CN1224274A - Method capable of eliminating negative damping for control of excitation of synchro generator and regulator thereby - Google Patents

Abstract

A exciting control method for synchronous electric generator to eliminate negative damping features that the voltage regulation of exciting regulator uses proportion-integration regulation mode using integral separation. The value that is obtained by measuring the stator current of electric generator and calculated is used as signal quantity and then as additional regulating signal after proportion-differentiation operation. It is combined with voltage regulation to form the regulating signal of regulator. Cascaded exciting regulator is used. Its advantages are no negative damping phenomenon, coordination between voltage and current regulations, no influence from connection mode and simple structure.

Description

Method capable of eliminating negative damping for control of excitation of synchro generator and regulator thereby

The invention belongs to generator excitation control method and adjuster, particularly a kind of method capable of eliminating negative damping for control of excitation of synchro generator and regulator thereby.

Now people it can reach the effect of two aspects to the operating excitation regulation major requirement of synchronous generator:

1. keep generator voltage (maintenance ± 5% is with interior deviation) operation in rated range;

2. the stable support that necessity is provided that in electric power system, moves for this unit.

This first kind of function is the original function of field regulator, be born from its first day, and its basic function that Here it is, the initial design of field regulator is to realize this purpose;

Above-mentioned second kind of function people began to be found in about 1938, this is inquired into and sum up by the people of the former Soviet Union, before and after the fifties, the former Soviet Union's design-build Kuibyshev and Stalingrad large hydropower station and Kuibyshev one Moscow and Stalingrad one Moscow 400KV (afterwards boost and be 500KV) ultra high-tension transmission line, during this period, the Soviet citizen further finds single excitation regulation of pressing the generator terminal voltage feedback regulation usually, negative damping effect in the time of can causing generating set to move in electric power system has influenced the further raising of parallel running stability; On basis to this Study on Problems, the Soviet citizen has manufactured and designed " powerful formula field regulator " again, this adjuster is except that the regulation mechanism that adopts Voltage Feedback, also added additional conditioning signal such as the frequency of set end voltage, the differential of stator current, made in this theory and practice on the one hand and all obtained no small progress; But their design also exists basic defective, and its control structure and parameter tuning only are suitable for the connected mode of certain specific electric power system and lack necessary universality, thereby have been subjected to limitation in the use ^(1,2,3)

Owing to adopt excitation regulation stable in electric power system to improve this generating set, be to improve the minimum and efficient ways of cost in stable all means and the measure, so this theory and method receive various countries power industry expert's concern, just this technology is listed in the textbook of university's electric power special disciplines to the seventies in China 50, and there is the R﹠D institution of many institution of higher learning and specialty that this is studied, but the solution of the problems referred to above is failed to obtain effective breakthrough, so this technology fails to be used rapidly in China.

About 1969, the power engineering expert of the U.S. has given more deep theoretical explanation from the theoretical side of Electrical Motor to this problem, has founded the deMello-Concordia model ⁽⁴⁾, and designed the utility unit that is referred to as PSS (power system stabilizer, PSS), on the many large-scale unit of electric power system, obtained application as an attachment device of conventional field regulator.Its performance has obtained raising to a certain degree, and it is also easier to use the grasp aspect, thereby has obtained popularization to a certain degree in European and American countries; But this new design is to above-described defective and limitation, do not obtain basic solution, just relaxed some contradiction, its parameter tuning still only is applicable to the electric power system connected mode that certain is predetermined, lacks the adaptability of comparatively broad changes of operating modes; In addition, a significant deficiency is, because it is based on the lineary system theory analysis and gets, and electric power system is intrinsically non-linear, thereby it only is limited with the stable problem that solves under the microvariations, meet in electric power system under the big disturbance of short-circuit impact, it can not be participated in reconciling (this is artificial, because it does not fit into the adjusting that participates under the big disturbance situation) by obturation.Nearly two during the last ten years, and the stability disruption accident under the big disturbance once took place for several times in the American Electric Power system, had caused the off-the-line and the large-area power-cuts of national power network, and this has just further exposed the shortcoming of their existing PSS technology.

In China present stage, in the face of increasing of the fast development, particularly large and medium-sized hydroelectric station of power construction, they need long distance powedr transmission generally away from power load center; The heat power station that " near coal-mine " also arranged send electrical distance also longer, and some stable accidents also begin frequency domain to occur.So since the eighties,, also begun to adopt the PSS device on some generating set in some places of China, wherein there are some to be considered to have effect, but still have some under the pressure of difficulty and the bad reason of grasp of adjusting, fail to put into operation.Just the part of generating units that has put into operation has mainly solved their low frequency oscillation problems under some operating mode, for the effect under the big disturbance, also seldom has the examination data that its pros and cons are described.

China is domestic, from the eighties initial stage so far, in the ascendant always about excitation regulation to the research of power system stability influence, it is a lot of to deliver treatise, linear optimal control field regulator and the NONLINEAR OPTIMAL CONTROL field regulator that to be people such as the Lu Qiang of Tsing-Hua University, Wang Zhonghong, Han Ying's tongued bell, Sun Yuanzhang developed based on linear quadratic type optimal control theory that wherein have the greatest impact and obtained some use experience ^(6,7), wherein the former fails to solve the influence of power system operation mode change to regulating effect, and the latter then claims and solves.Need to prove, electric power system is because the continuous variation of load, the excision of the regular or interim maintenance of power transmission sequence and equipment and locality short circuit accident circuit, the operational network structure of electric power system and mode can not be unalterable, thereby the excitation regulation that requires generator can be scalable the contingent operational mode of system, this is to consider.A series of effects that are used to solve the dynamic stability facility under the big disturbance of electric power system such as the quick relaying protection of electric power system in addition, high-speed switch, high-speed reclosure; be with the power plant in the cooperation of excitation regulation of generating set closely-related; if excitation regulation makes generator operation have negative damping, the benefit of above facility can greatly reduce.Be that the home and abroad is all found already, the losing of generator (stability disruption) synchronously under the big disturbance, many all is not to take place when its first swing, but in its follow-up swing, take place, the harm of this explanation negative damping.

The field regulator (about " highest level " home and abroad approval person is arranged, also hold the naysayer) that is considered to the NONLINEAR OPTIMAL CONTROL of domestic and international highest level at present ^(8,9)Also there are following shortcoming and problem:

1. theoretic imperfection

(1) lack the most basic amount one generator voltage at its optimal objective function, thereby the ability that makes people keep generator voltage for this field regulator produces query, facts have proved that this problem exists really; Former for this reason founder under the situation that stable ability is not verified, added a Voltage Feedback governing loop remedying its deficiency, but this has stayed certain vacancy in theory when releasing product.

(2) analysis of being done from the physical relation aspect of system through us, in the reasoning of the quadratic form optiaml ciriterion that they adopted, owing to generator and electric power system have been adopted the Mathematical Modeling of certain simplification, and the reality of contradictory problems and solve this contradictory problems demand targetedly in the system that not too gears to actual circumstances, this is that theory departs from the most basic problem of reality, and therefore also just being difficult to seek for it is the effective ways that solve this practical problem.

(3) optimized target function is multivariable, choosing of weight coefficient between these variablees for the design result important influence, and the basis of in its design, selecting can for these weight coefficients, explanatorily do not elect diag[1 without exception as but add, 1,0], this has also reflected the imperfection of its theory analysis and not thorough.

2. the difficult grasp in the practicality

Because its theoretic imperfection, too difficult in the mathematical analysis adds that the control algolithm physical significance of analyzing and drawing is unclear, used some very reasonably supposition ^(6,7), in general, the electric power system scientific and technical personnel that possess suitable rudimentary knowledge are indigestion and grasp the operation principle of this adjuster also, also can also can make them be in the condition of can not fine grasp operation and keeping in repair for a long time naturally.

3. the adjuster algorithm structure is too complicated, needs the high speed thirty-two bit computer to realize, has increased the complexity of operation maintenance.Paper was once arranged ⁽¹²⁾, discussed this scheduling algorithm of set end voltage being included in target function, proved that its gained result will complicatedly be difficult to the stage of processing in real time to computer, this is worthless.

The purpose of the design's invention:

In order to adapt to the needs of China's power construction for this technology, we start with from the Physical Mechanism analysis and the research of generator excitation and stable problem relation, designed method capable of eliminating negative damping for control of excitation of synchro generator and regulator thereby, its technical target is:

1. make field regulator in (promptly in the limit power scope that transmission line can be carried) under the possible running environment of generator, can be the support that offers the best of generating set stability of parallel running in electric power system, make it not take place negative damping phenomenon or effect.Accomplish this point, must make field regulator have good harmony aspect voltage-regulation and the stable regulation two, and the influence that makes this moral character not changed by the power system operation connected mode, higher robustness (ROBUSTNESS) had.

2. controller structure is simple, and the principle clear and definite is easy to realize, its operation principle and setting method easily are that the general operation commissioning staff of power plant understands and grasp.

Above purpose is to realize (technology contents of the design's invention) like this:

1. the voltage-regulation link of field regulator adopts the ratio one integration regulative mode of integral-separated, its objective is that both the reserve part autocatalytic reset action is to eliminate the steady state deviation of generator voltage, reaching stable state regulates by the zero deflection of difference coefficient, and eliminate the dynamic negative influence that integration lags behind and brings, hysteresis is the physics root that causes the unit negative damping, and therefore the hysteresis of wiping out in the integral element partly has positive effect.

So-called integral-separated ratio-integration is regulated, and is that autocatalytic reset action is limited in controlled volume Δ U _tIn the following scope of (generator bias-voltage deviation): when $\mathrm{symb}\[\frac{{\mathrm{d\Δ}U}_t}{\mathrm{dt}}\]=\mathrm{symb}\[\mathrm{\Δ}{U}_t\]$ The time, the input of integral element and deviation signal (Δ U _t) to be connected (be that integral element input equals Δ U _t), integral element normally drops into, and participates in adjusting work.When $\mathrm{symb}\[\frac{{\mathrm{d\ΔU}}_t}{\mathrm{dt}}\]\≠\mathrm{symb}\[\mathrm{\Δ}{U}_t\]$ The time, the input of integral element and deviation signal (Δ U _t) be not communicated with, and change reset (zero) (being that integral element is input as 0) into, the numerical value that its output will keep up till now and be reached is constant, with proportional component fellowship regulating action, recovers integral element input and deviation signal (Δ U when above-mentioned equation is set up again up to next time _t) link to each other.

Here symb[] refer to the value of symbol of the amount in the square brackets [], for " just " or be " bearing ".

Δ U _t=U _t-U _tRU _TRBe generator voltage U _tSet point.

2. with the measurement calculated value of the longitudinal axis component of generator unit stator electric current

Form $(X_d-X_d^{\′}){\hat{i}}_d$ Semaphore as the additive regulating signal of systems stabilisation, with above-mentioned voltage-regulation effect comprehensive (real is addition), constitutes the output regulation signal of field regulator after ratio one is differentiated.Here X _d, X _d＇ is respectively generator longitudinal axis synchronous reactance and the reactance of longitudinal axis transient state.

It is the generator unit stator electric current longitudinal axis component that the measured value by the generator unit stator electric current obtains through computing $(X_d-X_d^{\′}){\hat{i}}_d$ Form the optimal selection of this signal.Here X _d, X _d＇ is respectively generator longitudinal axis synchronous reactance and the reactance of longitudinal axis transient state. Be one and measure calculated value, this is meant that it is according to stator current three-phase, i.e. i _a, i _b, i _cThe numerical value that obtains by calculating of measured value.The internal power angle of generator

Second dervative $\frac{d^2{\widehat{\mathrm{\δ}}}_i}{{\mathrm{dt}}^2}$ The actuating quantity that also can be used as additive regulating adds regulating action.It or with above-mentioned $(X_d-X_d^{\′}){\hat{i}}_d$ The additive regulating amount and with (addition), or this two get one and use it, all be feasible.For the generator of large-scale long distance power transmission best both and usefulness.The user can make the selection of oneself to this.

3. for reducing the lagging influence of generator amature electromagnet inertia, can consider to adopt the frame mode of tandem formula field regulator, promptly establish a secondary controller (generally using proportional controller), with generator longitudinal axis transient potential (this amount can be according to generator unit stator voltage, and the measured value of electric current calculates) is intermediate variable, and the regulation loop of forming a LOCAL FEEDBACK participates in the work of master control loop, to strengthen the rapidity of adjustment process, makes it greatly the half cycle time value faster than rotor swing.This measure is substantially just conveniently adjusted, and also can save in the practicality, as long as increase every amplification coefficient of regulating action, also can obtain the similar effect of rapidity.

More than 3 designs are the claimed main contents of present patent application; core is above-mentioned 1,2 two; it embodies the basic control structure of the field regulator that can eliminate negative damping; as for concrete enforcement; this is very now flourishing in present electronic technology; scheme can be diversified, we can say that need not this patent provides one by one to this.

Before the present patent application, domestic, the outer habitual method that overcomes the generator negative damping is that the variable quantity (promptly to time derivative) with the frequency of generator speed or set end voltage is the semaphore of additive regulating, through a leading correction or lag, or adopt the anticipating signal of active power variable signal in conjunction with the vector sum of power variation and rotating speed or frequency variation (promptly with) formation rotating speed or frequency change, constitute additional controlled quentity controlled variable with this, the negative damping effect that causes in order to overcome there is (as the integral element in the voltage-regulation, the electromagnet inertia of generator amature etc.) of hysteresis rotor swing link in the voltage-regulation.The difference of connected mode that owing to the variable quantity of the formed generator rotor current of voltage-regulation is the operation of the power network of powering along with generator changes, and above-mentioned additional controlled quentity controlled variable is only relevant with the size of rotating speed or frequency change, so this field regulator is difficult to possess good robustness (robustness).Method that present patent application provided and former customary way difference, be that the design has given up the method for above-described composed of external damping, taked to coordinate the relation of voltage-regulation and stable regulation, produced to avoid negative damping from the inner mechanism that causes negative damping of eliminating of adjuster.The additive regulating that we do not adopt the signal of rotating speed or frequency change to form is because the relative swing of existence is asked in the variation of generating unit speed or frequency and imprecise this machine of reflection and electric power system.Obviously, structural design of being done here and design distinguished in the past are tangible.

Fig. 1 is the Excitation Controller for Synchronous Generator control structure block diagram that can eliminate negative damping.Fig. 2 obtains with the way of reactance transformer and voltage transformer time terminal voltage addition to show

Intention.

Fig. 3 is the phase diagram of the inner all simple alternating current phasors of synchronous generator.

Fig. 4 is the synchronous generator exciting controlled adjuster embodiment schematic diagram of the negative damping eliminated that adopts the peripheral processes circuit of partial simulation circuit.

Below in conjunction with description of drawings embodiment:

The newly-designed negative damping of eliminating is field regulator control structure Fig. 1:

P is a Laplacian among Fig. 1, T _iBe voltage-regulation time of integration

T _DBe additive regulating derivative time, ε is the adjuster offset coefficient,

Be generator internal power angle

Be generator longitudinal axis transient potential

φ is generator power factor angle for generator unit stator electric current longitudinal axis component

K _{The c I}, K _{The c II}, K _{The c III}Be the input variable of waiting to adjust the amplification coefficient field regulator:

U _{T, A, B, C}Generator unit stator A, B, C three-phase voltage

I _{T, A, B, C}Generator unit stator A, B, C three-phase current

U _{T, R}The generator unit stator voltage setting value

M ₁, M ₂, M ₃, M ₄Be four computing modules, its input and output variable as shown, the algorithm of each module output and computing formula can find in the textbook of generally Electrical Motor and power system analysis, no longer carefully state.

The realization of adjuster (comprising each computing module) can realize that also available analog computing circuit constitutes by the hardware supports software of digital computer, or part constitutes with digital circuit (or digital computer) mixing with artificial circuit part.These all are feasible, and the above realization of field regulator all has the actual motion device in operation.This field regulator removes described computing module and regulates algorithm and some difference of existing field regulator, and other there is no big difference.The problem how the design's field regulator is realized, the level that depends on cost, reliability and electronic technology development, field regulator mostly adopts the realization of digital computer in present China, we think that this field regulator is the most favourable with employing simulation one digital computer mixed form under present technical conditions, can widely collect the two the chief of analog-and digital-realization, may be most economical practicality; If the digital computer of high-speed computation is feasible economically, adopt single implemented in digital that certain benefit is also arranged.

The phase shift that the output of this field regulator mainly acts on excitation main circuit controllable silicon (SCR) power rectification device triggers control, and this is the primary structure form of most synchronous generator excited systems.This field regulator is the most adaptable to be static excitation system, and this also is current maximum excitation system form of using.

When this adjuster was realized with digital computer, sampling and control cycle should be got in 3～20 milliseconds, preferably are not more than 20 milliseconds.

Only in the control structure of this field regulator, specific embodiments can have a variety of under the prior art condition present patent application content, and the user generally is ready and can settles a dispute by the parties concerned themselves, do not need the design that too many help is provided.

About embodiment:

The main product of present Excitation Controller for Synchronous Generator is based on digital computer, and is how molded about its basic hardware formation and software agent structure, need not us and stated at this more, and above once four computing module M mainly are described here ₁, M ₂, M ₃, M ₄Formation, this is that the design is exclusive.

First kind of realization:

Generator unit stator voltage A, B, C three-phase through positive sequence voltage pass filter (analog circuit) after AC sampling input computer.

Generator unit stator electric current A, B, C three-phase through forward-order current pass filter (analog circuit) after AC sampling input computer.

Computer draws by computing after grasping above data ${\hat{E}}_q^{\′},{\hat{i}}_d,{\widehat{\mathrm{\δ}}}_i,{\hat{U}}_t+\mathrm{\ϵ}{\hat{I}}_t\sin \widehat{\mathrm{\φ}}$ Deng numerical value, and in order to calculate the Comprehensive Control amount by preceding figure relation.

Above-mentioned positive sequence voltage pass filter and forward-order current pass filter can be one, also can be three, and setting up view for large-scale computer is 3.3～6.6 milliseconds of situations with three corresponding to sampling and control cycle.

Second kind of realization:

If relatively nervous during the computer machine (centering, minicomputer sets of computer class lower) can calculate with analog operational circuit after generator unit stator voltage and current positive sequence pass filter ${\widehat{\stackrel{\•}{E}}}_q,{\hat{i}}_d,{\widehat{\mathrm{\δ}}}_i,{\hat{U}}_t+\mathrm{\ϵ}{\hat{I}}_t\sin \widehat{\mathrm{\φ}}$ The back is with importing computer after the A/D conversion, and this moment, above-mentioned all amounts occurred with direct current signal amount form.

Concrete operation method is a (see figure 2):

(ⅰ) obtain with the way of reactance transformer and voltage transformer time terminal voltage addition

Generator unit stator electric current positive sequence component Generator unit stator voltage positive sequence component

(ⅱ) get

Signal is made square wave (using voltage comparator), with the forward position or edge, the back driving sampling holder of square wave, by i _tAmount extracts

Value.

(ⅲ) by ${\hat{E}}_q^{\′}=E_q-(X_q-X_d^{\′})I_d$ Formula is calculated

(ⅳ)

Corresponding square wave with front and back along driving sampling holder, by

Amount extracts

Value, thus calculate

(ⅴ) ${\hat{U}}_t+\mathrm{\ϵ}{\hat{I}}_t\sin \widehat{\mathrm{\φ}}$ The form of calculation of amount is just the same with general field regulator, and the user will grasp.

Abovely after the A/D conversion, enter computer.

Scheme is a lot of on the implementation for field regulator control structure provided by the present invention, having turned to the digital computer at present both at home and abroad Excitation Controller for Synchronous Generator main product is under the reality of hardware body, the required additional consideration of realization of this adjuster control structure mainly be the formation of four computing modules in the above structure of block diagram.They can be that hardware relies on the digital computer of governor body, realize with corresponding software module, the peripheral analog hardware circuit that also can add certain signal processing is equipped with appropriate software and assists and realize that what these modules will solve substantially is the computing (shown in Figure 3) of the inner all simple alternating current vectors of following synchronous generator:

Here known

With

Two vectors, they can be by the generator unit stator voltage U _Ta, U _Tb, U _TcThree-phase voltage is obtained behind the positive sequence voltage pass filter

, by the generator unit stator electric current I _Ta, I _Tb, I _TcThree-phase current is obtained behind the forward-order current pass filter

These the two kinds early existing ready-made industrial products of (positive sequence voltage and forward-order current) pass filter can be for selecting (all there is sale Xuchang relay and relay factory, Acheng) for use.

ⅰ) basis ${\stackrel{\•}{E}}_q={\stackrel{\•}{U}}_{\mathrm{tl}}+j{\stackrel{\•}{I}}_{\mathrm{tl}}{x}_g$ Participate in and to calculate with hardware circuit or computer software

ⅱ) by

With

Calculate with hardware circuit or computer software Thus can be further

Calculate, ${\hat{i}}_d(x_d-x_d^{\′})$ Semaphore, here Get

Calculated value.This is M ₂The content of module.

ⅲ) by ${\hat{E}}_q^{\′}={\hat{E}}_q-{\hat{I}}_{\mathrm{tl}}(x_d-x_d^{\′})$ , known With , can calculate

This is M ₁The content of module.

ⅳ) by

With Can calculate with hardware circuit or computer software

, this is M ₃The content of module.

ⅴ) by And Can calculate composite signal with hardware circuit and computer software ${\hat{U}}_{\mathrm{tl}}+\mathrm{\ϵ}{\hat{I}}_{\mathrm{tl}}\sin \widehat{\mathrm{\φ}}$ The synthetic method that constitutes of this measurement is a lot of, can AC sampling synthesize, also can be synthetic by operation of analog quantity, this is all up to now all prerequisite measuring-signals of Excitation Controller for Synchronous Generator, its multiple constructive method is familiar with grasping by those skilled in the art already.This is equivalent to M ₁The content of module.

Each amount of above gained can also can will become DC quantity through A/D conversion input computer earlier with AC sampling mode input computer after the A/D conversion behind these of ac rectifying and wave-filterings.When importing in the AC sampling mode, be input into computer be the simple alternating current amount of respectively this variable parameter expression (as ${\stackrel{\•}{I}}_t=I_{\mathrm{tm}}{e}^{\mathrm{j\ωt}+\mathrm{\θ}}$ Pattern, the parameter to be asked here is I _TmAnd θ, can be by i _tThe sample sequence value obtain with the least square fitting of recursion), this will provide convenience for the signal processing of above-mentioned module.

Certainly, also can be with U _Ta, U _Tb, U _TcAnd I _Ta, I _Tb, I _TcAll initial sinusoids of acs are imported computer in the AC sampling mode, finish the function of positive sequence pass filter by computer, and and then finish M ₁, M ₂, M ₃, M ₄The function of each module.Doing the operand that requires computer to finish like this will be very big, more when needing machine, has only the possibility that adopts computer at a high speed that realization is just arranged.

When selecting AC sampling input data for use, the sampling time is preferably fixed with phase-locked loop, and the cycle synchronisation of maintenance and of ac is done like this and can be saved operand, and improves the precision that fits.

Below we provide an embodiment that adopts the peripheral processes circuit of part of module circuit.Obtain with analog circuit

,

,

,

After all amounts, can obtain M by Computing ₁, M ₂, M ₃, M ₄The result that all modules require.It seems that at present this scheme is the most convenient to be suitable for.

Fig. 4 is the synchronous generator exciting controlled adjuster embodiment schematic diagram of the negative damping eliminated that adopts the peripheral processes circuit of partial simulation circuit.

Generator unit stator forward-order current measured value

Generator unit stator positive sequence voltage measured value Generator unit stator positive sequence voltage longitudinal axis component measurement value

Generator unit stator longitudinal axis synchronizing potential is measured calculated value

The input variable of generator unit stator electric current longitudinal axis component measurement calculated value field regulator: U _{T, A.B.C}Generator unit stator A, B, C three-phase voltage I _{T, A.B.C}Generator unit stator A, B, C three-phase current U _{T, B}Generator unit stator voltage setting value TT transformer KT reactance transformer A voltage comparator CB1, CB2 sampling holder R _tR ₁R ₂Resistance D ₁D ₂Diode

Advantage of the present invention is:

1, make the field regulator (namely can at output circuit under the possible running environment of generator In the power limit scope of carrying), can be generator steady under the parallel running in power system Qualitative, negative damping phenomenon or effect do not take place. Field regulator is in the adjusting of voltage and stable Regulate two aspects and have good harmony, this moral character is not subjected to the Operation of Electric Systems connection side The impact that formula changes has higher robustness.

2, controller structure is simple, and the principle clear and definite is easy to realize, its operation principle and Setting method easily is that the general operations staff of power plant understands and grasp.

Claims (3)

1, a kind of synchronous generator exciting control method of eliminating negative damping is characterized in that: the voltage-regulation link in (1), the field regulator adopts ratio one integration of integral-separated

Regulative mode;

So-called integral-separated ratio one integration is regulated, and is that autocatalytic reset action is limited in tested amount Δ U _tThe following scope of (generator voltage deviation):

When $\mathrm{symb}\[\frac{{\mathrm{d\ΔU}}_t}{\mathrm{dt}}\]=\mathrm{symb}\[\mathrm{\Δ}{U}_t\]$ The time, the input of integral element and deviation signal (Δ U _t) to be connected (be that integral element input equals Δ U _t), integral element normally inserts, and participates in adjusting work;

When $\mathrm{symb}\[\frac{{\mathrm{d\ΔU}}_t}{\mathrm{dt}}\]\≠\mathrm{symb}\[\mathrm{\Δ}{U}_t\]$ The time, the input of integral element and deviation signal (Δ U _t) do not connect, logical and change reset (zero) (being that integral element is input as 0) into, the numerical value that its output will keep up till now and be reached is constant, with proportional component fellowship regulating action, recovers integral element input and deviation signal (Δ U when above-mentioned equation is set up again up to next time _t) link;

Here symb[] refer to the value of symbol of the amount in the square brackets [], for " just " or be " bearing ";

Δ U _t=U _t-U _T.RU _T.RBe generator voltage U _tSet point;

(2) by

Form $(X_d-X_d^{\′}){\hat{i}}_d$ Semaphore as the additive regulating signal of systems stabilisation, with above-mentioned voltage-regulation effect comprehensive (real is addition), constitutes the output regulation signal of field regulator after ratio one is differentiated;

Here X _d, X _d＇ is respectively generator longitudinal axis synchronous reactance and the reactance of longitudinal axis transient state; Form this signal by the generator unit stator electric current longitudinal axis component that the measured value of generator unit stator electric current obtains through computing; Select $(X_d-X_d^{\′}){\hat{i}}_d$ Be additional control signal, this is a kind of optimal selection, and crucial here is to adopt Be one and measure calculated value, this is meant that it is according to stator current three-phase, i.e. i _a, i _b, i _cThe numerical value that obtains by calculating of measured value; The internal power angle of generator Second dervative $\frac{d^2{\widehat{\mathrm{\δ}}}_i}{{\mathrm{dt}}^2}$ Also can add regulating action as the actuating quantity of additive regulating; It or with above-mentioned $(X_d-X_d^{\′}){\hat{i}}_d$ The additive regulating amount and with (addition), or this two get one and use it, all be feasible; For generator of large-scale long distance power transmission best two and usefulness;

(3) for reducing the lagging influence of generator amature electromagnet inertia, can consider to adopt the frame mode of tandem formula field regulator, promptly establish a secondary controller (generally using the ratio adjustable type), with the temporary electromotive force E of the generator longitudinal axis _q(this amount can be according to generator unit stator voltage for ＇, the measured value of electric current calculates) be intermediate variable, the regulation loop of forming a LOCAL FEEDBACK participates in the work of master control loop, to strengthen the rapidity of adjustment process, makes it greatly faster than the half cycle time value of rotor to swing.

2, the adjuster of eliminating the synchronous generator exciting control method of negative damping according to claim 1 is characterized in that: by the measured value of generator unit stator voltage, electric current, through M ₁, M ₂, M ₃, M ₄All module arithmetics draw ${\hat{E}}_{\mathrm{tl}}^{\′},{\hat{i}}_d,{\widehat{\mathrm{\δ}}}_i,{\hat{U}}_t+\mathrm{\ϵ}{\hat{I}}_t\sin \left(\widehat{\mathrm{\φ}}\right)$ After be used for the formation of adjuster control strategy, the phase shift that the output of adjuster is used for excitation main circuit controllable silicon (SCR) power rectification device triggers control.

3, the adjuster of eliminating the synchronous generator exciting control method of negative damping according to claim 1 and 2 is characterized in that: by generator unit stator voltage u _Ta, u _Tb, u _TcThree-phase voltage is obtained generator positive sequence voltage U behind the positive sequence voltage pass filter _Tl, by the generator unit stator current i _Ta, i _Tc, i _TbThree-phase current is obtained generator forward-order current I behind the forward-order current pass filter _TlThe output of forward-order current pass filter

Through TT transformer and parallel resistor R _TMust be to I _TlGenerator unit stator forward-order current measured value; I _TlTry to achieve through the CBl sampling holder again

Generator unit stator electric current longitudinal axis component measurement calculated value, I _TlGet through the KT reactance transformer

With from positive sequence voltage pass filter output

Form

Generator unit stator longitudinal axis synchronizing potential is measured calculated value; U _TlForm through the CB2 sampling holder

Generator unit stator positive sequence voltage longitudinal axis component measurement value; Voltage is through the U of positive sequence voltage pass filter output _TlAnd the I of forward-order current pass filter output _TlThrough resistance R ₁, R ₂Diode D ₁, D ₂, the voltage comparator A control sampling time obtains

, and produce interrupt signal, will by the computer starting A/D converter Amount input computer.This is the typical scenario that this control strategy is realized.

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