📄 dtc_svm_416_acc.h
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real_T Kp5_a_Gain; /* Expression: Ki
* '<S5>/Kp5'
*/
real_T Resistance_a_Value; /* Expression: 0.56
* '<S20>/Resistance'
*/
real_T Kp5_b_Gain; /* Expression: Ki
* '<S21>/Kp5'
*/
real_T Discrete_Time_Integrat_e_IC; /* Expression: Init
* '<S22>/Discrete-Time Integrator'
*/
real_T Discrete_Time_Integrat_e_UpperS; /* Expression: UpperLimit
* '<S22>/Discrete-Time Integrator'
*/
real_T Discrete_Time_Integrat_e_LowerS; /* Expression: LowerLimit
* '<S22>/Discrete-Time Integrator'
*/
real_T Transfer_Fcn_A; /* Computed Parameter: A
* '<S8>/Transfer Fcn'
*/
real_T Transfer_Fcn_B; /* Computed Parameter: B
* '<S8>/Transfer Fcn'
*/
real_T Transfer_Fcn_C; /* Computed Parameter: C
* '<S8>/Transfer Fcn'
*/
real_T Kp4_c_Gain; /* Expression: Kp
* '<S22>/Kp4'
*/
real_T Kp5_c_Gain; /* Expression: Ki
* '<S22>/Kp5'
*/
real_T Saturation2_c_UpperSat; /* Expression: UpperLimit
* '<S22>/Saturation2'
*/
real_T Saturation2_c_LowerSat; /* Expression: LowerLimit
* '<S22>/Saturation2'
*/
real_T Discrete_Time_Integrat_f_IC; /* Expression: Init
* '<S23>/Discrete-Time Integrator'
*/
real_T Discrete_Time_Integrat_f_UpperS; /* Expression: UpperLimit
* '<S23>/Discrete-Time Integrator'
*/
real_T Discrete_Time_Integrat_f_LowerS; /* Expression: LowerLimit
* '<S23>/Discrete-Time Integrator'
*/
real_T Transfer_Fcn1_A; /* Computed Parameter: A
* '<S8>/Transfer Fcn1'
*/
real_T Transfer_Fcn1_B; /* Computed Parameter: B
* '<S8>/Transfer Fcn1'
*/
real_T Transfer_Fcn1_C; /* Computed Parameter: C
* '<S8>/Transfer Fcn1'
*/
real_T Kp4_d_Gain; /* Expression: Kp
* '<S23>/Kp4'
*/
real_T Kp5_d_Gain; /* Expression: Ki
* '<S23>/Kp5'
*/
real_T Saturation2_d_UpperSat; /* Expression: UpperLimit
* '<S23>/Saturation2'
*/
real_T Saturation2_d_LowerSat; /* Expression: LowerLimit
* '<S23>/Saturation2'
*/
real_T Discrete_Time_Integrat_g_IC; /* Expression: Init
* '<S24>/Discrete-Time Integrator'
*/
real_T Discrete_Time_Integrat_g_UpperS; /* Expression: UpperLimit
* '<S24>/Discrete-Time Integrator'
*/
real_T Discrete_Time_Integrat_g_LowerS; /* Expression: LowerLimit
* '<S24>/Discrete-Time Integrator'
*/
real_T Transfer_Fcn2_A; /* Computed Parameter: A
* '<S8>/Transfer Fcn2'
*/
real_T Transfer_Fcn2_B; /* Computed Parameter: B
* '<S8>/Transfer Fcn2'
*/
real_T Transfer_Fcn2_C; /* Computed Parameter: C
* '<S8>/Transfer Fcn2'
*/
real_T Kp4_e_Gain; /* Expression: Kp
* '<S24>/Kp4'
*/
real_T Kp5_e_Gain; /* Expression: Ki
* '<S24>/Kp5'
*/
real_T Saturation2_e_UpperSat; /* Expression: UpperLimit
* '<S24>/Saturation2'
*/
real_T Saturation2_e_LowerSat; /* Expression: LowerLimit
* '<S24>/Saturation2'
*/
real_T Simulation_method_a_Value; /* Expression: PhasorSimulation
* '<S11>/Simulation method'
*/
real_T Simulation_method_b_Value; /* Expression: PhasorSimulation
* '<S12>/Simulation method'
*/
real_T Simulation_method_c_Value; /* Expression: PhasorSimulation
* '<S13>/Simulation method'
*/
real_T Rsw_Gain; /* Expression: 1./Rsw
* '<S38>/1//Rsw'
*/
real_T Constant1_b_Value; /* Expression: 0
* '<S38>/Constant1'
*/
real_T Gain_e_Gain; /* Expression: -1
* '<S38>/Gain'
*/
real_T id_b_Value; /* Expression: 0
* '<S39>/0 2'
*/
real_T Vpos_Value; /* Expression: 0
* '<S40>/Vpos'
*/
real_T id_c_Value; /* Expression: 0
* '<S40>/ '
*/
real_T Vf_device_Value[6]; /* Expression: Vf*ones(nb_switch,1)
* '<S42>/Vf device'
*/
real_T Vf_diode_Value[6]; /* Expression: -Vfd*ones(nb_switch,1)
* '<S42>/Vf diode'
*/
real_T Constant1_c_Value; /* Expression: NaN
* '<S14>/Constant1'
*/
real_T Integrator_b_IC; /* Expression: 0
* '<S18>/Integrator'
*/
real_T Integrator1_c_IC; /* Expression: 0
* '<S18>/Integrator1'
*/
real_T Resistance_b_Value; /* Expression: 0.56
* '<S18>/Resistance'
*/
real_T Gain_f_Gain; /* Expression: 3.1832
* '<S18>/Gain'
*/
real_T Gain_g_Gain; /* Expression: 1/Ld
* '<S50>/Gain'
*/
real_T Gain1_f_Gain; /* Expression: 1/Lq
* '<S50>/Gain1'
*/
real_T Gain2_f_Gain; /* Expression: 1/J
* '<S50>/Gain2'
*/
real_T Discrete_Time_Integrat_h_IC; /* Expression: 0.2
* '<S53>/Discrete-Time Integrator2'
*/
real_T Discrete_Time_Integrat_i_IC; /* Expression: 0
* '<S53>/Discrete-Time Integrator3'
*/
real_T Resistance_c_Value; /* Expression: 0.56
* '<S54>/Resistance'
*/
real_T fm_Gain; /* Expression: 56.047
* '<S52>/fm'
*/
real_T m2_Gain; /* Expression: 52.8
* '<S52>/1//m2'
*/
real_T m_Gain; /* Expression: 1/2.85
* '<S52>/1//m'
*/
real_T fm1_Gain; /* Expression: 56.047
* '<S52>/fm1'
*/
real_T m3_Gain; /* Expression: 52.8
* '<S52>/1//m3'
*/
real_T m1_Gain; /* Expression: 1/2.85
* '<S52>/1//m1'
*/
real_T Integrator_c_IC; /* Expression: 0
* '<S52>/Integrator'
*/
real_T Integrator2_b_IC; /* Expression: 0
* '<S52>/Integrator2'
*/
real_T itail_Y0; /* Expression: 0
* '<S41>/itail'
*/
real_T id_j_Value; /* Expression: 1
* '<S41>/1'
*/
real_T Discrete_Time_Int_IC; /* Expression: 0
* '<S41>/Discrete-Time Integrator'
*/
real_T Look_Up_Table_XData[4]; /* Expression: [ 0 Tf+eps Tf+Tt+2*eps Tf+Tt+3*eps ]
* '<S41>/Look-Up Table'
*/
real_T Look_Up_Table_YData[4]; /* Expression: [ 1 0.1*(Tt>0) 0 0]
* '<S41>/Look-Up Table'
*/
real_T Unit_Delay3_b_X0; /* Expression: 0
* '<S41>/Unit Delay3'
*/
creal_T Constant_c_Value; /* Expression: complex(V,0)
* '<S14>/Constant'
*/
boolean_T id_a_Value; /* Expression: Tf>0 | Tt>0
* '<S38>/2'
*/
boolean_T Unit_Delay_b_X0; /* Computed Parameter: X0
* '<S43>/Unit Delay'
*/
boolean_T id_f_Value; /* Expression: Cs==inf
* '<S39>/0 3'
*/
boolean_T Unit_Delay1_X0; /* Computed Parameter: X0
* '<S44>/Unit Delay1'
*/
char pad_Unit_Delay1_X0[4];
rtP_dtc_svm_416_Phasor_Measur Phasor_Mea_c; /* '<S11>/Phasor Measurements' */
rtP_dtc_svm_416_Phasor_Measur Phasor_Mea_b; /* '<S11>/Phasor Measurements' */
rtP_dtc_svm_416_Phasor_Measur Phasor_Mea_a; /* '<S11>/Phasor Measurements' */
};
extern dtc_svm_416_Parameters dtc_svm_416_DefaultParameters; /* parameters */
/* External data declarations for dependent source files */
/* non-finites */
extern real_T rtInf;
#endif /* _RTW_HEADER_dtc_svm_416_acc_h_ */
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