# 1 "/home/admin/SimulationCore2/Equipments/RotaryTable/RTable_OffModeSolver.f90" subroutine RTable_OffMode use SimulationVariables !@ IMPLICIT NONE REAL :: RT_OldSpeed, RT_OldRpmGauge RT_OldSpeed = data%State%RTable%Speed RT_OldRpmGauge = data%State%RTable%RpmGaugeOutput data%State%RTable%N_new = 0.d0 !======================= Rotary Table Rate_limit ======================= if (((data%State%RTable%N_new-data%State%RTable%N_old)/data%State%RTable%time_step)>data%State%RTable%RateChange) then data%State%RTable%N_ref = (data%State%RTable%RateChange*data%State%RTable%time_step)+data%State%RTable%N_old else if (((data%State%RTable%N_old-data%State%RTable%N_new)/data%State%RTable%time_step)>data%State%RTable%RateChange) then data%State%RTable%N_ref = (-data%State%RTable%RateChange*data%State%RTable%time_step)+data%State%RTable%N_old else data%State%RTable%N_ref = data%State%RTable%N_new end if !======================================================================= if ( any(data%State%RTable%RotaryMode==(/1,4/)) ) then !if rotary connected to string !==> RPM data%State%RTable%Speed = data%State%RTable%N_ref/data%State%RTable%Conv_Ratio data%State%RTable%Speed = min(data%State%RTable%Speed,data%State%RTable%MaxRPM) !Speed [RPM] data%State%RTable%RpmGaugeOutput = data%State%RTable%Speed !==> Sound data%State%RTable%SoundRPM = INT(data%State%RTable%Speed) !==> Torque data%State%RTable%Torque = ( ((data%State%RTable%J_coef+data%State%RTable%String_JCoef)*((((pi*data%State%RTable%Speed)/30.d0)-((pi*RT_OldSpeed)/30.d0))/data%State%RTable%time_step))+(data%State%RTable%String_Torque) )*0.73756215d0 ![N.m]*0.73756215 = [ft.lbf] ![kg.m^2]*[radians/s^2]+[N.m]=[N.m] data%State%RTable%Torque = min(data%State%RTable%Torque,data%State%RTable%MaxTorque) data%State%RTable%TorqueGaugeOutput = data%State%RTable%Torque else if ( any(data%State%RTable%RotaryMode==(/2,5/)) ) then !==> RPM data%State%RTable%Speed = 0.d0 data%State%RTable%RpmGaugeOutput = data%State%RTable%N_ref/data%State%RTable%Conv_Ratio data%State%RTable%RpmGaugeOutput = min(data%State%RTable%RpmGaugeOutput,data%State%RTable%MaxRPM) !==> Sound data%State%RTable%SoundRPM = INT(data%State%RTable%RpmGaugeOutput) !==> Torque data%State%RTable%Torque = 0.d0 data%State%RTable%TorqueGaugeOutput = ( ((data%State%RTable%J_coef+data%State%RTable%String_JCoef)*((((pi*data%State%RTable%RpmGaugeOutput)/30.d0)-((pi*RT_OldRpmGauge)/30.d0))/data%State%RTable%time_step))+(data%State%RTable%String_Torque) )*0.73756215d0 ![N.m]*0.73756215 = [ft.lbf] ![kg.m^2]*[radians/s^2]+[N.m]=[N.m] data%State%RTable%TorqueGaugeOutput = min(data%State%RTable%TorqueGaugeOutput,data%State%RTable%MaxTorque) else if ( data%State%RTable%RotaryMode==3 ) then !==> RPM data%State%RTable%Speed = 0.d0 data%State%RTable%RpmGaugeOutput = 0.d0 !==> Sound data%State%RTable%SoundRPM = INT(data%State%RTable%RpmGaugeOutput) !==> Torque data%State%RTable%Torque = 0.d0 data%State%RTable%TorqueGaugeOutput = 0.d0 end if end subroutine RTable_OffMode