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Dependencies:   FreescaleIAP mbed-rtos mbed

Fork of RAJANGAM_REVIEW_BAE_CODE by Team Fox

Diff: EPS.cpp

Revision:
89:2d0cdc87329a
Parent:
86:051ec436e75f
diff -r d50f09fab17f -r 2d0cdc87329a EPS.cpp
--- a/EPS.cpp	Sat Dec 24 10:06:21 2016 +0000
+++ b/EPS.cpp	Fri Dec 30 10:29:44 2016 +0000
@@ -469,11 +469,11 @@
     {
             actual_data.voltage_actual[Iteration]=VoltageInput.read();
             //wait_ms(100); //remove
-            eps_pc.printf("\n\rthe raw voltage values VOL[%d] = %f",Iteration,actual_data.voltage_actual[Iteration]);
+           /// eps_pc.printf("\n\rthe raw voltage values VOL[%d] = %f",Iteration,actual_data.voltage_actual[Iteration]);
             wait_ms(2);
             actual_data.current_actual[Iteration]=CurrentInput.read();
             wait_ms(2);
-            eps_pc.printf("\n\rthe raw current values CURR[%d] = %f",Iteration,actual_data.current_actual[Iteration]);
+            //eps_pc.printf("\n\rthe raw current values CURR[%d] = %f",Iteration,actual_data.current_actual[Iteration]);
                       
             SelectLinea0=!(SelectLinea0);
             if(Iteration%2==1)
@@ -499,7 +499,7 @@
         else
          actual_data.voltage_actual[Iteration] = (actual_data.voltage_actual[Iteration]*3.3*62)/11.0;
               
-        eps_pc.printf("VVVoltage[%d] %f\r\n",Iteration,actual_data.voltage_actual[Iteration]);
+      //  eps_pc.printf("VVVoltage[%d] %f\r\n",Iteration,actual_data.voltage_actual[Iteration]);
     }
         
     for(Iteration=0;Iteration<16;Iteration++){
@@ -540,7 +540,7 @@
             actual_data.current_actual[Iteration] = actual_data.current_actual[Iteration] - 273.15; /*converting from C to kelvin*/ 
             
             }
-            printf("Current[%d]  %f\r\n",Iteration,actual_data.current_actual[Iteration]);
+          //  printf("Current[%d]  %f\r\n",Iteration,actual_data.current_actual[Iteration]);
     }
     
     //actual_data.BAE_temp_actual=(-90.7*3.3*actual_data.BAE_temp_actual)+190.1543;
@@ -556,7 +556,7 @@
         else
             quant_data.voltage_quant[Iteration] = 10*actual_data.voltage_actual[Iteration];
         //quant_data.voltage_quant[Iteration] = float_to_uint8(0.0,25,actual_data.voltage_actual[Iteration]);//quantiz(vstart,vstep,actual_data.voltage_actual[Iteration]);
-        eps_pc.printf("\n\r quan vol data[%d],\t %d",Iteration,quant_data.voltage_quant[Iteration]);
+        //eps_pc.printf("\n\r quan vol data[%d],\t %d",Iteration,quant_data.voltage_quant[Iteration]);
         
     }
     for(Iteration=0;Iteration<16;Iteration++){
@@ -570,7 +570,7 @@
         else if(Iteration>9)/*changed from 25 to 300 what value do we expectt?*/
             quant_data.current_quant[Iteration] = float_to_uint8(-50,100,actual_data.current_actual[Iteration]);    
     
-           eps_pc.printf("\n\r quan curr data[%d],\t %d",Iteration,quant_data.current_quant[Iteration]);
+         //  eps_pc.printf("\n\r quan curr data[%d],\t %d",Iteration,quant_data.current_quant[Iteration]);
     }       
     for(Iteration=0;Iteration<2;Iteration++){
         
@@ -920,49 +920,49 @@
     
     //printing the min_max data shouldn't give the tc to get new min max data shouldn't call the case 0x41 now to reset the min_max data
     for (int i = 0; i < 16; ++i)    
-        eps_pc.printf("\n\rthe min volatages are %d = %d",i,bae_HK_minmax.voltage_min[i]);
+       // eps_pc.printf("\n\rthe min volatages are %d = %d",i,bae_HK_minmax.voltage_min[i]);
     for (int i = 0; i < 16; ++i)    
-        eps_pc.printf("\n\rthe min current are %d = %d",i,bae_HK_minmax.current_min[i]);
+        //eps_pc.printf("\n\rthe min current are %d = %d",i,bae_HK_minmax.current_min[i]);
     for (int i = 0; i < 2; ++i)    
-        eps_pc.printf("\n\rthe min bae_temp are %d = %d",i,bae_HK_minmax.Batt_temp_min[i]);
+       // eps_pc.printf("\n\rthe min bae_temp are %d = %d",i,bae_HK_minmax.Batt_temp_min[i]);
        
-       eps_pc.printf("\n\rthe min batt_SOC_min are  %d",bae_HK_minmax.Batt_SOC_min);
-       eps_pc.printf("\n\rthe min BCN_TEMP_min are  %d",bae_HK_minmax.BCN_TEMP_min);
+       //eps_pc.printf("\n\rthe min batt_SOC_min are  %d",bae_HK_minmax.Batt_SOC_min);
+      // eps_pc.printf("\n\rthe min BCN_TEMP_min are  %d",bae_HK_minmax.BCN_TEMP_min);
       
      for (int i = 0; i < 3; ++i)
         {
-            eps_pc.printf("\n\rthe min bit_data_acs_mg_min are %d = %d",i,bae_HK_minmax.bit_data_acs_mg_min[i]);
+           // eps_pc.printf("\n\rthe min bit_data_acs_mg_min are %d = %d",i,bae_HK_minmax.bit_data_acs_mg_min[i]);
         }
         for (int i = 0; i < 3; ++i)
         {
-            eps_pc.printf("\n\rthe min bit_data_acs_mm_min are %d = %d",i,bae_HK_minmax.bit_data_acs_mm_min[i]);
+          //  eps_pc.printf("\n\rthe min bit_data_acs_mm_min are %d = %d",i,bae_HK_minmax.bit_data_acs_mm_min[i]);
         }
         
-        eps_pc.printf("\n\rthe min BAE_temp_min are %d",bae_HK_minmax.BAE_temp_min);
-        eps_pc.printf("\n\rthe min Batt_voltage_min %d",bae_HK_minmax.Batt_voltage_min);
+        //eps_pc.printf("\n\rthe min BAE_temp_min are %d",bae_HK_minmax.BAE_temp_min);
+        //eps_pc.printf("\n\rthe min Batt_voltage_min %d",bae_HK_minmax.Batt_voltage_min);
         
     //max data now
     for (int i = 0; i < 16; ++i)    
-        eps_pc.printf("\n\rthe max volatages are %d = %d",i,bae_HK_minmax.voltage_max[i]);
+       // eps_pc.printf("\n\rthe max volatages are %d = %d",i,bae_HK_minmax.voltage_max[i]);
     for (int i = 0; i < 16; ++i)    
-        eps_pc.printf("\n\rthe max current are %d = %d",i,bae_HK_minmax.current_max[i]);
+        //eps_pc.printf("\n\rthe max current are %d = %d",i,bae_HK_minmax.current_max[i]);
     for (int i = 0; i < 2; ++i)    
-        eps_pc.printf("\n\rthe max bae_temp are %d = %d",i,bae_HK_minmax.Batt_temp_max[i]);
+        //eps_pc.printf("\n\rthe max bae_temp are %d = %d",i,bae_HK_minmax.Batt_temp_max[i]);
        
-       eps_pc.printf("\n\rthe max batt_SOC_max are %d",bae_HK_minmax.Batt_SOC_max);
-       eps_pc.printf("\n\rthe max BCN_TEMP_max are %d",bae_HK_minmax.BCN_TEMP_max);
+       //eps_pc.printf("\n\rthe max batt_SOC_max are %d",bae_HK_minmax.Batt_SOC_max);
+     //  eps_pc.printf("\n\rthe max BCN_TEMP_max are %d",bae_HK_minmax.BCN_TEMP_max);
       
      for (int i = 0; i < 3; ++i)
         {
-            eps_pc.printf("\n\rthe max bit_data_acs_mg_max are %d = %d",i,bae_HK_minmax.bit_data_acs_mg_max[i]);
+          //  eps_pc.printf("\n\rthe max bit_data_acs_mg_max are %d = %d",i,bae_HK_minmax.bit_data_acs_mg_max[i]);
         }
         for (int i = 0; i < 3; ++i)
         {
-            eps_pc.printf("\n\rthe max bit_data_acs_mm_max are %d = %d",i,bae_HK_minmax.bit_data_acs_mm_max[i]);
+            //eps_pc.printf("\n\rthe max bit_data_acs_mm_max are %d = %d",i,bae_HK_minmax.bit_data_acs_mm_max[i]);
         }
         
-        eps_pc.printf("\n\rthe max BAE_temp_max are %d ",bae_HK_minmax.BAE_temp_max);
-        eps_pc.printf("\n\rthe max Batt_voltage_max %d ",bae_HK_minmax.Batt_voltage_max);
+        //eps_pc.printf("\n\rthe max BAE_temp_max are %d ",bae_HK_minmax.BAE_temp_max);
+       // eps_pc.printf("\n\rthe max Batt_voltage_max %d ",bae_HK_minmax.Batt_voltage_max);
         
     
 }