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