555 lines
16 KiB
XML
555 lines
16 KiB
XML
<?xml version="1.0" encoding="utf-8"?>
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<TcPlcObject Version="1.1.0.1">
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<POU Name="FB_AnalogInput" Id="{532e1013-5a2e-43c7-8863-3ad112d7d7e8}" SpecialFunc="None">
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<Declaration><![CDATA[FUNCTION_BLOCK FINAL FB_AnalogInput
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VAR_INPUT
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// Analog input value
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iAnalogValue AT %I* : INT;
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// Card has detected an open circuit
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xUnderrange AT%I* : BOOL;
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// Input is overloaded
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xOverrange AT %I* : BOOL;
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// Input card has error
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// EL30xx also sets this if an underrange or overrange error is present
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xErrorCard AT %I* : BOOL;
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// IO config data
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stAnalogIOConfig : ST_ANALOG_IO_CONFIG;
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// Error and warning config data
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stAnalogEWConfig : ST_ANALOG_EW_CONFIG;
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// Global switch to dissable all errors
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xReleaseErrors : BOOL := TRUE;
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// Enables or dissables errors from min max values
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xReleaseLimitErrors : BOOL := FALSE;
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// Enables or dissables hardware errors
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xReleaseHardwareErrors : BOOL := TRUE;
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// Input to confirm all errors
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xConfirmAlarms : BOOL;
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// Input to tell the fb thats ist used inside a unit test
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// Fb will not throw error messages
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{attribute 'hide'}
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xInUnitTestMode : BOOL := FALSE;
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END_VAR
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VAR_OUTPUT
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// Scaled output value
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rScaledValue : REAL;
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// Error in function block
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xError : BOOL;
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// Warning active
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xWarning : BOOL;
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// Low level error
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xErrorLow : BOOL;
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// Low level warning
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xWarningLow : BOOL;
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// High level warning
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xWarningHigh : BOOL;
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//High level error
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xErrorHigh : BOOL;
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END_VAR
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VAR
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// Scaling factor for conversion
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_rConversionFactor : REAL;
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// Base offset for scaling factor
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_rBaseOffset : REAL;
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// Min warning level
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_rMinWarningLevel : REAL;
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// Max warning level
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_rMaxWarningLevel : REAL;
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// Min error level
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_rMinErrorLevel : REAL;
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// Max error level
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_rMaxErrorLevel : REAL;
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// Scaling config error
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_xConfigError : BOOL := FALSE;
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// Limits config error
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_xEWConfigError : BOOL := FALSE;
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// Helper variables used in reset error flag
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_xAlarmsActive : BOOL;
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_xInputErrorsActive : BOOL;
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// Max process value
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_iAIMax : INT;
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// Min process value
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_iAIMin : INT;
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// Clamped analog value
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_iClampedAnalogValue : INT;
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// Internal scaled value
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_rScaledValue : REAL;
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// Name of the function block
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_sName : STRING;
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// Internal warning flags
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_xWarningLow : BOOL;
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_xWarningHigh : BOOL;
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_xWarning : BOOL;
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// Internal error flag
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_xErrorLow : BOOL;
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_xErrorHigh : BOOL;
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_xError : BOOL;
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// Alarm handlers
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_fbAlarmCardError : FB_AlarmMessage(stEventEntry := TC_EVENTS.AnalogInput.AICardFailure, xWithConfirmation := TRUE);
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_fbAlarmUnderrange : FB_AlarmMessage(stEventEntry := TC_EVENTS.AnalogInput.AIOpenCircuit, xWithConfirmation := TRUE);
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_fbAlarmOverload : FB_AlarmMessage(stEventEntry := TC_EVENTS.AnalogInput.AIShortCircuit, xWithConfirmation := TRUE);
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_fbAlarmConfigError : FB_AlarmMessage(stEventEntry := TC_EVENTS.AnalogInput.AIConfigError, xWithConfirmation := FALSE);
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_fbAlarmErrorLow : FB_AlarmMessage(stEventEntry := TC_EVENTS.AnalogInput.ErrorLow, xWithConfirmation := TRUE);
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_fbAlarmWarningLow : FB_AlarmMessage(stEventEntry := TC_EVENTS.AnalogInput.WarningLow, xWithConfirmation := TRUE);
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_fbAlarmWarningHigh : FB_AlarmMessage(stEventEntry := TC_EVENTS.AnalogInput.WarningHigh, xWithConfirmation := TRUE);
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_fbAlarmErrorHigh : FB_AlarmMessage(stEventEntry := TC_EVENTS.AnalogInput.ErrorHigh, xWithConfirmation := TRUE);
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END_VAR
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]]></Declaration>
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<Implementation>
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<ST><![CDATA[// ===============
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// Handle not used
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// ===============
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IF (NOT stAnalogIOConfig.xUsed) THEN
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// Clear all pending alarms if there are any
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_fbAlarmCardError(xActive := FALSE, xRelease := FALSE);
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_fbAlarmUnderrange(xActive := FALSE, xRelease := FALSE);
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_fbAlarmOverload(xActive := FALSE, xRelease := FALSE);
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_fbAlarmCardError(xActive := FALSE, xRelease := FALSE);
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_fbAlarmErrorHigh(xActive := FALSE, xRelease := FALSE);
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_fbAlarmErrorLow(xActive := FALSE, xRelease := FALSE);
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_fbAlarmWarningHigh(xActive := FALSE, xRelease := FALSE);
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// Clear warning flags
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IF xWarning OR xWarningLow OR xWarningHigh THEN
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_xWarning := FALSE;
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_xWarningLow := FALSE;
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_xWarningHigh := FALSE;
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xWarning := FALSE;
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xWarningLow := FALSE;
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xWarningHigh := FALSE;
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END_IF
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// Clear error flags
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IF xError OR xErrorLow OR xErrorHigh THEN
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_xError := FALSE;
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_xErrorLow := FALSE;
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_xErrorHigh := FALSE;
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xError := FALSE;
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xErrorLow := FALSE;
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xErrorHigh := FALSE;
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END_IF
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// Dont execute anything anymore
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RETURN;
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END_IF
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// =========
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// Prechecks
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// =========
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// Calculate scaling factors,
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// scaling will be zero in case
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// of invalid scaling parameters.
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// Also checks if reference to config data is valid.
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CalcScalingFactors();
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// Check error and warning levels config
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// Will later raise alarms if config is wrong
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CheckEWLevels();
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// ===========================
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// Config error alarm handling
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// ===========================
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_fbAlarmConfigError(
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xActive:= _xConfigError OR (_xEWConfigError AND xReleaseLimitErrors),
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xRelease:= xReleaseErrors,
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xAcknowledge:= ,
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timOnDelay:= ,
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timOffDelay:= ,
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xInUnitTestMode:= xInUnitTestMode);
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IF _fbAlarmConfigError.Triggered THEN
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_xError := TRUE;
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END_IF
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// ========================
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// Analog value calculation
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// ========================
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// Clamp analogue input levels
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_iClampedAnalogValue := MAX(_iAIMin, iAnalogValue);
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_iClampedAnalogValue := MIN(_iAIMax, _iClampedAnalogValue);
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// Calc scaled value
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_rScaledValue := _iClampedAnalogValue * _rConversionFactor + _rBaseOffset;
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// =========================
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// Underrange alarm handling
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// =========================
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_fbAlarmUnderrange(
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xActive:= xUnderrange,
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xRelease:= stAnalogIOConfig.xUsed AND xReleaseErrors AND xReleaseHardwareErrors,
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xAcknowledge:= xConfirmAlarms,
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timOnDelay:= stAnalogEWConfig.stDelays.timHardwareSignalLevelOn,
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timOffDelay:= stAnalogEWConfig.stDelays.timHardwareSignalLevelOff,
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xInUnitTestMode:= xInUnitTestMode);
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// Latch error signal
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IF _fbAlarmUnderrange.Triggered THEN
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_xError := TRUE;
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END_IF
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// =========================
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// Overload alarm handling
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// =========================
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_fbAlarmOverload(
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xActive:= xOverrange,
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xRelease:= stAnalogIOConfig.xUsed AND xReleaseErrors AND xReleaseHardwareErrors,
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xAcknowledge:= xConfirmAlarms,
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timOnDelay:= stAnalogEWConfig.stDelays.timHardwareSignalLevelOn,
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timOffDelay:= stAnalogEWConfig.stDelays.timHardwareSignalLevelOff,
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xInUnitTestMode:= xInUnitTestMode);
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// Latch error signal
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IF _fbAlarmOverload.Triggered THEN
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_xError := TRUE;
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END_IF
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// =========================
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// Card alarm handling
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// =========================
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// Filter overload error signal
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// EL30xx also sets this if an underrange or overrange error is present,
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// so we filter this out
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_fbAlarmCardError(
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xActive:= xErrorCard AND (NOT xUnderrange) AND (NOT xOverrange),
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xRelease:= stAnalogIOConfig.xUsed AND xReleaseErrors AND xReleaseHardwareErrors,
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xAcknowledge:= xConfirmAlarms,
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timOnDelay:= stAnalogEWConfig.stDelays.timHardwareSignalLevelOn,
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timOffDelay:= stAnalogEWConfig.stDelays.timHardwareSignalLevelOff,
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xInUnitTestMode:= xInUnitTestMode);
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// Latch error signal
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IF _fbAlarmCardError.Triggered THEN
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_xError := TRUE;
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END_IF
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// ===========================
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// Error high alarm handling
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// ===========================
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_fbAlarmErrorHigh(
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xActive:= (_rScaledValue >= _rMaxErrorLevel),
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xRelease:= stAnalogIOConfig.xUsed AND xReleaseErrors AND xReleaseLimitErrors AND (NOT _xEWConfigError),
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xAcknowledge:= xConfirmAlarms,
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timOnDelay:= stAnalogEWConfig.stDelays.timErrorHighOn,
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timOffDelay:= stAnalogEWConfig.stDelays.timErrorHighOff,
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xInUnitTestMode:= xInUnitTestMode);
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_xErrorHigh := _fbAlarmErrorHigh.Triggered;
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// Latch error
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IF _xErrorHigh THEN
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_xError := TRUE;
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END_IF
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// ===========================
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// Error low alarm handling
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// ===========================
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_fbAlarmErrorLow(
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xActive:= (_rScaledValue <= _rMinErrorLevel),
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xRelease:= stAnalogIOConfig.xUsed AND xReleaseErrors AND xReleaseLimitErrors AND (NOT _xEWConfigError),
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xAcknowledge:= xConfirmAlarms,
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timOnDelay:= stAnalogEWConfig.stDelays.timErrorLowOn,
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timOffDelay:= stAnalogEWConfig.stDelays.timErrorLowOff,
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xInUnitTestMode:= xInUnitTestMode);
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_xErrorLow := _fbAlarmErrorLow.Triggered;
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// Latch error
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IF _xErrorLow THEN
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_xError := TRUE;
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END_IF
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// ===========================
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// Warning high alarm handling
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// ===========================
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_fbAlarmWarningHigh(
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xActive:= (_rScaledValue >= _rMaxWarningLevel),
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xRelease:= stAnalogIOConfig.xUsed AND xReleaseErrors AND xReleaseLimitErrors AND (NOT _xEWConfigError),
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xAcknowledge:= xConfirmAlarms,
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timOnDelay:= stAnalogEWConfig.stDelays.timWarningHighOn,
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timOffDelay:= stAnalogEWConfig.stDelays.timWarningHighOff,
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xInUnitTestMode:= xInUnitTestMode);
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_xWarningHigh := _fbAlarmWarningHigh.Triggered;
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// ===========================
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// Warning low alarm handling
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// ===========================
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_fbAlarmWarningLow(
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xActive:= (_rScaledValue <= _rMinWarningLevel),
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xRelease:= stAnalogIOConfig.xUsed AND xReleaseErrors AND xReleaseLimitErrors AND (NOT _xEWConfigError),
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xAcknowledge:= xConfirmAlarms,
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timOnDelay:= stAnalogEWConfig.stDelays.timWarningLowOn,
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timOffDelay:= stAnalogEWConfig.stDelays.timWarningLowOff,
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xInUnitTestMode:= xInUnitTestMode);
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_xWarningLow := _fbAlarmWarningLow.Triggered;
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// ============
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// Warning flag
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// ============
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_xWarning := _xWarningLow OR _xWarningHigh;
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// ================
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// Reset error flag
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// ================
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_xAlarmsActive := _fbAlarmConfigError.Active
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OR _fbAlarmUnderrange.Active
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OR _fbAlarmOverload.Active
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OR _fbAlarmCardError.Active
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OR _fbAlarmErrorHigh.Active
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OR _fbAlarmErrorLow.Active;
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_xInputErrorsActive := _fbAlarmUnderrange.Triggered
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OR _fbAlarmOverload.Triggered
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OR _fbAlarmCardError.Triggered;
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IF xConfirmAlarms AND _xError AND (NOT _xAlarmsActive) AND (NOT _xInputErrorsActive) AND (NOT _xConfigError) THEN
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_xError := FALSE;
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END_IF
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// Copy internal signals to outputs
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xWarningLow := _xWarningLow;
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xWarningHigh := _xWarningHigh;
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xWarning := _xWarning;
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xErrorLow := _xErrorLow;
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xErrorHigh := _xErrorHigh;
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xError := _xError;
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rScaledValue := _rScaledValue;]]></ST>
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</Implementation>
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<Method Name="CalcScalingFactors" Id="{e88dfbcd-1a0d-45a0-9d50-5ad8be2479c9}">
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<Declaration><![CDATA[{attribute 'analysis' := '-56'}
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METHOD PRIVATE CalcScalingFactors
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VAR
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_rNum : REAL;
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_rDenom : REAL;
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END_VAR
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]]></Declaration>
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<Implementation>
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<ST><![CDATA[// _lrConversionFactor := (lrPVMax - lrPVMin)/(udiAIMax - udiAIMin) + (rPVMin - ((lrPVMax - lrPVMin)/(udiAIMax - udiAIMin)*udiAIMin))
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// Splitted in two calculations to catch division by zero
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_rNum := (stAnalogIOConfig.rPVMax - stAnalogIOConfig.rPVMin);
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_rDenom := INT_TO_REAL(stAnalogIOConfig.iAIMax - stAnalogIOConfig.iAIMin);
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// Do not divide by 0 or a negative number
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IF _rDenom > 0.0 THEN
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_rConversionFactor := _rNum/_rDenom;
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_rBaseOffset := stAnalogIOConfig.rPVMin - (_rConversionFactor * INT_TO_REAL(stAnalogIOConfig.iAIMin));
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_iAIMax := stAnalogIOConfig.iAIMax;
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_iAIMin := stAnalogIOConfig.iAIMin;
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_xConfigError := FALSE;
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ELSE
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// Division by zero happened
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// Or denom was negative
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// Set scaling to zero
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_rConversionFactor := 0.0;
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_rBaseOffset := 0.0;
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_iAIMax := 0;
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_iAIMin := 0;
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_xConfigError := TRUE;
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END_IF]]></ST>
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</Implementation>
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</Method>
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<Method Name="CheckEWLevels" Id="{6fcb5a6d-e37d-4efd-ad76-02026f476863}">
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<Declaration><![CDATA[METHOD PRIVATE CheckEWLevels
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VAR
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END_VAR
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]]></Declaration>
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<Implementation>
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<ST><![CDATA[// Reset (E)rror (W)arning config error
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_xEWConfigError := FALSE;
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// Check for EW config error
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IF stAnalogEWConfig.stLevels.rWarningMin <= stAnalogEWConfig.stLevels.rErrorMin THEN
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_xEWConfigError := TRUE;
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END_IF
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IF stAnalogEWConfig.stLevels.rWarningMax >= stAnalogEWConfig.stLevels.rErrorMax THEN
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_xEWConfigError := TRUE;
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END_IF
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IF stAnalogEWConfig.stLevels.rWarningMin >= stAnalogEWConfig.stLevels.rWarningMax THEN
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_xEWConfigError := TRUE;
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END_IF
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// Only write error and warning levels when there was no config error
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IF (NOT _xEWConfigError) THEN
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// Recreate alarm messages with the newly set limits
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// if values have been changed
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{analysis -54}
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IF (_rMinErrorLevel <> stAnalogEWConfig.stLevels.rErrorMin)
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OR (_rMinWarningLevel <> stAnalogEWConfig.stLevels.rWarningMin)
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OR (_rMaxWarningLevel <> stAnalogEWConfig.stLevels.rWarningMax)
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OR (_rMaxErrorLevel <> stAnalogEWConfig.stLevels.rErrorMax) THEN
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{analysis +54}
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CreateAlarmLimitsMSG();
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END_IF
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// Set new values
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_rMinErrorLevel := stAnalogEWConfig.stLevels.rErrorMin;
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_rMinWarningLevel := stAnalogEWConfig.stLevels.rWarningMin;
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_rMaxWarningLevel := stAnalogEWConfig.stLevels.rWarningMax;
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_rMaxErrorLevel := stAnalogEWConfig.stLevels.rErrorMax;
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END_IF
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]]></ST>
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</Implementation>
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</Method>
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<Method Name="CreateAlarmLimitsMSG" Id="{d38eb5a5-80eb-4ab2-8c50-97431707ca20}">
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<Declaration><![CDATA[{attribute 'analysis' := '-26'}
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METHOD PRIVATE CreateAlarmLimitsMSG
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VAR_INPUT
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END_VAR
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VAR
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_sTempUnit : STRING;
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_sTempErrorMin : STRING;
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_sTempWarningMin : STRING;
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_sTempWarningMax : STRING;
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_sTempErrorMax : STRING;
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END_VAR
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]]></Declaration>
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<Implementation>
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<ST><![CDATA[// Check if analog value has unit
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IF stAnalogIOConfig.sUnit <> '' THEN
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_sTempUnit := CONCAT(' ', stAnalogIOConfig.sUnit);
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ELSE
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_sTempUnit := '';
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END_IF
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// Create message parameter strings
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_sTempErrorMin := CONCAT(REAL_TO_STRING(stAnalogEWConfig.stLevels.rErrorMin), _sTempUnit);
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_sTempWarningMin := CONCAT(REAL_TO_STRING(stAnalogEWConfig.stLevels.rWarningMin), _sTempUnit);
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_sTempWarningMax := CONCAT(REAL_TO_STRING(stAnalogEWConfig.stLevels.rWarningMax), _sTempUnit);
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_sTempErrorMax := CONCAT(REAL_TO_STRING(stAnalogEWConfig.stLevels.rErrorMax), _sTempUnit);
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{analysis -46}
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// Inser message parameters
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_fbAlarmErrorLow.Arguments.Clear().AddString(_sName).AddString(_sTempErrorMin);
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_fbAlarmWarningLow.Arguments.Clear().AddString(_sName).AddString(_sTempWarningMin);
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_fbAlarmWarningHigh.Arguments.Clear().AddString(_sName).AddString(_sTempWarningMax);
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_fbAlarmErrorHigh.Arguments.Clear().AddString(_sName).AddString(_sTempErrorMax);
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{analysis +46}]]></ST>
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</Implementation>
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</Method>
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<Method Name="CreateAlarmMSG" Id="{e4d0fc74-1711-410b-9ec3-4af08afbc236}">
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<Declaration><![CDATA[METHOD PRIVATE CreateAlarmMSG
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VAR_INPUT
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END_VAR
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]]></Declaration>
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<Implementation>
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<ST><![CDATA[{analysis -46}
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_fbAlarmCardError.Arguments.Clear().AddString(_sName);
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_fbAlarmUnderrange.Arguments.Clear().AddString(_sName);
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_fbAlarmOverload.Arguments.Clear().AddString(_sName);
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_fbAlarmConfigError.Arguments.Clear().AddString(_sName);
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{analysis +46}]]></ST>
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</Implementation>
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</Method>
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<Method Name="FB_init" Id="{27512538-cc2f-4100-8046-022de49f067a}">
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<Declaration><![CDATA[//FB_Init ist immer implizit verfügbar und wird primär für die Initialisierung verwendet.
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//Der Rückgabewert wird nicht ausgewertet. Für gezielte Einflussnahme können Sie
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//die Methoden explizit deklarieren und darin mit dem Standard-Initialisierungscode
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//zusätzlichen Code bereitstellen. Sie können den Rückgabewert auswerten.
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METHOD FB_Init: BOOL
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VAR_INPUT
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bInitRetains: BOOL; // TRUE: Die Retain-Variablen werden initialisiert (Reset warm / Reset kalt)
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bInCopyCode: BOOL; // TRUE: Die Instanz wird danach in den Kopiercode kopiert (Online-Change)
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|
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// Name of analogue io
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|
sName : STRING(80);
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|
END_VAR]]></Declaration>
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|
<Implementation>
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<ST><![CDATA[// Save io name
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_sName := sName;
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// Create alarm messages
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CreateAlarmMSG();
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CreateAlarmLimitsMSG();]]></ST>
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</Implementation>
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|
</Method>
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|
<Property Name="Name" Id="{103c7177-ef49-4a4b-98b1-06578d5fce31}">
|
|
<Declaration><![CDATA[PROPERTY Name : STRING(80)]]></Declaration>
|
|
<Get Name="Get" Id="{02e85b3f-9933-4282-a9d2-1ab27eb22499}">
|
|
<Declaration><![CDATA[VAR
|
|
END_VAR
|
|
]]></Declaration>
|
|
<Implementation>
|
|
<ST><![CDATA[Name := _sName;]]></ST>
|
|
</Implementation>
|
|
</Get>
|
|
<Set Name="Set" Id="{4215abec-259f-45d7-a31e-437036d4e241}">
|
|
<Declaration><![CDATA[VAR
|
|
END_VAR
|
|
]]></Declaration>
|
|
<Implementation>
|
|
<ST><![CDATA[_sName := Name;
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|
|
|
// After a name change, all error messages have to be changed
|
|
CreateAlarmMSG();
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|
CreateAlarmLimitsMSG();]]></ST>
|
|
</Implementation>
|
|
</Set>
|
|
</Property>
|
|
</POU>
|
|
</TcPlcObject> |