📄 serialsim_no_observer_acc.h
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/* State derivatives (auto storage) */
typedef struct _serialsim_no_observer_StateDerivatives {
real_T Analog_Filter_Design_CSTATE[8]; /* '<Root>/Analog Filter Design' */
real_T phiqr_CSTATE; /* '<S27>/phiqr' */
real_T phidr_CSTATE; /* '<S27>/phidr' */
real_T phiqs_CSTATE; /* '<S28>/phiqs' */
real_T phids_CSTATE; /* '<S28>/phids' */
real_T Integrator1_CSTATE; /* '<S25>/Integrator1' */
real_T Integrator_a_CSTATE; /* '<S25>/Integrator' */
real_T Integrator_b_CSTATE[6]; /* '<S20>/Integrator' */
} serialsim_no_observer_StateDerivatives;
/* State disabled */
typedef struct _serialsim_no_observer_StateDisabled {
boolean_T Analog_Filter_Design_CSTATE[8]; /* '<Root>/Analog Filter Design' */
boolean_T phiqr_CSTATE; /* '<S27>/phiqr' */
boolean_T phidr_CSTATE; /* '<S27>/phidr' */
boolean_T phiqs_CSTATE; /* '<S28>/phiqs' */
boolean_T phids_CSTATE; /* '<S28>/phids' */
boolean_T Integrator1_CSTATE; /* '<S25>/Integrator1' */
boolean_T Integrator_a_CSTATE; /* '<S25>/Integrator' */
boolean_T Integrator_b_CSTATE[6]; /* '<S20>/Integrator' */
} serialsim_no_observer_StateDisabled;
/* Zero-crossing (trigger) state */
typedef struct _serialsim_no_observer_NonsampledZCs {
real_T Step_NSZC; /* '<S7>/Step' */
real_T Step1_NSZC; /* '<S7>/Step1' */
real_T Step2_NSZC; /* '<S7>/Step2' */
real_T Step3_NSZC; /* '<S7>/Step3' */
real_T Relational_Operator_a_NSZC[3]; /* '<S8>/Relational Operator' */
real_T Relational_Operator1_NSZC[3]; /* '<S8>/Relational Operator1' */
real_T Relational_Operator_b_NSZC[6]; /* '<S17>/Relational Operator' */
real_T b6_NSZC[6]; /* '<S18>/b6' */
real_T b_NSZC[6]; /* '<S19>/b' */
} serialsim_no_observer_NonsampledZCs;
/* Zero-crossing (trigger) state */
typedef struct _serialsim_no_observer_PrevZCSigStates {
ZCSigState Integrator_b_ZCE[6]; /* '<S20>/Integrator' */
} serialsim_no_observer_PrevZCSigStates;
/* Parameters (auto storage) */
struct _serialsim_no_observer_Parameters {
real_T Analog_Filter_Design_A[15]; /* Computed Parameter: A
* '<Root>/Analog Filter Design'
*/
real_T Analog_Filter_Design_B; /* Computed Parameter: B
* '<Root>/Analog Filter Design'
*/
real_T Analog_Filter_Design_C; /* Computed Parameter: C
* '<Root>/Analog Filter Design'
*/
real_T Analog_Filter_Design_X0; /* Expression: 0
* '<Root>/Analog Filter Design'
*/
real_T Constant3_a_Value; /* Expression: ctrl
* '<S30>/Constant3'
*/
real_T phiqr_IC; /* Expression: phirqo
* '<S27>/phiqr'
*/
real_T phidr_IC; /* Expression: phirdo
* '<S27>/phidr'
*/
real_T Llr_a_Gain; /* Expression: 1/Llr
* '<S26>/1Llr'
*/
real_T phiqs_IC; /* Expression: phisqo
* '<S28>/phiqs'
*/
real_T phids_IC; /* Expression: phisdo
* '<S28>/phids'
*/
real_T Lls_Gain; /* Expression: 1/Lls
* '<S26>/1Lls'
*/
real_T Llr1_a_Gain; /* Expression: Laq
* '<S26>/1Llr1'
*/
real_T Llr_b_Gain; /* Expression: 1/Llr
* '<S27>/1Llr'
*/
real_T Llr2_a_Gain; /* Expression: Lad
* '<S26>/1Llr2'
*/
real_T Llr2_b_Gain; /* Expression: 1/Llr
* '<S27>/1Llr2'
*/
real_T Llr_c_Gain; /* Expression: 1/Lls
* '<S28>/1Llr'
*/
real_T Llr2_c_Gain; /* Expression: 1/Lls
* '<S28>/1Llr2'
*/
real_T Integrator1_IC; /* Expression: tho
* '<S25>/Integrator1'
*/
real_T Integrator_a_IC; /* Expression: wmo
* '<S25>/Integrator'
*/
real_T Constant3_c_Value; /* Expression: ctrl
* '<S29>/Constant3'
*/
real_T Constant6_a_Value[2]; /* Expression: [0;0]
* '<S35>/Constant6'
*/
real_T Memory1_X0; /* Expression: 0
* '<S17>/Memory1'
*/
real_T Step_Time; /* Expression: 0
* '<S7>/Step'
*/
real_T Step_Y0; /* Expression: 0
* '<S7>/Step'
*/
real_T Step_YFinal; /* Expression: 1
* '<S7>/Step'
*/
real_T Step1_Time; /* Expression: Rs_pulse_stop
* '<S7>/Step1'
*/
real_T Step1_Y0; /* Expression: 0
* '<S7>/Step1'
*/
real_T Step1_YFinal; /* Expression: 1
* '<S7>/Step1'
*/
real_T Step2_Time; /* Expression: Ls_pulse_start
* '<S7>/Step2'
*/
real_T Step2_Y0; /* Expression: 0
* '<S7>/Step2'
*/
real_T Step2_YFinal; /* Expression: 1
* '<S7>/Step2'
*/
real_T Step3_Time; /* Expression: Rr_pulse_start
* '<S7>/Step3'
*/
real_T Step3_Y0; /* Expression: 0
* '<S7>/Step3'
*/
real_T Step3_YFinal; /* Expression: 1
* '<S7>/Step3'
*/
real_T Pulse_Generator_Amp; /* Expression: 1
* '<S5>/Pulse Generator'
*/
real_T Pulse_Generator_Period; /* Expression: Rs_period
* '<S5>/Pulse Generator'
*/
real_T Pulse_Generator_Duty; /* Expression: width
* '<S5>/Pulse Generator'
*/
real_T T2_a_Value; /* Expression: 0
* '<S5>/T2'
*/
real_T T3_a_Value; /* Expression: 0
* '<S5>/T3'
*/
real_T T4_a_Value; /* Expression: 1
* '<S5>/T4'
*/
real_T T1_a_Value; /* Expression: 0
* '<S5>/T1'
*/
real_T T7_Value; /* Expression: 0
* '<S5>/T7'
*/
real_T T1_b_Value; /* Expression: 0
* '<S9>/T1'
*/
real_T T2_b_Value; /* Expression: 0
* '<S9>/T2'
*/
real_T T3_b_Value; /* Expression: 0
* '<S9>/T3'
*/
real_T T4_b_Value; /* Expression: 1
* '<S9>/T4'
*/
real_T T5_a_Value; /* Expression: 0
* '<S9>/T5'
*/
real_T T6_a_Value; /* Expression: 0
* '<S9>/T6'
*/
real_T Pulse_Generator1_Amp; /* Expression: 1
* '<S5>/Pulse Generator1'
*/
real_T Pulse_Generator1_Period; /* Expression: period
* '<S5>/Pulse Generator1'
*/
real_T Pulse_Generator1_Duty; /* Expression: 50
* '<S5>/Pulse Generator1'
*/
real_T Pulse_Generator2_Amp; /* Expression: 1
* '<S5>/Pulse Generator2'
*/
real_T Pulse_Generator2_Period; /* Expression: period
* '<S5>/Pulse Generator2'
*/
real_T Pulse_Generator2_Duty; /* Expression: 50
* '<S5>/Pulse Generator2'
*/
real_T Pulse_Generator3_Amp; /* Expression: 1
* '<S5>/Pulse Generator3'
*/
real_T Pulse_Generator3_Period; /* Expression: period
* '<S5>/Pulse Generator3'
*/
real_T Pulse_Generator3_Duty; /* Expression: 50
* '<S5>/Pulse Generator3'
*/
real_T Pulse_Generator4_Amp; /* Expression: 1
* '<S5>/Pulse Generator4'
*/
real_T Pulse_Generator4_Period; /* Expression: period
* '<S5>/Pulse Generator4'
*/
real_T Pulse_Generator4_Duty; /* Expression: 50
* '<S5>/Pulse Generator4'
*/
real_T T8_Value; /* Expression: 0
* '<S5>/T8'
*/
real_T T9_Value; /* Expression: 0
* '<S5>/T9'
*/
real_T m4_Value; /* Expression: mIndex
* '<S8>/m4'
*/
real_T m3_Value; /* Expression: Phase
* '<S8>/m3'
*/
real_T Gain2_Gain; /* Expression: pi/180
* '<S8>/Gain2'
*/
real_T Constant_c_Value[3]; /* Expression: Internal_Phase
* '<S8>/Constant'
*/
real_T Constant1_b_Value; /* Expression: Internal
* '<S8>/Constant1'
*/
real_T Switch_b_Threshold; /* Expression: 0.5
* '<S8>/Switch'
*/
real_T Look_Up_Table1_XData[4]; /* Expression: rep_seq_t - min(rep_seq_t)
* '<S10>/Look-Up Table1'
*/
real_T Look_Up_Table1_YData[4]; /* Expression: rep_seq_y
* '<S10>/Look-Up Table1'
*/
real_T T5_b_Value; /* Expression: 0
* '<S5>/T5'
*/
real_T T6_b_Value; /* Expression: 0
* '<S5>/T6'
*/
real_T Constant4_a_Value; /* Expression: ctrl
* '<S30>/Constant4'
*/
real_T ib_Gain; /* Expression: ib
* '<S30>/ib'
*/
real_T Constant1_c_Value; /* Expression: Amplitude
* '<S1>/Constant1'
*/
real_T State_Space_P1_Size[2]; /* Computed Parameter: P1Size
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