bancada-motores/Simulink/VF Control/VFControl_sg_rtw/VFControl_cal.h
Pedro Jose Romero Gombau 3e7835e670 Proyecto
2024-10-25 16:51:18 +02:00

814 lines
47 KiB
C

#ifndef VFControl_cal_h_
#define VFControl_cal_h_
#include "rtwtypes.h"
/* Storage class 'PageSwitching', for system '<Root>' */
struct VFControl_cal_type {
real_T DCVoltageSource_Amplitude; /* Mask Parameter: DCVoltageSource_Amplitude
* Referenced by: '<S39>/DC'
*/
real_T HarmonicAgeneration_Mag_Harmo;
/* Mask Parameter: HarmonicAgeneration_Mag_Harmo
* Referenced by: '<S52>/Phase_Harmo1'
*/
real_T HarmonicBgeneration_Mag_Harmo;
/* Mask Parameter: HarmonicBgeneration_Mag_Harmo
* Referenced by: '<S53>/Phase_Harmo1'
*/
real_T HarmonicAgeneration_Phase_Harmo;
/* Mask Parameter: HarmonicAgeneration_Phase_Harmo
* Referenced by: '<S52>/Phase_Harmo'
*/
real_T HarmonicBgeneration_Phase_Harmo;
/* Mask Parameter: HarmonicBgeneration_Phase_Harmo
* Referenced by: '<S53>/Phase_Harmo'
*/
real_T HarmonicAgeneration_Seq_Harmo;
/* Mask Parameter: HarmonicAgeneration_Seq_Harmo
* Referenced by: '<S52>/Phase_Harmo2'
*/
real_T HarmonicBgeneration_Seq_Harmo;
/* Mask Parameter: HarmonicBgeneration_Seq_Harmo
* Referenced by: '<S53>/Phase_Harmo2'
*/
real_T Variationvaluesteprampmod_Toff_;
/* Mask Parameter: Variationvaluesteprampmod_Toff_
* Referenced by: '<S56>/Step1'
*/
real_T Variationvaluesteprampmod_Ton_V;
/* Mask Parameter: Variationvaluesteprampmod_Ton_V
* Referenced by: '<S56>/Step'
*/
real_T Variationvaluesteprampmod_Varia;
/* Mask Parameter: Variationvaluesteprampmod_Varia
* Referenced by: '<S56>/valp_nom9'
*/
real_T Variationvaluesteprampmod_Var_l;
/* Mask Parameter: Variationvaluesteprampmod_Var_l
* Referenced by: '<S56>/valp_nom8'
*/
real_T Variationvaluesteprampmod_Var_p;
/* Mask Parameter: Variationvaluesteprampmod_Var_p
* Referenced by: '<S56>/valp_nom7'
*/
real_T Variationvaluesteprampmod_Var_n;
/* Mask Parameter: Variationvaluesteprampmod_Var_n
* Referenced by: '<S56>/valp_nom6'
*/
real_T CompareToConstant_const; /* Mask Parameter: CompareToConstant_const
* Referenced by: '<S77>/Constant'
*/
real_T HarmonicAgeneration_n_Harmo;
/* Mask Parameter: HarmonicAgeneration_n_Harmo
* Referenced by: '<S52>/Gain1'
*/
real_T HarmonicBgeneration_n_Harmo;
/* Mask Parameter: HarmonicBgeneration_n_Harmo
* Referenced by: '<S53>/Gain1'
*/
real_T Constant1_Value; /* Expression: SM.Lsat(1)
* Referenced by: '<S22>/Constant1'
*/
real_T Linv_Y0; /* Computed Parameter: Linv_Y0
* Referenced by: '<S22>/Linv'
*/
real_T RLinv_Y0; /* Computed Parameter: RLinv_Y0
* Referenced by: '<S22>/R*Linv'
*/
real_T Lm_Y0; /* Computed Parameter: Lm_Y0
* Referenced by: '<S22>/Lm'
*/
real_T u1_Value[2]; /* Expression: [1/SM.Lls 1/SM.Llr]
* Referenced by: '<S26>/u1'
*/
real_T u2_Value[2]; /* Expression: [ SM.Lls SM.Llr ]
* Referenced by: '<S24>/u2'
*/
real_T Delay_InitialCondition; /* Expression: SM.Lsat(1)
* Referenced by: '<S22>/Delay'
*/
real_T uDLookupTable_tableData[2];
/* Expression: [ 0 SM.Phisat(2:end)./SM.Lsat(2:end) ]
* Referenced by: '<S22>/1-D Lookup Table'
*/
real_T uDLookupTable_bp01Data[2]; /* Expression: SM.Phisat
* Referenced by: '<S22>/1-D Lookup Table'
*/
real_T u1_Value_d[16]; /* Expression: zeros(4,4)
* Referenced by: '<S25>/u1'
*/
real_T u5_Value[16]; /* Expression: SM.Ll
* Referenced by: '<S25>/u5'
*/
real_T u1_Value_e[16]; /* Expression: SM.R
* Referenced by: '<S22>/u1'
*/
real_T Lm_nosat_Value; /* Expression: SM.Lm
* Referenced by: '<S16>/Lm_nosat'
*/
real_T Constant2_Value[16]; /* Expression: SM.Linv
* Referenced by: '<S16>/Constant2'
*/
real_T Constant4_Value[16]; /* Expression: SM.RLinv
* Referenced by: '<S16>/Constant4'
*/
real_T Constant3_Value; /* Expression: SM.ensat
* Referenced by: '<S16>/Constant3'
*/
real_T Switch1_Threshold; /* Expression: 0.5
* Referenced by: '<S16>/Switch1'
*/
real_T Constant4_Value_e; /* Expression: SM.ctrl
* Referenced by: '<S19>/Constant4'
*/
real_T wbaseTs2_Gain; /* Expression: SM.web*Ts/2
* Referenced by: '<S27>/wbase*Ts//2'
*/
real_T u5_Value_l[16]; /* Expression: eye(4,4)
* Referenced by: '<S27>/u5'
*/
real_T wbaseTs2_Gain_c; /* Expression: SM.web*Ts/2
* Referenced by: '<S27>/wbase*Ts//2 '
*/
real_T vqrvdr_Y0; /* Expression: 0
* Referenced by: '<S28>/vqr,vdr'
*/
real_T vqsvds_Y0; /* Expression: 0
* Referenced by: '<S28>/vqs,vds'
*/
real_T vqrvdr_Y0_a; /* Expression: 0
* Referenced by: '<S29>/vqr,vdr'
*/
real_T vqsvds_Y0_m; /* Expression: 0
* Referenced by: '<S29>/vqs,vds'
*/
real_T vqrvdr_Y0_am; /* Expression: 0
* Referenced by: '<S30>/vqr,vdr'
*/
real_T vqsvds_Y0_p; /* Expression: 0
* Referenced by: '<S30>/vqs,vds'
*/
real_T irairb_Y0; /* Expression: 0
* Referenced by: '<S32>/ira,irb'
*/
real_T isaisb_Y0; /* Expression: 0
* Referenced by: '<S32>/isa,isb'
*/
real_T irairb_Y0_d; /* Expression: 0
* Referenced by: '<S33>/ira,irb'
*/
real_T isaisb_Y0_k; /* Expression: 0
* Referenced by: '<S33>/isa,isb'
*/
real_T irairb_Y0_h; /* Expression: 0
* Referenced by: '<S34>/ira,irb'
*/
real_T isaisb_Y0_m; /* Expression: 0
* Referenced by: '<S34>/isa,isb'
*/
real_T sinbetacosbetasinthcosth_Y0; /* Expression: 0
* Referenced by: '<S35>/sin(beta),cos(beta), sin(th),cos(th)'
*/
real_T W_Y0; /* Expression: 0
* Referenced by: '<S35>/W'
*/
real_T we_Value; /* Expression: 1
* Referenced by: '<S35>/we'
*/
real_T Gain2_Gain; /* Expression: -1
* Referenced by: '<S35>/Gain2'
*/
real_T web_psb_Gain; /* Expression: SM.web
* Referenced by: '<S35>/web_psb'
*/
real_T u3_Value[16];
/* Expression: [ 0 1 0 0; -1 0 0 0; 0 0 0 0; 0 0 0 0]
* Referenced by: '<S35>/u3'
*/
real_T sinthrcosthr_Y0; /* Expression: 0
* Referenced by: '<S36>/sin(thr),cos(thr)'
*/
real_T W_Y0_m; /* Expression: 0
* Referenced by: '<S36>/W'
*/
real_T Constant_Value[2]; /* Expression: [0; 0]
* Referenced by: '<S36>/Constant'
*/
real_T Gain1_Gain; /* Expression: -1
* Referenced by: '<S36>/Gain1'
*/
real_T u1_Value_j[16]; /* Expression: zeros(4,4)
* Referenced by: '<S36>/u1'
*/
real_T sinthrcosthr_Y0_h; /* Expression: 0
* Referenced by: '<S37>/sin(thr),cos(thr)'
*/
real_T W_Y0_o; /* Computed Parameter: W_Y0_o
* Referenced by: '<S37>/W'
*/
real_T Constant_Value_n[2]; /* Expression: [0; 0]
* Referenced by: '<S37>/Constant'
*/
real_T Gain3_Gain; /* Expression: -1
* Referenced by: '<S37>/Gain3'
*/
real_T u4_Value[16]; /* Expression: zeros(4,4)
* Referenced by: '<S37>/u4'
*/
real_T Zerosequence_Value[3]; /* Expression: [0 0 0]
* Referenced by: '<S52>/Zero-sequence'
*/
real_T Positivesequence_Value[3]; /* Expression: [0 -2*pi/3 2*pi/3]
* Referenced by: '<S52>/Positive-sequence'
*/
real_T Negativesequence_Value[3]; /* Expression: [0 2*pi/3 -2*pi/3]
* Referenced by: '<S52>/Negative-sequence'
*/
real_T Zerosequence_Value_h[3]; /* Expression: [0 0 0]
* Referenced by: '<S53>/Zero-sequence'
*/
real_T Positivesequence_Value_o[3]; /* Expression: [0 -2*pi/3 2*pi/3]
* Referenced by: '<S53>/Positive-sequence'
*/
real_T Negativesequence_Value_k[3]; /* Expression: [0 2*pi/3 -2*pi/3]
* Referenced by: '<S53>/Negative-sequence'
*/
real_T Gain3_Gain_c; /* Expression: pi/180
* Referenced by: '<S54>/Gain3'
*/
real_T Gain4_Gain; /* Expression: pi/180
* Referenced by: '<S45>/Gain4'
*/
real_T Gain1_Gain_n; /* Expression: 2*pi
* Referenced by: '<S56>/Gain1'
*/
real_T Constant4_Value_f; /* Expression: 0
* Referenced by: '<S56>/Constant4'
*/
real_T uRsw_Gain; /* Expression: 1./Ron
* Referenced by: '<S84>/1//Rsw'
*/
real_T u4_Value_l; /* Expression: 0
* Referenced by: '<S84>/0 4'
*/
real_T uRsw_Gain_e; /* Expression: 1./Ron
* Referenced by: '<S86>/1//Rsw'
*/
real_T u4_Value_j; /* Expression: 0
* Referenced by: '<S86>/0 4'
*/
real_T uRsw_Gain_l; /* Expression: 1./Ron
* Referenced by: '<S88>/1//Rsw'
*/
real_T u4_Value_c; /* Expression: 0
* Referenced by: '<S88>/0 4'
*/
real_T uRsw_Gain_k; /* Expression: 1./Ron
* Referenced by: '<S90>/1//Rsw'
*/
real_T u4_Value_m; /* Expression: 0
* Referenced by: '<S90>/0 4'
*/
real_T uRsw_Gain_m; /* Expression: 1./Ron
* Referenced by: '<S92>/1//Rsw'
*/
real_T u4_Value_lk; /* Expression: 0
* Referenced by: '<S92>/0 4'
*/
real_T uRsw_Gain_k4; /* Expression: 1./Ron
* Referenced by: '<S94>/1//Rsw'
*/
real_T u4_Value_o; /* Expression: 0
* Referenced by: '<S94>/0 4'
*/
real_T SwitchCurrents_Value[6]; /* Expression: zeros(6,1)
* Referenced by: '<S98>/SwitchCurrents'
*/
real_T Constant3_Value_e; /* Expression: SM.ctrl
* Referenced by: '<S18>/Constant3'
*/
real_T fluxes_InitialCondition[4]; /* Expression: SM.phiqd0
* Referenced by: '<S23>/fluxes'
*/
real_T Gain_Gain; /* Expression: 2
* Referenced by: '<S21>/Gain'
*/
real_T fluxes_InitialCondition_a[4]; /* Expression: SM.phiqd0
* Referenced by: '<S21>/fluxes'
*/
real_T Constant_Value_e; /* Expression: SM.ensat
* Referenced by: '<S16>/Constant'
*/
real_T Constant1_Value_k; /* Expression: SM.ensat
* Referenced by: '<S16>/Constant1'
*/
real_T Switch_Threshold; /* Expression: 0.5
* Referenced by: '<S16>/Switch'
*/
real_T Constant2_Value_n; /* Expression: SM.ctrl
* Referenced by: '<S19>/Constant2'
*/
real_T Rotoranglethetam_gainval;
/* Computed Parameter: Rotoranglethetam_gainval
* Referenced by: '<S15>/Rotor angle thetam'
*/
real_T Rotoranglethetam_IC; /* Expression: SM.tho
* Referenced by: '<S15>/Rotor angle thetam'
*/
real_T wm_delay_InitialCondition; /* Expression: SM.wmo
* Referenced by: '<S38>/wm_delay'
*/
real_T F2_Gain; /* Expression: 2
* Referenced by: '<S38>/F2'
*/
real_T wm_predict_InitialCondition; /* Expression: SM.wmo
* Referenced by: '<S38>/wm_predict'
*/
real_T Constant4_Value_c; /* Expression: SM.ctrl
* Referenced by: '<S18>/Constant4'
*/
real_T ib_Gain; /* Expression: SM.ib
* Referenced by: '<S18>/ib'
*/
real_T GainVr_Vs1_Gain[2]; /* Expression: SM.Gain_Vr_Vs
* Referenced by: '<S13>/Gain Vr_Vs1'
*/
real_T StateSpace_DS_param[126]; /* Expression: S.D
* Referenced by: '<S96>/State-Space'
*/
real_T Constant5_Value; /* Expression: SM.ensat
* Referenced by: '<S16>/Constant5'
*/
real_T u1_Gain[2]; /* Expression: [1 -1]
* Referenced by: '<S20>/1-1'
*/
real_T Switch2_Threshold; /* Expression: 0.5
* Referenced by: '<S16>/Switch2'
*/
real_T Constant4_Value_i; /* Expression: SM.ctrl
* Referenced by: '<S17>/Constant4'
*/
real_T Constant6_Value[2]; /* Expression: [0;0]
* Referenced by: '<S31>/Constant6'
*/
real_T GainVr_Vs_Gain[2]; /* Expression: SM.Gain_Vr_Vs
* Referenced by: '<S13>/Gain Vr_Vs'
*/
real_T u_Vb_Gain; /* Expression: 1/SM.Vb
* Referenced by: '<S17>/1_Vb'
*/
real_T Constant3_Value_g; /* Expression: SM.ctrl
* Referenced by: '<S17>/Constant3'
*/
real_T voltages_InitialCondition; /* Expression: 0
* Referenced by: '<S23>/voltages'
*/
real_T IC_Threshold; /* Expression: Ts
* Referenced by: '<S23>/IC'
*/
real_T unitconversion_Gain[19];
/* Expression: [SM.ib2*SM.kIr*ones(5,1); SM.phib2*SM.kVr; SM.phib2*SM.kVr; SM.Vb2*SM.kVr; SM.Vb2*SM.kVr ; SM.ib2*ones(5,1); SM.phib2; SM.phib2; SM.Vb2; SM.Vb2; SM.phib2/SM.ib2]
* Referenced by: '<S13>/unit conversion'
*/
real_T up_Gain; /* Expression: 1/SM.p
* Referenced by: '<S15>/1\p'
*/
real_T up1_Gain[3]; /* Expression: [SM.Nb2;SM.Tb2;1]
* Referenced by: '<S15>/1\p1'
*/
real_T Unitconversion_Gain; /* Expression: 1/SM.Tb2
* Referenced by: '<S15>/Unit conversion'
*/
real_T F_Gain; /* Expression: SM.F
* Referenced by: '<S15>/F'
*/
real_T u_2H_Gain; /* Expression: 1/(2*SM.H)
* Referenced by: '<S15>/1_2H'
*/
real_T Rotorspeedwm_gainval; /* Computed Parameter: Rotorspeedwm_gainval
* Referenced by: '<S15>/Rotor speed(wm)'
*/
real_T Rotorspeedwm_IC; /* Expression: SM.wmo
* Referenced by: '<S15>/Rotor speed(wm)'
*/
real_T web_psb_Gain_n; /* Expression: SM.web
* Referenced by: '<S15>/web_psb'
*/
real_T LookUpTable_XData[8]; /* Expression: sps.tv
* Referenced by: '<S57>/Look-Up Table'
*/
real_T LookUpTable_YData[8]; /* Expression: sps.opv
* Referenced by: '<S57>/Look-Up Table'
*/
real_T valp_nom1_Value; /* Expression: sps.VariationType
* Referenced by: '<S49>/valp_nom1'
*/
real_T Constant6_Value_k; /* Expression: 4
* Referenced by: '<S49>/Constant6'
*/
real_T valp_nom3_Value; /* Expression: sps.VariationEntity
* Referenced by: '<S46>/valp_nom3'
*/
real_T Constant_Value_nw; /* Expression: 2
* Referenced by: '<S46>/Constant'
*/
real_T Constant1_Value_a; /* Expression: 0
* Referenced by: '<S56>/Constant1'
*/
real_T Step1_Y0; /* Expression: 1
* Referenced by: '<S56>/Step1'
*/
real_T Step1_YFinal; /* Expression: 0
* Referenced by: '<S56>/Step1'
*/
real_T valp_nom5_Value; /* Expression: sps.VariationType
* Referenced by: '<S47>/valp_nom5'
*/
real_T Constant3_Value_ey; /* Expression: 1
* Referenced by: '<S56>/Constant3'
*/
real_T Step_Y0; /* Expression: 0
* Referenced by: '<S56>/Step'
*/
real_T Step_YFinal; /* Expression: 1
* Referenced by: '<S56>/Step'
*/
real_T DiscreteTimeIntegrator1_gainval;
/* Computed Parameter: DiscreteTimeIntegrator1_gainval
* Referenced by: '<S47>/Discrete-Time Integrator1'
*/
real_T DiscreteTimeIntegrator1_IC; /* Expression: 0
* Referenced by: '<S47>/Discrete-Time Integrator1'
*/
real_T Constant5_Value_c; /* Expression: 0
* Referenced by: '<S56>/Constant5'
*/
real_T UnitDelay1_InitialCondition; /* Expression: 0
* Referenced by: '<S47>/Unit Delay1'
*/
real_T Switch2_Threshold_a; /* Expression: 0.5
* Referenced by: '<S56>/Switch2'
*/
real_T Constant1_Value_j; /* Expression: 0
* Referenced by: '<S41>/Constant1'
*/
real_T valp_nom2_Value; /* Expression: sps.Mag_Vps
* Referenced by: '<S41>/valp_nom2'
*/
real_T SinglePhase_Value; /* Expression: sps.SinglePhase
* Referenced by: '<S50>/SinglePhase'
*/
real_T Switch5_Threshold; /* Expression: 0.5
* Referenced by: '<S50>/Switch5'
*/
real_T valp_nom1_Value_g; /* Expression: sps.Freq_Vps
* Referenced by: '<S42>/valp_nom1'
*/
real_T Gain_Gain_k; /* Expression: 2*pi
* Referenced by: '<S42>/Gain'
*/
real_T DiscreteTimeIntegrator_gainval;
/* Computed Parameter: DiscreteTimeIntegrator_gainval
* Referenced by: '<S42>/Discrete-Time Integrator'
*/
real_T DiscreteTimeIntegrator_IC; /* Expression: 0
* Referenced by: '<S42>/Discrete-Time Integrator'
*/
real_T P1_Value[3]; /* Expression: [0 -2*pi/3 2*pi/3]
* Referenced by: '<S54>/P1'
*/
real_T valp_nom1_Value_c; /* Expression: sps.VariationType
* Referenced by: '<S54>/valp_nom1'
*/
real_T Constant6_Value_h; /* Expression: 4
* Referenced by: '<S54>/Constant6'
*/
real_T Constant2_Value_b; /* Expression: 3
* Referenced by: '<S46>/Constant2'
*/
real_T valp_nom_Value; /* Expression: sps.Phase_Vps
* Referenced by: '<S45>/valp_nom'
*/
real_T Gain3_Gain_e; /* Expression: pi/180
* Referenced by: '<S45>/Gain3'
*/
real_T P1_Value_e[3]; /* Expression: [0 -2*pi/3 2*pi/3]
* Referenced by: '<S45>/P1'
*/
real_T Constant4_Value_l; /* Expression: 0
* Referenced by: '<S45>/Constant4'
*/
real_T SinglePhase_Value_i; /* Expression: sps.SinglePhase
* Referenced by: '<S55>/SinglePhase'
*/
real_T Switch5_Threshold_m; /* Expression: 0.5
* Referenced by: '<S55>/Switch5'
*/
real_T Step_Time; /* Expression: sps.Ton_Harmo
* Referenced by: '<S51>/Step'
*/
real_T Step_Y0_k; /* Expression: 0
* Referenced by: '<S51>/Step'
*/
real_T Step_YFinal_d; /* Expression: 1
* Referenced by: '<S51>/Step'
*/
real_T Step1_Time; /* Expression: sps.Toff_Harmo
* Referenced by: '<S51>/Step1'
*/
real_T Step1_Y0_i; /* Expression: 0
* Referenced by: '<S51>/Step1'
*/
real_T Step1_YFinal_k; /* Expression: -1
* Referenced by: '<S51>/Step1'
*/
real_T valp_nom7_Value; /* Expression: sps.HarmonicGeneration
* Referenced by: '<S51>/valp_nom7'
*/
real_T Gain3_Gain_l; /* Expression: pi/180
* Referenced by: '<S52>/Gain3'
*/
real_T valp_nom2_Value_i; /* Expression: 1
* Referenced by: '<S52>/valp_nom2'
*/
real_T Gain3_Gain_j; /* Expression: pi/180
* Referenced by: '<S53>/Gain3'
*/
real_T valp_nom2_Value_c; /* Expression: 1
* Referenced by: '<S53>/valp_nom2'
*/
real_T Constant3_Value_m; /* Expression: sps.Delay
* Referenced by: '<S73>/Constant3'
*/
real_T Constant4_Value_p; /* Expression: sps.Period
* Referenced by: '<S73>/Constant4'
*/
real_T uib1_Gain; /* Expression: sps.Freq
* Referenced by: '<S73>/1\ib1'
*/
real_T uDLookupTable_tableData_d[3]; /* Expression: [0 2 0]
* Referenced by: '<S73>/1-D Lookup Table'
*/
real_T uDLookupTable_bp01Data_k[3]; /* Expression: [0 .5 1]
* Referenced by: '<S73>/1-D Lookup Table'
*/
real_T Constant2_Value_a; /* Expression: 1
* Referenced by: '<S73>/Constant2'
*/
real_T Constant_Value_c; /* Expression: 230
* Referenced by: '<Root>/Constant'
*/
real_T Constant3_Value_ej; /* Expression: sps.Delay
* Referenced by: '<S74>/Constant3'
*/
real_T Constant1_Value_o; /* Expression: sps.Period
* Referenced by: '<S74>/Constant1'
*/
real_T uib1_Gain_i; /* Expression: sps.Freq
* Referenced by: '<S74>/1\ib1'
*/
real_T uDLookupTable_tableData_f[3]; /* Expression: [0 2 0]
* Referenced by: '<S74>/1-D Lookup Table'
*/
real_T uDLookupTable_bp01Data_i[3]; /* Expression: [0 .5 1]
* Referenced by: '<S74>/1-D Lookup Table'
*/
real_T Constant2_Value_at; /* Expression: 1
* Referenced by: '<S74>/Constant2'
*/
real_T Constant1_Value_ah; /* Expression: 230
* Referenced by: '<Root>/Constant1'
*/
real_T Constant3_Value_mm; /* Expression: sps.Delay
* Referenced by: '<S75>/Constant3'
*/
real_T Constant1_Value_p; /* Expression: sps.Period
* Referenced by: '<S75>/Constant1'
*/
real_T uib1_Gain_c; /* Expression: sps.Freq
* Referenced by: '<S75>/1\ib1'
*/
real_T uDLookupTable_tableData_h[3]; /* Expression: [0 2 0]
* Referenced by: '<S75>/1-D Lookup Table'
*/
real_T uDLookupTable_bp01Data_m[3]; /* Expression: [0 .5 1]
* Referenced by: '<S75>/1-D Lookup Table'
*/
real_T Constant2_Value_k; /* Expression: 1
* Referenced by: '<S75>/Constant2'
*/
real_T Constant2_Value_a1; /* Expression: 230
* Referenced by: '<Root>/Constant2'
*/
real_T TransportDelay_Delay; /* Expression: 1e-6
* Referenced by: '<S3>/Transport Delay'
*/
real_T TransportDelay_InitOutput; /* Expression: 0
* Referenced by: '<S3>/Transport Delay'
*/
real_T TransportDelay_Delay_l; /* Expression: 1e-6
* Referenced by: '<S4>/Transport Delay'
*/
real_T TransportDelay_InitOutput_l; /* Expression: 0
* Referenced by: '<S4>/Transport Delay'
*/
real_T TransportDelay_Delay_c; /* Expression: 1e-6
* Referenced by: '<S5>/Transport Delay'
*/
real_T TransportDelay_InitOutput_le; /* Expression: 0
* Referenced by: '<S5>/Transport Delay'
*/
real_T Digitaloutput1_P1_Size[2];/* Computed Parameter: Digitaloutput1_P1_Size
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P1; /* Expression: id
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P2_Size[2];/* Computed Parameter: Digitaloutput1_P2_Size
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P2[3]; /* Expression: chan
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P3_Size[2];/* Computed Parameter: Digitaloutput1_P3_Size
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P3; /* Expression: vectorizeInput
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P4_Size[2];/* Computed Parameter: Digitaloutput1_P4_Size
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P4[3]; /* Expression: reset
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P5_Size[2];/* Computed Parameter: Digitaloutput1_P5_Size
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P5[3]; /* Expression: init
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P6_Size[2];/* Computed Parameter: Digitaloutput1_P6_Size
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput1_P6; /* Expression: ts
* Referenced by: '<Root>/Digital output1'
*/
real_T Digitaloutput2_P1_Size[2];/* Computed Parameter: Digitaloutput2_P1_Size
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P1; /* Expression: id
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P2_Size[2];/* Computed Parameter: Digitaloutput2_P2_Size
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P2[3]; /* Expression: chan
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P3_Size[2];/* Computed Parameter: Digitaloutput2_P3_Size
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P3; /* Expression: vectorizeInput
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P4_Size[2];/* Computed Parameter: Digitaloutput2_P4_Size
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P4[3]; /* Expression: reset
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P5_Size[2];/* Computed Parameter: Digitaloutput2_P5_Size
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P5[3]; /* Expression: init
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P6_Size[2];/* Computed Parameter: Digitaloutput2_P6_Size
* Referenced by: '<Root>/Digital output2'
*/
real_T Digitaloutput2_P6; /* Expression: ts
* Referenced by: '<Root>/Digital output2'
*/
real_T Switch_Threshold_e; /* Expression: 0.5
* Referenced by: '<S84>/Switch'
*/
real_T Saturation_UpperSat; /* Expression: 1
* Referenced by: '<S76>/Saturation'
*/
real_T Saturation_LowerSat; /* Expression: 0
* Referenced by: '<S76>/Saturation'
*/
real_T Constant6_Value_e; /* Expression: 0
* Referenced by: '<Root>/Constant6'
*/
real_T Switch_Threshold_p; /* Expression: 0.5
* Referenced by: '<S86>/Switch'
*/
real_T Switch_Threshold_i; /* Expression: 0.5
* Referenced by: '<S88>/Switch'
*/
real_T Switch_Threshold_o; /* Expression: 0.5
* Referenced by: '<S90>/Switch'
*/
real_T Switch_Threshold_a; /* Expression: 0.5
* Referenced by: '<S92>/Switch'
*/
real_T Switch_Threshold_n; /* Expression: 0.5
* Referenced by: '<S94>/Switch'
*/
real_T Constant_Value_a; /* Expression: -1
* Referenced by: '<S3>/Constant'
*/
real_T Constant_Value_g; /* Expression: -1
* Referenced by: '<S4>/Constant'
*/
real_T Constant_Value_n5; /* Expression: -1
* Referenced by: '<S5>/Constant'
*/
real_T Constant5_Value_ct; /* Expression: 0
* Referenced by: '<S42>/Constant5'
*/
real_T Constant3_Value_n; /* Expression: 4
* Referenced by: '<S46>/Constant3'
*/
real_T Gain2_Gain_h; /* Expression: 2*pi
* Referenced by: '<S42>/Gain2'
*/
real_T Gain3_Gain_i; /* Expression: 180/pi
* Referenced by: '<S40>/Gain3'
*/
real_T Constant7_Value; /* Expression: 2*pi
* Referenced by: '<S44>/Constant7'
*/
real_T Constant_Value_p; /* Expression: 2
* Referenced by: '<S56>/Constant'
*/
real_T Constant2_Value_i; /* Expression: 1
* Referenced by: '<S56>/Constant2'
*/
real_T Switch_Threshold_d; /* Expression: 0.5
* Referenced by: '<S56>/Switch'
*/
real_T donotdeletethisgain_Gain; /* Expression: 1
* Referenced by: '<S64>/do not delete this gain'
*/
real_T donotdeletethisgain_Gain_d; /* Expression: 1
* Referenced by: '<S65>/do not delete this gain'
*/
real_T donotdeletethisgain_Gain_h; /* Expression: 1
* Referenced by: '<S66>/do not delete this gain'
*/
real_T Kv1_Gain; /* Expression: Kv
* Referenced by: '<S7>/Kv1'
*/
real_T donotdeletethisgain_Gain_j; /* Expression: 1
* Referenced by: '<S61>/do not delete this gain'
*/
real_T donotdeletethisgain_Gain_n; /* Expression: 1
* Referenced by: '<S62>/do not delete this gain'
*/
real_T donotdeletethisgain_Gain_p; /* Expression: 1
* Referenced by: '<S63>/do not delete this gain'
*/
real_T Kv_Gain; /* Expression: Ki
* Referenced by: '<S7>/Kv'
*/
real_T UnitDelay_InitialCondition; /* Expression: 0
* Referenced by: '<S73>/Unit Delay'
*/
boolean_T Constant_Value_b; /* Expression: SM.ctrl==1
* Referenced by: '<S19>/Constant'
*/
boolean_T Constant1_Value_kj; /* Expression: SM.ctrl==2
* Referenced by: '<S19>/Constant1'
*/
boolean_T Constant3_Value_h; /* Expression: SM.ctrl==3
* Referenced by: '<S19>/Constant3'
*/
boolean_T Constant_Value_px; /* Expression: SM.ctrl==1
* Referenced by: '<S18>/Constant'
*/
boolean_T Constant1_Value_b; /* Expression: SM.ctrl==2
* Referenced by: '<S18>/Constant1'
*/
boolean_T Constant2_Value_d; /* Expression: SM.ctrl==3
* Referenced by: '<S18>/Constant2'
*/
boolean_T Constant_Value_j; /* Expression: SM.ctrl==1
* Referenced by: '<S17>/Constant'
*/
boolean_T Constant1_Value_f; /* Expression: SM.ctrl==2
* Referenced by: '<S17>/Constant1'
*/
boolean_T Constant2_Value_kn; /* Expression: SM.ctrl==3
* Referenced by: '<S17>/Constant2'
*/
};
/* Storage class 'PageSwitching' */
extern VFControl_cal_type VFControl_cal_impl;
extern VFControl_cal_type *VFControl_cal;
#endif /* VFControl_cal_h_ */