IADC - Incremental ADC

Description

Incremental Analog to Digital Converter (IADC) Peripheral API.

This module contains functions to control the IADC peripheral of Silicon Labs 32-bit MCUs and SoCs. The IADC is used to convert analog signals into a digital representation.

Data Structures

struct IADC_Init_t
IADC init structure, common for single conversion and scan sequence.
struct IADC_Config_t
IADC config structure.
struct IADC_AllConfigs_t
Structure for all IADC configs.
struct IADC_InitScan_t
IADC scan init structure.
struct IADC_InitSingle_t
IADC single init structure.
struct IADC_SingleInput_t
IADC single input selection structure.
struct IADC_ScanTableEntry_t
IADC scan table entry structure.
struct IADC_ScanTable_t
Structure for IADC scan table.
struct IADC_Result_t
Structure holding IADC result, including data and ID.

Functions

void IADC_init (IADC_TypeDef *iadc, const IADC_Init_t *init, const IADC_AllConfigs_t *allConfigs)
Initialize IADC.
void IADC_reset (IADC_TypeDef *iadc)
Reset IADC to same state as after a HW reset.
void IADC_initScan (IADC_TypeDef *iadc, const IADC_InitScan_t *init, const IADC_ScanTable_t *scanTable)
Initialize IADC scan sequence.
void IADC_updateScanEntry (IADC_TypeDef *iadc, uint8_t id, IADC_ScanTableEntry_t *entry)
Add/update entry in scan table.
void IADC_setScanMask (IADC_TypeDef *iadc, uint32_t mask)
Set mask of IADC scan table entries to include in scan.
void IADC_initSingle (IADC_TypeDef *iadc, const IADC_InitSingle_t *init, const IADC_SingleInput_t *input)
Initialize single IADC conversion.
void IADC_updateSingleInput (IADC_TypeDef *iadc, const IADC_SingleInput_t *input)
Update IADC single input selection.
uint8_t IADC_calcSrcClkPrescale (IADC_TypeDef *iadc, uint32_t srcClkFreq, uint32_t cmuClkFreq)
Calculate prescaler for CLK_SRC_ADC high speed clock.
uint32_t IADC_calcAdcClkPrescale (IADC_TypeDef *iadc, uint32_t adcClkFreq, uint32_t cmuClkFreq, IADC_CfgAdcMode_t adcMode, uint8_t srcClkPrescaler)
Calculate prescaler for ADC_CLK clock.
uint8_t IADC_calcTimebase (IADC_TypeDef *iadc, uint32_t cmuClkFreq)
Calculate timebase value in order to get a timebase providing at least 1us.
IADC_Result_t IADC_readSingleResult (IADC_TypeDef *iadc)
Read most recent single conversion result.
IADC_Result_t IADC_pullSingleFifoResult (IADC_TypeDef *iadc)
Pull result from single data FIFO.
IADC_Result_t IADC_readScanResult (IADC_TypeDef *iadc)
Read most recent scan conversion result.
IADC_Result_t IADC_pullScanFifoResult (IADC_TypeDef *iadc)
Pull result from scan data FIFO.
uint32_t IADC_getReferenceVoltage ( IADC_CfgReference_t reference)
Get reference voltage selection.
uint32_t IADC_pullSingleFifoData (IADC_TypeDef *iadc)
Pull data from single data FIFO.
uint32_t IADC_readSingleData (IADC_TypeDef *iadc)
Read most recent single conversion data.
uint32_t IADC_pullScanFifoData (IADC_TypeDef *iadc)
Pull data from scan data FIFO.
uint32_t IADC_readScanData (IADC_TypeDef *iadc)
Read most recent scan conversion data.
void IADC_clearInt (IADC_TypeDef *iadc, uint32_t flags)
Clear one or more pending IADC interrupts.
void IADC_disableInt (IADC_TypeDef *iadc, uint32_t flags)
Disable one or more IADC interrupts.
void IADC_enableInt (IADC_TypeDef *iadc, uint32_t flags)
Enable one or more IADC interrupts.
uint32_t IADC_getInt (IADC_TypeDef *iadc)
Get pending IADC interrupt flags.
uint32_t IADC_getEnabledInt (IADC_TypeDef *iadc)
Get enabled and pending IADC interrupt flags.
void IADC_setInt (IADC_TypeDef *iadc, uint32_t flags)
Set one or more pending IADC interrupts from SW.
void IADC_command (IADC_TypeDef *iadc, IADC_Cmd_t cmd)
Start/stop scan sequence, single conversion and/or timer.
uint32_t IADC_getScanMask (IADC_TypeDef *iadc)
Get the scan mask currently used in the IADC.
uint32_t IADC_getStatus (IADC_TypeDef *iadc)
Get status bits of IADC.
uint8_t IADC_getSingleFifoCnt (IADC_TypeDef *iadc)
Get the number of elements in the IADC single FIFO.
uint8_t IADC_getScanFifoCnt (IADC_TypeDef *iadc)
Get the number of elements in the IADC scan FIFO.
IADC_NegInput_t IADC_portPinToNegInput ( GPIO_Port_TypeDef port, uint8_t pin)
Convert the GPIO port/pin to IADC negative input selection.
IADC_PosInput_t IADC_portPinToPosInput ( GPIO_Port_TypeDef port, uint8_t pin)
Convert the GPIO port/pin to IADC positive input selection.

Macros

#define IADC_INIT_DEFAULT
Default config for IADC init structure.
#define IADC_CONFIG_DEFAULT
Default IADC config structure.
#define IADC_ALLCONFIGS_DEFAULT
Default IADC sructure for all configs.
#define IADC_INITSCAN_DEFAULT
Default config for IADC scan init structure.
#define IADC_INITSINGLE_DEFAULT
Default config for IADC single init structure.
#define IADC_SINGLEINPUT_DEFAULT
Default config for IADC single input structure.
#define IADC_SCANTABLEENTRY_DEFAULT
Default config for IADC scan table entry structure.
#define IADC_SCANTABLE_DEFAULT
Default IADC structure for scan table.

Enumerations

enum IADC_Warmup_t {
iadcWarmupNormal = _IADC_CTRL_WARMUPMODE_NORMAL,
iadcWarmupKeepInStandby = _IADC_CTRL_WARMUPMODE_KEEPINSTANDBY,
iadcWarmupKeepWarm = _IADC_CTRL_WARMUPMODE_KEEPWARM
}
Warm-up mode.
enum IADC_Alignment_t {
iadcAlignRight12 = _IADC_SCANFIFOCFG_ALIGNMENT_RIGHT12,
iadcAlignLeft12 = _IADC_SCANFIFOCFG_ALIGNMENT_LEFT12,
iadcAlignRight16 = _IADC_SCANFIFOCFG_ALIGNMENT_RIGHT16,
iadcAlignLeft16 = _IADC_SCANFIFOCFG_ALIGNMENT_LEFT16,
iadcAlignRight20 = _IADC_SCANFIFOCFG_ALIGNMENT_RIGHT20,
iadcAlignLeft20 = _IADC_SCANFIFOCFG_ALIGNMENT_LEFT20
}
IADC result alignment.
enum IADC_NegInput_t {
iadcNegInputGnd ,
iadcNegInputGndaux = (_IADC_SCAN_PORTNEG_GND << (_IADC_SCAN_PORTNEG_SHIFT - _IADC_SCAN_PINNEG_SHIFT)),
iadcNegInputDac1 = (_IADC_SCAN_PORTNEG_DAC1 << (_IADC_SCAN_PORTNEG_SHIFT - _IADC_SCAN_PINNEG_SHIFT)),
iadcNegInputPadAna1 = (_IADC_SCAN_PORTNEG_PADANA1 << (_IADC_SCAN_PORTNEG_SHIFT - _IADC_SCAN_PINNEG_SHIFT)),
iadcNegInputPadAna3 = (_IADC_SCAN_PORTNEG_PADANA3 << (_IADC_SCAN_PORTNEG_SHIFT - _IADC_SCAN_PINNEG_SHIFT)),
iadcNegInputPortAPin0 = (_IADC_SCAN_PORTNEG_PORTA << (_IADC_SCAN_PORTNEG_SHIFT - _IADC_SCAN_PINNEG_SHIFT)),
iadcNegInputPortAPin1 ,
iadcNegInputPortAPin2 ,
iadcNegInputPortAPin3 ,
iadcNegInputPortAPin4 ,
iadcNegInputPortAPin5 ,
iadcNegInputPortAPin6 ,
iadcNegInputPortAPin7 ,
iadcNegInputPortAPin8 ,
iadcNegInputPortAPin9 ,
iadcNegInputPortAPin10 ,
iadcNegInputPortAPin11 ,
iadcNegInputPortAPin12 ,
iadcNegInputPortAPin13 ,
iadcNegInputPortAPin14 ,
iadcNegInputPortAPin15 ,
iadcNegInputPortBPin0 ,
iadcNegInputPortBPin1 ,
iadcNegInputPortBPin2 ,
iadcNegInputPortBPin3 ,
iadcNegInputPortBPin4 ,
iadcNegInputPortBPin5 ,
iadcNegInputPortBPin6 ,
iadcNegInputPortBPin7 ,
iadcNegInputPortBPin8 ,
iadcNegInputPortBPin9 ,
iadcNegInputPortBPin10 ,
iadcNegInputPortBPin11 ,
iadcNegInputPortBPin12 ,
iadcNegInputPortBPin13 ,
iadcNegInputPortBPin14 ,
iadcNegInputPortBPin15 ,
iadcNegInputPortCPin0 ,
iadcNegInputPortCPin1 ,
iadcNegInputPortCPin2 ,
iadcNegInputPortCPin3 ,
iadcNegInputPortCPin4 ,
iadcNegInputPortCPin5 ,
iadcNegInputPortCPin6 ,
iadcNegInputPortCPin7 ,
iadcNegInputPortCPin8 ,
iadcNegInputPortCPin9 ,
iadcNegInputPortCPin10 ,
iadcNegInputPortCPin11 ,
iadcNegInputPortCPin12 ,
iadcNegInputPortCPin13 ,
iadcNegInputPortCPin14 ,
iadcNegInputPortCPin15 ,
iadcNegInputPortDPin0 ,
iadcNegInputPortDPin1 ,
iadcNegInputPortDPin2 ,
iadcNegInputPortDPin3 ,
iadcNegInputPortDPin4 ,
iadcNegInputPortDPin5 ,
iadcNegInputPortDPin6 ,
iadcNegInputPortDPin7 ,
iadcNegInputPortDPin8 ,
iadcNegInputPortDPin9 ,
iadcNegInputPortDPin10 ,
iadcNegInputPortDPin11 ,
iadcNegInputPortDPin12 ,
iadcNegInputPortDPin13 ,
iadcNegInputPortDPin14 ,
iadcNegInputPortDPin15
}
IADC negative input selection.
enum IADC_PosInput_t {
iadcPosInputGnd = (_IADC_SCAN_PORTPOS_GND << (_IADC_SCAN_PORTPOS_SHIFT - _IADC_SCAN_PINPOS_SHIFT)),
iadcPosInputAvdd ,
iadcPosInputVddio ,
iadcPosInputVss ,
iadcPosInputVssaux ,
iadcPosInputDvdd ,
iadcPosInputDecouple ,
iadcPosInputDac0 = (_IADC_SCAN_PORTPOS_DAC0 << (_IADC_SCAN_PORTPOS_SHIFT - _IADC_SCAN_PINPOS_SHIFT)),
iadcPosInputPadAna0 = (_IADC_SCAN_PORTPOS_PADANA0 << (_IADC_SCAN_PORTPOS_SHIFT - _IADC_SCAN_PINPOS_SHIFT)),
iadcPosInputPadAna2 = (_IADC_SCAN_PORTPOS_PADANA2 << (_IADC_SCAN_PORTPOS_SHIFT - _IADC_SCAN_PINPOS_SHIFT)),
iadcPosInputPortAPin0 = (_IADC_SCAN_PORTPOS_PORTA << (_IADC_SCAN_PORTPOS_SHIFT - _IADC_SCAN_PINPOS_SHIFT)),
iadcPosInputPortAPin1 ,
iadcPosInputPortAPin2 ,
iadcPosInputPortAPin3 ,
iadcPosInputPortAPin4 ,
iadcPosInputPortAPin5 ,
iadcPosInputPortAPin6 ,
iadcPosInputPortAPin7 ,
iadcPosInputPortAPin8 ,
iadcPosInputPortAPin9 ,
iadcPosInputPortAPin10 ,
iadcPosInputPortAPin11 ,
iadcPosInputPortAPin12 ,
iadcPosInputPortAPin13 ,
iadcPosInputPortAPin14 ,
iadcPosInputPortAPin15 ,
iadcPosInputPortBPin0 ,
iadcPosInputPortBPin1 ,
iadcPosInputPortBPin2 ,
iadcPosInputPortBPin3 ,
iadcPosInputPortBPin4 ,
iadcPosInputPortBPin5 ,
iadcPosInputPortBPin6 ,
iadcPosInputPortBPin7 ,
iadcPosInputPortBPin8 ,
iadcPosInputPortBPin9 ,
iadcPosInputPortBPin10 ,
iadcPosInputPortBPin11 ,
iadcPosInputPortBPin12 ,
iadcPosInputPortBPin13 ,
iadcPosInputPortBPin14 ,
iadcPosInputPortBPin15 ,
iadcPosInputPortCPin0 ,
iadcPosInputPortCPin1 ,
iadcPosInputPortCPin2 ,
iadcPosInputPortCPin3 ,
iadcPosInputPortCPin4 ,
iadcPosInputPortCPin5 ,
iadcPosInputPortCPin6 ,
iadcPosInputPortCPin7 ,
iadcPosInputPortCPin8 ,
iadcPosInputPortCPin9 ,
iadcPosInputPortCPin10 ,
iadcPosInputPortCPin11 ,
iadcPosInputPortCPin12 ,
iadcPosInputPortCPin13 ,
iadcPosInputPortCPin14 ,
iadcPosInputPortCPin15 ,
iadcPosInputPortDPin0 ,
iadcPosInputPortDPin1 ,
iadcPosInputPortDPin2 ,
iadcPosInputPortDPin3 ,
iadcPosInputPortDPin4 ,
iadcPosInputPortDPin5 ,
iadcPosInputPortDPin6 ,
iadcPosInputPortDPin7 ,
iadcPosInputPortDPin8 ,
iadcPosInputPortDPin9 ,
iadcPosInputPortDPin10 ,
iadcPosInputPortDPin11 ,
iadcPosInputPortDPin12 ,
iadcPosInputPortDPin13 ,
iadcPosInputPortDPin14 ,
iadcPosInputPortDPin15
}
IADC positive port selection.
enum IADC_Cmd_t {
iadcCmdStartSingle = IADC_CMD_SINGLESTART,
iadcCmdStopSingle = IADC_CMD_SINGLESTOP,
iadcCmdStartScan = IADC_CMD_SCANSTART,
iadcCmdStopScan = IADC_CMD_SCANSTOP,
iadcCmdEnableTimer = IADC_CMD_TIMEREN,
iadcCmdDisableTimer = IADC_CMD_TIMERDIS
}
IADC Commands.
enum IADC_CfgAdcMode_t {
iadcCfgModeNormal = _IADC_CFG_ADCMODE_NORMAL,
iadcCfgModeHighSpeed = _IADC_CFG_ADCMODE_HIGHSPEED,
iadcCfgModeHighAccuracy = _IADC_CFG_ADCMODE_HIGHACCURACY
}
IADC Configuration.
enum IADC_CfgOsrHighSpeed_t {
iadcCfgOsrHighSpeed2x = _IADC_CFG_OSRHS_HISPD2,
iadcCfgOsrHighSpeed4x = _IADC_CFG_OSRHS_HISPD4,
iadcCfgOsrHighSpeed8x = _IADC_CFG_OSRHS_HISPD8,
iadcCfgOsrHighSpeed16x = _IADC_CFG_OSRHS_HISPD16,
iadcCfgOsrHighSpeed32x = _IADC_CFG_OSRHS_HISPD32,
iadcCfgOsrHighSpeed64x = _IADC_CFG_OSRHS_HISPD64
}
IADC Over sampling rate for high speed.
enum IADC_CfgOsrHighAccuracy_t {
iadcCfgOsrHighAccuracy16x = _IADC_CFG_OSRHA_HIACC16,
iadcCfgOsrHighAccuracy32x = _IADC_CFG_OSRHA_HIACC32,
iadcCfgOsrHighAccuracy64x = _IADC_CFG_OSRHA_HIACC64,
iadcCfgOsrHighAccuracy92x = _IADC_CFG_OSRHA_HIACC92,
iadcCfgOsrHighAccuracy128x = _IADC_CFG_OSRHA_HIACC128,
iadcCfgOsrHighAccuracy256x = _IADC_CFG_OSRHA_HIACC256
}
IADC Over sampling rate for high accuracy.
enum IADC_CfgAnalogGain_t {
iadcCfgAnalogGain0P5x = _IADC_CFG_ANALOGGAIN_ANAGAIN0P5,
iadcCfgAnalogGain1x = _IADC_CFG_ANALOGGAIN_ANAGAIN1,
iadcCfgAnalogGain2x = _IADC_CFG_ANALOGGAIN_ANAGAIN2,
iadcCfgAnalogGain3x = _IADC_CFG_ANALOGGAIN_ANAGAIN3,
iadcCfgAnalogGain4x = _IADC_CFG_ANALOGGAIN_ANAGAIN4
}
IADC Analog Gain.
enum IADC_CfgReference_t {
iadcCfgReferenceInt1V2 = _IADC_CFG_REFSEL_VBGR,
iadcCfgReferenceExt1V25 = _IADC_CFG_REFSEL_VREF,
iadcCfgReferenceExt2V5 = _IADC_CFG_REFSEL_VREF2P5,
iadcCfgReferenceVddx = _IADC_CFG_REFSEL_VDDX,
iadcCfgReferenceVddX0P8Buf = _IADC_CFG_REFSEL_VDDX0P8BUF
}
IADC Reference.
enum IADC_CfgTwosComp_t {
iadcCfgTwosCompAuto = _IADC_CFG_TWOSCOMPL_AUTO,
iadcCfgTwosCompUnipolar = _IADC_CFG_TWOSCOMPL_FORCEUNIPOLAR,
iadcCfgTwosCompBipolar = _IADC_CFG_TWOSCOMPL_FORCEBIPOLAR
}
IADC Two's complement results.
enum IADC_TriggerSel_t {
iadcTriggerSelImmediate = _IADC_TRIGGER_SCANTRIGSEL_IMMEDIATE,
iadcTriggerSelTimer = _IADC_TRIGGER_SCANTRIGSEL_TIMER,
iadcTriggerSelPrs0SameClk = _IADC_TRIGGER_SCANTRIGSEL_PRSCLKGRP,
iadcTriggerSelPrs0PosEdge = _IADC_TRIGGER_SCANTRIGSEL_PRSPOS,
iadcTriggerSelPrs0NegEdge = _IADC_TRIGGER_SCANTRIGSEL_PRSNEG
}
IADC trigger action.
enum IADC_TriggerAction_t {
iadcTriggerActionOnce = _IADC_TRIGGER_SCANTRIGACTION_ONCE,
iadcTriggerActionContinuous = _IADC_TRIGGER_SCANTRIGACTION_CONTINUOUS
}
IADC trigger action.
enum IADC_FifoCfgDvl_t {
iadcFifoCfgDvl1 = _IADC_SCANFIFOCFG_DVL_VALID1,
iadcFifoCfgDvl2 = _IADC_SCANFIFOCFG_DVL_VALID2,
iadcFifoCfgDvl3 = _IADC_SCANFIFOCFG_DVL_VALID3,
iadcFifoCfgDvl4 = _IADC_SCANFIFOCFG_DVL_VALID4,
iadcFifoCfgDvl5 = _IADC_SCANFIFOCFG_DVL_VALID5,
iadcFifoCfgDvl6 = _IADC_SCANFIFOCFG_DVL_VALID6,
iadcFifoCfgDvl7 = _IADC_SCANFIFOCFG_DVL_VALID7,
iadcFifoCfgDvl8 = _IADC_SCANFIFOCFG_DVL_VALID8
}
IADC data valid level before requesting DMA transfer.
enum IADC_DigitalAveraging_t {
iadcDigitalAverage1 = _IADC_CFG_DIGAVG_AVG1,
iadcDigitalAverage2 = _IADC_CFG_DIGAVG_AVG2,
iadcDigitalAverage4 = _IADC_CFG_DIGAVG_AVG4,
iadcDigitalAverage8 = _IADC_CFG_DIGAVG_AVG8,
iadcDigitalAverage16 = _IADC_CFG_DIGAVG_AVG16
}
IADC digital averaging function.

Function Documentation

IADC_init()

void IADC_init ( IADC_TypeDef * iadc,
const IADC_Init_t * init,
const IADC_AllConfigs_t * allConfigs
)

Initialize IADC.

Initializes common parts for both single conversion and scan sequence. In addition, single and/or scan control configuration must be done, please refer to IADC_initSingle() and IADC_initScan() respectively.

Note
This function will stop any ongoing conversions.
Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] init Pointer to IADC initialization structure.
[in] allConfigs Pointer to structure holding all configs.

IADC_reset()

void IADC_reset ( IADC_TypeDef * iadc )

Reset IADC to same state as after a HW reset.

Parameters
[in] iadc Pointer to IADC peripheral register block.

IADC_initScan()

void IADC_initScan ( IADC_TypeDef * iadc,
const IADC_InitScan_t * init,
const IADC_ScanTable_t * scanTable
)

Initialize IADC scan sequence.

This function will configure scan mode and set up entries in the scan table. The scan table mask can be updated by calling IADC_updateScanMask.

Note
This function will stop any ongoing conversions.
If an even numbered pin is selected for the positive input, the negative input must use an odd numbered pin and vice versa.
Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] init Pointer to IADC initialization structure.
[in] scanTable Pointer to IADC scan table structure.

IADC_updateScanEntry()

void IADC_updateScanEntry ( IADC_TypeDef * iadc,
uint8_t id,
IADC_ScanTableEntry_t * entry
)

Add/update entry in scan table.

This function will update or add an entry in the scan table with a specific ID.

Note
This function will stop any ongoing conversions.
Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] id ID of scan table entry to add.
[in] entry Pointer to scan table entry structure.

IADC_setScanMask()

void IADC_setScanMask ( IADC_TypeDef * iadc,
uint32_t mask
)

Set mask of IADC scan table entries to include in scan.

Set mask of scan table entries to include in next scan. This function can be called while scan conversions are ongoing, but the new scan mask will take effect once the ongoing scan is completed.

Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] mask Mask of scan table entries to include in scan.

IADC_initSingle()

void IADC_initSingle ( IADC_TypeDef * iadc,
const IADC_InitSingle_t * init,
const IADC_SingleInput_t * input
)

Initialize single IADC conversion.

This function will initialize the single conversion and configure the single input selection.

Note
This function will stop any ongoing conversions.
If an even numbered pin is selected for the positive input, the negative input must use an odd numbered pin and vice versa.
Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] init Pointer to IADC single initialization structure.
[in] input Pointer to IADC single input selection initialization structure.

IADC_updateSingleInput()

void IADC_updateSingleInput ( IADC_TypeDef * iadc,
const IADC_SingleInput_t * input
)

Update IADC single input selection.

This function updates the single input selection. The function can be called while single and/or scan conversions are ongoing and the new input configuration will take place on the next single conversion.

Note
If an even numbered pin is selected for the positive input, the negative input must use an odd numbered pin and vice versa.
Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] input Pointer to single input selection structure.

IADC_calcSrcClkPrescale()

uint8_t IADC_calcSrcClkPrescale ( IADC_TypeDef * iadc,
uint32_t srcClkFreq,
uint32_t cmuClkFreq
)

Calculate prescaler for CLK_SRC_ADC high speed clock.

The IADC high speed clock is given by: CLK_SRC_ADC / (srcClkPrescaler + 1).

Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] srcClkFreq CLK_SRC_ADC frequency wanted. The frequency will automatically be adjusted to be within valid range according to reference manual.
[in] cmuClkFreq Frequency in Hz of reference CLK_CMU_ADC. Set to 0 to use currently defined CMU clock setting for the IADC.
Returns
Divider value to use for IADC in order to achieve a high speed clock value <= srcClkFreq .

IADC_calcAdcClkPrescale()

uint32_t IADC_calcAdcClkPrescale ( IADC_TypeDef * iadc,
uint32_t adcClkFreq,
uint32_t cmuClkFreq,
IADC_CfgAdcMode_t adcMode,
uint8_t srcClkPrescaler
)

Calculate prescaler for ADC_CLK clock.

The ADC_CLK is given by: CLK_SRC_ADC / (adcClkprescale + 1).

Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] adcClkFreq ADC_CLK frequency wanted. The frequency will automatically be adjusted to be within valid range according to reference manual.
[in] cmuClkFreq Frequency in Hz of CLK_CMU_ADC Set to 0 to use currently defined IADC clock setting (in CMU).
[in] adcMode Mode for IADC config.
[in] srcClkPrescaler Precaler setting for ADC_CLK
Returns
Divider value to use for IADC in order to achieve a ADC_CLK frequency <= adcClkFreq .

IADC_calcTimebase()

uint8_t IADC_calcTimebase ( IADC_TypeDef * iadc,
uint32_t cmuClkFreq
)

Calculate timebase value in order to get a timebase providing at least 1us.

Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] cmuClkFreq Frequency in Hz of reference CLK_CMU_ADC clock. Set to 0 to use currently defined CMU clock setting for the IADC.
Returns
Timebase value to use for IADC in order to achieve at least 1 us.

IADC_readSingleResult()

IADC_Result_t IADC_readSingleResult ( IADC_TypeDef * iadc )

Read most recent single conversion result.

The result struct includes both the data and the ID (0x20) if showId was set when initializing single mode. Calling this function will not affect the state of the single data FIFO.

Note
Check data valid flag before calling this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Single conversion result struct holding data and id.

IADC_pullSingleFifoResult()

IADC_Result_t IADC_pullSingleFifoResult ( IADC_TypeDef * iadc )

Pull result from single data FIFO.

The result struct includes both the data and the ID (0x20) if showId was set when initializing single mode.

Note
Check data valid flag before calling this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Single conversion result struct holding data and id.

IADC_readScanResult()

IADC_Result_t IADC_readScanResult ( IADC_TypeDef * iadc )

Read most recent scan conversion result.

The result struct includes both the data and the ID (0x20) if showId was set when initializing scan entry. Calling this function will not affect the state of the scan data FIFO.

Note
Check data valid flag before calling this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Scan conversion result struct holding data and id.

IADC_pullScanFifoResult()

IADC_Result_t IADC_pullScanFifoResult ( IADC_TypeDef * iadc )

Pull result from scan data FIFO.

The result struct includes both the data and the ID (0x20) if showId was set when initializing scan entry.

Note
Check data valid flag before calling this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Scan conversion result struct holding data and id.

IADC_getReferenceVoltage()

uint32_t IADC_getReferenceVoltage ( IADC_CfgReference_t reference )

Get reference voltage selection.

Parameters
[in] reference IADC Reference selection.
Returns
IADC reference voltage in millivolts.

IADC_pullSingleFifoData()

uint32_t IADC_pullSingleFifoData ( IADC_TypeDef * iadc )
inline

Pull data from single data FIFO.

If showId was set when initializing single mode, the results will contain the ID (0x20).

Note
Check data valid flag before calling this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Single conversion data.

IADC_readSingleData()

uint32_t IADC_readSingleData ( IADC_TypeDef * iadc )
inline

Read most recent single conversion data.

If showId was set when initializing single mode, the data will contain the ID (0x20). Calling this function will not affect the state of the single data FIFO.

Note
Check data valid flag before calling this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Single conversion data.

IADC_pullScanFifoData()

uint32_t IADC_pullScanFifoData ( IADC_TypeDef * iadc )
inline

Pull data from scan data FIFO.

If showId was set for the scan entry initialization, the data will contain the ID of the scan entry.

Note
Check data valid flag before calling this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Scan conversion data.

IADC_readScanData()

uint32_t IADC_readScanData ( IADC_TypeDef * iadc )
inline

Read most recent scan conversion data.

If showId was set for the scan entry initialization, the data will contain the ID of the scan entry. Calling this function will not affect the state of the scan data FIFO.

Note
Check data valid flag before calling this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Scan conversion data.

IADC_clearInt()

void IADC_clearInt ( IADC_TypeDef * iadc,
uint32_t flags
)
inline

Clear one or more pending IADC interrupts.

Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] flags Pending IADC interrupt source to clear. Use a bitwise logic OR combination of valid interrupt flags for the IADC module (IADC_IF_nnn).

IADC_disableInt()

void IADC_disableInt ( IADC_TypeDef * iadc,
uint32_t flags
)
inline

Disable one or more IADC interrupts.

Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] flags IADC interrupt sources to disable. Use a bitwise logic OR combination of valid interrupt flags for the IADC module (IADC_IF_nnn).

IADC_enableInt()

void IADC_enableInt ( IADC_TypeDef * iadc,
uint32_t flags
)
inline

Enable one or more IADC interrupts.

Note
Depending on the use, a pending interrupt may already be set prior to enabling the interrupt. Consider using IADC_intClear() prior to enabling if such a pending interrupt should be ignored.
Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] flags IADC interrupt sources to enable. Use a bitwise logic OR combination of valid interrupt flags for the IADC module (IADC_IF_nnn).

IADC_getInt()

uint32_t IADC_getInt ( IADC_TypeDef * iadc )
inline

Get pending IADC interrupt flags.

Note
The event bits are not cleared by the use of this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
IADC interrupt sources pending. A bitwise logic OR combination of valid interrupt flags for the IADC module (IADC_IF_nnn).

IADC_getEnabledInt()

uint32_t IADC_getEnabledInt ( IADC_TypeDef * iadc )
inline

Get enabled and pending IADC interrupt flags.

Useful for handling more interrupt sources in the same interrupt handler.

Note
Interrupt flags are not cleared by the use of this function.
Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Pending and enabled IADC interrupt sources. The return value is the bitwise AND combination of
  • the OR combination of enabled interrupt sources in IADCx_IEN_nnn register (IADCx_IEN_nnn) and
  • the OR combination of valid interrupt flags of the IADC module (IADCx_IF_nnn).

IADC_setInt()

void IADC_setInt ( IADC_TypeDef * iadc,
uint32_t flags
)
inline

Set one or more pending IADC interrupts from SW.

Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] flags IADC interrupt sources to set to pending. Use a bitwise logic OR combination of valid interrupt flags for the IADC module (IADC_IF_nnn).

IADC_command()

void IADC_command ( IADC_TypeDef * iadc,
IADC_Cmd_t cmd
)
inline

Start/stop scan sequence, single conversion and/or timer.

Parameters
[in] iadc Pointer to IADC peripheral register block.
[in] cmd Command to be performed.

IADC_getScanMask()

uint32_t IADC_getScanMask ( IADC_TypeDef * iadc )
inline

Get the scan mask currently used in the IADC.

Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Mask of scan table entries currently included in scan.

IADC_getStatus()

uint32_t IADC_getStatus ( IADC_TypeDef * iadc )
inline

Get status bits of IADC.

Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
IADC status bits

IADC_getSingleFifoCnt()

uint8_t IADC_getSingleFifoCnt ( IADC_TypeDef * iadc )
inline

Get the number of elements in the IADC single FIFO.

Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Number of elements in single FIFO

IADC_getScanFifoCnt()

uint8_t IADC_getScanFifoCnt ( IADC_TypeDef * iadc )
inline

Get the number of elements in the IADC scan FIFO.

Parameters
[in] iadc Pointer to IADC peripheral register block.
Returns
Number of elements in scan FIFO

IADC_portPinToNegInput()

IADC_NegInput_t IADC_portPinToNegInput ( GPIO_Port_TypeDef port,
uint8_t pin
)
inline

Convert the GPIO port/pin to IADC negative input selection.

Parameters
[in] port GPIO port
[in] pin GPIO in
Returns
IADC negative input selection

IADC_portPinToPosInput()

IADC_PosInput_t IADC_portPinToPosInput ( GPIO_Port_TypeDef port,
uint8_t pin
)
inline

Convert the GPIO port/pin to IADC positive input selection.

Parameters
[in] port GPIO port
[in] pin GPIO in
Returns
IADC positive input selection

Macro Definition Documentation

IADC_INIT_DEFAULT

#define IADC_INIT_DEFAULT
Value:
{ \
false, /* IADC clock not disabled on PRS0*/ \
false, /* IADC clock not disabled on PRS1 */ \
false, /* Do not halt during debug */ \
iadcWarmupNormal, /* IADC shutdown after each conversion. */ \
0, /* Calculate timebase. */ \
0, /* Max IADC clock rate. */ \
_IADC_TIMER_TIMER_DEFAULT, /* Use HW default value. */ \
_IADC_CMPTHR_ADGT_DEFAULT, /* Use HW default value. */ \
_IADC_CMPTHR_ADLT_DEFAULT, /* Use HW default value. */ \
}

Default config for IADC init structure.

IADC_CONFIG_DEFAULT

#define IADC_CONFIG_DEFAULT
Value:
{ \
iadcCfgModeNormal, /* Normal mode for IADC. */ \
iadcCfgOsrHighSpeed2x, /* 2x high speed over sampling. */ \
iadcCfgOsrHighAccuracy92x, /* 92x high accuracy over sampling. */ \
iadcCfgAnalogGain1x, /* 1x analog gain. */ \
iadcCfgReferenceInt1V2, /* Internal 1.2V band gap reference. */ \
iadcCfgTwosCompAuto, /* Automatic Two's Complement. */ \
0, /* Max IADC analog clock rate. */ \
1210, /* Vref expressed in millivolts. */ \
iadcDigitalAverage1 /* No averaging. */ \
}

Default IADC config structure.

IADC_ALLCONFIGS_DEFAULT

#define IADC_ALLCONFIGS_DEFAULT
Value:
{ \
{ \
IADC_CONFIG_DEFAULT, \
IADC_CONFIG_DEFAULT \
} \
}

Default IADC sructure for all configs.

IADC_INITSCAN_DEFAULT

#define IADC_INITSCAN_DEFAULT
Value:
{ \
iadcAlignRight12, /* Results 12-bit right aligned */ \
false, /* Do not show ID in result */ \
iadcFifoCfgDvl4, /* Use HW default value. */ \
false, /* Do not wake up DMA on scan FIFO DVL */ \
iadcTriggerSelImmediate, /* Start scan immediately on trigger */ \
iadcTriggerActionOnce, /* Convert once on scan trigger */ \
false /* Do not start scan queue */ \
}

Default config for IADC scan init structure.

IADC_INITSINGLE_DEFAULT

#define IADC_INITSINGLE_DEFAULT
Value:
{ \
iadcAlignRight12, /* Results 12-bit right aligned */ \
false, /* Do not show ID in result */ \
iadcFifoCfgDvl4, /* Use HW default value. */ \
false, /* Do not wake up DMA on single FIFO DVL */ \
iadcTriggerSelImmediate, /* Start single immediately on trigger */ \
iadcTriggerActionOnce, /* Convert once on single trigger */ \
false, /* No tailgating */ \
false /* Do not start single queue */ \
}

Default config for IADC single init structure.

IADC_SINGLEINPUT_DEFAULT

#define IADC_SINGLEINPUT_DEFAULT
Value:
{ \
iadcNegInputGnd, /* Negative input GND */ \
iadcPosInputGnd, /* Positive input GND */ \
0, /* Config 0 */ \
false /* Do not compare results */ \
}

Default config for IADC single input structure.

IADC_SCANTABLEENTRY_DEFAULT

#define IADC_SCANTABLEENTRY_DEFAULT
Value:
{ \
iadcNegInputGnd, /* Negative input GND */ \
iadcPosInputGnd, /* Positive input GND */ \
0, /* Config 0 */ \
false, /* Do not compare results */ \
false /* Do not include in scan */ \
}

Default config for IADC scan table entry structure.

IADC_SCANTABLE_DEFAULT

#define IADC_SCANTABLE_DEFAULT
Value:
{ \
{ \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT, \
IADC_SCANTABLEENTRY_DEFAULT \
} \
}

Default IADC structure for scan table.

Enumeration Type Documentation

IADC_Warmup_t

Warm-up mode.

Enumerator
iadcWarmupNormal

IADC shutdown after each conversion.

iadcWarmupKeepInStandby

ADC is kept in standby mode between conversion.


iadcWarmupKeepWarm

ADC and reference selected for scan mode kept warmup, allowing continuous conversion.

IADC_Alignment_t

IADC result alignment.

Enumerator
iadcAlignRight12

IADC results 12-bit right aligned

iadcAlignLeft12

IADC results 12-bit left aligned

iadcAlignRight16

IADC results 16-bit right aligned

iadcAlignLeft16

IADC results 16-bit left aligned

iadcAlignRight20

IADC results 20-bit right aligned

iadcAlignLeft20

IADC results 20-bit left aligned

IADC_NegInput_t

IADC negative input selection.

Enumerator
iadcNegInputGnd

Ground

iadcNegInputGndaux

Ground using even mux.

iadcNegInputDac1

Direct connection to DAC_1 input pin.

iadcNegInputPadAna1

Direct connection to Pad_ana_1 input pin.

iadcNegInputPadAna3

Direct connection to Pad_ana_3 input pin.

iadcNegInputPortAPin0

GPIO port A pin 0.

iadcNegInputPortAPin1

GPIO port A pin 1.

iadcNegInputPortAPin2

GPIO port A pin 2.

iadcNegInputPortAPin3

GPIO port A pin 3.

iadcNegInputPortAPin4

GPIO port A pin 4.

iadcNegInputPortAPin5

GPIO port A pin 5.

iadcNegInputPortAPin6

GPIO port A pin 6.

iadcNegInputPortAPin7

GPIO port A pin 7.

iadcNegInputPortAPin8

GPIO port A pin 8.

iadcNegInputPortAPin9

GPIO port A pin 9.

iadcNegInputPortAPin10

GPIO port A pin 10.

iadcNegInputPortAPin11

GPIO port A pin 11.

iadcNegInputPortAPin12

GPIO port A pin 12.

iadcNegInputPortAPin13

GPIO port A pin 13.

iadcNegInputPortAPin14

GPIO port A pin 14.

iadcNegInputPortAPin15

GPIO port A pin 15.

iadcNegInputPortBPin0

GPIO port B pin 0.

iadcNegInputPortBPin1

GPIO port B pin 1.

iadcNegInputPortBPin2

GPIO port B pin 2.

iadcNegInputPortBPin3

GPIO port B pin 3.

iadcNegInputPortBPin4

GPIO port B pin 4.

iadcNegInputPortBPin5

GPIO port B pin 5.

iadcNegInputPortBPin6

GPIO port B pin 6.

iadcNegInputPortBPin7

GPIO port B pin 7.

iadcNegInputPortBPin8

GPIO port B pin 8.

iadcNegInputPortBPin9

GPIO port B pin 9.

iadcNegInputPortBPin10

GPIO port B pin 10.

iadcNegInputPortBPin11

GPIO port B pin 11.

iadcNegInputPortBPin12

GPIO port B pin 12.

iadcNegInputPortBPin13

GPIO port B pin 13.

iadcNegInputPortBPin14

GPIO port B pin 14.

iadcNegInputPortBPin15

GPIO port B pin 15.

iadcNegInputPortCPin0

GPIO port C pin 0.

iadcNegInputPortCPin1

GPIO port C pin 1.

iadcNegInputPortCPin2

GPIO port C pin 2.

iadcNegInputPortCPin3

GPIO port C pin 3.

iadcNegInputPortCPin4

GPIO port C pin 4.

iadcNegInputPortCPin5

GPIO port C pin 5.

iadcNegInputPortCPin6

GPIO port C pin 6.

iadcNegInputPortCPin7

GPIO port C pin 7.

iadcNegInputPortCPin8

GPIO port C pin 8.

iadcNegInputPortCPin9

GPIO port C pin 9.

iadcNegInputPortCPin10

GPIO port C pin 10.

iadcNegInputPortCPin11

GPIO port C pin 11.

iadcNegInputPortCPin12

GPIO port C pin 12.

iadcNegInputPortCPin13

GPIO port C pin 13.

iadcNegInputPortCPin14

GPIO port C pin 14.

iadcNegInputPortCPin15

GPIO port C pin 15.

iadcNegInputPortDPin0

GPIO port D pin 0.

iadcNegInputPortDPin1

GPIO port D pin 1.

iadcNegInputPortDPin2

GPIO port D pin 2.

iadcNegInputPortDPin3

GPIO port D pin 3.

iadcNegInputPortDPin4

GPIO port D pin 4.

iadcNegInputPortDPin5

GPIO port D pin 5.

iadcNegInputPortDPin6

GPIO port D pin 6.

iadcNegInputPortDPin7

GPIO port D pin 7.

iadcNegInputPortDPin8

GPIO port D pin 8.

iadcNegInputPortDPin9

GPIO port D pin 9.

iadcNegInputPortDPin10

GPIO port D pin 10.

iadcNegInputPortDPin11

GPIO port D pin 11.

iadcNegInputPortDPin12

GPIO port D pin 12.

iadcNegInputPortDPin13

GPIO port D pin 13.

iadcNegInputPortDPin14

GPIO port D pin 14.

iadcNegInputPortDPin15

GPIO port D pin 15.

IADC_PosInput_t

IADC positive port selection.

Enumerator
iadcPosInputGnd

Ground

iadcPosInputAvdd

Avdd / 4

iadcPosInputVddio

Vddio / 4

iadcPosInputVss

Vss

iadcPosInputVssaux

Vss

iadcPosInputDvdd

Dvdd / 4

iadcPosInputDecouple

Decouple

iadcPosInputDac0

Direct connection to DAC_0 input pin.

iadcPosInputPadAna0

Direct connection to Pad_ana_0 input pin.

iadcPosInputPadAna2

Direct connection to Pad_ana_2 input pin.

iadcPosInputPortAPin0

GPIO port A pin 0.

iadcPosInputPortAPin1

GPIO port A pin 1.

iadcPosInputPortAPin2

GPIO port A pin 2.

iadcPosInputPortAPin3

GPIO port A pin 3.

iadcPosInputPortAPin4

GPIO port A pin 4.

iadcPosInputPortAPin5

GPIO port A pin 5.

iadcPosInputPortAPin6

GPIO port A pin 6.

iadcPosInputPortAPin7

GPIO port A pin 7.

iadcPosInputPortAPin8

GPIO port A pin 8.

iadcPosInputPortAPin9

GPIO port A pin 9.

iadcPosInputPortAPin10

GPIO port A pin 10.

iadcPosInputPortAPin11

GPIO port A pin 11.

iadcPosInputPortAPin12

GPIO port A pin 12.

iadcPosInputPortAPin13

GPIO port A pin 13.

iadcPosInputPortAPin14

GPIO port A pin 14.

iadcPosInputPortAPin15

GPIO port A pin 15.

iadcPosInputPortBPin0

GPIO port B pin 0.

iadcPosInputPortBPin1

GPIO port B pin 1.

iadcPosInputPortBPin2

GPIO port B pin 2.

iadcPosInputPortBPin3

GPIO port B pin 3.

iadcPosInputPortBPin4

GPIO port B pin 4.

iadcPosInputPortBPin5

GPIO port B pin 5.

iadcPosInputPortBPin6

GPIO port B pin 6.

iadcPosInputPortBPin7

GPIO port B pin 7.

iadcPosInputPortBPin8

GPIO port B pin 8.

iadcPosInputPortBPin9

GPIO port B pin 9.

iadcPosInputPortBPin10

GPIO port B pin 10.

iadcPosInputPortBPin11

GPIO port B pin 11.

iadcPosInputPortBPin12

GPIO port B pin 12.

iadcPosInputPortBPin13

GPIO port B pin 13.

iadcPosInputPortBPin14

GPIO port B pin 14.

iadcPosInputPortBPin15

GPIO port B pin 15.

iadcPosInputPortCPin0

GPIO port C pin 0.

iadcPosInputPortCPin1

GPIO port C pin 1.

iadcPosInputPortCPin2

GPIO port C pin 2.

iadcPosInputPortCPin3

GPIO port C pin 3.

iadcPosInputPortCPin4

GPIO port C pin 4.

iadcPosInputPortCPin5

GPIO port C pin 5.

iadcPosInputPortCPin6

GPIO port C pin 6.

iadcPosInputPortCPin7

GPIO port C pin 7.

iadcPosInputPortCPin8

GPIO port C pin 8.

iadcPosInputPortCPin9

GPIO port C pin 9.

iadcPosInputPortCPin10

GPIO port C pin 10.

iadcPosInputPortCPin11

GPIO port C pin 11.

iadcPosInputPortCPin12

GPIO port C pin 12.

iadcPosInputPortCPin13

GPIO port C pin 13.

iadcPosInputPortCPin14

GPIO port C pin 14.

iadcPosInputPortCPin15

GPIO port C pin 15.

iadcPosInputPortDPin0

GPIO port D pin 0.

iadcPosInputPortDPin1

GPIO port D pin 1.

iadcPosInputPortDPin2

GPIO port D pin 2.

iadcPosInputPortDPin3

GPIO port D pin 3.

iadcPosInputPortDPin4

GPIO port D pin 4.

iadcPosInputPortDPin5

GPIO port D pin 5.

iadcPosInputPortDPin6

GPIO port D pin 6.

iadcPosInputPortDPin7

GPIO port D pin 7.

iadcPosInputPortDPin8

GPIO port D pin 8.

iadcPosInputPortDPin9

GPIO port D pin 9.

iadcPosInputPortDPin10

GPIO port D pin 10.

iadcPosInputPortDPin11

GPIO port D pin 11.

iadcPosInputPortDPin12

GPIO port D pin 12.

iadcPosInputPortDPin13

GPIO port D pin 13.

iadcPosInputPortDPin14

GPIO port D pin 14.

iadcPosInputPortDPin15

GPIO port D pin 15.

IADC_Cmd_t

IADC Commands.

Enumerator
iadcCmdStartSingle

Start single queue

iadcCmdStopSingle

Stop single queue

iadcCmdStartScan

Start scan queue

iadcCmdStopScan

Stop scan queue

iadcCmdEnableTimer

Enable Timer

iadcCmdDisableTimer

Disable Timer

IADC_CfgAdcMode_t

IADC Configuration.

Enumerator
iadcCfgModeNormal

Normal mode

iadcCfgModeHighSpeed

High Speed mode

iadcCfgModeHighAccuracy

High Accuracy mode

IADC_CfgOsrHighSpeed_t

IADC Over sampling rate for high speed.

Enumerator
iadcCfgOsrHighSpeed2x

High speed oversampling of 2x.

iadcCfgOsrHighSpeed4x

High speed oversampling of 4x.

iadcCfgOsrHighSpeed8x

High speed oversampling of 8x.

iadcCfgOsrHighSpeed16x

High speed oversampling of 16x.

iadcCfgOsrHighSpeed32x

High speed oversampling of 32x.

iadcCfgOsrHighSpeed64x

High speed oversampling of 64x.

IADC_CfgOsrHighAccuracy_t

IADC Over sampling rate for high accuracy.

Enumerator
iadcCfgOsrHighAccuracy16x

High accuracy oversampling of 16x.

iadcCfgOsrHighAccuracy32x

High accuracy oversampling of 32x.

iadcCfgOsrHighAccuracy64x

High accuracy oversampling of 64x.

iadcCfgOsrHighAccuracy92x

High accuracy oversampling of 92x.

iadcCfgOsrHighAccuracy128x

High accuracy oversampling of 128x.

iadcCfgOsrHighAccuracy256x

High accuracy oversampling of 256x.

IADC_CfgAnalogGain_t

IADC Analog Gain.

Enumerator
iadcCfgAnalogGain0P5x

Analog gain of 0.5x.

iadcCfgAnalogGain1x

Analog gain of 1x.

iadcCfgAnalogGain2x

Analog gain of 2x.

iadcCfgAnalogGain3x

Analog gain of 3x.

iadcCfgAnalogGain4x

Analog gain of 4x.

IADC_CfgReference_t

IADC Reference.

Enumerator
iadcCfgReferenceInt1V2

Internal 1.2V Band Gap Reference (buffered) to ground.

iadcCfgReferenceExt1V25

External reference (unbuffered) VREFP to VREFN.

Up to 1.25V.

iadcCfgReferenceExt2V5

External reference (unbuffered) VREFP to VREFN.

Up to 1.25V.

iadcCfgReferenceVddx

VDDX (unbuffered) to ground.

iadcCfgReferenceVddX0P8Buf

0.8 * VDDX (buffered) to ground.

IADC_CfgTwosComp_t

IADC Two's complement results.

Enumerator
iadcCfgTwosCompAuto

Automatic.

Single ended => Unipolar, Differential => Bipolar

iadcCfgTwosCompUnipolar

All results in unipolar format.

Negative diff input gives 0 as result.

iadcCfgTwosCompBipolar

All results in bipolar (2's complement) format.

Half range for SE.

IADC_TriggerSel_t

IADC trigger action.

Enumerator
iadcTriggerSelImmediate

Start single/scan queue immediately.

iadcTriggerSelTimer

Timer starts single/scan queue.

iadcTriggerSelPrs0SameClk

PRS0 from timer in same clock group starts single/scan queue

iadcTriggerSelPrs0PosEdge

PRS0 positive edge starts single/scan queue

iadcTriggerSelPrs0NegEdge

PRS0 negative edge starts single/scan queue

IADC_TriggerAction_t

IADC trigger action.

Enumerator
iadcTriggerActionOnce

Convert single/scan queue once per trigger

iadcTriggerActionContinuous

Convert single/scan queue continuously

IADC_FifoCfgDvl_t

IADC data valid level before requesting DMA transfer.

Enumerator
iadcFifoCfgDvl1

Data valid level is 1 before requesting DMA transfer.

iadcFifoCfgDvl2

Data valid level is 2 before requesting DMA transfer.

iadcFifoCfgDvl3

Data valid level is 3 before requesting DMA transfer.

iadcFifoCfgDvl4

Data valid level is 4 before requesting DMA transfer.

iadcFifoCfgDvl5

Data valid level is 5 before requesting DMA transfer.

iadcFifoCfgDvl6

Data valid level is 6 before requesting DMA transfer.

iadcFifoCfgDvl7

Data valid level is 7 before requesting DMA transfer.

iadcFifoCfgDvl8

Data valid level is 8 before requesting DMA transfer.

IADC_DigitalAveraging_t

IADC digital averaging function.

Enumerator
iadcDigitalAverage1

Average over 1 sample (no averaging).

iadcDigitalAverage2

Average over 2 samples.

iadcDigitalAverage4

Average over 4 samples.

iadcDigitalAverage8

Average over 8 samples.

iadcDigitalAverage16

Average over 16 samples.