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TECware/Core/Drivers/ANPI_AnalogPortsIn.c
Noah Piqué ded2dc6ef9 PECO update temp
2022-10-19 14:12:04 +02:00

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//=================================================================================================
//
// Company: Paul Scherrer Institut
// 5232 Villigen PSI
// Switzerland
//
//-------------------------------------------------------------------------------------------------
//
// Project: Peltier Controller V2
// Author: Noah Piqué (noah.pique@psi.ch)
//
//-------------------------------------------------------------------------------------------------
//
// Module: Analog Ports Input
// Filename: ANPI_AnalogPortsIn.c
// Date: Handled by Subversion (version control system)
// Revision: Handled by Subversion (version control system)
// History: Handled by Subversion (version control system)
//
//-------------------------------------------------------------------------------------------------
//
// Description: This source file contains all functions dealing with the analog input ports
//
//=================================================================================================
//=================================================================================================
// Section: INCLUDES
// Description: List of required include files.
//=================================================================================================
#include "ANPI_AnalogPortsIn.h"
//Application
#include "../Application/VARH_VariableHandler.h"
// Drivers
#include "PECO_PeltierController.h"
// Toolbox
#include "../Toolbox/UTIL_Utility.h"
// include STM32 drivers
#include "stm32l4xx_hal.h"
#include "cmsis_os2.h"
//=================================================================================================
// Section: DEFINITIONS
// Description: Definition of local constants (visible by this module only).
//=================================================================================================
#define ADC_RES (4096) // ADC resolution: 12 bits
#define NR_OF_ADCS ANPI_eInNumberOfInputs // number of internal adc channels
#define INT_ADC_REF (3.3f)// int. reference voltage for conversion
#define BUFFER_SIZE NR_OF_ADCS * 2
#define BUFFER_HALF_SIZE NR_OF_ADCS
#define ANPI_ADC_HALF_COMPLETE ((U32)1<<0)
#define ANPI_ADC_FULL_COMPLETE ((U32)1<<1)
#define ANPI_FLAGS_ALL ( ANPI_ADC_HALF_COMPLETE | ANPI_ADC_FULL_COMPLETE )
#define OVERSAMPLING_DIVISOR 16.0f // calculated with parameters from hardware oversampling
// 6 bits(64x) - 2 bit shift = 4bit -> 16x
//=================================================================================================
// Section: MACROS
// Description: Definition of local macros (visible by this module only).
//=================================================================================================
//=================================================================================================
// Section: ENUMERATIONS
// Description: Definition of local enumerations (visible by this module only).
//=================================================================================================
//=================================================================================================
// Section: STRUCTURES
// Description: Definition of local Structures (visible by this module only).
//=================================================================================================
//=================================================================================================
// Section: LOCAL VARIABLES
// Description: Definition of local variables (visible by this module only).
//=================================================================================================
LOCAL U16 m_au16ADCDataBuffer[BUFFER_SIZE];
LOCAL osThreadId_t m_pstThreadID = NULL;
LOCAL osEventFlagsId_t m_pstEventID = NULL;
LOCAL osMutexId_t m_pstMutexID = NULL;
//=================================================================================================
// Section: LOCAL CONSTANTS
// Description: Definition of local constants (visible by this module only).
//=================================================================================================
// conversion factors for the values
// Order must fit enumeration "ANPI_EnAnalogInput"
LOCAL CONST FLOAT m_aflConversionFactor[ANPI_eInNumberOfInputs] =
{
10, // 01 ANPI_eSupplyVoltage24V
5, // 02 ANPI_eSupplyCurrent24V
10, // 03 ANPI_eOutputVoltage
5, // 04 ANPI_eOutputCurrent
};
// Order must fit enumeration "ANPI_EnAnalogInput"
LOCAL CONST FLOAT m_aflOffset[ANPI_eInNumberOfInputs] =
{
0.0f, // 01 ANPI_eSupplyVoltage24V
8.25f, // 02 ANPI_eSupplyCurrent24V
14.85f, // 03 ANPI_eOutputVoltage
8.25f, // 04 ANPI_eOutputCurrent
};
// inputs are connected to the following ADCs
// ANPI_eSupplyVoltage24V ADC1, Channel 6
// ANPI_eSupplyCurrent24V ADC1, Channel 16
// ANPI_eOutputVoltage ADC1, Channel 7
// ANPI_eOutputCurrent ADC1, Channel 15
LOCAL CONST osThreadAttr_t stTaskAttribute =
{
"ANPI_Thread", // name of the thread
osThreadDetached, // attribute bits
NULL, // memory for control block
0, // size of provided memory for control block
NULL, // memory for stack
1024, // size of stack
osPriorityBelowNormal, // initial thread priority (default: osPriorityNormal)
0, // TrustZone module identifier
0, // reserved (must be 0)
};
LOCAL CONST osEventFlagsAttr_t stEventAttribute =
{
"ANPI_Event_Flags", // name of the event flags
0, // attribute bits
NULL, // memory for control block
0, // size of provided memory for control block
};
LOCAL CONST osMutexAttr_t m_stMutexAttr =
{
"ANPI_Mutex", // human readable mutex name
osMutexRecursive | osMutexPrioInherit, // attr_bits
NULL, // memory for control block
0U // size for control block
};
//=================================================================================================
// Section: LOCAL FUNCTIONS (PROTOTYPES)
// Description: Definition of local functions (visible by this module only).
//=================================================================================================
PRIVATE VOID vTask( PVOID arg );
//=================================================================================================
// Section: EXTERNAL FUNCTIONS
// Description: Definition of external (global) functions.
//=================================================================================================
//=================================================================================================
// Section: EXTERNAL VARIABLES
// Description: Definition of external (global) variables.
//=================================================================================================
extern ADC_HandleTypeDef hadc1;
//=================================================================================================
// Section: GLOBAL FUNCTIONS
// Description: Definition (implementation) of global functions.
//=================================================================================================
//-------------------------------------------------------------------------------------------------
// Function: ANPI_boInitializeModule
// Description: Initializes the module. Function must be called once immediately after power-up.
// Parameters: None
// Returns: Boolean TRUE if successful
//-------------------------------------------------------------------------------------------------
BOOL ANPI_boInitializeModule( VOID )
{
BOOL boOK = TRUE;
boOK &= ( ( m_pstThreadID = osThreadNew( vTask, NULL, &stTaskAttribute )) == NULL ) ? FALSE : TRUE;
boOK &= ( ( m_pstEventID = osEventFlagsNew( &stEventAttribute )) == NULL) ? FALSE : TRUE;
boOK &= ( ( m_pstMutexID = osMutexNew( &m_stMutexAttr )) == NULL) ? FALSE : TRUE;
return( boOK );
}
//-------------------------------------------------------------------------------------------------
// Function: ANPI_vTask
// Description: ANPI_vTask
// Parameters: None
// Returns: None
//-------------------------------------------------------------------------------------------------
VOID vTask( PVOID arg )
{
U32 u32Flags;
U16 u16Offset;
FLOAT flUadc;
U32 au32ADCRawData[ANPI_eInNumberOfInputs];
FLOAT aflValues[ANPI_eInNumberOfInputs]; // values
osDelay( 1 ); // Wait 1ms to have a Valid Value
HAL_ADC_Start_DMA( &hadc1, (PU32)&m_au16ADCDataBuffer[0], BUFFER_SIZE );
while ( TRUE )
{
u32Flags = osEventFlagsWait( m_pstEventID, ANPI_FLAGS_ALL, osFlagsWaitAny, osWaitForever );
if( u32Flags & ANPI_ADC_FULL_COMPLETE ) u16Offset = BUFFER_HALF_SIZE;
else if( u32Flags & ANPI_ADC_HALF_COMPLETE ) u16Offset = 0;
// aquire mutex: access to m_afcValues blocked for ANPI_flGetInputValue
osMutexAcquire( m_pstMutexID, osWaitForever ); // aquire mutex
// copy the values in the buffer...
for( U16 u16Cnt = 0; u16Cnt < BUFFER_HALF_SIZE; u16Cnt++ )
au32ADCRawData[ u16Cnt ] = m_au16ADCDataBuffer[u16Cnt + u16Offset];
// multiply conversion factor and add the offset
for( U16 u16Cnt = 0; u16Cnt < ANPI_eInNumberOfInputs; u16Cnt++ )
{
flUadc = (FLOAT)au32ADCRawData[u16Cnt] / OVERSAMPLING_DIVISOR / ADC_RES * INT_ADC_REF;
aflValues[u16Cnt] = flUadc * m_aflConversionFactor[u16Cnt] - m_aflOffset[u16Cnt];
}
VARH_vSetVariableDataFromSystemFloat( VARH_ePeltier_U, aflValues[ANPI_eOutputVoltage] );
VARH_vSetVariableDataFromSystemFloat( VARH_ePeltier_I, aflValues[ANPI_eOutputCurrent] );
VARH_vSetVariableDataFromSystemFloat( VARH_ePeltier_R, aflValues[ANPI_eOutputVoltage] / aflValues[ANPI_eOutputCurrent] );
VARH_vSetVariableDataFromSystemFloat( VARH_ePeltier_R, aflValues[ANPI_eOutputVoltage] * aflValues[ANPI_eOutputCurrent] );
VARH_vSetVariableDataFromSystemFloat( VARH_eSupply_U, aflValues[ANPI_eSupplyVoltage24V] );
VARH_vSetVariableDataFromSystemFloat( VARH_eSupply_I, aflValues[ANPI_eSupplyCurrent24V] );
VARH_vSetVariableDataFromSystemFloat( VARH_eSupply_P, aflValues[ANPI_eSupplyVoltage24V] * (aflValues[ANPI_eSupplyCurrent24V]) );
osMutexRelease( m_pstMutexID ); // release mutex
}
}
//-------------------------------------------------------------------------------------------------
// Function: HAL_ADC_ConvCpltCallback
// Description: Handles the ADC interrupts
// Parameters: None
// Returns: None
//-------------------------------------------------------------------------------------------------
void HAL_ADC_ConvCpltCallback( ADC_HandleTypeDef* hadc )
{
osEventFlagsSet( m_pstEventID, ANPI_ADC_FULL_COMPLETE );
}
//-------------------------------------------------------------------------------------------------
// Function: HAL_ADC_ConvHalfCpltCallback
// Description: Handles the ADC interrupts
// Parameters: None
// Returns: None
//-------------------------------------------------------------------------------------------------
void HAL_ADC_ConvHalfCpltCallback( ADC_HandleTypeDef* hadc )
{
osEventFlagsSet( m_pstEventID, ANPI_ADC_HALF_COMPLETE );
}
//=================================================================================================
// Section: LOCAL FUNCTIONS
// Descriptionn: Definition (implementation) of local functions.
//=================================================================================================
//-------------------------------------------------------------------------------------------------
// Function: HAL_ADC_ErrorCallback
// Description: Error Callback for the ADC
// Parameters: ADC_HandleTypeDef* hadc
// Returns: None
//-------------------------------------------------------------------------------------------------
void HAL_ADC_ErrorCallback( ADC_HandleTypeDef* hadc )
{
// TODO: Error Handling
if( hadc->ErrorCode == HAL_ADC_ERROR_NONE )
{
}
if( hadc->ErrorCode == HAL_ADC_ERROR_INTERNAL )
{
}
if( hadc->ErrorCode == HAL_ADC_ERROR_OVR )
{
}
if( hadc->ErrorCode == HAL_ADC_ERROR_DMA )
{
}
if( hadc->DMA_Handle->ErrorCode & HAL_DMA_ERROR_TE )
{
}
}
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