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# ifndef FUSE_H_
# define FUSE_H_
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# include "../datapool/DataSet.h"
# include "../datapool/PIDReader.h"
# include "../devicehandlers/HealthDevice.h"
# include "../monitoring/AbsLimitMonitor.h"
# include "PowerComponentIF.h"
# include "PowerSwitchIF.h"
# include "../returnvalues/HasReturnvaluesIF.h"
# include "../parameters/ParameterHelper.h"
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# include <list>
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namespace Factory {
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void setStaticFrameworkObjectIds ( ) ;
}
class Fuse : public SystemObject ,
public HasHealthIF ,
public HasReturnvaluesIF ,
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public ReceivesParameterMessagesIF ,
public SerializeIF {
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friend void ( Factory : : setStaticFrameworkObjectIds ) ( ) ;
private :
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static constexpr float RESIDUAL_POWER = 0.005 * 28.5 ; //!< This is the upper limit of residual power lost by fuses and switches. Worst case is Fuse and one of two switches on. See PCDU ICD 1.9 p29 bottom
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public :
struct VariableIds {
uint32_t pidVoltage ;
uint32_t pidCurrent ;
uint32_t pidState ;
uint32_t poolIdPower ;
} ;
static const uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID : : PCDU_1 ;
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static const Event FUSE_CURRENT_HIGH = MAKE_EVENT ( 1 , severity : : LOW ) ; //!< PSS detected that current on a fuse is totally out of bounds.
static const Event FUSE_WENT_OFF = MAKE_EVENT ( 2 , severity : : LOW ) ; //!< PSS detected a fuse that went off.
static const Event POWER_ABOVE_HIGH_LIMIT = MAKE_EVENT ( 4 , severity : : LOW ) ; //!< PSS detected a fuse that violates its limits.
static const Event POWER_BELOW_LOW_LIMIT = MAKE_EVENT ( 5 , severity : : LOW ) ; //!< PSS detected a fuse that violates its limits.
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typedef std : : list < PowerComponentIF * > DeviceList ;
Fuse ( object_id_t fuseObjectId , uint8_t fuseId , VariableIds ids ,
float maxCurrent , uint16_t confirmationCount = 2 ) ;
virtual ~ Fuse ( ) ;
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void addDevice ( PowerComponentIF * set ) ;
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float getPower ( ) ;
bool isPowerValid ( ) ;
ReturnValue_t check ( ) ;
uint8_t getFuseId ( ) const ;
ReturnValue_t initialize ( ) ;
DeviceList devices ;
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ReturnValue_t serialize ( uint8_t * * buffer , size_t * size , size_t maxSize ,
SerializeIF : : Endianness streamEndianness ) const override ;
size_t getSerializedSize ( ) const override ;
ReturnValue_t deSerialize ( const uint8_t * * buffer , size_t * size ,
SerializeIF : : Endianness streamEndianness ) override ;
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void setAllMonitorsToUnchecked ( ) ;
ReturnValue_t performOperation ( uint8_t opCode ) ;
MessageQueueId_t getCommandQueue ( ) const ;
void setDataPoolEntriesInvalid ( ) ;
ReturnValue_t setHealth ( HealthState health ) ;
HasHealthIF : : HealthState getHealth ( ) ;
ReturnValue_t getParameter ( uint8_t domainId , uint16_t parameterId ,
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ParameterWrapper * parameterWrapper ,
const ParameterWrapper * newValues , uint16_t startAtIndex ) ;
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private :
uint8_t oldFuseState ;
uint8_t fuseId ;
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PowerSwitchIF * powerIF ; //could be static in our case.
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AbsLimitMonitor < float > currentLimit ;
class PowerMonitor : public MonitorReporter < float > {
public :
template < typename . . . Args >
PowerMonitor ( Args . . . args ) :
MonitorReporter < float > ( std : : forward < Args > ( args ) . . . ) {
}
ReturnValue_t checkPower ( float sample , float lowerLimit ,
float upperLimit ) ;
void sendTransitionEvent ( float currentValue , ReturnValue_t state ) {
}
} ;
PowerMonitor powerMonitor ;
DataSet set ;
PIDReader < float > voltage ;
PIDReader < float > current ;
PIDReader < uint8_t > state ;
db_float_t power ;
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MessageQueueIF * commandQueue ;
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ParameterHelper parameterHelper ;
HealthHelper healthHelper ;
static object_id_t powerSwitchId ;
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void calculatePowerLimits ( float * low , float * high ) ;
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void calculateFusePower ( ) ;
void checkFuseState ( ) ;
void reportEvents ( Event event ) ;
void checkCommandQueue ( ) ;
bool areSwitchesOfComponentOn ( DeviceList : : iterator iter ) ;
} ;
# endif /* FUSE_H_ */