231 lines
7.8 KiB
XML
231 lines
7.8 KiB
XML
<?xml version="1.0" encoding="utf-8"?>
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<TcPlcObject Version="1.1.0.1" ProductVersion="3.1.4024.12">
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<GVL Name="GVL_CONFIG" Id="{0773bf51-0237-454d-a970-cfd896054edb}">
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<Declaration><![CDATA[{attribute 'qualified_only'}
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VAR_GLOBAL
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// ===========================
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// Unit hardware config
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// ===========================
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stUnitConfig : ST_UNIT_CONFIG :=
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(
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// Pump poslyt segment inlet
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stConfigPosolytPump :=
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(
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rTargetMin := 0.0,
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rTargetMax := 100.0,
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timRampUpTime := T#5S,
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timRampDownTime := T#5S,
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stAnalogInputConfig := (iAIMax := 32767, iAIMin := 0, rPVMax := 100, rPVMin := 0, sUnit := '%'),
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stAnalogOutputConfig := (iAIMax := 32767, iAIMin := 0, rPVMax := 100, rPVMin := 0),
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xHasAnalogFeedback := TRUE,
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xHasMCBFeedback := TRUE,
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xHasRepairSwitchFeedback := FALSE
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),
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// Pump negolyt segment inlet
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stConfigNegolytPump :=
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(
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rTargetMin := 0.0,
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rTargetMax := 100.0,
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timRampUpTime := T#5S,
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timRampDownTime := T#5S,
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stAnalogInputConfig := (iAIMax := 32767, iAIMin := 0, rPVMax := 100, rPVMin := 0, sUnit := '%'),
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stAnalogOutputConfig := (iAIMax := 32767, iAIMin := 0, rPVMax := 100, rPVMin := 0),
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xHasAnalogFeedback := TRUE,
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xHasMCBFeedback := TRUE,
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xHasRepairSwitchFeedback := FALSE
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),
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// Valve posolyt tank outlet
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stConfigPosolytValve := (timTimeoutOpen := T#10S, timTimeoutClose := T#10S, xHasOpenFeedback := TRUE, xHasClosedFeedback := TRUE),
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// Valve negolyt tank outlet
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stConfigNegolytValve := (timTimeoutOpen := T#10S, timTimeoutClose := T#10S, xHasOpenFeedback := TRUE, xHasClosedFeedback := TRUE),
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// Pressure posolyt segment inlet
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stConfigPosolytPressureSegmentInlet := (iAIMax := 32767, iAIMin := 0, rPVMax := 1500, rPVMin := -1000, sUnit := 'mbar'),
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stEWLPosolytPressureSegmentInlet := (rErrorMin := 170, rWarningMin := 200, rWarningMax := 600, rErrorMax := 700),
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stEWDPosolytPressureSegmentInlet :=
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(
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timHardwareSignalLevelOn := T#0S,
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timHardwareSignalLevelOff := T#5S,
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timErrorLowOn := T#2S,
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timErrorLowOff := T#5S,
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timWarningLowOn := T#2S,
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timWarningLowOff := T#5S,
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timWarningHighOn := T#2S,
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timWarningHighOff := T#5S,
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timErrorHighOn := T#2S,
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timErrorHighOff := T#5S
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),
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// Pressure negolyt segment inlet
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stConfigNegolytPressureSegmentInlet := (iAIMax := 32767, iAIMin := 0, rPVMax := 1500, rPVMin := -1000, sUnit := 'mbar'),
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stEWLNegolytPressureSegmentInlet := (rErrorMin := 170, rWarningMin := 200, rWarningMax := 600, rErrorMax := 700),
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stEWDNegolytPressureSegmentInlet :=
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(
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timHardwareSignalLevelOn := T#0S,
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timHardwareSignalLevelOff := T#5S,
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timErrorLowOn := T#2S,
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timErrorLowOff := T#5S,
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timWarningLowOn := T#2S,
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timWarningLowOff := T#5S,
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timWarningHighOn := T#2S,
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timWarningHighOff := T#5S,
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timErrorHighOn := T#2S,
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timErrorHighOff := T#5S
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),
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// Pressure posolyt tank inlet
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stConfigPosolytPressureTankInlet := (iAIMax := 32767, iAIMin := 0, rPVMax := 2000, rPVMin := 0, sUnit := 'mbar'),
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stEWLPosolytPressureTankInlet := (rErrorMin := -100, rWarningMin := -50, rWarningMax := 100, rErrorMax := 120),
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stEWDPosolytPressureTankInlet :=
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(
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timHardwareSignalLevelOn := T#0S,
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timHardwareSignalLevelOff := T#5S,
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timErrorLowOn := T#2S,
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timErrorLowOff := T#5S,
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timWarningLowOn := T#2S,
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timWarningLowOff := T#5S,
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timWarningHighOn := T#2S,
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timWarningHighOff := T#5S,
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timErrorHighOn := T#2S,
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timErrorHighOff := T#5S
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),
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// Pressure negolyt tank inlet
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stConfigNegolytPressureTankInlet := (iAIMax := 32767, iAIMin := 0, rPVMax := 1500, rPVMin := -1000, sUnit := 'mbar'),
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stEWLNegolytPressureTankInlet := (rErrorMin := -100, rWarningMin := -50, rWarningMax := 100, rErrorMax := 120),
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stEWDNegolytPressureTankInlet :=
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(
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timHardwareSignalLevelOn := T#0S,
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timHardwareSignalLevelOff := T#5S,
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timErrorLowOn := T#2S,
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timErrorLowOff := T#5S,
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timWarningLowOn := T#2S,
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timWarningLowOff := T#5S,
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timWarningHighOn := T#2S,
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timWarningHighOff := T#5S,
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timErrorHighOn := T#2S,
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timErrorHighOff := T#5S
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),
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// Temperature sensor posolyt tank inlet
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stConfigPosolytTempTankInlet := (iAIMax := 32767, iAIMin := -32768, rPVMax := 3276.7, rPVMin := -3276.8, sUnit := '°C'),
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stEWLPosolytTempTankInlet := (rErrorMin := -10, rWarningMin := -5, rWarningMax := 50, rErrorMax := 60),
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stEWDPosolytTempTankInlet :=
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(
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timHardwareSignalLevelOn := T#0S,
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timHardwareSignalLevelOff := T#5S,
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timErrorLowOn := T#2S,
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timErrorLowOff := T#5S,
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timWarningLowOn := T#2S,
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timWarningLowOff := T#5S,
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timWarningHighOn := T#2S,
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timWarningHighOff := T#5S,
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timErrorHighOn := T#2S,
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timErrorHighOff := T#5S
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),
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// Temperature sensor negolyt tank inlet
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stConfigNegolytTempTankInlet := (iAIMax := 32767, iAIMin := -32768, rPVMax := 3276.7, rPVMin := -3276.8, sUnit := '°C'),
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stEWLNegolytTempTankInlet := (rErrorMin := -10, rWarningMin := -5, rWarningMax := 50, rErrorMax := 60),
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stEWDNegolytTempTankInlet :=
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(
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timHardwareSignalLevelOn := T#0S,
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timHardwareSignalLevelOff := T#5S,
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timErrorLowOn := T#2S,
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timErrorLowOff := T#5S,
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timWarningLowOn := T#2S,
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timWarningLowOff := T#5S,
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timWarningHighOn := T#2S,
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timWarningHighOff := T#5S,
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timErrorHighOn := T#2S,
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timErrorHighOff := T#5S
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),
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// Voltage sensor segment
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// EL3214-0090 CoE Verzeichnis
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// Index 0x80n0:02 "Presentation" = Signed(0) -> Resolution 1/10°C
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// Index 0x80n0:19 "RTD Element" = PT100(0)
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stConfigVoltageSegment := (iAIMax := 32767, iAIMin := 0, rPVMax := 150, rPVMin := 0, sUnit := 'V'),
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stEWLVoltageSegment := (rErrorMin := 50, rWarningMin := 55, rWarningMax := 75, rErrorMax := 79),
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stEWDVoltageSegment :=
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(
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timHardwareSignalLevelOn := T#0S,
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timHardwareSignalLevelOff := T#5S,
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timErrorLowOn := T#2S,
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timErrorLowOff := T#5S,
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timWarningLowOn := T#2S,
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timWarningLowOff := T#5S,
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timWarningHighOn := T#2S,
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timWarningHighOff := T#5S,
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timErrorHighOn := T#2S,
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timErrorHighOff := T#5S
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)
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);
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// ===========================
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// General settings
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// ===========================
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// Pump on power (%)
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rPumpPosolytOnPower : REAL := 70.0;
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rPumpNegolytOnPower : REAL := 70.0;
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// Pump discharge segment without inverter power (%)
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rPumpPosolytDisChrgPower : REAL := 35.0;
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rPumpNegolytDisChrgPower : REAL := 35.0;
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// Unit voltage pumps shutoff threshold (Volt)
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rPumpshutoffThreshold : REAL := 15.0;
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// Minimum unit voltage required for inverter startup (Volt)
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rMinimumUnitVoltage : REAL := 50.0;
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// Delta value to minimum unit voltage for shutdown discharge (Volt)
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rDeltaUnitVoltageShutdownDischarge : REAL := 5.0;
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// Maximum absolute voltage difference
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// between units in the same module
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rMaxAbsDiffVoltageUnitsOnModule : REAL := 5.0;
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// Maximum absolute voltage difference
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// between Modules (Volt)
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rMaxAbsDiffVoltageModulesInString : REAL := 10.0;
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// Minimum absolute power command to enable battery (Watt)
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diMinimumAbsPowerForEnable : DINT := 100;
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// Maximum allowed charging power (Watt) per String
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// 60.000 W -> 5.000 W per Unit
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diMaxStringChargingPower : DINT := -60_000;
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// Maximum allowed discharging power (Watt) per String
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// 60.000 W -> 5.000 W per Unit
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diMaxStringDischargePower : DINT := 60_000;
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// Inverter ip address
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sInverterIp : STRING := '192.168.42.11';
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// Absolute shutdown discharge power (Watt)
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// 12.000 W -> 1.000 W per unit
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rAbsShutdownDischargePower : REAL := 12_000;
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// Allow inverter fast shutdown discharge
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xShutdownDischargeWithInverter : BOOL := FALSE;
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// String fully charged voltage (Volt)
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// 960 V -> 80 V per Unit
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rStringFullyChargedVoltage : REAL := 960.0;
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// String empty voltage (Volt) (585V is needed for the inverter to start up -> 50V per Segment)
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// 600 V -> 50 V per Unit
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rStringEmptyVoltage : REAL := 600.0;
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// Unit wait startup time
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timUnitStartupTime : TIME := T#5S;
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END_VAR]]></Declaration>
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</GVL>
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</TcPlcObject> |