Merge branch 'master' of https://twinetfs.visualstudio.com/_git/Tango

1 files changed, 60 insertions, 30 deletions

diff --git a/Software/Embedded_SW/Embedded/Modules/Thread/ThreadLoad.c b/Software/Embedded_SW/Embedded/Modules/Thread/ThreadLoad.c
index 9ef7f3d0d..837221274 100644
--- a/Software/Embedded_SW/Embedded/Modules/Thread/ThreadLoad.c
+++ b/Software/Embedded_SW/Embedded/Modules/Thread/ThreadLoad.c
@@ -59,7 +59,7 @@
     ProcessParameters ProcessParametersClear,ProcessParametersRecover;
     uint8_t NumberOfDrierLoaderCycles = 0;
     uint32_t status = OK;
-    uint32_t ControlId = 0xFF;
+    uint32_t ControlId = 0xFF,PullerControlId = 0xFF,WinderControlId = 0xFF;
     uint32_t ThreadLoadStateMachine( THREAD_LOAD_STAGES_ENUM LoadStages);
     uint32_t ThreadLoadControlCBFunction(uint32_t index, uint32_t ReadValue);
     uint32_t Thread_Load_Dryer_UnLoading(void);
@@ -146,7 +146,7 @@
                 Control_Voltage_To_Blower(BlowerCfg.voltage-500);
             Control_Dryer_Fan(STOP,75);//use START or STOP,  0 - 100%
             LoadStages++;
-            //ThreadLoadStateMachine(LoadStages);
+            ThreadLoadStateMachine(LoadStages);
         }
         return OK;
     }
@@ -167,12 +167,30 @@
             //storeLoadArmParameters();
             SetMotHome(HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM);  //set this point as the spool home
             LoadStages++;
-            //ThreadLoadStateMachine(LoadStages);
+            ThreadLoadStateMachine(LoadStages);
         }
         return OK;
     }
     uint32_t Thread_Load_Set_Load_Arm_To_Stopper_Callback(uint32_t deviceID, uint32_t BusyFlag)
     {
+        if(PullerControlId != 0xFF)
+        {
+            MotorStop(ThreadMotorIdToMotorId[POOLER_MOTOR],Hard_Hiz);
+            RemoveControlCallback(PullerControlId, ThreadLoadControlCBFunction );
+            PullerControlId = 0xFF;
+        }
+        if(WinderControlId != 0xFF)
+        {
+            MotorStop(ThreadMotorIdToMotorId[WINDER_MOTOR],Hard_Hiz);
+            RemoveControlCallback(WinderControlId, ThreadLoadControlCBFunction );
+            WinderControlId = 0xFF;
+        }
+        /*Task_sleep(5)
+        MotorStop(ThreadMotorIdToMotorId[FEEDER_MOTOR],Hard_Hiz);
+        MotorStop(ThreadMotorIdToMotorId[FEEDER_MOTOR],Hard_Hiz);*/
+
+        MotorStop(HARDWARE_MOTOR_TYPE__MOTO_DRYER_DRIVING,Hard_Hiz);
+
 //        Report("Thread Load State Machine Callback.",__FILE__,__LINE__,LoadStages,RpMessage,NumberOfDrierLoaderCycles,0);
         Report("Thread_Load_Set_Load_Arm_To_Stopper_Callback",__FILE__,__LINE__,LoadStages,RpMessage,NumberOfDrierLoaderCycles,0);
         NumberOfDrierLoaderCycles=0;
@@ -180,7 +198,7 @@
         LoadStages++;
         SetMotHome(HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM);  //set this point as the spool home
 
-        //ThreadLoadStateMachine(LoadStages);
+        ThreadLoadStateMachine(LoadStages);
         return OK;
     }
     uint32_t Thread_Load_Set_Load_Arm_To_Start_Position(void)
@@ -240,7 +258,7 @@
                     }
                     if (LoadStages != THREAD_LOAD_INITIAL_TENSION) //on this stage we should wait for user call
                     {
-                        //ThreadLoadStateMachine(LoadStages);
+                        ThreadLoadStateMachine(LoadStages);
                     }
                 }
             }
@@ -361,7 +379,7 @@
         {
             Control_Dryer_Fan(START,75);//use START or STOP,  0 - 100%
             LoadStages++;
-            //ThreadLoadStateMachine(LoadStages);
+            ThreadLoadStateMachine(LoadStages);
         }
         return OK;
     }
@@ -374,17 +392,9 @@
         return OK;
     }
 
-    uint32_t Thread_Load_Dryer_Loading_Callback(uint32_t MotorId, uint32_t ReadValue)
+    uint32_t Thread_Load_Dryer_MovetoEncoderPosition_Callback(uint32_t MotorId, uint32_t ReadValue)
     {
-        Report("Thread Load State Machine Callback.",__FILE__,__LINE__,LoadStages,RpMessage,NumberOfDrierLoaderCycles,0);
-        REPORT_MSG(MotorId, "Thread_Load_Dryer_Loading_Callback Motor Id");
-        MotorMovetoEncoderPosition(HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM,0,0);
-        if(ControlId != 0xFF)
-        {
-            MotorStop(ThreadMotorIdToMotorId[FEEDER_MOTOR],Hard_Hiz);
-            RemoveControlCallback(ControlId, ThreadLoadControlCBFunction );
-            ControlId = 0xFF;
-        }
+        MotorSetMaxSpeed (HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM, 200);
         if (CallbackCounter)
         {
             CallbackCounter--;
@@ -393,12 +403,25 @@
                 LoadStages++;
                 if (LoadStages != THREAD_LOAD_INITIAL_TENSION) //on this satge we should wait for user call
                 {
-                    //ThreadLoadStateMachine(LoadStages);
+                    ThreadLoadStateMachine(LoadStages);
                 }
             }
         }
         else
             LOG_ERROR(MotorId, "Thread_Load_HomingCallback Callback is already 0");
+
+    }
+    uint32_t Thread_Load_Dryer_Loading_Callback(uint32_t MotorId, uint32_t ReadValue)
+    {
+        Report("Thread Load State Machine Callback.",__FILE__,__LINE__,LoadStages,RpMessage,NumberOfDrierLoaderCycles,0);
+        if(ControlId != 0xFF)
+        {
+            MotorStop(ThreadMotorIdToMotorId[FEEDER_MOTOR],Hard_Hiz);
+            RemoveControlCallback(ControlId, ThreadLoadControlCBFunction );
+            ControlId = 0xFF;
+        }
+        //REPORT_MSG(MotorId, "Thread_Load_Dryer_Loading_Callback Motor Id");
+        MotorMovetoEncoderPosition(HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM,Thread_Load_Dryer_MovetoEncoderPosition_Callback,10000);
         return OK;
     }
 
@@ -413,6 +436,7 @@
 //        CurrentControlledSpeed[FEEDER_MOTOR] = 1000;
 
         numberOfSteps = MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].pulseperround*LoadArmInfo.LoadArmRounds*MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].microstep*MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].pulleyradius;
+        Report("Thread Load State Machine step.",__FILE__,LoadStages,numberOfSteps,RpMessage,(int)(MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].microstep*MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].pulleyradius),0);
         MotorControlConfig[FEEDER_MOTOR].m_params.MAX = 1;
         MotorControlConfig[FEEDER_MOTOR].m_params.MIN = MotorsControl[FEEDER_MOTOR].outputproportionalpowerlimit*-1;
         MotorControlConfig[FEEDER_MOTOR].m_params.Kd = MotorsControl[FEEDER_MOTOR].derivativetime;
@@ -432,6 +456,8 @@
         MotorControlConfig[FEEDER_MOTOR].m_SetParam = 0;//need to update SetParams on presegment stage
         MotorSetDirection(HARDWARE_MOTOR_TYPE__MOTO_RDRIVING,MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_RDRIVING].directionthreadwize);
 
+        MotorSetMaxSpeed (HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM, MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].pulseperround/4);
+
         ControlId = AddControlCallback(ThreadLoadControlCBFunction, eOneMillisecond,Control_Read_Dancer_Position,(IfTypeThread*0x100+FEEDER_MOTOR),FEEDER_DANCER,FEEDER_MOTOR);
         CallbackCounter++;
         MotorMoveWithCallback (HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM, MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].directionthreadwize,
@@ -450,7 +476,7 @@
         ControlId = 0xFF;
         ThreadAbortJoggingFunc();
         LoadStages++;
-        //ThreadLoadStateMachine(LoadStages);
+        ThreadLoadStateMachine(LoadStages);
         return OK;
     }
     uint32_t Thread_Load_Jog_Thread(void)
@@ -472,7 +498,7 @@
         LoadArmInfo.LoadArmRounds = 0;
         uint32_t numberOfSteps = 0;
         //Start Feeder Pid, Rotate Loading Arm Counter Thread Direction X Circles According To Rml. Feeder Speed Is 40
-        SetOriginMotorSpeed(20);
+        SetOriginMotorSpeed(19);
 //        OriginalMotorSpd_2PPS[FEEDER_MOTOR] = 1000;
 //        CurrentControlledSpeed[FEEDER_MOTOR] = 1000;
 
@@ -496,7 +522,7 @@
         MotorControlConfig[POOLER_MOTOR].m_SetParam = 0;//need to update SetParams on presegment stage
         MotorSetDirection(HARDWARE_MOTOR_TYPE__MOTO_LDRIVING,MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_LDRIVING].directionthreadwize);
 
-        ControlId = AddControlCallback(ThreadLoadControlCBFunction, eOneMillisecond,Control_Read_Dancer_Position,(IfTypeThread*0x100+POOLER_MOTOR),FEEDER_DANCER,POOLER_MOTOR);
+        PullerControlId = AddControlCallback(ThreadLoadControlCBFunction, eOneMillisecond,Control_Read_Dancer_Position,(IfTypeThread*0x100+POOLER_MOTOR),POOLER_DANCER,POOLER_MOTOR);
 ////////////////////////
         MotorControlConfig[WINDER_MOTOR].m_params.MAX = 1;
         MotorControlConfig[WINDER_MOTOR].m_params.MIN = MotorsControl[WINDER_MOTOR].outputproportionalpowerlimit*-1;
@@ -515,18 +541,20 @@
         MotorControlConfig[WINDER_MOTOR].m_mesuredParam = 0;
         MotorControlConfig[WINDER_MOTOR].m_preError = 0;
         MotorControlConfig[WINDER_MOTOR].m_SetParam = 0;//need to update SetParams on presegment stage
-        MotorSetDirection(HARDWARE_MOTOR_TYPE__MOTO_LDRIVING,MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_LDRIVING].directionthreadwize);
+        MotorSetDirection(HARDWARE_MOTOR_TYPE__MOTO_WINDER,MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_WINDER].directionthreadwize);
 
-        ControlId = AddControlCallback(ThreadLoadControlCBFunction, eOneMillisecond,Control_Read_Dancer_Position,(IfTypeThread*0x100+WINDER_MOTOR),FEEDER_DANCER,WINDER_MOTOR);
+        WinderControlId = AddControlCallback(ThreadLoadControlCBFunction, eOneMillisecond,Control_Read_Dancer_Position,(IfTypeThread*0x100+WINDER_MOTOR),WINDER_DANCER,WINDER_MOTOR);
 
 ////////////////////////
+        MotorSetDirection(HARDWARE_MOTOR_TYPE__MOTO_DRYER_DRIVING,MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_DRIVING].directionthreadwize);
+        MotorSetSpeed(HARDWARE_MOTOR_TYPE__MOTO_DRYER_DRIVING, OriginalMotorSpd_2PPS[DRYER_MOTOR]);
 
         CallbackCounter++;
         //MotorMoveWithCallback (HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM, MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].directionthreadwize,
         //                       numberOfSteps,    Thread_Load_Dryer_Loading_Callback, 100000);
         Report("Thread_Load_Set_Load_Arm_To_Start_Position",__FILE__,__LINE__,LoadStages,RpMessage,NumberOfDrierLoaderCycles,0);
         status |= MotorMoveToStopper(HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM, (1-MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].directionthreadwize),
-                                        MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].pulseperround/2, Thread_Load_Set_Load_Arm_To_Stopper_Callback,LoadArmInfo.LoadArmBackLash,1000);
+                                        MotorsCfg[HARDWARE_MOTOR_TYPE__MOTO_DRYER_LOADARM].pulseperround/4, Thread_Load_Set_Load_Arm_To_Stopper_Callback,LoadArmInfo.LoadArmBackLash,1000);
 
         //Keep Notation How Many Rotations In The Dryer
         //LoadArmInfo.LoadArmBackLash = 0;
@@ -603,6 +631,7 @@
             Thread_Load_Jog_Thread();
             break;
         case THREAD_LOAD_END:
+            LoadStages = THREAD_LOAD_END;
             Thread_Load_End();
             break;
         default:
@@ -623,7 +652,14 @@ uint32_t ThreadLoadControlCBFunction(uint32_t IfIndex, uint32_t ReadValue)
     uint32_t calculated_speed;
     double NormalizedError;
 
-    DancerId = FEEDER_DANCER;//ThreadMotorIdToDancerId[index];
+    if (IfIndex>>8 != IfTypeThread)
+    {
+        LOG_ERROR (IfIndex, "Wrong  Interface type");
+        return 0xFFFFFFFF;
+    }
+    index = IfIndex&0xFF;
+
+    DancerId = ThreadMotorIdToDancerId[index];
     if (ReadValue < 10)
     {
         Report("Dancer value read too small.",__FILE__,__LINE__,DancerId,RpError,ReadValue,0);
@@ -634,12 +670,6 @@ uint32_t ThreadLoadControlCBFunction(uint32_t IfIndex, uint32_t ReadValue)
         return OK;
     }
     TranslatedReadValue = ReadValue - DancersCfg[DancerId].zeropoint;
-    if (IfIndex>>8 != IfTypeThread)
-    {
-        LOG_ERROR (IfIndex, "Wrong  Interface type");
-        return 0xFFFFFFFF;
-    }
-    index = IfIndex&0xFF;
     if (index == POOLER_MOTOR)
     {
         //pooler dancer is right sided: data is opposite