void InitPID(void){ BYTE i; //WORD loop; for (i=0;i<NUM_PID_GROUPS;i++){ //DyPID values dyPid[i].inputChannel=DYPID_NON_USED; dyPid[i].outputChannel=DYPID_NON_USED; dyPid[i].inputMode=0; dyPid[i].outputMode=0; pidGroups[i].Enabled=FALSE; pidGroups[i].channel = i; vel[i].enabled=FALSE; vel[i].K.P=.1; limits[i].type=NO_LIMIT; LoadPIDvals(&pidGroups[i],&dyPid[i]); if( dyPid[i].inputChannel==DYPID_NON_USED || dyPid[i].outputChannel==DYPID_NON_USED || dyPid[i].outputChannel==dyPid[i].inputChannel) { dyPid[i].inputChannel=DYPID_NON_USED; dyPid[i].outputChannel=DYPID_NON_USED; WritePIDvalues(&pidGroups[i],&dyPid[i]); } force[i].MsTime=0; force[i].setPoint=200; } InitilizePidController( pidGroups, vel, NUM_PID_GROUPS, &getPositionMine, &setOutputMine, &resetPositionMine, //&asyncCallback, &onPidConfigureMine, &checkPIDLimitEventsMine); for (i=0;i<NUM_PID_GROUPS;i++){ printPIDvals(i); if(pidGroups[i].Enabled){ initPIDChans(i); println_I("Resetting PID channel from init"); int value = 0; if(dyPid[i].inputMode == IS_ANALOG_IN) value = 512; pidReset(i,value); } } }
void initPIDLocal(){ BYTE i; //WORD loop; for (i=0;i<numPidTotal;i++){ vel[i].enabled=FALSE; limits[i].type=NO_LIMIT; } InitilizePidController( pidGroups, vel, numPidTotal, &getPositionMine, &setOutputMine, &resetPositionMine, //&asyncCallback, &onPidConfigureMine, &checkPIDLimitEventsMine); while(!initFlashLocal()); setPidIsr(TRUE); }
void InitPID(void){ //println_I("Starting PID initialization "); uint8_t i; //uint16_t loop; for (i=0;i<NUM_PID_GROUPS;i++){ //DyPID values dyPid[i].inputChannel=DYPID_NON_USED; dyPid[i].outputChannel=DYPID_NON_USED; dyPid[i].inputMode=0; dyPid[i].outputMode=0; dyPid[i].flagValueSync=false; pidGroups[i].config.tipsScale=1.0; pidGroups[i].config.Enabled = false; pidGroups[i].config.Async = 1; pidGroups[i].config.IndexLatchValue = 0; pidGroups[i].config.stopOnIndex = 0; pidGroups[i].config.useIndexLatch = 0; pidGroups[i].config.K.P = .1; pidGroups[i].config.K.I = 0; pidGroups[i].config.K.D = 0; pidGroups[i].config.V.P = .1; pidGroups[i].config.V.D = 0; pidGroups[i].config.Polarity = 0; pidGroups[i].config.stop = 0; pidGroups[i].config.upperHistoresis = 0; pidGroups[i].config.lowerHistoresis = 0; pidGroups[i].config.offset = 0.0; pidGroups[i].config.calibrationState = CALIBRARTION_DONE; pidGroups[i].interpolate.set=0; pidGroups[i].interpolate.setTime=0; pidGroups[i].interpolate.start=0; pidGroups[i].interpolate.startTime=0; limits[i].type=NO_LIMIT; LoadPIDvals(&pidGroups[i],&dyPid[i],i); if( dyPid[i].inputChannel==DYPID_NON_USED || dyPid[i].outputChannel==DYPID_NON_USED || dyPid[i].outputChannel==dyPid[i].inputChannel|| pidGroups[i].config.Enabled !=true) { dyPid[i].inputChannel=DYPID_NON_USED; dyPid[i].outputChannel=DYPID_NON_USED; pidGroups[i].config.Enabled = false; WritePIDvalues(&pidGroups[i],&dyPid[i],i); } force[i].MsTime=0; force[i].setPoint=200; } InitilizePidController( pidGroups, NUM_PID_GROUPS, &getPositionMine, &setOutputMine, &resetPositionMine, &onPidConfigureMine, &checkPIDLimitEventsMine); for (i=0;i<NUM_PID_GROUPS;i++){ // if(pidGroups[i].config.Enabled){ println_W("PID ");p_int_W(i); printPIDvals(i); initPIDChans(i); int value = getPositionMine(i); pidGroups[i].CurrentState=value; pidReset(i,value); } } }