternating voltage is normal, the work of DC/AC inverter is in hot stand-by duty, single-chip microcontroller control
Static switch processed is switched to alternating current bypass, is powered by alternating current bypass to sensitive load;Meanwhile single-chip microcontroller controls the two-way change of DC/DC
Parallel operation is in decompression working condition, gives battery charging;
When single-chip microcontroller detects that alternating voltage temporarily drops, DC/DC reversible transducer is switched to boost mode, guarantees that direct current is female
Line voltage stablizes output, while controlling static switch and being switched to DC/AC inverter power supply circuit, is given by DC/AC inverter
Sensitive load power supply, guarantees the continuity of sensitive load power supply;
After single-chip microcontroller detects that alternating voltage restores normal, control static switch is switched to AC bypass power supply, meanwhile,
Single-chip microcontroller controls DC/DC reversible transducer and is in decompression working condition, gives battery charging;The work of DC/AC inverter, is in
Hot standby state is temporarily dropped for next alternating voltage and is ready.
Utility model device is powered by alternating current bypass to sensitive load when voltage is normal, small power consumption, high reliablity;
Energy storage, which supports, when voltage dip can be achieved 2ms switching undisturbed, bypass changeover time < 2ms, it is ensured that sensitive load is temporary in voltage
It is continuously operated normally during drop.
As shown in figure 8, voltage close loop feedback control link: according to the difference equation of the control algolithm of digital pi regulator,
It obtains,
The variable quantity of digital pi regulator output: Δ u (k)=kp[e(k)-e(k-1)]+kie(k) (1)
The output of Increment Type Digital Hydraulic pi regulator are as follows: u (k)=u (k-1)+Δ u (k) (2)
The voltage given value (such as 2.5V) for setting voltage control loop section, calculates corresponding number in scm software program
Word amount.Using the A/D module of single-chip microcontroller come continuous acquisition k and k-1 moment DC/DC reversible transducer output voltage values, by itself and electricity
Pressure given value (2.5V) is compared, i.e., given value subtracts voltage sample value and obtains error signal e (k), and e (k-1) is substituted into (1)
Formula calculates the variation delta u (k) of voltage regulator output, recycles (2) formula to calculate the output valve u of voltage control loop section
(k), wherein e (k), e (k-1) are the voltage error signal at k, k-l moment, k respectivelyp、kiRespectively indicate proportionality coefficient, integral
Coefficient, numerical value are respectively 0.29,0.035.
The adjustment process of output voltage is as follows, is more than setting voltage, then AD is adopted if reversible transducer output voltage increases
The numerical value of the voltage signal of sample just will increase, and compared with given voltage value, error signal is changing to negative value, the output of adjuster
Value will reduce, and the duty ratio of PWM drive signal will reduce, and output voltage will decline, until stablizing in setting value;Instead
It is less than setting voltage if reversible transducer output voltage declines, then the output voltage values of AD sampling will be less than setting electricity
Pressure, compared with given voltage value, obtained voltage error signal is positive value, and the output valve of adjuster just will increase, PWM driving letter
Number duty ratio just will increase, output voltage just will increase, until stablize in output valve.Output valve i.e. by changing adjuster
To change the turn-on time of PWM drive signal, so that it may change the turn-on time of metal-oxide-semiconductor in converter, it is final to realize to output
The adjusting of voltage keeps the stabilization of output voltage.
As shown in figure 9, current control link: the given value of current value (such as 2.5V) of setting electric current controlling unit, in single-chip microcontroller
Corresponding digital quantity is calculated in software program.Electricity is exported using Chip Microcomputer A/D module come continuous acquisition k and k-1 moment converter
Flow valuve obtains current error signal e (k), e (k-1) compared with then making the difference with given value of current value, (3) formula of substitution carrys out calculating current
The variation delta i (k) of adjuster output, (4) formula of recycling carry out the output valve i (k) of calculating current controlling unit, wherein e (k), e
(k-1) be respectively k, k-1 moment current error signal value, kp、kiRespectively indicate proportionality coefficient, integral coefficient, numerical value difference
It is 0.639,0.0285.
According to the difference equation of the control algolithm of digital pi regulator, obtain,
The variable quantity of digital pi regulator output: Δ i (k)=kp [e (k)-e (k-1)]+kie(k) (3)
The output of Increment Type Digital Hydraulic pi regulator are as follows: i (k)=i (k-1)+Δ i (k) (4)
The adjustment process for exporting electric current is identical with voltage adjustment process.
Claims (6)
1. a kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology, it is characterised in that: inputted back including direct current
Road, exchange primary input circuit and with exchange the parallel connection of primary input circuit exchange side input circuit;Exchanging other input circuit includes
Bypass input switch, exchange primary input circuit include input isolating transformer, AC/DC rectifier, DC/AC inverter and output every
From transformer, direct current input circuit includes DC/DC reversible transducer;It is female to exchange other input circuit input terminal connection mains
Line is switched by bypass input and is connect with static switch, and static switch is connected with voltage dip sensitive load;Primary input is exchanged to return
Road input terminal connects mains bus, and the alternating current of input is connect by inputting isolating transformer with AC/DC rectifier;Direct current
Input circuit input terminal connect battery group, battery group input direct current through DC/DC reversible transducer boosting after with AC/DC
The DC bus of rectifier is connected, and the DC bus after AC/DC rectifier rectification is connected with DC/AC inverter, DC/AC inversion
The output end of device is connected with output isolation transformer, output isolation transformer after static switch with voltage dip sensitive load
It is connected;It further include single chip machine controlling circuit;Single chip machine controlling circuit and DC/AC inverter driving moved end and DC/DC reversible transducer
Driving end be connected.
2. the voltage dip abatement equipment according to claim 1 based on alternating current-direct current hybrid power supply technology, it is characterised in that:
It further include human-computer interaction interface, single chip machine controlling circuit is connect by SPI communication interface with human-computer interaction interface, single-chip microcontroller control
Circuit is connected by RS-485 communication interface with outside monitoring host computer.
3. the voltage dip abatement equipment according to claim 1 based on alternating current-direct current hybrid power supply technology, it is characterised in that:
Single chip machine controlling circuit use single-chip microcontroller model STM32F405RG, including crystal oscillator Y, crystal oscillator capacitor C1, crystal oscillator capacitor C2,
Power filtering capacitor C8 and power filtering capacitor C9;It further include input ac voltage sample port AN0, input AC current sample
Port AN2, output AC voltage sample port AN1, output alternating current sample port AN3, DC bus-bar voltage sample port
AN4, accumulator battery voltage sample port AN5, battery current sample port AN6 and radiator temperature sample port AN7;It is single
PWM1, PWM2, PWM3, PWM4 signal of piece machine are used to control four metal-oxide-semiconductors of DC/AC inverter, PWM5, PWM6, PWM7,
PWM8 signal is used to control four IGBT of DC/DC reversible transducer.
4. the voltage dip abatement equipment according to claim 1 based on alternating current-direct current hybrid power supply technology, it is characterised in that:
AC/DC rectifier uses full-bridge uncontrollable rectifier topological structure, and L, N are alternating current input, and D1, D2, D3, D4 are two pole of full-bridge rectification
Pipe, C1 is filter capacitor.
5. the voltage dip abatement equipment according to claim 1 based on alternating current-direct current hybrid power supply technology, it is characterised in that:
DC/AC inverter uses full bridge inverter, and C2 is input filter capacitor, and Q1~Q4 is metal-oxide-semiconductor, and L1 is output inductor,
C3 is output filter capacitor, obtains smooth sine wave after L1 and C3 filtering.
6. the voltage dip abatement equipment according to claim 1 based on alternating current-direct current hybrid power supply technology, it is characterised in that:
DC/DC reversible transducer uses the Buck/Boost circuit topological structure of two-way crisscross parallel, wherein DC48V comes from battery
The output of group, C4 and C5 are low-pressure side filter capacitor, and L2 and L3 are inductance, and Q5~Q8 is IGBT module, and C6 and C7 are high-pressure side
Filter capacitor.
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CN201920415490.XU CN209592991U (en) | 2019-03-28 | 2019-03-28 | A kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology |
CN201910248019.0A CN109980652B (en) | 2019-03-28 | 2019-03-28 | Voltage sag treatment equipment based on alternating current-direct current hybrid power supply technology |
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CN201920415490.XU CN209592991U (en) | 2019-03-28 | 2019-03-28 | A kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology |
CN201910248019.0A CN109980652B (en) | 2019-03-28 | 2019-03-28 | Voltage sag treatment equipment based on alternating current-direct current hybrid power supply technology |
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CN109980652A (en) * | 2019-03-28 | 2019-07-05 | 南京国臣信息自动化技术有限公司 | A kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology |
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CN112448467A (en) * | 2019-09-04 | 2021-03-05 | 阿里巴巴集团控股有限公司 | Power supply system, power supply method and data center |
CN111416424A (en) * | 2020-03-26 | 2020-07-14 | 广东电网有限责任公司 | Power supply circuit for governing voltage sag and short-time interruption and control method |
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CN209592991U (en) * | 2019-03-28 | 2019-11-05 | 南京国臣信息自动化技术有限公司 | A kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109980652A (en) * | 2019-03-28 | 2019-07-05 | 南京国臣信息自动化技术有限公司 | A kind of voltage dip abatement equipment based on alternating current-direct current hybrid power supply technology |
CN109980652B (en) * | 2019-03-28 | 2024-04-16 | 山西国臣直流配电工程技术有限公司 | Voltage sag treatment equipment based on alternating current-direct current hybrid power supply technology |
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