CN109149916A - Modularization multi-level converter DC side pulsation of current suppressing method - Google Patents

Abstract

The invention discloses modularization multi-level converter (MMC) DC side pulsation of current suppressing methods, pulse duration modulation method is laminated using carrier wave in three-phase MMC system, and joined and inhibit two frequency multiplication circulation control algolithm of bridge arm, carrier wave is divided into the two groups: 1st group and includes by propositionn- 1 carrier wave and sinusoidal reference ripple ±y _j It is compared；2nd group includes 1 carrier wave, the compensation reference wave of phase variable and the output of two frequency multiplication circulation controllersy _j2It is compared.By the phase for moving the 2nd group of carrier wave in three-phase bridge arm respectively in each carrier cycle, so that the sum of the pulse voltage on the inductance of three-phase bridge arm is zero, the high-frequency current as caused by pulse voltage is cancelled out each other in three-phase bridge arm, it may not flow into DC bus, to inhibit the high frequency current ripple on DC bus.The change for not needing to carry out any circuit topology, passes through the improvement to traditional PD-PWM control method, it is suppressed that traditional control method gives MMC DC side bring high-frequency harmonic electric current, compensates for the defect of conventional method.

Description

Modularization multi-level converter DC side pulsation of current suppressing method

Technical field

The invention belongs to multilevel power electronic converter technical fields, are related to a kind of modularization multi-level converter (MMC) DC side pulsation of current suppressing method.

Background technique

Relative to two traditional level and three-level converter, MMC is with high-efficient, output AC voltage harmonic wave is small, high The features such as spending modularization, is more suitable for high voltage, powerful application, has obtained extensively in fields such as D.C. high voltage transmissions Using.

Carrier wave stacking pulsewidth modulation (PD-PWM) method is a kind of relatively common MMC modulator approach.Its way is to pass through N frequency, the identical triangular carrier of phase and amplitude " stacking " are got up and compared with modulating wave, to obtain the touching of switching device Send out pulse.Generally, the phase of the triangular carrier of each phase upper and lower bridge arm is set as opposite.If the upper and lower bridge arm of each phase is given Fixed sinusoidal modulation wave is symmetrical about x-axis, then the sum of submodule number that each phase is put at any time is all n.Ignore bridge Pressure drop in arm impedance, thus the sum of the submodule voltage of each phase investment is equal to DC side busbar voltage.

When normal operation, flowing through can be containing biggish two harmonic, to increase inverter in the electric current of MMC bridge arm Loss.In order to reduce the loss of MMC, design controller is generally also needed to inhibit the circulation of bridge arm.Currently, two times of common inhibition The strategy of frequency circulation is, by extracting two frequency multiplication circulation, then by circulation controller, and the voltage compensation signal referred to, In the sinusoidal modulation wave for the upper and lower bridge arm that the reference voltage thermal compensation signal is added separately to each phase, inhibit two frequencys multiplication to realize The purpose of circulation.However, two frequency multiplication circulation are repressed simultaneously, another adverse effect is but brought.Due to upper and lower bridge arm It all joined the voltage compensation component of same two frequency multiplication in sinusoidal modulation wave, so that the reference modulating wave of upper and lower bridge arm no longer closes It is symmetrical in x-axis.At this point, using PD-PWM modulation algorithm, the submodule number that each phase is put at any time no longer it is constant not Become.As the voltage compensation component y of two frequencys multiplication_j2When > 0, the submodule number of each phase element investment is n or n-1；When two frequencys multiplication Voltage compensation component y_j2When < 0, the submodule number of each phase element investment is n or n+1.If the voltage of each submodule capacitor Equal to V_dc/ n, wherein V_dcIt is DC bus-bar voltage, as a result leads to the sum of voltage of submodule of each phase element investment and direct current The sum of side bus voltage is inconsistent, to generate pulse voltage on bridge arm inductance, the amplitude of the voltage is equal to 1 submodule electricity The voltage of appearance.And then high-frequency current is generated on bridge arm.The phase of pulse voltage on three-phase bridge arm inductance is arbitrary, cannot Guarantee that being added at each moment is all zero, therefore the high-frequency current generated on three-phase bridge arm cannot cancel out each other, and then flow into straight It flows on side bus, causes the dither of direct current bus bar stream.

Summary of the invention

Goal of the invention of the invention is in view of the above problems, proposing a kind of modularization multi-level converter (MMC) DC side Pulsation of current suppressing method by the way that the carrier wave of each bridge arm of A, B, C three-phase is divided into two groups, and is moved in each carrier cycle The phase of dynamic 2nd group of carrier wave, can make the sum of the pulse voltage being applied on three-phase bridge arm inductance is zero, the high-frequency current of generation It will not flow on DC bus, to inhibit the high frequency current ripple on DC bus.

In order to achieve the above object, the technical solution adopted by the present invention is that: a kind of modularization multi-level converter (MMC) is straight Side pulsation of current suppressing method is flowed, the MMC system uses PD-PWM modulator approach, and joined and inhibit two frequency multiplication circulation of bridge arm Control algolithm.Specifically includes the following steps: redundancy submodule is not considered, if the submodule number of A, B, C three-phase bridge arm is N, bridge arm and the isoceles triangle variable number of lower bridge arm are all n in each phase and to be divided into the two groups: 1st group include n-1 carrier wave, Wherein upper and lower bridge arm carrier wave is denoted as W respectively_{ju_1}~W_{ju_n-1}And W_{jl_1}~W_{jl_n-1}(j=a, b, c respectively represent A, B, C three-phase), It being evenly distributed in the range of [- 1,1] from top to bottom, frequency and phase are all identical, and amplitude is identical and is equal to 2/ (n-1), and And the carrier phase of bridge arm and lower bridge arm is opposite in j phase；2nd group includes 1 carrier wave, wherein upper and lower bridge arm carrier wave is denoted as respectively W_{ju_n}And W_{jl_n}, amplitude range is [- 1,1], and frequency is identical with the 1st group, and phase is calculated by control algolithm, and bridge in j phase The carrier phase of arm and lower bridge arm is opposite.Correspondingly, bridge arm in each phase and the modulating wave of lower bridge arm are all divided into two parts: 1 part is given power frequency sinusoidal reference ripple, wherein the power frequency sinusoidal reference ripple respectively-y that upper and lower bridge arm is given_jAnd y_j, point Do not compare with the 1st group of carrier wave of upper and lower bridge arm, obtaining modulation level number is respectively n_{ju_1}And n_{jl_1}；Part 2 is by circulation The two frequency multiplication sinusoidal reference ripple y that controller obtains_j2, compare respectively with the 2nd group of carrier wave of upper and lower bridge arm, obtain modulation level number Mesh is respectively n_{ju_2}And n_{jl_2}.Bridge arm and lower bridge arm are respectively n through the number of levels that ovennodulation obtains in j phase_juAnd n_jl.Wherein, n_ju=n_{ju_1}+n_{ju_2}, n_jl=n_{jl_1}+n_{jl_2}.Then pass through traditional pressure strategy, it is each finally to generate driving j phase upper and lower bridge arm The pwm pulse of a submodule, so that the upper and lower bridge arm of j phase puts into n respectively_ju、n_jlA submodule.

As an improvement of the present invention, the phase of the 2nd group of carrier wave of the above-mentioned each bridge arm of A, B, C three-phase is calculated by control Method obtains, specifically includes the following steps:

(1) in each carrier cycle, A, B, C three-phase compensation voltages of sampling ring stream controller output are denoted as respectively y_a2、y_b2And y_c2；

(2) width for calculating the high-frequency pulse voltage being applied on three-phase bridge arm inductance, is denoted as θ respectively_a、θ_bAnd θ_c, then Calculate their absolute value | θ_a|、|θ_b| and | θ_c|；

(3) right | θ_a|、|θ_b| and | θ_c| sequence obtains corresponding serial number and is denoted as K respectively_θa、K_θbAnd K_θc, serial number value range It is 0,1,2.Wherein, | θ_a|、|θ_b| and | θ_c| middle the maximum corresponds to serial number and is equal to 0；|θ_a|、|θ_b| and | θ_c| middle reckling, Corresponding serial number is equal to 2；Otherwise, it corresponds to serial number and is equal to 1.

(4) position angle of corresponding 2nd group of carrier wave when calculating A, B, C three-phase sequence serial number is respectively 0,1,2, and according to (3) K obtained in_θa、K_θbAnd K_θc2nd group of carrier wave of each phase upper and lower bridge arm is moved respectively to corresponding phase.

As an improvement of the present invention, it in above-mentioned step (2), in each the triangular carrier cycle, is applied to each Pulse voltage on the bridge arm inductance of phase has 2, and distance difference is π.The width θ of each pulse voltage_a、θ_bAnd θ_cCalculating Formula are as follows: θ_j=y_j2·π。y_j2θ when > 0_a> 0, y_j2θ when < 0_a<0。

As an improvement of the present invention, in above-mentioned steps (4), the corresponding 2nd group of load of each for A, B, C three-phase serial number The position of wave is defined in 1 carrier cycle, the negative peak point of the initial point of carrier cycle to triangular carrier (or positive peak Point) horizontal distance be θ respectively_as、θ_bs、θ_cs, circular are as follows:

For A phase,

K_θa=0, θ_as=π

For B phase,

K_θb=0, θ_bs=π

For C phase,

K_θc=0, θ_cs=π

The utility model has the advantages that

MMC DC side pulsation of current suppressing method of the invention, does not need to do hardware circuit any change, has following Advantage:

1, the pulsation of current being able to suppress on DC bus, practical value are high:

Carrier wave stacking pulsewidth modulation (PD-PWM) method is one of current most widely used MMC modulator approach.However, working as After control system joined two frequency multiplication circulation algorithms, pulse voltage can be applied on bridge arm inductance, and then to DC bus Upper injection high-frequency current, so that the DC bus current characteristic of MMC is deteriorated.This method has found the problem, and proposes corresponding Control algolithm.This method passes through mobile carrier phase and improves MMC to inhibit the high-frequency current for flowing to DC bus Performance, have biggish practical value.

2, control is simple, should be readily appreciated that and implements:

By analysis, the width θ for the pulse voltage being applied on three-phase bridge arm inductance in a carrier cycle is found_a、θ_b And θ_cAlgebraical sum is zero, but the phase of pulse is random.Therefore, the present invention proposes, by the phase of mobile carrier wave, thus So that the sum of the pulse voltage on three-phase bridge arm inductance is equal to zero at any time.Such as Fig. 1, carrier wave is divided into two groups, the 1st group Compare with sinusoidal modulation wave, therefore the sum of the level number of each phase upper and lower bridge arm is fixed；2nd group of only one carrier wave, width It is worth output reference voltage of the range in [- 1,1] and two frequency multiplication circulation controllers to compare, in a carrier cycle, each phase is produced Raw 2 pulse voltages, distance difference is π, and the position of pulse and the position of carrier wave are related.Therefore by moving three-phase bridge arm respectively The 2nd group of carrier wave phase, just can control the position of the pulse voltage on three-phase bridge arm inductance.

Detailed description of the invention

Fig. 1 is three-phase MMC and submodule topology diagram；

Fig. 2 is the schematic diagram of this method specific implementation；

Fig. 3 is modulation knot when two frequency multiplication circulation controllers output compensation reference wave is greater than zero in method proposed by the present invention Fruit schematic diagram；

Fig. 4 is modulation knot when two frequency multiplication circulation controllers output compensation reference wave is less than zero in method proposed by the present invention Fruit schematic diagram；

Fig. 5 is the phase shift of the 2nd group of carrier wave and bridge arm inductive drop pulse of three-phase bridge arm in method proposed by the present invention Dynamic schematic diagram.

Specific embodiment

Further explanation is done to the present invention with reference to the accompanying drawing.

The present invention is suitable for three-phase MMC DC side pulsation of current suppressing method, and wherein MMC topological structure is as shown in Figure 1, three Totally 6 bridge arms, each bridge arm are made of phase MMC n submodule unit (Cell) and series inductance.u_als、u_bls、u_clsRespectively A, the sum of upper and lower bridge arm inductive drop of B, C three-phase.Submodule unit is half-bridge topology, is also possible to full-bridge, clamper Shuangzi module Deng other topologys.

As shown in Fig. 2, a kind of MMC DC side pulsation of current suppressing method, is laminated pulsewidth modulation (PD-PWM) using carrier wave Method, and joined the control algolithm for inhibiting two frequency multiplication circulation of bridge arm.Do not consider redundancy submodule, if A, B, C three-phase bridge arm Submodule number is n, and bridge arm and the isoceles triangle variable number of lower bridge arm are all n and are divided into the two groups: 1st group in each phase Including n-1 carrier wave, wherein upper and lower bridge arm carrier wave is denoted as W respectively_{ju_1}~W_{ju_n-1}And W_{jl_1}~W_{jl_n-1}, uniformly divide from top to bottom For cloth in the range of [- 1,1], frequency and phase are all identical, and amplitude is identical and is equal to 2/ (n-1), and in j phase bridge arm and under The carrier phase of bridge arm is opposite；2nd group includes 1 carrier wave, wherein upper and lower bridge arm carrier wave is denoted as W respectively_{ju_n}And W_{jl_n}, amplitude model Enclosing is [- 1,1], and frequency is identical with the 1st group, and phase is calculated by control algolithm, and in j phase bridge arm and lower bridge arm carrier wave Opposite in phase.Correspondingly, bridge arm in each phase and the modulating wave of lower bridge arm are all divided into two parts: part 1 is given work Frequency sinusoidal reference ripple, wherein the power frequency sinusoidal reference ripple respectively-y that upper and lower bridge arm is given_jAnd y_j, respectively with upper and lower bridge arm 1st group of carrier wave compares, and obtaining modulation level number is respectively n_{ju_1}And n_{jl_1}；Part 2 is two times obtained by circulation controller Frequency sinusoidal reference ripple y_j2, compare respectively with the 2nd group of carrier wave of upper and lower bridge arm, obtaining modulation level number is respectively n_{ju_2}With n_{jl_2}.Bridge arm and lower bridge arm are respectively n through the number of levels that ovennodulation obtains in j phase_juAnd n_jl.Wherein, n_ju=n_{ju_1}+n_{ju_2}, n_jl=n_{jl_1}+n_{jl_2}.Then pass through traditional pressure strategy, finally generate the PWM of driving each submodule of j phase upper and lower bridge arm Pulse, so that the upper and lower bridge arm of j phase puts into n respectively_ju、n_jlA submodule.

A method of the pulsation of current of MMC DC side being inhibited by the phase of mobile the 2nd group of carrier wave of bridge arm, wherein each bridge The phase of the 2nd group of carrier wave of arm is obtained by control algolithm, specifically includes the following steps:

(1) in each carrier cycle, A, B, C three-phase compensation voltages of sampling ring stream controller output are denoted as respectively y_a2、y_b2And y_c2.Here y_a2、y_b2And y_c2All refer to per unit value.It should be noted that since PD-PWM is a kind of high frequency modulation Method processed, setting carrier frequency is much higher than frequency of modulated wave, therefore, in a carrier cycle, it is believed that y_a2、y_b2And y_c2 It is constant.

(2) width for calculating the high-frequency pulse voltage being applied on three-phase bridge arm inductance, is denoted as θ respectively_a、θ_bAnd θ_c, and count Calculate corresponding absolute value | θ_a|、|θ_b| and | θ_c|；；

(3) right | θ_a|、|θ_b| and | θ_c| sequence obtains corresponding serial number and is denoted as K respectively_θa、K_θbAnd K_θc, serial number value range It is 0,1,2.Wherein, | θ_a|、|θ_b| and | θ_c| middle the maximum corresponds to serial number and is equal to 0；|θ_a|、|θ_b| and | θ_c| middle reckling, Corresponding serial number is equal to 2；Otherwise, it corresponds to serial number and is equal to 1.

(4) position angle of corresponding 2nd group of carrier wave when calculating A, B, C three-phase sequence serial number is respectively 0,1,2, and according to (3) K obtained in_θa、K_θbAnd K_θc2nd group of carrier wave of each phase upper and lower bridge arm is moved respectively to corresponding phase.

Wherein, in step (2), in each the triangular carrier cycle, the pulse being applied in the bridge arm reactance of each phase is electric 2 are pressed with, distance difference is π.The width θ of each pulse voltage_a、θ_bAnd θ_cCalculation formula are as follows: θ_j=y_j2·π。y_j2When > 0 θ_a> 0, y_j2θ when < 0_a<0。

In step (4), the position of the corresponding 2nd group of carrier wave of each for A, B, C three-phase serial number is defined on 1 triangle In carrier cycle, the horizontal distance of the negative peak point (or positive peak point) of the initial point of carrier cycle to triangular carrier is respectively θ_as、θ_bs、θ_cs.For the 2nd group of carrier wave of the upper and lower bridge arm of j phase, phase is opposite.Therefore, if θ_js=π, at this time j phase The initial point of upper bridge arm carrier cycle is just on positive peak point, and the initial point of j phase lower bridge arm carrier cycle is just in negative peak Point on.The initial point of practical each carrier cycle is to change.θ_as、θ_bs、θ_csValue be all according to K_θa、K_θbAnd K_θcAnd with π On the basis of obtain, circular are as follows:

For A phase,

K_θa=0, θ_as=π

For B phase,

K_θb=0, θ_bs=π

For C phase,

K_θc=0, θ_cs=π

It is as shown in Figure 3 and Figure 4 respectively y_j2> 0 and y_j2J phase modulation result schematic diagram when < 0.Illustrate by taking Fig. 3 as an example, at this It invents in the control method proposed, the 1st group of carrier wave includes n-1 carrier wave, is modulated to given sine wave, upper and lower bridge arm warp Modulating obtained number of levels is respectively n_{ju_1}And n_{jl_1}, since the sinusoidal reference ripple of upper and lower bridge arm is reverse phase, carrier wave is also Reverse phase, thus the sum of the result modulated is constant, n_{ju_1}+n_{jl_1}=n-1；2nd group is only had 1 carrier wave, to two frequency multiplication circulation The output reference wave of controller is modulated, and the modulated obtained number of levels of upper and lower bridge arm is respectively n_{ju_2}And n_{jl_2}, modulation As a result non-constant, n_{ju_2}+n_{jl_2}=1 or 2.If the capacitance voltage of each submodule is equal to V_dc/ n, wherein V_dcIt is DC bus electricity Pressure, then, u_jsm=V_dcOr (n+1) V_dc/ n, wherein u_jsmIt is the sum of the submodule voltage of the upper and lower bridge arm investment of j phase.As a result, u_jls=0 or-V_dc/ n, wherein u_jlsIt is the voltage on the upper and lower bridge arm inductance of j phase.To be generated on the upper and lower bridge arm inductance of j phase High frequency voltage pulse.In each carrier cycle, each phase generates 2 voltage pulses through ovennodulation.It can be seen that generation Voltage pulse includes 4 attributes: amplitude, symbol, width and position.The amplitude of the voltage pulse is the electricity of a sub- module capacitance Pressure, it is positive and negative and two frequency multiplication circulation controllers to export the positive and negative related of reference wave, width and two frequency multiplication circulation controllers The size for exporting reference wave is related, and position is related with the position of the 2nd group of triangular carrier, and 2 electricity in each carrier cycle Pressing pulse distance difference is π.For three-phase MMC, easy analysis obtains θ_a+θ_b+θ_c=0.It therefore theoretically can be in each carrier wave By the phase of mobile 2nd group of carrier wave in period, so that the impulse summation of three-phase is offset, any time three-phase bridge arm inductance is realized On the sum of voltage pulse be equal to zero.

Fig. 5 gives a kind of situation that carrier phase is mobile.A, the pulse width size relation of B, C three-phase is | θ_b|>|θ_a| >|θ_c|, therefore K_θa=1, K_θb=0, K_θc=2.It is remained stationary on the basis of the triangular carrier of B phase, θ_bs=π.By the carrier wave of A phase Be moved to the left π-(| θ_b|-|θ_a|)/2, by the carrier wave of C phase move right to π+(| θ_b|-|θ_c|)/2.At this point, three-phase bridge arm electricity Pulse voltage in sense is cancelled out each other, and the sum of inductive drop of three-phase bridge arm is equal to zero in whole cycle.Then the height generated The sum of frequency electric current is also equal to zero, may not flow on DC bus, to inhibit the high frequency current ripple on DC bus.

The foregoing is merely better embodiment of the invention, protection scope of the present invention is not with above embodiment Limit, as long as those of ordinary skill in the art's equivalent modification or variation made by disclosure according to the present invention, should all be included in power In the protection scope recorded in sharp claim.

Claims (4)

1. a kind of modularization multi-level converter DC side pulsation of current suppressing method, which comprises the following steps:

Do not consider redundancy submodule, if the submodule number of A, B, C three-phase bridge arm is n, bridge arm and lower bridge arm in each phase Isoceles triangle variable number is all n and to be divided into the two groups: 1st group include n-1 carrier wave, wherein upper and lower bridge arm carrier wave is remembered respectively For W_{ju_1}~W_{ju_n-1}And W_{jl_1}~W_{jl_n-1}(j=a, b, c respectively represent A, B, C three-phase), be evenly distributed on from top to bottom [- 1, 1] in the range of, frequency and phase are all identical, and amplitude is identical and is equal to 2/ (n-1), and in j phase bridge arm and lower bridge arm load Wave phase is opposite；2nd group includes 1 carrier wave, wherein upper and lower bridge arm carrier wave is denoted as W respectively_{ju_n}And W_{jl_n}, amplitude range be [- 1, 1], frequency is identical with the 1st group, and phase is calculated by control algolithm, and in j phase bridge arm and lower bridge arm carrier phase phase Instead；

Bridge arm in each phase and the modulating wave of lower bridge arm are all divided into two parts: part 1 is given power frequency sinusoidal reference ripple, Wherein the given power frequency sinusoidal reference ripple of upper and lower bridge arm is respectively-y_jAnd y_j, compare respectively with the 1st group of carrier wave of upper and lower bridge arm, Obtaining modulation level number is respectively n_{ju_1}And n_{jl_1}；Part 2 is the two frequency multiplication sinusoidal reference ripples obtained by circulation controller y_j2, compare respectively with the 2nd group of carrier wave of upper and lower bridge arm, obtaining modulation level number is respectively n_{ju_2}And n_{jl_2}；Bridge arm in j phase It through the number of levels that ovennodulation obtains is respectively n with lower bridge arm_juAnd n_jl；Wherein, n_ju=n_{ju_1}+n_{ju_2}, n_jl=n_{jl_1}+n_{jl_2}； Then pass through traditional pressure strategy, the pwm pulse of each submodule of the upper and lower bridge arm of driving j phase is finally generated, so that j phase Upper and lower bridge arm puts into n respectively_ju、n_jlA submodule.

2. a kind of modularization multi-level converter DC side pulsation of current suppressing method according to claim 1, feature Be: the phase of the 2nd group of carrier wave of each bridge arm of A, B, C three-phase is calculated by control algolithm, is specifically included following Step:

(1) in each carrier cycle, A, B, C three-phase compensation voltages of sampling ring stream controller output are denoted as y respectively_a2、y_b2 And y_c2；

(2) width for calculating the high-frequency pulse voltage being applied on three-phase bridge arm inductance, is denoted as θ respectively_a、θ_bAnd θ_c, then calculate Their absolute value | θ_a|、|θ_b| and | θ_c|；

(3) right | θ_a|、|θ_b| and | θ_c| sequence obtains corresponding serial number and is denoted as K respectively_θa、K_θbAnd K_θc, serial number value range be 0, 1,2, wherein | θ_a|、|θ_b| and | θ_c| middle the maximum corresponds to serial number and is equal to 0；|θ_a|、|θ_b| and | θ_c| middle reckling corresponds to Serial number is equal to 2；Otherwise, it corresponds to serial number and is equal to 1；

(4) position angle of corresponding 2nd group of carrier wave when a, b, c three-phase sequence serial number are respectively 0,1,2 is calculated, and according in (3) Obtained K_θa、K_θbAnd K_θc2nd group of carrier wave of each phase upper and lower bridge arm is moved respectively to corresponding phase.

3. a kind of MMC DC side pulsation of current suppressing method according to claim 2, which is characterized in that the step (2) In, in each the triangular carrier cycle, the pulse voltage being applied on the bridge arm inductance of each phase has 2, and distance difference is π, the width θ of each pulse voltage_a、θ_bAnd θ_cCalculation formula are as follows: θ_j=y_j2·π。

4. a kind of modularization multi-level converter DC side pulsation of current suppressing method according to claim 2, feature It is, in the step (4), the position angle of the corresponding 2nd group of carrier wave of each for A, B, C three-phase serial number is defined on 1 carrier wave In period, the horizontal distance of the negative peak point (or positive peak point) of carrier cycle initial point to triangular carrier is θ respectively_as、 θ_bs、θ_cs, circular are as follows:

For A phase,

K_θa=0, θ_as=π

K_θa=1,

K_θa=2,

For B phase,

K_θb=0, θ_bs=π

K_θb=1,

K_θb=2,

For C phase,

K_θc=0, θ_cs=π

K_θc=1,

K_θc=2,