CN202550533U

CN202550533U - Device for regulating quality of dual active protective current

Info

Publication number: CN202550533U
Application number: CN2012201344239U
Authority: CN
Inventors: 张宇; 何维国; 刘隽; 赵国亮; 包海龙; 蒋晓春
Original assignee: Shanghai Electric Power Corp; China Electric Power Research Institute Co Ltd CEPRI
Current assignee: Shanghai Electric Power Corp; China Electric Power Research Institute Co Ltd CEPRI
Priority date: 2012-04-01
Filing date: 2012-04-01
Publication date: 2012-11-21
Anticipated expiration: 2022-04-01

Abstract

A mutual protection type current quality adjustment device, relates to a circuit device for AC trunk line or AC power distribution network, especially relates to a device suitable for stabilizing voltage and reducing harmonics or ripples in high-voltage AC power grid, including The current regulation module and the detection control module, the current regulation module and the sensitive load are connected in parallel to the three-phase system power supply, the current regulation module is a Y-connected multiple cascaded IGBT power module, and each phase includes n series-connected current compensation modules Unit; the main circuit of the current compensation unit is an H-bridge power unit circuit composed of IGBT connections. The AC side of each H-bridge power unit circuit of the same phase is connected in series in sequence, one end is connected to the common point of the Y-type connection, and the other end is connected to an inductance element After series connection, connect to the three-phase system power supply with sensitive load. The device can significantly improve the power quality of power supply for sensitive users, and through the protection strategy of mutual backup between modules, it can ensure that some modules of the device can still operate when they fail.

Description

A kind of protection type electric current quality regulator that is equipped with mutually

Technical field

The utility model relates to a kind of circuit arrangement that is used for ac mains or ac distribution network, relates in particular to a kind of high-voltage alternating electrical network burning voltage and device that reduces harmonic wave or ripple of being applicable to.

Background technology

Modern industry, commerce and residential electricity consumption equipment in the urban distribution network; Like high-performance office equipment, accurate laboratory apparatus, frequency control equipment, programmable logic controller (PLC), various automatic assembly line and computer system etc. power supply characteristic is changed the sensitiveness load and be ascendant trend year by year, the requirement of the quality of power supply is improved constantly.As far as sensitive users (like semiconductor manufacturing enterprise), the voltage dip of a few tens of milliseconds just possibly cause device damage, production line to stop production, and causes the tremendous economic loss.Meanwhile, the factors such as a large amount of accesses of distributed energy, impact and interference load all make the electrical network quality of power supply have trend, the safe operation of serious threat electric power system and the operate as normal of power consumption equipment that worsens day by day.

To sensitive load quality of power supply control problem, carried out the research manufacturing of quality of power supply control product both at home and abroad.But; Quality of power supply control device does not also form standardized product; And mainly rest on low pressure low capacity scope, Chinese utility model patent " low harmonic wave power quality control system " (utility model patent number: ZL201020133972 publication number: CN201656479) disclose a kind of low harmonic wave power quality control system.Should low harmonic wave power quality control system comprise checkout gear, electric power adjusting device, resistive load device.Checkout gear receives the feedback signal that comes from the resistive load device.The control signal of checkout gear output can use voltage or electric current to be signal.After the electric power adjusting device receives said control signal, with ratio mode outputting drive voltage.Said ratio mode is for exporting the total power driving voltage at continuous output time at interval, and continuously not output time stop to export the total power driving voltage at interval.After the resistive load device received driving voltage, output feedback signal was to checkout gear.Export the total power driving voltage with the ratio mode at interval at continuous output time, and continuously not output time stop to export the total power driving voltage at interval, can effectively reduce the harmonic wave that produces electric power.But this device is only applicable to low power resistive load device, is not suitable for the electrical network quality of power supply control of high-power; Its objective is of the influence of the harmonic wave of minimizing resistive load device generation to power quality, rather than through improving the quality of power supply of power supply grid, for sensitive loads provides higher-quality power supply.

The utility model content

The purpose of the utility model is that a kind of mutual protection type electric current quality regulator fully will be provided, and solution improves the sensitive users power supply quality of power supply, the technical problem of the fault of minimizing electrical network and sensitive loads power consumption equipment, reduction grid loss, raising utilization rate of electrical.

The utility model solves the problems of the technologies described above the technical scheme that is adopted:

A kind of protection type electric current quality regulator that is equipped with mutually; Comprise current regulating module and detect control module; Described current regulating module and sensitive loads are parallel-connected on the three-phase system power supply, and the detection input of described detection control module is connected to the three-phase system power supply, the control output end of described detection control module; Be connected to current regulating module, it is characterized in that:

The multipleization cascade IGBT power model that described current regulating module connects for the Y type, each comprises n the current compensation unit that is connected in series, wherein 2≤n≤20 mutually;

The main circuit of described current compensation unit is the H bridge power unit circuit that IGBT connects to form; The AC side of each H bridge power unit circuit of same phase is connected successively; One end is connected to the common point that the Y type connects; The other end is connected on the three-phase system power supply that is connected to sensitive loads with after an inductance element is connected.

A kind of preferable technical scheme that is equipped with mutually protection type electric current quality regulator of the utility model is characterized in that described current compensation unit is provided with to detect control element mutually fully; The described control element that detects fully mutually is parallel-connected to the DC side of H bridge power unit circuit through a current-limiting resistance; The described input control end that detects control element mutually fully is connected to described detection control module.

A kind of improved technical scheme that is equipped with protection type electric current quality regulator mutually of the utility model is characterized in that described detection control module comprises digital signal processor, signal condition element and current/voltage-converted element; Described digital signal processor is provided with AD converter and PWM output port, and the input end of analog signal of said AD converter is connected to three-phase system power source voltage instrument transformer summation current transformer through signal condition element and current/voltage-converted element; Said PWM output port is connected respectively to the grid of the IGBT of each harmonic current compensation unit, roadbed ripple current compensation unit through the IGBT drive circuit; Described digital signal processor is connected to the grid monitoring system of three-phase system power supply through NIU.

A kind of improved technical scheme that is equipped with protection type electric current quality regulator mutually of the utility model; It is characterized in that described detection control module also comprises NIU, described digital signal processor is connected to the grid monitoring system of three-phase system power supply through NIU.

The beneficial effect of the utility model is:

1. the mutual protection type electric current quality regulator that is equipped with of the utility model can significantly improve the sensitive users power supply quality of power supply, reduces fault, reduction grid loss, the raising utilization rate of electrical of electrical network and sensitive loads power consumption equipment.

2. adopt multipleization cascade IGBT power model; Series connection through power cell; Reduced the requirement of withstand voltage of power device, can adopt technology maturation, cheap low pressure IGBT to form inversion unit, through the number adaptation different output voltage requirement of series unit.

3. because inverter adopts multipleization PWM technology, can obtain desirable phase voltage waveform, can be rated as perfect harmony through stack.Input power factor can reach more than 0.95, and input filter and power factor compensation device needn't be set, and has further reduced system cost.The improvement of waveform can also reduce noise and dv/dt value except that reducing output harmonic wave.

4. because each power cell of fundamental current compensating unit harmonic current compensation unit has identical structure and parameter; Be convenient to power cell is made modularization; Through protection strategy subsequent use each other between the module, but when breaking down, the assurance device part of module still can move.

Description of drawings

Fig. 1 is the main circuit diagram that is equipped with protection type electric current quality regulator mutually of the utility model;

Fig. 2 is the control unit circuit figure that is equipped with protection type electric current quality regulator mutually of the utility model.

The label of each parts in more than scheming: 100-three phase mains, multipleization of 200-cascade IGBT power model, 20h harmonic current compensation unit; 201～20n-fundamental current compensating unit, 300-digital signal processor, 310-AD transducer; The 320-PWM output port, 400-signal condition element, 410-current/voltage-converted element; The 500-NIU, 700-IGBT drive circuit, 900-sensitive loads.

Embodiment

In order to understand the technique scheme of the utility model better, be explained in further detail below in conjunction with accompanying drawing and embodiment.

Fig. 1 is the main circuit diagram that is equipped with protection type electric current quality regulator mutually of the utility model; Comprise current regulating module 200 and detect the control module (not shown); Current regulating module 200 is parallel-connected on the three-phase system power supply 100 with sensitive loads 900; The detection input of described detection control module is connected to three-phase system power supply 100, and the control output end of described detection control module is connected to current regulating module 200.The multipleization cascade IGBT power model that current regulating module 200 connects for the Y type, each comprises n the current compensation unit 201～20n that is connected in series, wherein 2≤n≤20 mutually.

The main circuit of current compensation unit 201～20n is the H bridge power unit circuit that IGBT connects to form; The AC side of each H bridge power unit circuit of same phase is connected successively; One end is connected to the common point N that the Y type connects; Other end X is connected on the three-phase system power supply 100 that is connected to sensitive loads 900 with after an inductance component L f connects.

In the embodiment shown in fig. 1, current compensation unit 201～20n is provided with and detects control element Tf mutually fully; The described control element Tf that detects fully mutually is parallel-connected to the DC side of H bridge power unit circuit through a current-limiting resistance Rf; The described input control end that detects control element Tf mutually fully is connected to described detection control module.

When any one current compensation unit broke down, described detection control module can be controlled and detect control element Tf mutually fully by-path turn-on is provided; When indivedual H bridges of fundamental module break down, can unify control with fundamental module with high-frequency model as fundamental module, thereby satisfy the compensation of transient voltage disturbance; Equally, when the device high-frequency model broke down, fundamental module also can replace high-frequency model, the attenuation characteristic of high frequency content was realized the compensation of high frequency content through control strategy.

Only represented the phase in multipleization of the three-phase cascade IGBT power model among Fig. 1, the circuit structure of other two phases is identical.Among the figure, the main circuit of current compensation unit 201～20n is identical, all is the H bridge power unit circuit that insulated gate bipolar transistor (IGBT) connects to form, and each power cell 201～20n is made up of IGBT (T1 to T4).Wherein, current compensation unit 20h is a high-frequency model, produce with system power in the identical electric current of high-frequency harmonic electric current, injected system side, the each harmonic component in the bucking-out system electric current; All the other current compensation unit 201～20n are composed in series fundamental module; Produce with system power in the fundamental wave reactive power electric current identical with negative-sequence current; The injected system side, the idle and negative-sequence current component in the bucking-out system electric current, thus look in system side; The system power power factor is near 1, and the current harmonics aberration rate is less than required value.

According to experiment test, system under test (SUT) all contains bigger harmonic wave and idle component before and after the load current sudden change, the total harmonic distortion THD=13.33% before the compensation.After inserting the mutual protection type electric current quality regulator fully of the utility model; When load was undergone mutation, device is follow load current waveform (less than 5ms) fast, and the system power after the compensation is three-phase symmetrical sine ripple basically; Harmonic content reduces greatly; System power THD is 2.35% before the sudden load change, and sudden change back system power THD is 2.25%, system power after the compensation and voltage same-phase.

The detection control module that is equipped with protection type electric current quality regulator mutually of the utility model comprises digital signal processor 300, signal condition element 400, current/voltage-converted element 410 and NIU 500; Digital signal processor 300 is provided with AD converter 310 and PWM output port 320; The input end of analog signal of AD converter 310; Be connected to three-phase system power source voltage instrument transformer summation current transformer through signal condition element 400 and current/voltage-converted element 410, receive supply voltage and current detection signal; PWM output port 320 is through IGBT drive circuit 700; Be connected respectively to the grid of the IGBT (T1 to T4) of each harmonic current compensation unit, roadbed ripple current compensation unit, send the pwm control signal of digital signal processor 300 generations to each power cell of multipleization cascade; Digital signal processor 300 is connected to the grid monitoring system of three-phase system power supply through NIU 500, realizes remote monitoring and networking control.

In an embodiment of the utility model; Digital signal processor 300 is the TMS320F28335 type digital signal processor of T1 company, and this processor has the high speed processing ability of 150MHz, possesses 32 floating point processing units; 6 DMA passages are supported ADC, McBSP and EMIF; Nearly 18 tunnel PWM output is arranged, wherein have 6 the tunnel to be the distinctive more high-precision PWM output of TI (HRPWM), 12 16 passage ADC.IGBT drive circuit 700 can use any existing IGBT drive integrated circult, and typical embodiment is the EXB840 of EXB8 series, EXB841, EXB850; EXB851, the M57957 of M579 series, M57958; M57962, the HL402 of HL series, the GH-039 of GH series etc.In this embodiment; NIU 500 adopts EtherCAT from station control ET1100; EtherCAT is a real-time and opening Ethernet communications protocol; Can satisfy the continuous expansion of electric power system scale, system operation mode becomes increasingly complex, to the increasingly high requirement that requires of automatization level.

28335 produce 8 road PWM ripples, see off through IGBT drive circuit 700.On the integrated circuit board with all input fault signal phases " or " give 6 the tunnel and block PWM input signals (TZ), 28335 can directly block all PWM in case guarantee to break down from hardware.

The channel attached signal condition element 400 of analog acquisition comprises with current/voltage-converted element 410: two-way voltage Hall element (CHV-50P/1200A) input; The input of 2 road current Hall elements; 4 road thermistors sampling input, AD converter adopts 28335 inner 12bitAD.

The digital input signals that 4 road DI input terminals that DIDO connects connect comprises: rectifier bridge left side brachium pontis fault, right brachium pontis fault, inverter bridge left side brachium pontis fault, right brachium pontis fault, drive plate line under-voltage fault; The digital output signal of DO output comprises: 8 road pwm signals, block by-passing signal and drive plate reset signal.

Those of ordinary skill in the art will be appreciated that; Above embodiment only is the technical scheme that is used for explaining the utility model; And be not the qualification that is used as the utility model; Any connotation based on the utility model is to variation, modification that the above embodiment did, all will drop in the protection range of claim of the utility model.

Claims

1. A mutual protection type current quality adjustment device, comprising a current adjustment module and a detection control module, the current adjustment module is connected to the three-phase system power supply in parallel with the sensitive load, and the detection input terminal of the detection control module Connected to the three-phase system power supply, the control output terminal of the detection control module is connected to the current regulation module, characterized in that:

The current regulation module is a Y-connected multiple cascaded IGBT power module, and each phase includes n series-connected current compensation units, where 2≤n≤20;

The main circuit of the current compensation unit is an H-bridge power unit circuit composed of IGBT connections. The AC sides of each H-bridge power unit circuit of the same phase are connected in series in sequence, one end is connected to the common point of the Y-type connection, and the other end is connected to an inductor The elements are connected in series to a three-phase system power supply with sensitive loads.

2. The mutual backup protection type current quality adjustment device according to claim 1, characterized in that said current compensation unit is provided with a mutual backup detection control element; said mutual backup detection control element is connected in parallel through a current limiting resistor It is connected to the DC side of the H-bridge power unit circuit; the input control terminal of the mutual backup detection control element is connected to the detection control module.

3. The mutual protection type current quality adjustment device according to claim 1 or 2, characterized in that the detection control module includes a digital signal processor, a signal conditioning element and a current/voltage conversion element; the digital signal The processor is provided with an AD converter and a PWM output port, and the analog signal input terminal of the AD converter is connected to a voltage transformer and a current transformer of a three-phase system power supply through a signal conditioning element and a current/voltage conversion element; The PWM output ports are respectively connected to the gates of the IGBTs of the fundamental wave current compensation units and the harmonic current compensation units of each channel through the IGBT drive circuit.

4. The mutual backup protection type current quality adjustment device according to claim 3, characterized in that the detection control module also includes a network interface unit, and the digital signal processor is connected to the three-phase system power supply through the network interface unit grid monitoring system.