Small changes after FAT and EMS Test

- Changed Modbus server config for EMS connectivity
- Changed some default EWL Limits

PLC/GVLs/GVL_CONFIG.TcGVL

@@ -87,7 +87,7 @@ VAR_GLOBAL PERSISTENT
 		
 		// Pressure posolyt tank inlet
 		stConfigPosolytPressureTankInlet := (iAIMax := 32767, iAIMin := 0, rPVMax := 2000, rPVMin := 0, sUnit := 'mbar'),
-		stEWLPosolytPressureTankInlet := (rErrorMin := -20, rWarningMin := -10, rWarningMax := 15, rErrorMax := 25),
+		stEWLPosolytPressureTankInlet := (rErrorMin := -20, rWarningMin := -10, rWarningMax := 50, rErrorMax := 75),
 		stEWDPosolytPressureTankInlet := 
 		(
 			timHardwareSignalLevelOn := T#0S,
@@ -104,7 +104,7 @@ VAR_GLOBAL PERSISTENT
 		
 		// Pressure negolyt tank inlet
 		stConfigNegolytPressureTankInlet := (iAIMax := 32767, iAIMin := 0, rPVMax := 2000, rPVMin := 0, sUnit := 'mbar'),
-		stEWLNegolytPressureTankInlet := (rErrorMin := -20, rWarningMin := -10, rWarningMax := 15, rErrorMax := 25),
+		stEWLNegolytPressureTankInlet := (rErrorMin := -20, rWarningMin := -10, rWarningMax := 50, rErrorMax := 75),
 		stEWDNegolytPressureTankInlet := 
 		(
 			timHardwareSignalLevelOn := T#0S,
@@ -121,7 +121,7 @@ VAR_GLOBAL PERSISTENT
 		
 		// Temperature sensor posolyt tank inlet
 		stConfigPosolytTempTankInlet := (iAIMax := 32767, iAIMin := -32768, rPVMax := 3276.7, rPVMin := -3276.8, sUnit := '°C'),
-		stEWLPosolytTempTankInlet := (rErrorMin := 10, rWarningMin := 15, rWarningMax := 50, rErrorMax := 60),
+		stEWLPosolytTempTankInlet := (rErrorMin := 10, rWarningMin := 15, rWarningMax := 42, rErrorMax := 45),
 		stEWDPosolytTempTankInlet := 
 		(
 			timHardwareSignalLevelOn := T#0S,
@@ -138,7 +138,7 @@ VAR_GLOBAL PERSISTENT
 		
 		// Temperature sensor negolyt tank inlet
 		stConfigNegolytTempTankInlet := (iAIMax := 32767, iAIMin := -32768, rPVMax := 3276.7, rPVMin := -3276.8, sUnit := '°C'),
-		stEWLNegolytTempTankInlet := (rErrorMin := 15, rWarningMin := 15, rWarningMax := 50, rErrorMax := 60),
+		stEWLNegolytTempTankInlet := (rErrorMin := 15, rWarningMin := 15, rWarningMax := 42, rErrorMax := 45),
 		stEWDNegolytTempTankInlet := 
 		(
 			timHardwareSignalLevelOn := T#0S,
@@ -158,7 +158,7 @@ VAR_GLOBAL PERSISTENT
 		// Index 0x80n0:02 "Presentation" = Signed(0) -> Resolution 1/10°C
 		// Index 0x80n0:19 "RTD Element" = PT100(0)
 		stConfigVoltageSegment := (iAIMax := 32767, iAIMin := 0, rPVMax := 150, rPVMin := 0, sUnit := 'V'),
-		stEWLVoltageSegment := (rErrorMin := 50, rWarningMin := 55, rWarningMax := 77, rErrorMax := 80),
+		stEWLVoltageSegment := (rErrorMin := 50, rWarningMin := 54, rWarningMax := 79, rErrorMax := 80),
 		stEWDVoltageSegment := 
 		(
 			timHardwareSignalLevelOn := T#0S,
@@ -195,10 +195,10 @@ VAR_GLOBAL PERSISTENT
 	rPumpNegolytOnPower : REAL := 70.0;
 	
 	// Pump posolyt discharge segment without inverter power in %
-	rPumpPosolytDisChrgPower : REAL := 45.0;
+	rPumpPosolytDisChrgPower : REAL := 50.0;
 	
 	// Pump posolyt discharge segment without inverter power in %
-	rPumpNegolytDisChrgPower : REAL := 45.0;
+	rPumpNegolytDisChrgPower : REAL := 50.0;
 	
 	// Unit voltage pumps shutoff threshold (Volt)
 	rPumpshutoffThreshold : REAL := 15.0;
@@ -207,7 +207,7 @@ VAR_GLOBAL PERSISTENT
 	rMinimumUnitVoltage : REAL := 55.0;
 	
 	// Maximum unit voltage for fully charged (Volt)
-	rMaximumUnitVoltage : REAL := 79.5;
+	rMaximumUnitVoltage : REAL := 78.5;
 	
 	// Delta value to minimum unit voltage for shutdown discharge (Volt)
 	rDeltaUnitVoltageShutdownDischarge : REAL := 5.0;
@@ -225,11 +225,11 @@ VAR_GLOBAL PERSISTENT
 	
 	// Maximum allowed charging power (Watt) per String
 	// 24.000 W -> 2.000 W per Unit
-	diMaxStringChargingPower : DINT := -50_000;
+	diMaxStringChargingPower : DINT := -48_000;
 	
 	// Maximum allowed discharging power (Watt) per String
 	// 24.000 W -> 2.000 W per Unit
-	diMaxStringDischargePower : DINT := 50_000;
+	diMaxStringDischargePower : DINT := 48_000;
 	
 	// Inverter ip address for string 1
 	sInverterIpString1 : STRING := '192.168.42.10';
@@ -252,7 +252,7 @@ VAR_GLOBAL PERSISTENT
 	rStringEmptyVoltage : REAL := 660.0;
 	
 	// Unit wait startup time (was 1 minute, reduced because of Doppelhöcker-Test)
-	timUnitStartupTime : TIME := T#5S;
+	timUnitStartupTime : TIME := T#15S;
 	
 	// Unit balancing wait startup time
 	timUnitBalancingStartupTime : TIME := T#3M;