CN101071162A - Current converter test circuit - Google Patents

Abstract

This invention discloses a converter test circuit, which has two converter of the same function as the tested converter. The output terminal of the first is connected to the second's through emotional components coupling. The second's input terminal is connected to the first through the emotional component. The power is connected to one of the coupling end to provide the necessary energy for the test. The other coupling is the load of this test circuit. In the test, one converter work in the state, another work in the reverse. According to test requirements, control the pulse width modulation of two converters, to achieve the energy circle between two converter through the coupling circuit. The loss of power is compensated through the power supply. The power is fully utilized to achieve a good energy saving effect.

Description

A kind of hookup of current transformer

Technical field

The present invention relates to the current transformer technology, relate in particular to a kind of hookup of current transformer.

Background technology

Under various motor-driven occasions, high-power converter is used widely.These current transformers are used for providing driving power to motor, and in the unsteady flow process, the supply voltage that supply network is provided is converted into the supply voltage of suitable voltage and frequency, provides to motor.

High-power converter in above-mentioned application scenario needs the working condition by the measurement of test method current transformer.Under the prior art, adopt as Fig. 1 a-1c or the hookup shown in Fig. 2 a-2c.

The same test method that three kinds of hookups shown in Fig. 1 a-1c adopt at multi-form current transformer respectively, its common trait all is to connect asynchronous machine as load at the output terminal of current transformer, behind asynchronous motor, can further connect device such as generator, flywheel and connect, test power is fed back in the electrical network, transformed and be stored as the kinetic energy of flywheel or by resistance heating consumption by generator.Because above-mentioned load state is close with current transformer real work situation, makes underproof current transformer can obtain to be similar to the trystate of actual working state.Wherein, in the circuit shown in Fig. 1 a, tested the current transformer of current transformer for " three-phase alternating current-direct current-three-phase alternating current "; In the circuit shown in Fig. 1 b, being tested current transformer is " direct current-three-phase alternating current " current transformer; In the circuit shown in Fig. 1 c, tested the current transformer of current transformer for " single-phase AC-direct current-three-phase alternating current ".

Three kinds of experimental circuits shown in Fig. 2 adopt another test method, it is characterized in that, the output of current transformer all connects resistance reactance near real electrical machinery power factor (about 0.8) as load, and described current transformer is worked being similar under the trystate of actual working state.The electric energy that current transformer is exported in process of the test consumes on above-mentioned resistance imaginary loading.Wherein the current transformer form with Fig. 1 a-1c is identical respectively for the current transformer form in the circuit shown in Fig. 2 a-2c.

Above-mentioned two kinds of test methods all are to connect at the output terminal of current transformer to substitute load in essence, so that obtain and the true close duty of service condition, thereby can test out the parameters such as normal working voltage, electric current, power of current transformer.This mode can be tested the duty of current transformer preferably, but also has some problems.

At first, both energy consumptions are all very high.In the hookup shown in Figure 1, the motor of load can be by the connection method generator with the electric energy feedback grid as an alternative, can make a part of electric energy obtain reclaiming like this, but, because the link of this energy feedback mode is too much, cause electric energy to consume major part on intermediate link, the ratio that can feed back to electrical network is less.In the circuit shown in Figure 2, the electric energy full consumption makes electric energy loss in vain on the resistance as load.

Secondly, for Fig. 1 b, Fig. 2 b etc., in the circuit of testing at the current transformer that uses single-phase alternating current,, cause the power supply three-phase imbalance because current transformer needs single phase power supply.

Once more, foregoing circuit needs to prepare dissimilar power supplies for the current transformer with different power requirement, causes power type many and complicated.

Except the problems referred to above, also there are some specific problems separately in above-mentioned two kinds of methods.Wherein, method shown in Figure 1 makes it have system complex because some groups of motors need be set, and floor area is big, problems such as testing equipment cost height; Simultaneously, drive apparatus is easy to wear, the maintenance cost height; Asynchronous machine as load during test constantly rotates, and mechanical noise is big.Method shown in Figure 2 can't reclaim electric energy because Total Test power all passes through resistance consumption, and energy loss is huge; This method when heat radiations such as using fan is equipped, also can produce noise owing to need make cost up for the high-power heat radiation equipment of load configuration.

Summary of the invention

At above-mentioned defective, the technical matters that the present invention solves is, for current transformer provides a kind of hookup, this circuit can reduce the energy loss that produces in the process of the test, and be convenient to adopt further prioritization scheme, make in the time of to test the inverter of single phase power supply, can not cause the imbalance of three-phase electricity owing to single phase power supply; This circuit has the simple advantage of required power supply kind simultaneously.Equally, this circuit can the short form test system, reduces the maintenance cost of system, and owing to need not to consider heat radiation etc., can not produce noise.

The hookup of current transformer provided by the invention has the identical current transformer of two functions simultaneously as tested current transformer, wherein the output terminal of first current transformer is coupled to the output terminal of second current transformer by inductive element, and the input end of second current transformer connects the input end of first current transformer by inductive element; Power supply connects a coupled end of above-mentioned first current transformer and second current transformer, provides institute's energy requirement in the test to this circuit, and the inductive element on another coupled end that is not connected with power supply is the load of this hookup; During test, in two current transformers, one is operated in forward condition, another is operated in adverse state, according to the test needs, pulse-length modulation control is carried out in two current transformer work, made two current transformers realize the circulation of energy between two current transformers by coupled circuit each other, the loss part that produces during above-mentioned energy circulation obtains compensation by power supply.

Preferably, described tested current transformer is " direct current-three-phase alternating current " current transformer; The output terminal of described first current transformer is coupled to the output terminal of second current transformer by inductive element, and one or more groups ac output end that specifically is first current transformer is by reactor or transformer coupled one or more groups ac output end to second current transformer; The input end of described second current transformer connects the input end of first current transformer by inductive element, specifically is one or more groups direct-flow input end of second current transformer is coupled to first current transformer by reactor one or more groups direct-flow input end; The direct current of described power supply for after the three-phase alternating-current supply rectification, obtaining; Described power supply connects a coupled end of above-mentioned first current transformer and second current transformer, specifically is that this direct current connects described first current transformer and second input end that current transformer intercouples.

Preferably, described tested current transformer is " three-phase alternating current-direct current-three-phase alternating current " current transformer; The output terminal of described first current transformer is coupled to the output terminal of second current transformer by inductive element, and one or more groups ac output end that specifically is first current transformer is by reactor or transformer coupled to corresponding one or more groups ac output end of second current transformer; The input end of described second current transformer connects the input end of first current transformer by inductive element, specifically is one or more groups three-phase alternating current input end of second current transformer is coupled to first current transformer by reactor corresponding one or more groups three-phase alternating current input end; Described power supply is a three-phase alternating-current supply; Described power supply connects a coupled end of first current transformer and second current transformer, specifically is that this three-phase alternating-current supply connects described first current transformer and second input end that current transformer intercouples.

Preferably, described tested current transformer is " single-phase AC-direct current-three-phase alternating current " current transformer, the output terminal of described first current transformer is coupled to the output terminal of second current transformer by inductive element, specifically is that one or more groups three-phase alternating current output terminal of described first current transformer is coupled to corresponding one or more groups three-phase alternating current output terminal of second current transformer by reactor; The input end of described second current transformer is by the input end of first current transformer of inductive element connection, and one or more groups single-phase AC input end that specifically is second current transformer is by reactor or transformer coupled one or more groups single-phase AC input end to first current transformer; Described power supply is a three-phase alternating-current supply; Described power supply connects a coupled end of above-mentioned first current transformer and second current transformer, specifically is one or more groups three-phase alternating current output terminal that intercouples that this three-phase alternating-current supply connects described first current transformer and second current transformer.

Preferably, described tested current transformer is " DC-DC " current transformer, the output terminal of described first current transformer is coupled to the output terminal of second current transformer by inductive element, specifically is one or more groups dc output end of described first current transformer is coupled to second current transformer by reactance one or more groups dc output end; The input end of described second current transformer connects the input end of first current transformer by inductive element, specifically is one or more groups direct-flow input end of second current transformer is coupled to first current transformer by reactance one or more groups direct-flow input end; Described power supply is a direct supply; Described power supply connects a coupled end of above-mentioned first current transformer and second current transformer, specifically is output terminal that intercouples or the input end that this direct supply connects described first current transformer and second current transformer.

Preferably, described power supply connects a coupled end of first current transformer and second current transformer, specifically is to be connected relative two positions that current transformer has symmetrical input reactance on this coupled end.

Preferably, in this hookup, the concrete grammar of realizing energy circulation between two current transformers is, by jointly controlling the output voltage of described first current transformer and second current transformer, adjusting is as reactor or the size of current on the transformer and the direction of load, with the size and the energy Flow direction of control test power.

Basic technical scheme of the present invention, the unsteady flow loop that adopts two current transformers to form by transformer or reactor coupling, make electric energy constantly circulation in loop, be implemented in the power cycles of rated power between two current transformers under specified voltage, electric current and the frequency, external power source only need replenish the electric energy loss in the loop, can finish test.In the loop, transformer or reactor play coupling and isolate.In fact, technical scheme provided by the invention is to satisfy under the prerequisite that the current transformer test standard requires, with the output electric energy of current transformer by suitable conversion or isolation again as intake, output to another tested current transformer.Compared with prior art, this technical scheme has avoided consuming simply the output electric energy of current transformer, makes electric energy obtain to make full use of, and has reached good energy-saving effect.Simultaneously, owing to adopt two current transformers to form the unsteady flow loop in this technical scheme, therefore, this technical scheme can be tested two current transformers simultaneously, is specially adapted to carry out current transformer the occasion of bulge test.

Compare with technology with existing, because energy circulation is used, do not need special-purpose energy-dissipating device is set among the present invention, avoided relevant therewith various plant equipment and heat dissipation equipment, solved because the noise that plant equipment and heat dissipation equipment cause.

In the preferred implementation of the present invention, to single-phase AC input, the current transformer of three-phase alternating current output adopts reverse mode to test, the three-phase imbalance problem that can avoid the test method of single-phase AC input in the prior art to cause.

In addition, the present invention makes it have the advantage that equipment is simple, maintenance cost is low owing to do not need to use various energy consumption equipments.

Description of drawings

Fig. 1 a is the following first kind of current transformer hookup of prior art, is the current transformer of " three-phase alternating current-direct current-three-phase alternating current " by the test current transformer wherein;

Fig. 1 b is first kind of current transformer hookup of prior art, is the current transformer of " direct current-three-phase alternating current " by the test current transformer wherein;

Fig. 1 c is first kind of current transformer hookup of prior art, is the current transformer of " single-phase AC-direct current-three-phase alternating current " by the test current transformer wherein;

Fig. 2 a is second kind of current transformer hookup of prior art, wherein is the current transformer of " three intersect-straight-three-phase alternating current " by the test current transformer;

Fig. 2 b is second kind of current transformer hookup of prior art, is " direct current-three-phase alternating current " current transformer by the test current transformer wherein;

Fig. 2 c is second kind of current transformer hookup of prior art, is the current transformer of " single-phase AC-direct current-three-phase alternating current " by the test current transformer wherein;

Fig. 3 is the main circuit schematic diagram of the current transformer hookup that provides of first embodiment of the invention, adopts the reactor coupling;

Fig. 4 is the energy circulation synoptic diagram of the current transformer hookup that provides of first embodiment of the invention;

Fig. 5 is the main circuit schematic diagram of the current transformer hookup that provides of first embodiment of the invention, adopts transformer coupled;

Fig. 6 is the main circuit schematic diagram of the current transformer hookup that provides of second embodiment of the invention, adopts the reactor coupling;

Fig. 7 is the main circuit schematic diagram of the current transformer hookup that provides of third embodiment of the invention, adopts the reactor coupling;

Fig. 8 is the main circuit schematic diagram of the current transformer hookup that provides of fourth embodiment of the invention, adopts the reactor coupling;

Fig. 9 is that current transformer hookup that second embodiment of the invention provides adopts the main circuit schematic diagram when transformer coupled;

Figure 10 is that current transformer hookup that third embodiment of the invention provides adopts the main circuit schematic diagram when transformer coupled;

Figure 11 is the control circuit schematic diagram of a kind of current transformer hookup of providing of fifth embodiment of the invention.

Embodiment

Please referring to Fig. 3, this illustrates the main circuit principle of the current transformer hookup that first embodiment of the invention provides.

In the experimental circuit that this embodiment provides, being tested current transformer is first current transformer 31 and second current transformer 32; Described first current transformer 31 comprises first rectifier 311 and first inverter 312; Described second current transformer 32 comprises second rectifier 321 and second inverter 322.Described first rectifier 311 and second rectifier 321 are the three-phase four-quadrant pulsed rectifier; Described first inverter 312 and second inverter 322 are three-phase inverter, and a plurality of output terminals can be provided.

The output terminal of described first rectifier 311 is connected by dc bus with the input end of described first inverter 312, first energy-storage capacitor 35 in parallel between described dc bus both positive and negative polarity.The output terminal of described second rectifier 321 is connected by dc bus with the input end of described second inverter 322, second energy-storage capacitor 36 in parallel between described dc bus both positive and negative polarity.

The output terminal of described first inverter 312, it respectively connects corresponding each phase of second inverter, 322 output terminals by each reactance in the first reactance group 37.The input end of described second rectifier 321, it respectively is connected corresponding each phase of first inverter, 312 input ends mutually with the 3rd reactance group 342 by the second reactance group 341.In fact, above-mentioned connection is that output terminal and the input end with tested current transformer 31 and tested current transformer 32 intercouples by reactor respectively, each reactor in above-mentioned each reactance group is the reactance with similar elements parameter, and described second reactance group 341 and the 3rd reactance group 342 are made up of the reactor with identical parameters.Because the inverter in the foregoing circuit may have a plurality of output terminals, each output terminal all can connect by reactance group separately is corresponding, and these reactance groups can adopt obstructed parameter, but will guarantee that the parameter of each reactor of same reactance group is identical.

Be connected with three of three phase supply power supply 33 respectively with the 3rd reactance group 342 interconnective three-phase terminals in the described second reactance group 341.

The principle of work of foregoing circuit when testing below is described.Please be simultaneously referring to Fig. 4, this figure is used to illustrate the energy exchange relation of present embodiment.Should illustrate, any process of the test of this circuit all realizes under the control of relevant control module, owing to do not relate to the technical contribution of the present invention to prior art, and those skilled in the art can be according to relevant known can general knowledge the realization, therefore, at this control module and concrete control procedure are not described in detail.

When testing, described three phase supply power supply 33 simultaneously, jointly controls described first current transformer 31 and second current transformer 32 to this hookup power supply.Described first current transformer 31 is under the control of control module, be operated in the forward duty, it obtains the input electric energy from input end, this electric energy is the form of three-phase alternating current, after first rectifier 311 of first current transformer 31 is direct current with this three-phase alternating current electric rectification, by the dc bus of this first current transformer 31, output to described first inverter 312; The DC bus-bar voltage inversion that described first inverter 312 will be imported is a three-phase alternating current, and by above-mentioned conversion, the three-phase alternating current of output has electrical quantitys such as desired voltage and frequency.The above-mentioned three-phase alternating current of first inverter, 310 outputs, the described first reactance group 37 of process is loaded into the output terminal of described second current transformer 32.At this moment, described second inverter 32 is under the control of control module, be in the reverse operation state, wherein second inverter 322 is operated in rectification state, it passes through the three-phase alternating current of the first reactance group, 37 outputs as input with described from first current transformer, 31 output terminals, be converted into DC voltage, output to the DC terminal of described second rectifier 321 by dc bus; Described second rectifier 321 is operated in inverter mode, it will be converted into three-phase alternating current output from the DC voltage that dc bus obtains, the three-phase alternating current of this output is loaded into the input end of described first current transformer 31 by the 3rd reactance group 342 and the second reactance group 341, thereby realizes energy circulation.In above-mentioned energy Flow process, can carry out the detection of various electrical quantitys to first current transformer 31 and second current transformer 32, as electric current, voltage, power etc.In test, also can carry out opposite control, make first current transformer 31 be operated in reverse duty, second current transformer 32 is operated in the forward duty.In this cycling circuit, the first reactance group 37 and can be considered as load as the current transformer of loaded work piece (in 31 and 32).

From the above-mentioned course of work as can be seen,, must jointly control, make it can realize flowing of energy smoothly first current transformer 31 and second current transformer 32 in order in this hookup, to realize energy circulation.Simultaneously, for the energy of loss in the circuit, provide additional by three phase supply power supply 33.As can be seen from Figure 4, in this circuit cycles, produce loss 1 in first current transformer 31, this loss 1 is to be consumed by the switching process of first current transformer 31 and impedance etc.; First reactor 37 as load produces loss 2, and the loss of this part mainly is to consume on the resistance on the reactor.Produce loss 3 on described second current transformer 32, its reason is identical with described first current transformer 33.Three phase supply power supply 33 replenishes in test above-mentioned loss, and the energy internal circulating load in this loop is maintained.

Owing in process of the test, realized energy circulation, therefore, the energy loss that the process of the test of this hookup can not produce significantly reduces, and is example with GTO (Gate turn-offThyristor, the gate level turn-off thyristor) traction convertor of specified output 3500kVA grade, as adopt conventional test method, the power of test load consumption is 2800kW, adds current transformer own loss 150kW, and total losses are 2950kW, all be converted to heat energy, the capacity of power supply must be greater than 3500kVA.After adopting test method of the present invention, reaching on the basis of same test effect, two current transformer own loss 300kW, the loss 50kW of transformer (reactor), total power attenuation is 350kW only, is 1/10 of traditional experiment method.

More than among first embodiment, use coupling and the spacer assembly of first reactor 37 as load, in fact, also can use coupling and the spacer assembly of transformer as load.Please referring to circuit shown in Figure 5, adopt three-phase transformer to connect the output terminal of first current transformer and second current transformer among this figure, this mode can make between the output terminal of first current transformer and second current transformer and obtain to isolate reliably.

In addition, in the foregoing description, the output terminal of two tested current transformers output three-phase alternating current, in fact, this embodiment is applicable to that also tested current transformer output terminal is the occasion of single-phase alternating current, at this moment, only the corresponding connection of respectively holding of single-phase alternating current need be got final product.

Please referring to Fig. 6, this figure is the main circuit schematic diagram of the second embodiment of the present invention.This embodiment is used for the situation of current transformer for " direct current-three-phase alternating current " current transformer.

As shown in Figure 6, in this hookup, first current transformer 61 and 62 in second current transformer comprise the inverter that direct current is converted to alternating current, because first current transformer 61 among this embodiment and the input of second current transformer 62 must be direct currents, in this circuit, the electric energy that three phase supply power supply 63 is provided offers the input end of first current transformer 61 and second current transformer 62 after 64 rectifications are direct current through power rectifier.Other parts and course of work fundamental sum first embodiment of this circuit are identical.

In this circuit, can replace the reactor group with three-phase transformer equally, obtain good isolation thereby make between the output terminal of first current transformer 61 and second current transformer 62, its concrete circuit diagram can be referring to Fig. 9.

Please referring to Fig. 7, this figure is the main circuit schematic diagram of the third embodiment of the present invention.This embodiment is used for the situation of current transformer for " single-phase AC-direct current-three-phase alternating current " current transformer.

As shown in Figure 7, the circuit connecting mode of the hookup that provides of this embodiment and preceding two embodiment is different.In this embodiment, that considers current transformer is input as single-phase AC input, if input end is directly connected electrical network, will cause the electrical network three-phase imbalance.For this reason, the method for attachment of the current transformer in this hookup is different with the foregoing description.First rectifier, 711 input ends of first current transformer 71 connect the second reactor group 721 of second current transformer 72 by the first reactor group 74, wherein, the first reactor group 74 comprises two reactors with components identical parameter, is connected between two terminals of single-phase AC input end of first rectifier 711 and second rectifier 721.The three-phase output end of the inverter 712 of described first current transformer 71 is connected with the 3rd reactance group 752 by the second reactance group 751 with each respective terminal of the three-phase output end of second current transformer 721, the second reactance group 751 and the 3rd reactance group 752 respectively comprise three reactors, and each reactor all has identical electric parameter.The output terminal of above-mentioned two inverters may have the output of many group three-phases, and then each group all can connect by two reactor groups, and the component parameters of the reactor of different output groups can be different.

Be that with the difference of above-mentioned first embodiment and second embodiment in the present embodiment, the three-phase of three phase supply power supply 73 connects the splicing ear of described second reactance group 751 and the 3rd reactance group 752 respectively.

Above-mentioned connected mode makes three phase supply power supply 73 provide additional electric energy from the output terminal of first current transformer 71 and second current transformer 72 to hookup.This using method can make this hookup adopt the power supply of three phase supply power supply, can not cause the influence to three-phase supply.The difference of this connected mode and the foregoing description is only at the terminal that has changed the power supply makeup energy, and the work of current transformer is a forward job equally in the process of the test, and therefore another reverse work, can not exert an influence to test findings.

In the present embodiment, as the coupling and the spacer assembly of load, the first reactor group 74 can adopt transformer equally, and can obtain isolation effect preferably, and its circuit diagram is referring to Figure 10.

Please referring to Fig. 8, this figure is the main circuit circuit theory diagrams of fourth embodiment of the invention.This hookup is used for " DC-to-dc " current transformer.

In this hookup, the output terminal of first current transformer 81 and second current transformer 82 and input end interconnect by the reactor group of being made up of the reactor of similar elements parameter respectively, the three-phase alternating current that three phase supply power supply 83 provides provides additional electric energy to above-mentioned tested current transformer after being direct current by rectifier 84 rectifications.

In this circuit, because the input end of two tested current transformers and output terminal are direct current output, so, can not adopt transformer to replace as the reactor group of load.

In the foregoing description, current transformer all adopts four-quadrant rectifier or inverter, and they all are the combinations of controlled power electronic switching module, and each switch module is identical, and switch module without any restriction, has symmetry completely to the flow direction of energy.Therefore, any one in two kinds of patterns of the rectification of current transformer and inversion can be realized the certification test to current transformer, and its test findings can be used as the foundation of current transformer performance.

The foregoing description provides the main circuit form of some hookups, the type of attachment of these main circuits is enough to the contribution of complete embodiment the present invention to prior art, those skilled in the art is according to the foregoing description, on the hookup basis of prior art, utilize the basic fundamental knowledge of this area, need not creative work and can obtain complete hookup.

Hookup provided by the invention can be used for the test of the various current transformers beyond the foregoing description.For example, " direct current-three-phase alternating current " current transformer, " direct current-single-phase AC " current transformer, " three-phase alternating current-direct current " current transformer, " single-phase AC-direct current " current transformer etc.

In order to make those skilled in the art obtain more clear and definite understanding to the complete realization of technical scheme provided by the invention.Below the 5th embodiment a kind of actual control circuit that uses is disclosed.

Figure 11 illustrates the control circuit schematic diagram of the hookup that fifth embodiment of the invention provides.This circuit can be used for polytype current transformer is tested.

The effect of each main original paper is as follows in this circuit: contactor DS1～DS2 is used for switching on and off the test electrical network under nominal situation; Vacuum circuit breaker VCB1～VCB2 is used to cut off experiment power supply, protection electrical network and testing equipment; Pressure regulator IVR is used to regulate trial voltage, for tested current transformer provides suitable voltage; Transformer TR1 is used for isolated high-voltage electrical network and low pressure test (LPT) equipment; Lightning arrester OVA: be used to eliminate overvoltage of power supply, protection test equipment; Rectifier REC: be used for three-phase alternating current is transformed into direct current, to tested current transformer power supply; DC high speed circuit breaker HB1: be used to cut off tested current transformer power supply, protect tested current transformer and testing equipment; Filter reactor L1: be used for DC filtering and eliminate the high frequency reflection; Mutual reactor COUP1～COUP6: be used for two electric coupling between the current transformer; Coupling transformer CTR1～CTR3: be used for two electric coupling between the current transformer; Current sensor CT1～CT15 is used for sensed current signal; Voltage sensor PT1～PT3 is used for detectable voltage signals; Load isolating switch LBS is the low-voltage distribution short-circuiting device; Transformer TR2 is the low-voltage distribution transformer.

Below briefly introduce the circuit theory of this circuit.

After the AC power AC10kV/50Hz access testing laboratory from three phase network, be connected to pressure regulator IVR through contactor DS1, vacuum circuit breaker VCB1, pressure regulator IVR adjusts output voltage according to steering order, its output is given transformer Tr1 power supply through contactor DS2, is divided into following two branch roads after the transformer Tr1 output:

First branch road: REC is rectified into direct current with three-phase alternating current through rectifier, pass through DC high speed circuit breaker HB1 and filter reactor L1 then, give first group of tested current transformer power supply, this group comprises tested current transformer 1 and 2 power supplies of tested current transformer, these two current transformers are " DC-AC " current transformer or " DC-DC converter ", the input end of two tested current transformers can directly connect direct supply, also can connect direct supply by inductive element respectively as among the 3rd embodiment with identical running parameter.The ac output end of tested current transformer meets mutual reactor COUP1～COUP3.

Second branch road: through tested current transformer 5 and 6 power supplies of tested current transformer that vacuum circuit breaker VCB2 gives second group tested current transformer 3 and tested current transformer 4 and the 3rd group, above-mentioned tested current transformer is " AC-DC-interchange " current transformer.The input end of above-mentioned tested current transformer can directly connect three-phase alternating-current supply, also can connect three-phase alternating-current supply by the inductive element with identical running parameter respectively as among first embodiment.Two groups of tested current transformer ac output ends meet mutual reactor COUP4～COUP6 or coupling transformer CTR1～CTR3 (being used for multiple single-phase ac power supply current transformer) as load.

Except that above-mentioned main circuit, in this circuit, also have electric power monitoring dish 111, Control System of Microcomputer 112 and low-tension distribution board 113.Described electric power monitoring dish 111 can carry out relay control (to the control of contactor, switch, isolating switch), grid power and test power detection, the auxiliary coolant system control of pilot system.Described Control System of Microcomputer 112 is according to given instruction; trigger pulse by the power controlling device; regulate current transformer output voltage and output frequency; and by detecting current signal and the voltage signal of each branch current sensor CT1～CT13, voltage sensor PT1～PT3 in power circuit and the coupled circuit; calculating is tested power and is compared with set-point; carry out closed-loop control, the monitoring system working condition is prepared to protect at any time simultaneously.Described low-tension distribution board MCCB obtains the three-phase and four-line low-voltage distribution of 380V by transformer TR2, and the three-phase and the single-phase voltage output of the different current capacities of some covers are provided, and uses for this hookup.

Above-mentioned hookup can be realized the test to the tested current transformer of number of different types by the switching controls of circuit.

The above only is a preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (7)

1, a kind of hookup of current transformer, it is characterized in that, has the identical current transformer of two functions simultaneously as tested current transformer, wherein the output terminal of first current transformer is coupled to the output terminal of second current transformer by inductive element, and the input end of second current transformer connects the input end of first current transformer by inductive element; Power supply connects a coupled end of above-mentioned first current transformer and second current transformer, provides institute's energy requirement in the test to this circuit, and the inductive element on another coupled end that is not connected with power supply is the load of this hookup; During test, in two current transformers, one is operated in forward condition, another is operated in adverse state, according to the test needs, pulse-length modulation control is carried out in two current transformer work, made two current transformers realize the circulation of energy between two current transformers by coupled circuit each other, the loss part that produces during above-mentioned energy circulation obtains compensation by power supply.

2, current transformer hookup according to claim 1 is characterized in that, described tested current transformer is " direct current-three-phase alternating current " current transformer; The output terminal of described first current transformer is coupled to the output terminal of second current transformer by inductive element, and one or more groups ac output end that specifically is first current transformer is by reactor or transformer coupled one or more groups ac output end to second current transformer; The input end of described second current transformer connects the input end of first current transformer by inductive element, specifically is one or more groups direct-flow input end of second current transformer is coupled to first current transformer by reactor one or more groups direct-flow input end; The direct current of described power supply for after the three-phase alternating-current supply rectification, obtaining; Described power supply connects a coupled end of above-mentioned first current transformer and second current transformer, specifically is that this direct current connects described first current transformer and second input end that current transformer intercouples.

3, current transformer experimental circuit according to claim 1 is characterized in that, described tested current transformer is " three-phase alternating current-direct current-three-phase alternating current " current transformer; The output terminal of described first current transformer is coupled to the output terminal of second current transformer by inductive element, and one or more groups ac output end that specifically is first current transformer is by reactor or transformer coupled to corresponding one or more groups ac output end of second current transformer; The input end of described second current transformer connects the input end of first current transformer by inductive element, specifically is one or more groups three-phase alternating current input end of second current transformer is coupled to first current transformer by reactor corresponding one or more groups three-phase alternating current input end; Described power supply is a three-phase alternating-current supply; Described power supply connects a coupled end of first current transformer and second current transformer, specifically is that this three-phase alternating-current supply connects described first current transformer and second input end that current transformer intercouples.

4, current transformer hookup according to claim 1, it is characterized in that, described tested current transformer is " single-phase AC-direct current-three-phase alternating current " current transformer, the output terminal of described first current transformer is coupled to the output terminal of second current transformer by inductive element, specifically is that one or more groups three-phase alternating current output terminal of described first current transformer is coupled to corresponding one or more groups three-phase alternating current output terminal of second current transformer by reactor; The input end of described second current transformer is by the input end of first current transformer of inductive element connection, and one or more groups single-phase AC input end that specifically is second current transformer is by reactor or transformer coupled one or more groups single-phase AC input end to first current transformer; Described power supply is a three-phase alternating-current supply; Described power supply connects a coupled end of above-mentioned first current transformer and second current transformer, specifically is one or more groups three-phase alternating current output terminal that intercouples that this three-phase alternating-current supply connects described first current transformer and second current transformer.

5, current transformer hookup according to claim 1, it is characterized in that, described tested current transformer is " DC-to-dc " current transformer, the output terminal of described first current transformer is coupled to the output terminal of second current transformer by inductive element, specifically is one or more groups dc output end of described first current transformer is coupled to second current transformer by reactance one or more groups dc output end; The input end of described second current transformer connects the input end of first current transformer by inductive element, specifically is one or more groups direct-flow input end of second current transformer is coupled to first current transformer by reactance one or more groups direct-flow input end; Described power supply is a direct supply; Described power supply connects a coupled end of above-mentioned first current transformer and second current transformer, specifically is output terminal that intercouples or the input end that this direct supply connects described first current transformer and second current transformer.

6, according to each described current transformer hookup of claim 1-5, it is characterized in that, described power supply connects a coupled end of first current transformer and second current transformer, specifically is to be connected relative two positions that current transformer has symmetrical input reactance on this coupled end.

7, according to each described current transformer hookup of claim 1-5, it is characterized in that, in this hookup, the concrete grammar of realizing energy circulation between two current transformers is, by jointly controlling the output voltage of described first current transformer and second current transformer, adjusting is as reactor or the size of current on the transformer and the direction of load, with the size and the energy Flow direction of control test power.

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