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829 lines
64 KiB
C
829 lines
64 KiB
C
/**************************************************************************//**
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* @file eadc_reg.h
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* @version V1.00
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* @brief EADC register definition header file
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*
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* SPDX-License-Identifier: Apache-2.0
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* @copyright (C) 2020 Nuvoton Technology Corp. All rights reserved.
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*****************************************************************************/
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#ifndef __EADC_REG_H__
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#define __EADC_REG_H__
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#if defined ( __CC_ARM )
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#pragma anon_unions
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#endif
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/**
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@addtogroup REGISTER Control Register
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@{
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*/
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/**
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@addtogroup EADC Enhanced Analog to Digital Converter (EADC)
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Memory Mapped Structure for EADC Controller
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@{
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*/
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typedef struct
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{
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/**
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* @var EADC_T::DAT[19]
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* Offset: 0x00~0x48 A/D Data Register 0~18 for Sample Module 0 ~ 18
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[15:0] |RESULT |A/D Conversion Result
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* | | |This field contains 12 bits conversion result.
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* |[16] |OV |Overrun Flag
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* | | |If converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register, OV is set to 1.
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* | | |0 = Data in RESULT[11:0] is recent conversion result.
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* | | |1 = Data in RESULT[11:0] is overwrite.
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* | | |Note: It is cleared by hardware after EADC_DAT register is read.
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* |[17] |VALID |Valid Flag
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* | | |This bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is read.
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* | | |0 = Data in RESULT[11:0] bits is not valid.
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* | | |1 = Data in RESULT[11:0] bits is valid.
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* @var EADC_T::CURDAT
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* Offset: 0x4C EADC PDMA Current Transfer Data Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[18:0] |CURDAT |ADC PDMA Current Transfer Data (Read Only)
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* | | |This register is a shadow register of EADC_DATn (n=0~18) for PDMA support.
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* | | |This is a read only register.
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* | | |NOTE: After PDMA read this register, the VAILD of the shadow EADC_DAT register will be automatically cleared.
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* @var EADC_T::CTL
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* Offset: 0x50 A/D Control Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[0] |ADCEN |A/D Converter Enable Bit
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* | | |0 = ADC Disabled.
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* | | |1 = ADC Enabled.
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* | | |Note: Before starting A/D conversion function, this bit should be set to 1
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* | | |Clear it to 0 to disable A/D converter analog circuit power consumption.
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* |[1] |ADCRST |ADC A/D Converter Control Circuits Reset
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* | | |0 = No effect.
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* | | |1 = Cause ADC control circuits reset to initial state, but not change the ADC registers value.
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* | | |Note: ADCRST bit remains 1 during ADC reset, when ADC reset end, the ADCRST bit is automatically cleared to 0.
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* |[2] |ADCIEN0 |Specific Sample Module A/D ADINT0 Interrupt Enable Bit
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* | | |The A/D converter generates a conversion end ADIF0 (EADC_STATUS2[0]) upon the end of specific sample module A/D conversion
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* | | |If ADCIEN0 bit is set then conversion end interrupt request ADINT0 is generated.
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* | | |0 = Specific sample module A/D ADINT0 interrupt function Disabled.
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* | | |1 = Specific sample module A/D ADINT0 interrupt function Enabled.
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* |[3] |ADCIEN1 |Specific Sample Module A/D ADINT1 Interrupt Enable Bit
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* | | |The A/D converter generates a conversion end ADIF1 (EADC_STATUS2[1]) upon the end of specific sample module A/D conversion
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* | | |If ADCIEN1 bit is set then conversion end interrupt request ADINT1 is generated.
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* | | |0 = Specific sample module A/D ADINT1 interrupt function Disabled.
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* | | |1 = Specific sample module A/D ADINT1 interrupt function Enabled.
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* |[4] |ADCIEN2 |Specific Sample Module A/D ADINT2 Interrupt Enable Bit
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* | | |The A/D converter generates a conversion end ADIF2 (EADC_STATUS2[2]) upon the end of specific sample module A/D conversion
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* | | |If ADCIEN2 bit is set then conversion end interrupt request ADINT2 is generated.
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* | | |0 = Specific sample module A/D ADINT2 interrupt function Disabled.
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* | | |1 = Specific sample module A/D ADINT2 interrupt function Enabled.
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* |[5] |ADCIEN3 |Specific Sample Module A/D ADINT3 Interrupt Enable Bit
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* | | |The A/D converter generates a conversion end ADIF3 (EADC_STATUS2[3]) upon the end of specific sample module A/D conversion
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* | | |If ADCIEN3 bit is set then conversion end interrupt request ADINT3 is generated.
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* | | |0 = Specific sample module A/D ADINT3 interrupt function Disabled.
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* | | |1 = Specific sample module A/D ADINT3 interrupt function Enabled.
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* @var EADC_T::SWTRG
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* Offset: 0x54 A/D Sample Module Software Start Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[18:0] |SWTRG |A/D Sample Module 0~18 Software Force to Start ADC Conversion
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* | | |0 = No effect.
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* | | |1 = Cause an ADC conversion when the priority is given to sample module.
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* | | |Note: After writing this register to start ADC conversion, the EADC_PENDSTS register will show which sample module will conversion
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* | | |If user want to disable the conversion of the sample module, user can write EADC_PENDSTS register to clear it.
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* @var EADC_T::PENDSTS
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* Offset: 0x58 A/D Start of Conversion Pending Flag Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[18:0] |STPF |A/D Sample Module 0~18 Start of Conversion Pending Flag
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* | | |Read:
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* | | |0 = There is no pending conversion for sample module.
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* | | |1 = Sample module ADC start of conversion is pending.
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* | | |Write:
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* | | |1 = Clear pending flag and stop conversion for corresponding sample module.
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* | | |Note1: This bit remains 1 during pending state, when the respective ADC conversion is end, the STPFn (n=0~18) bit is automatically cleared to 0.
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* | | |Note2: After stopping current conversion, the corresponding EADC_DATn (n=0~18) keeps its original value
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* @var EADC_T::OVSTS
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* Offset: 0x5C A/D Sample Module Start of Conversion Overrun Flag Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[18:0] |SPOVF |A/D SAMPLE0~18 Overrun Flag
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* | | |0 = No sample module event overrun.
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* | | |1 = Indicates a new sample module event is generated while an old one event is pending.
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* | | |Note: This bit is cleared by writing 1 to it.
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* @var EADC_T::SCTL[16]
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* Offset: 0x80~0xBC A/D Sample Module 0 ~ 15 Control Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[3:0] |CHSEL |A/D Sample Module Channel Selection
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* | | |00H = EADC_CH0.
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* | | |01H = EADC_CH1.
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* | | |02H = EADC_CH2.
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* | | |03H = EADC_CH3.
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* | | |04H = EADC_CH4.
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* | | |05H = EADC_CH5.
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* | | |06H = EADC_CH6.
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* | | |07H = EADC_CH7.
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* | | |08H = EADC_CH8.
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* | | |09H = EADC_CH9.
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* | | |0AH = EADC_CH10.
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* | | |0BH = EADC_CH11.
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* | | |0CH = EADC_CH12.
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* | | |0DH = EADC_CH13.
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* | | |0EH = EADC_CH14.
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* | | |0FH = EADC_CH15.
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* | | |Note: when internal ADC channel16, 17 or 18 is selected, EADC_CH15 is useless.
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* |[4] |EXTREN |A/D External Trigger Rising Edge Enable Bit
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* | | |0 = Rising edge Disabled when A/D selects EADC0_ST as trigger source.
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* | | |1 = Rising edge Enabled when A/D selects EADC0_ST trigger source.
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* |[5] |EXTFEN |A/D External Trigger Falling Edge Enable Bit
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* | | |0 = Falling edge Disabled when A/D selects EADC0_ST as trigger source.
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* | | |1 = Falling edge Enabled when A/D selects EADC0_ST as trigger source.
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* |[7:6] |TRGDLYDIV |A/D Sample Module Start of Conversion Trigger Delay Clock Divider Selection
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* | | |Trigger delay clock frequency:
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* | | |00 = ADC_CLK/1.
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* | | |01 = ADC_CLK/2.
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* | | |10 = ADC_CLK/4.
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* | | |11 = ADC_CLK/16.
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* |[15:8] |TRGDLYCNT |A/D Sample Module Start of Conversion Trigger Delay Time
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* | | |Trigger delay time = TRGDLYCNT x ADC_CLK x n (n=1,2,4,16 from TRGDLYDIV setting).
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* | | |Note: If TRGDLYCNT is set to 1, Trigger delay time is actually the same as TRGDLYCNT is set to 2 for hardware operation.
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* |[20:16] |TRGSEL |A/D Sample Module Start of Conversion Trigger Source Selection
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* | | |0H = Disable trigger.
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* | | |1H = External trigger from EADC0_ST pin input.
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* | | |2H = ADC ADINT0 interrupt EOC (End of conversion) pulse trigger.
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* | | |3H = ADC ADINT1 interrupt EOC (End of conversion) pulse trigger.
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* | | |4H = Timer0 overflow pulse trigger.
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* | | |5H = Timer1 overflow pulse trigger.
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* | | |6H = Timer2 overflow pulse trigger.
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* | | |7H = Timer3 overflow pulse trigger.
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* | | |8H = PWM0TG0.
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* | | |9H = PWM0TG1.
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* | | |AH = PWM0TG2.
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* | | |BH = PWM0TG3.
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* | | |CH = PWM0TG4.
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* | | |DH = PWM0TG5.
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* | | |EH = PWM1TG0.
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* | | |FH = PWM1TG1.
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* | | |10H = PWM1TG2.
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* | | |11H = PWM1TG3.
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* | | |12H = PWM1TG4.
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* | | |13H = PWM1TG5.
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* | | |14H =BPWM0TG.
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* | | |15H =BPWM1TG.
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* | | |other = Reserved.
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* | | |NOTE: Refer PWM_EADCTS0, PWM_EADCTS1, BPWM_EADCTS0, BPWM_ EADCTS1 and TIMERn_CTL (n=0~3) to get more information for PWM, BPWM trigger and timer trigger.
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* |[22] |INTPOS |Interrupt Flag Position Select
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* | | |0 = Set ADIFn (EADC_STATUS2[n], n=0~3) at A/D end of conversion.
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* | | |1 = Set ADIFn (EADC_STATUS2[n], n=0~3) at A/D start of conversion.
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* |[31:24] |EXTSMPT |ADC Sampling Time Extend
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* | | |When A/D converting at high conversion rate, the sampling time of analog input voltage may not enough if input channel loading is heavy, user can extend A/D sampling time after trigger source is coming to get enough sampling time
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* | | |EXTSMPT can be set from 0~8'd251.
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* @var EADC_T::SCTL0[3]
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* Offset: 0xc0~0xC8 A/D Sample Module 16 ~ 18 Control Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[0] |PDMAEN |PDMA Transfer Enable Bit
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* | | |When ADC conversion is completed, the converted data is loaded into EADC_DATn (n: 16 ~ 18) register, user can enable this bit to generate a PDMA data transfer request.
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* | | |0 = PDMA data transfer Disabled.
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* | | |1 = PDMA data transfer Enabled.
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* | | |Note: When set this bit field to 1, user must set ADCIENn (EADC_CTL[5:2], n=0~3) = 0 to disable interrupt.
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* |[31:24] |EXTSMPT |ADC Sampling Time Extend
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* | | |When A/D converting at high conversion rate, the sampling time of analog input voltage may not enough if input channel loading is heavy, user can extend A/D sampling time after trigger source is coming to get enough sampling time
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* | | |EXTSMPT can be set from 0~8'd251.
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* @var EADC_T::INTSRC[4]
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* Offset: 0xD0~0xDC ADC Interrupt 0~4 Source Enable Control Register.
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[0] |SPLIE0 |Sample Module 0 Interrupt Enable Bit
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* | | |0 = Sample Module 0 interrupt Disabled.
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* | | |1 = Sample Module 0 interrupt Enabled.
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* |[1] |SPLIE1 |Sample Module 1 Interrupt Enable Bit
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* | | |0 = Sample Module 1 interrupt Disabled.
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* | | |1 = Sample Module 1 interrupt Enabled.
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* |[2] |SPLIE2 |Sample Module 2 Interrupt Enable Bit
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* | | |0 = Sample Module 2 interrupt Disabled.
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* | | |1 = Sample Module 2 interrupt Enabled.
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* |[3] |SPLIE3 |Sample Module 3 Interrupt Enable Bit
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* | | |0 = Sample Module 3 interrupt Disabled.
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* | | |1 = Sample Module 3 interrupt Enabled.
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* |[4] |SPLIE4 |Sample Module 4 Interrupt Enable Bit
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* | | |0 = Sample Module 4 interrupt Disabled.
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* | | |1 = Sample Module 4 interrupt Enabled.
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* |[5] |SPLIE5 |Sample Module 5 Interrupt Enable Bit
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* | | |0 = Sample Module 5 interrupt Disabled.
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* | | |1 = Sample Module 5 interrupt Enabled.
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* |[6] |SPLIE6 |Sample Module 6 Interrupt Enable Bit
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* | | |0 = Sample Module 6 interrupt Disabled.
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* | | |1 = Sample Module 6 interrupt Enabled.
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* |[7] |SPLIE7 |Sample Module 7 Interrupt Enable Bit
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* | | |0 = Sample Module 7 interrupt Disabled.
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* | | |1 = Sample Module 7 interrupt Enabled.
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* |[8] |SPLIE8 |Sample Module 8 Interrupt Enable Bit
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* | | |0 = Sample Module 8 interrupt Disabled.
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* | | |1 = Sample Module 8 interrupt Enabled.
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* |[9] |SPLIE9 |Sample Module 9 Interrupt Enable Bit
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* | | |0 = Sample Module 9 interrupt Disabled.
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* | | |1 = Sample Module 9 interrupt Enabled.
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* |[10] |SPLIE10 |Sample Module 10 Interrupt Enable Bit
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* | | |0 = Sample Module 10 interrupt Disabled.
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* | | |1 = Sample Module 10 interrupt Enabled.
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* |[11] |SPLIE11 |Sample Module 11 Interrupt Enable Bit
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* | | |0 = Sample Module 11 interrupt Disabled.
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* | | |1 = Sample Module 11 interrupt Enabled.
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* |[12] |SPLIE12 |Sample Module 12 Interrupt Enable Bit
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* | | |0 = Sample Module 12 interrupt Disabled.
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* | | |1 = Sample Module 12 interrupt Enabled.
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* |[13] |SPLIE13 |Sample Module 13 Interrupt Enable Bit
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* | | |0 = Sample Module 13 interrupt Disabled.
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* | | |1 = Sample Module 13 interrupt Enabled.
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* |[14] |SPLIE14 |Sample Module 14 Interrupt Enable Bit
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* | | |0 = Sample Module 14 interrupt Disabled.
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* | | |1 = Sample Module 14 interrupt Enabled.
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* |[15] |SPLIE15 |Sample Module 15 Interrupt Enable Bit
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* | | |0 = Sample Module 15 interrupt Disabled.
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* | | |1 = Sample Module 15 interrupt Enabled.
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* |[16] |SPLIE16 |Sample Module 16 Interrupt Enable Bit
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* | | |0 = Sample Module 16 interrupt Disabled.
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* | | |1 = Sample Module 16 interrupt Enabled.
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* |[17] |SPLIE17 |Sample Module 17 Interrupt Enable Bit
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* | | |0 = Sample Module 17 interrupt Disabled.
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* | | |1 = Sample Module 17 interrupt Enabled.
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* |[18] |SPLIE18 |Sample Module 18 Interrupt Enable Bit
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* | | |0 = Sample Module 18 interrupt Disabled.
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* | | |1 = Sample Module 18 interrupt Enabled.
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* @var EADC_T::CMP[4]
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* Offset: 0xE0~0xEC A/D Result Compare Register 0 ~ 3
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[0] |ADCMPEN |A/D Result Compare Enable Bit
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* | | |0 = Compare Disabled.
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* | | |1 = Compare Enabled.
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* | | |Set this bit to 1 to enable compare CMPDAT (EADC_CMPn[27:16], n=0~3) with specified sample module conversion result when converted data is loaded into EADC_DAT register.
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* |[1] |ADCMPIE |A/D Result Compare Interrupt Enable Bit
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* | | |0 = Compare function interrupt Disabled.
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* | | |1 = Compare function interrupt Enabled.
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* | | |If the compare function is enabled and the compare condition matches the setting of CMPCOND (EADC_CMPn[2], n=0~3) and CMPMCNT (EADC_CMPn[11:8], n=0~3), ADCMPFn (EADC_STATUS2[7:4], n=0~3) will be asserted, in the meanwhile, if ADCMPIE is set to 1, a compare interrupt request is generated.
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* |[2] |CMPCOND |Compare Condition
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* | | |0= Set the compare condition as that when a 12-bit A/D conversion result is less than the 12-bit CMPDAT (EADC_CMPn [27:16]), the internal match counter will increase one.
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* | | |1= Set the compare condition as that when a 12-bit A/D conversion result is greater or equal to the 12-bit CMPDAT (EADC_CMPn [27:16]), the internal match counter will increase one.
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* | | |Note: When the internal counter reaches the value to (CMPMCNT (EADC_CMPn[11:8], n=0~3) +1), the ADCMPFn bit will be set.
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* |[7:3] |CMPSPL |Compare Sample Module Selection
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* | | |00000 = Sample Module 0 conversion result EADC_DAT0 is selected to be compared.
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* | | |00001 = Sample Module 1 conversion result EADC_DAT1 is selected to be compared.
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* | | |00010 = Sample Module 2 conversion result EADC_DAT2 is selected to be compared.
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* | | |00011 = Sample Module 3 conversion result EADC_DAT3 is selected to be compared.
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* | | |00100 = Sample Module 4 conversion result EADC_DAT4 is selected to be compared.
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* | | |00101 = Sample Module 5 conversion result EADC_DAT5 is selected to be compared.
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* | | |00110 = Sample Module 6 conversion result EADC_DAT6 is selected to be compared.
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* | | |00111 = Sample Module 7 conversion result EADC_DAT7 is selected to be compared.
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* | | |01000 = Sample Module 8 conversion result EADC_DAT8 is selected to be compared.
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* | | |01001 = Sample Module 9 conversion result EADC_DAT9 is selected to be compared.
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* | | |01010 = Sample Module 10 conversion result EADC_DAT10 is selected to be compared.
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* | | |01011 = Sample Module 11 conversion result EADC_DAT11 is selected to be compared.
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* | | |01100 = Sample Module 12 conversion result EADC_DAT12 is selected to be compared.
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* | | |01101 = Sample Module 13 conversion result EADC_DAT13 is selected to be compared.
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* | | |01110 = Sample Module 14 conversion result EADC_DAT14 is selected to be compared.
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* | | |01111 = Sample Module 15 conversion result EADC_DAT15 is selected to be compared.
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* | | |10000 = Sample Module 16 conversion result EADC_DAT16 is selected to be compared.
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* | | |10001 = Sample Module 17 conversion result EADC_DAT17 is selected to be compared.
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* | | |10010 = Sample Module 18 conversion result EADC_DAT18 is selected to be compared.
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* |[11:8] |CMPMCNT |Compare Match Count
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* | | |When the specified A/D sample module analog conversion result matches the compare condition defined by CMPCOND (EADC_CMPn[2], n=0~3), the internal match counter will increase 1
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* | | |If the compare result does not meet the compare condition, the internal compare match counter will reset to 0
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* | | |When the internal counter reaches the value to (CMPMCNT +1), the ADCMPFn (EADC_STATUS2[7:4], n=0~3) will be set.
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* |[15] |CMPWEN |Compare Window Mode Enable Bit
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* | | |0 = ADCMPF0 (EADC_STATUS2[4]) will be set when EADC_CMP0 compared condition matched
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* | | |ADCMPF2 (EADC_STATUS2[6]) will be set when EADC_CMP2 compared condition matched
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* | | |1 = ADCMPF0 (EADC_STATUS2[4]) will be set when both EADC_CMP0 and EADC_CMP1 compared condition matched
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* | | |ADCMPF2 (EADC_STATUS2[6]) will be set when both EADC_CMP2 and EADC_CMP3 compared condition matched.
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* | | |Note: This bit is only present in EADC_CMP0 and EADC_CMP2 register.
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* |[27:16] |CMPDAT |Comparison Data
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* | | |The 12 bits data is used to compare with conversion result of specified sample module
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* | | |User can use it to monitor the external analog input pin voltage transition without imposing a load on software.
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* @var EADC_T::STATUS0
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* Offset: 0xF0 A/D Status Register 0
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[15:0] |VALID |EADC_DAT0~15 Data Valid Flag
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* | | |It is a mirror of VALID bit in sample module A/D result data register EADC_DATn. (n=0~15).
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* |[31:16] |OV |EADC_DAT0~15 Overrun Flag
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* | | |It is a mirror to OV bit in sample module A/D result data register EADC_DATn. (n=0~15).
|
|
* @var EADC_T::STATUS1
|
|
* Offset: 0xF4 A/D Status Register 1
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[2:0] |VALID |EADC_DAT16~18 Data Valid Flag
|
|
* | | |It is a mirror of VALID bit in sample module A/D result data register EADC_DATn. (n=16~18).
|
|
* |[18:16] |OV |EADC_DAT16~18 Overrun Flag
|
|
* | | |It is a mirror to OV bit in sample module A/D result data register EADC_DATn. (n=16~18).
|
|
* @var EADC_T::STATUS2
|
|
* Offset: 0xF8 A/D Status Register 2
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[0] |ADIF0 |A/D ADINT0 Interrupt Flag
|
|
* | | |0 = No ADINT0 interrupt pulse received.
|
|
* | | |1 = ADINT0 interrupt pulse has been received.
|
|
* | | |Note1: This bit is cleared by writing 1 to it.
|
|
* | | |Note2:This bit indicates whether an A/D conversion of specific sample module has been completed
|
|
* |[1] |ADIF1 |A/D ADINT1 Interrupt Flag
|
|
* | | |0 = No ADINT1 interrupt pulse received.
|
|
* | | |1 = ADINT1 interrupt pulse has been received.
|
|
* | | |Note1: This bit is cleared by writing 1 to it.
|
|
* | | |Note2:This bit indicates whether an A/D conversion of specific sample module has been completed
|
|
* |[2] |ADIF2 |A/D ADINT2 Interrupt Flag
|
|
* | | |0 = No ADINT2 interrupt pulse received.
|
|
* | | |1 = ADINT2 interrupt pulse has been received.
|
|
* | | |Note1: This bit is cleared by writing 1 to it.
|
|
* | | |Note2:This bit indicates whether an A/D conversion of specific sample module has been completed
|
|
* |[3] |ADIF3 |A/D ADINT3 Interrupt Flag
|
|
* | | |0 = No ADINT3 interrupt pulse received.
|
|
* | | |1 = ADINT3 interrupt pulse has been received.
|
|
* | | |Note1: This bit is cleared by writing 1 to it.
|
|
* | | |Note2:This bit indicates whether an A/D conversion of specific sample module has been completed
|
|
* |[4] |ADCMPF0 |ADC Compare 0 Flag
|
|
* | | |When the specific sample module A/D conversion result meets setting condition in EADC_CMP0 then this bit is set to 1.
|
|
* | | |0 = Conversion result in EADC_DAT does not meet EADC_CMP0 register setting.
|
|
* | | |1 = Conversion result in EADC_DAT meets EADC_CMP0 register setting.
|
|
* | | |Note: This bit is cleared by writing 1 to it.
|
|
* |[5] |ADCMPF1 |ADC Compare 1 Flag
|
|
* | | |When the specific sample module A/D conversion result meets setting condition in EADC_CMP1 then this bit is set to 1.
|
|
* | | |0 = Conversion result in EADC_DAT does not meet EADC_CMP1 register setting.
|
|
* | | |1 = Conversion result in EADC_DAT meets EADC_CMP1 register setting.
|
|
* | | |Note: This bit is cleared by writing 1 to it.
|
|
* |[6] |ADCMPF2 |ADC Compare 2 Flag
|
|
* | | |When the specific sample module A/D conversion result meets setting condition in EADC_CMP2 then this bit is set to 1.
|
|
* | | |0 = Conversion result in EADC_DAT does not meet EADC_CMP2 register setting.
|
|
* | | |1 = Conversion result in EADC_DAT meets EADC_CMP2 register setting.
|
|
* | | |Note: This bit is cleared by writing 1 to it.
|
|
* |[7] |ADCMPF3 |ADC Compare 3 Flag
|
|
* | | |When the specific sample module A/D conversion result meets setting condition in EADC_CMP3 then this bit is set to 1.
|
|
* | | |0 = Conversion result in EADC_DAT does not meet EADC_CMP3 register setting.
|
|
* | | |1 = Conversion result in EADC_DAT meets EADC_CMP3 register setting.
|
|
* | | |Note: This bit is cleared by writing 1 to it.
|
|
* |[8] |ADOVIF0 |A/D ADINT0 Interrupt Flag Overrun
|
|
* | | |0 = ADINT0 interrupt flag is not overwritten to 1.
|
|
* | | |1 = ADINT0 interrupt flag is overwritten to 1.
|
|
* | | |Note: This bit is cleared by writing 1 to it.
|
|
* |[9] |ADOVIF1 |A/D ADINT1 Interrupt Flag Overrun
|
|
* | | |0 = ADINT1 interrupt flag is not overwritten to 1.
|
|
* | | |1 = ADINT1 interrupt flag is overwritten to 1.
|
|
* | | |Note: This bit is cleared by writing 1 to it.
|
|
* |[10] |ADOVIF2 |A/D ADINT2 Interrupt Flag Overrun
|
|
* | | |0 = ADINT2 interrupt flag is not overwritten to 1.
|
|
* | | |1 = ADINT2 interrupt flag is overwritten to 1.
|
|
* | | |Note: This bit is cleared by writing 1 to it.
|
|
* |[11] |ADOVIF3 |A/D ADINT3 Interrupt Flag Overrun
|
|
* | | |0 = ADINT3 interrupt flag is not overwritten to 1.
|
|
* | | |1 = ADINT3 interrupt flag is overwritten to 1.
|
|
* | | |Note: This bit is cleared by writing 1 to it.
|
|
* |[12] |ADCMPO0 |ADC Compare 0 Output Status
|
|
* | | |The 12 bits compare0 data CMPDAT0 (EADC_CMP0[27:16]) is used to compare with conversion result of specified sample module
|
|
* | | |User can use it to monitor the external analog input pin voltage status.
|
|
* | | |0 = Conversion result in EADC_DAT less than CMPDAT0 setting.
|
|
* | | |1 = Conversion result in EADC_DAT great than or equal CMPDAT0 setting.
|
|
* |[13] |ADCMPO1 |ADC Compare 1 Output Status
|
|
* | | |The 12 bits compare1 data CMPDAT1 (EADC_CMP1[27:16]) is used to compare with conversion result of specified sample module
|
|
* | | |User can use it to monitor the external analog input pin voltage status.
|
|
* | | |0 = Conversion result in EADC_DAT less than CMPDAT1 setting.
|
|
* | | |1 = Conversion result in EADC_DAT great than or equal CMPDAT1 setting.
|
|
* |[14] |ADCMPO2 |ADC Compare 2 Output Status
|
|
* | | |The 12 bits compare2 data CMPDAT2 (EADC_CMP2[27:16]) is used to compare with conversion result of specified sample module
|
|
* | | |User can use it to monitor the external analog input pin voltage status.
|
|
* | | |0 = Conversion result in EADC_DAT less than CMPDAT2 setting.
|
|
* | | |1 = Conversion result in EADC_DAT great than or equal CMPDAT2 setting.
|
|
* |[15] |ADCMPO3 |ADC Compare 3 Output Status
|
|
* | | |The 12 bits compare3 data CMPDAT3 (EADC_CMP3[27:16]) is used to compare with conversion result of specified sample module
|
|
* | | |User can use it to monitor the external analog input pin voltage status.
|
|
* | | |0 = Conversion result in EADC_DAT less than CMPDAT3 setting.
|
|
* | | |1 = Conversion result in EADC_DAT great than or equal CMPDAT3 setting.
|
|
* |[20:16] |CHANNEL |Current Conversion Channel
|
|
* | | |This filed reflects ADC current conversion channel when BUSY=1.
|
|
* | | |It is read only.
|
|
* | | |00H = EADC_CH0.
|
|
* | | |01H = EADC_CH1.
|
|
* | | |02H = EADC_CH2.
|
|
* | | |03H = EADC_CH3.
|
|
* | | |04H = EADC_CH4.
|
|
* | | |05H = EADC_CH5.
|
|
* | | |06H = EADC_CH6.
|
|
* | | |07H = EADC_CH7.
|
|
* | | |08H = EADC_CH8.
|
|
* | | |09H = EADC_CH9.
|
|
* | | |0AH = EADC_CH10.
|
|
* | | |0BH = EADC_CH11.
|
|
* | | |0CH = EADC_CH12.
|
|
* | | |0DH = EADC_CH13.
|
|
* | | |0EH = EADC_CH14.
|
|
* | | |0FH = EADC_CH15.
|
|
* | | |10H = VBG.
|
|
* | | |11H = VTEMP.
|
|
* | | |12H = VBAT/4.
|
|
* | | |Note: These bit are read only.
|
|
* |[23] |BUSY |A/D Conveter Busy/Idle Status
|
|
* | | |0 = EADC is in idle state.
|
|
* | | |1 = EADC is busy for sample or conversion.
|
|
* | | |Note: This bit is read only
|
|
* | | |Once trigger source is coming, it must wait 2 ADC_CLK synchronization then the BUSY status will be high
|
|
* | | |This status will be high to low when the current conversion done.
|
|
* |[24] |ADOVIF |All A/D Interrupt Flag Overrun Bits Check
|
|
* | | |n=0~3.
|
|
* | | |0 = None of ADINT interrupt flag ADOVIFn (EADC_STATUS2[11:8]) is overwritten to 1.
|
|
* | | |1 = Any one of ADINT interrupt flag ADOVIFn (EADC_STATUS2[11:8]) is overwritten to 1.
|
|
* | | |Note: This bit will keep 1 when any ADOVIFn Flag is equal to 1.
|
|
* |[25] |STOVF |for All A/D Sample Module Start of Conversion Overrun Flags Check
|
|
* | | |n=0~18.
|
|
* | | |0 = None of sample module event overrun flag SPOVFn (EADC_OVSTS[n]) is set to 1.
|
|
* | | |1 = Any one of sample module event overrun flag SPOVFn (EADC_OVSTS[n]) is set to 1.
|
|
* | | |Note: This bit will keep 1 when any SPOVFn Flag is equal to 1.
|
|
* |[26] |AVALID |for All Sample Module A/D Result Data Register EADC_DAT Data Valid Flag Check
|
|
* | | |n=0~18.
|
|
* | | |0 = None of sample module data register valid flag VALIDn (EADC_DATn[17]) is set to 1.
|
|
* | | |1 = Any one of sample module data register valid flag VALIDn (EADC_DATn[17]) is set to 1.
|
|
* | | |Note: This bit will keep 1 when any VALIDn Flag is equal to 1.
|
|
* |[27] |AOV |for All Sample Module A/D Result Data Register Overrun Flags Check
|
|
* | | |n=0~18.
|
|
* | | |0 = None of sample module data register overrun flag OVn (EADC_DATn[16]) is set to 1.
|
|
* | | |1 = Any one of sample module data register overrun flag OVn (EADC_DATn[16]) is set to 1.
|
|
* | | |Note: This bit will keep 1 when any OVn Flag is equal to 1.
|
|
* @var EADC_T::STATUS3
|
|
* Offset: 0xFC A/D Status Register 3
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[4:0] |CURSPL |ADC Current Sample Module
|
|
* | | |This register show the current ADC is controlled by which sample module control logic modules.
|
|
* | | |If the ADC is Idle, this bit filed will set to 0x1F.
|
|
* | | |Note: This is a read only register.
|
|
* @var EADC_T::PWRCTL
|
|
* Offset: 0x110 ADC Power Management Control Register
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[0] |READY |ADC Start-up Completely and Ready for Conversion (Read Only)
|
|
* | | |0 = Power-on sequence is still in progress.
|
|
* | | |1 = ADC is ready for conversion.
|
|
* |[5] |AUTOFF |Auto Off Mode
|
|
* | | |0 = Function of auto off disabled.
|
|
* | | |1 = Function of auto off enabled
|
|
* | | |When AUTOFF is set to 1, ADC will be power off automatically to save power
|
|
* |[19:8] |STUPT |ADC Start-up Time
|
|
* | | |Set this bit fields to adjust start-up time. The minimum start-up time of ADC is 10us.
|
|
* | | |ADC start-up time = (1/ADC_CLK) x STUPT.
|
|
* |[23:20] |AUTOPDTHT |Auto Power Down Threshold Time
|
|
* | | |Auto Power Down Threshold Time = (1/ADC_CLK) x AUTOPDTHT.
|
|
* | | |0111 = 8 ADC clock for power down threshold time.
|
|
* | | |1000 = 16 ADC clock for power down threshold time.
|
|
* | | |1001 = 32 ADC clock for power down threshold time.
|
|
* | | |1010 = 64 ADC clock for power down threshold time.
|
|
* | | |1011 = 128 ADC clock for power down threshold time.
|
|
* | | |1100 = 256 ADC clock for power down threshold time.
|
|
* | | |Others = 256 ADC clock for power down threshold time.
|
|
* @var EADC_T::PDMACTL
|
|
* Offset: 0x130 ADC PDMA Control Rgister
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[18:0] |PDMATEN |PDMA Transfer Enable Bit
|
|
* | | |When ADC conversion is completed, the converted data is loaded into EADC_DATn (n: 0 ~ 18) register, user can enable this bit to generate a PDMA data transfer request.
|
|
* | | |0 = PDMA data transfer Disabled.
|
|
* | | |1 = PDMA data transfer Enabled.
|
|
* | | |Note: When set this bit field to 1, user must set ADCIENn (EADC_CTL[5:2], n=0~3) = 0 to disable interrupt.
|
|
* @var EADC_T::MCTL1[16]
|
|
* Offset: 0x140~0x17C A/D Sample Module 0~15 Control Register 1
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[0] |ALIGN |Alignment Selection
|
|
* | | |0 = The conversion result will be right aligned in data register.
|
|
* | | |1 = The conversion result will be left aligned in data register.
|
|
* |[1] |AVG |Average Mode Selection
|
|
* | | |0 = Conversion results will be stored in data register without averaging.
|
|
* | | |1 = Conversion results in data register will be averaged.
|
|
* | | |This bit needs to work with ACU (EADC_MnCTL1[7:4], n=0~15).
|
|
* |[7:4] |ACU |Number of Accumulated Conversion Results Selection
|
|
* | | |0H = 1 conversion result will be accumulated.
|
|
* | | |1H = 2 conversion result will be accumulated.
|
|
* | | |2H = 4 conversion result will be accumulated.
|
|
* | | |3H = 8 conversion result will be accumulated.
|
|
* | | |4H = 16 conversion result will be accumulated.
|
|
* | | |5H = 32 conversion result will be accumulated.
|
|
* | | |6H = 64 conversion result will be accumulated.
|
|
* | | |7H = 128 conversion result will be accumulated.
|
|
* | | |8H = 256 conversion result will be accumulated.
|
|
*/
|
|
__I uint32_t DAT[19]; /*!< [0x0000~0x0048] A/D Data Register n for Sample Module n, n=0~18 */
|
|
__I uint32_t CURDAT; /*!< [0x004c] EADC PDMA Current Transfer Data Register */
|
|
__IO uint32_t CTL; /*!< [0x0050] A/D Control Register */
|
|
__O uint32_t SWTRG; /*!< [0x0054] A/D Sample Module Software Start Register */
|
|
__IO uint32_t PENDSTS; /*!< [0x0058] A/D Start of Conversion Pending Flag Register */
|
|
__IO uint32_t OVSTS; /*!< [0x005c] A/D Sample Module Start of Conversion Overrun Flag Register */
|
|
/// @cond HIDDEN_SYMBOLS
|
|
__I uint32_t RESERVE0[8];
|
|
/// @endcond //HIDDEN_SYMBOLS
|
|
__IO uint32_t SCTL[16]; /*!< [0x0080~0x00bc] A/D Sample Module n Control Register n=0~15 */
|
|
__IO uint32_t SCTL0[3]; /*!< [0x00c0~0x00c8] A/D Sample Module n Control Register n=16~18 */
|
|
/// @cond HIDDEN_SYMBOLS
|
|
__I uint32_t RESERVE1[1];
|
|
/// @endcond //HIDDEN_SYMBOLS
|
|
__IO uint32_t INTSRC[4]; /*!< [0x00d0~0x00dc] ADC Interrupt n Source Enable Control Register. n=0~3 */
|
|
__IO uint32_t CMP[4]; /*!< [0x00e0~0x00ec] A/D Result Compare Register n, n=0~3 */
|
|
__I uint32_t STATUS0; /*!< [0x00f0] A/D Status Register 0 */
|
|
__I uint32_t STATUS1; /*!< [0x00f4] A/D Status Register 1 */
|
|
__IO uint32_t STATUS2; /*!< [0x00f8] A/D Status Register 2 */
|
|
__I uint32_t STATUS3; /*!< [0x00fc] A/D Status Register 3 */
|
|
/// @cond HIDDEN_SYMBOLS
|
|
__I uint32_t RESERVE2[4];
|
|
/// @endcond //HIDDEN_SYMBOLS
|
|
__IO uint32_t PWRCTL; /*!< [0x0110] ADC Power Management Control Register */
|
|
/// @cond HIDDEN_SYMBOLS
|
|
__I uint32_t RESERVE3[7];
|
|
/// @endcond //HIDDEN_SYMBOLS
|
|
__IO uint32_t PDMACTL; /*!< [0x0130] ADC PDMA Control Rgister */
|
|
/// @cond HIDDEN_SYMBOLS
|
|
__I uint32_t RESERVE4[3];
|
|
/// @endcond //HIDDEN_SYMBOLS
|
|
__IO uint32_t MCTL1[16]; /*!< [0x0140~0x017c] A/D Sample Module n Control Register 1, n=0~15 */
|
|
} EADC_T;
|
|
|
|
/**
|
|
@addtogroup EADC_CONST EADC Bit Field Definition
|
|
Constant Definitions for EADC Controller
|
|
@{ */
|
|
|
|
#define EADC_DAT_RESULT_Pos (0) /*!< EADC_T::DATn: RESULT Position */
|
|
#define EADC_DAT_RESULT_Msk (0xfffful << EADC_DAT_RESULT_Pos) /*!< EADC_T::DATn: RESULT Mask */
|
|
|
|
#define EADC_DAT_OV_Pos (16) /*!< EADC_T::DATn: OV Position */
|
|
#define EADC_DAT_OV_Msk (0x1ul << EADC_DAT_OV_Pos) /*!< EADC_T::DATn: OV Mask */
|
|
|
|
#define EADC_DAT_VALID_Pos (17) /*!< EADC_T::DATn: VALID Position */
|
|
#define EADC_DAT_VALID_Msk (0x1ul << EADC_DAT_VALID_Pos) /*!< EADC_T::DATn: VALID Mask */
|
|
|
|
#define EADC_CURDAT_CURDAT_Pos (0) /*!< EADC_T::CURDAT: CURDAT Position */
|
|
#define EADC_CURDAT_CURDAT_Msk (0x3fffful << EADC_CURDAT_CURDAT_Pos) /*!< EADC_T::CURDAT: CURDAT Mask */
|
|
|
|
#define EADC_CTL_ADCEN_Pos (0) /*!< EADC_T::CTL: ADCEN Position */
|
|
#define EADC_CTL_ADCEN_Msk (0x1ul << EADC_CTL_ADCEN_Pos) /*!< EADC_T::CTL: ADCEN Mask */
|
|
|
|
#define EADC_CTL_ADCRST_Pos (1) /*!< EADC_T::CTL: ADCRST Position */
|
|
#define EADC_CTL_ADCRST_Msk (0x1ul << EADC_CTL_ADCRST_Pos) /*!< EADC_T::CTL: ADCRST Mask */
|
|
|
|
#define EADC_CTL_ADCIEN0_Pos (2) /*!< EADC_T::CTL: ADCIEN0 Position */
|
|
#define EADC_CTL_ADCIEN0_Msk (0x1ul << EADC_CTL_ADCIEN0_Pos) /*!< EADC_T::CTL: ADCIEN0 Mask */
|
|
|
|
#define EADC_CTL_ADCIEN1_Pos (3) /*!< EADC_T::CTL: ADCIEN1 Position */
|
|
#define EADC_CTL_ADCIEN1_Msk (0x1ul << EADC_CTL_ADCIEN1_Pos) /*!< EADC_T::CTL: ADCIEN1 Mask */
|
|
|
|
#define EADC_CTL_ADCIEN2_Pos (4) /*!< EADC_T::CTL: ADCIEN2 Position */
|
|
#define EADC_CTL_ADCIEN2_Msk (0x1ul << EADC_CTL_ADCIEN2_Pos) /*!< EADC_T::CTL: ADCIEN2 Mask */
|
|
|
|
#define EADC_CTL_ADCIEN3_Pos (5) /*!< EADC_T::CTL: ADCIEN3 Position */
|
|
#define EADC_CTL_ADCIEN3_Msk (0x1ul << EADC_CTL_ADCIEN3_Pos) /*!< EADC_T::CTL: ADCIEN3 Mask */
|
|
|
|
#define EADC_SWTRG_SWTRG_Pos (0) /*!< EADC_T::SWTRG: SWTRG Position */
|
|
#define EADC_SWTRG_SWTRG_Msk (0x7fffful << EADC_SWTRG_SWTRG_Pos) /*!< EADC_T::SWTRG: SWTRG Mask */
|
|
|
|
#define EADC_PENDSTS_STPF_Pos (0) /*!< EADC_T::PENDSTS: STPF Position */
|
|
#define EADC_PENDSTS_STPF_Msk (0x7fffful << EADC_PENDSTS_STPF_Pos) /*!< EADC_T::PENDSTS: STPF Mask */
|
|
|
|
#define EADC_OVSTS_SPOVF_Pos (0) /*!< EADC_T::OVSTS: SPOVF Position */
|
|
#define EADC_OVSTS_SPOVF_Msk (0x7fffful << EADC_OVSTS_SPOVF_Pos) /*!< EADC_T::OVSTS: SPOVF Mask */
|
|
|
|
#define EADC_SCTL_CHSEL_Pos (0) /*!< EADC_T::SCTLn: CHSEL Position */
|
|
#define EADC_SCTL_CHSEL_Msk (0xful << EADC_SCTL_CHSEL_Pos) /*!< EADC_T::SCTLn: CHSEL Mask */
|
|
|
|
#define EADC_SCTL_EXTREN_Pos (4) /*!< EADC_T::SCTLn: EXTREN Position */
|
|
#define EADC_SCTL_EXTREN_Msk (0x1ul << EADC_SCTL_EXTREN_Pos) /*!< EADC_T::SCTLn: EXTREN Mask */
|
|
|
|
#define EADC_SCTL_EXTFEN_Pos (5) /*!< EADC_T::SCTLn: EXTFEN Position */
|
|
#define EADC_SCTL_EXTFEN_Msk (0x1ul << EADC_SCTL_EXTFEN_Pos) /*!< EADC_T::SCTLn: EXTFEN Mask */
|
|
|
|
#define EADC_SCTL_TRGDLYDIV_Pos (6) /*!< EADC_T::SCTLn: TRGDLYDIV Position */
|
|
#define EADC_SCTL_TRGDLYDIV_Msk (0x3ul << EADC_SCTL_TRGDLYDIV_Pos) /*!< EADC_T::SCTLn: TRGDLYDIV Mask */
|
|
|
|
#define EADC_SCTL_TRGDLYCNT_Pos (8) /*!< EADC_T::SCTLn: TRGDLYCNT Position */
|
|
#define EADC_SCTL_TRGDLYCNT_Msk (0xfful << EADC_SCTL_TRGDLYCNT_Pos) /*!< EADC_T::SCTLn: TRGDLYCNT Mask */
|
|
|
|
#define EADC_SCTL_TRGSEL_Pos (16) /*!< EADC_T::SCTLn: TRGSEL Position */
|
|
#define EADC_SCTL_TRGSEL_Msk (0x1ful << EADC_SCTL_TRGSEL_Pos) /*!< EADC_T::SCTLn: TRGSEL Mask */
|
|
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#define EADC_SCTL_INTPOS_Pos (22) /*!< EADC_T::SCTLn: INTPOS Position */
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#define EADC_SCTL_INTPOS_Msk (0x1ul << EADC_SCTL_INTPOS_Pos) /*!< EADC_T::SCTLn: INTPOS Mask */
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#define EADC_SCTL_EXTSMPT_Pos (24) /*!< EADC_T::SCTLn: EXTSMPT Position */
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#define EADC_SCTL_EXTSMPT_Msk (0xfful << EADC_SCTL_EXTSMPT_Pos) /*!< EADC_T::SCTLn: EXTSMPT Mask */
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#define EADC_SCTL0_EXTSMPT_Pos (24) /*!< EADC_T::SCTL0n: EXTSMPT Position */
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#define EADC_SCTL0_EXTSMPT_Msk (0xfful << EADC_SCTL0_EXTSMPT_Pos) /*!< EADC_T::SCTL0n: EXTSMPT Mask */
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#define EADC_INTSRC_SPLIE0_Pos (0) /*!< EADC_T::INTSRCn: SPLIE0 Position */
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#define EADC_INTSRC_SPLIE0_Msk (0x1ul << EADC_INTSRC_SPLIE0_Pos) /*!< EADC_T::INTSRCn: SPLIE0 Mask */
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#define EADC_INTSRC_SPLIE1_Pos (1) /*!< EADC_T::INTSRCn: SPLIE1 Position */
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#define EADC_INTSRC_SPLIE1_Msk (0x1ul << EADC_INTSRC_SPLIE1_Pos) /*!< EADC_T::INTSRCn: SPLIE1 Mask */
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#define EADC_INTSRC_SPLIE2_Pos (2) /*!< EADC_T::INTSRCn: SPLIE2 Position */
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#define EADC_INTSRC_SPLIE2_Msk (0x1ul << EADC_INTSRC_SPLIE2_Pos) /*!< EADC_T::INTSRCn: SPLIE2 Mask */
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#define EADC_INTSRC_SPLIE3_Pos (3) /*!< EADC_T::INTSRCn: SPLIE3 Position */
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#define EADC_INTSRC_SPLIE3_Msk (0x1ul << EADC_INTSRC_SPLIE3_Pos) /*!< EADC_T::INTSRCn: SPLIE3 Mask */
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#define EADC_INTSRC_SPLIE4_Pos (4) /*!< EADC_T::INTSRCn: SPLIE4 Position */
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#define EADC_INTSRC_SPLIE4_Msk (0x1ul << EADC_INTSRC_SPLIE4_Pos) /*!< EADC_T::INTSRCn: SPLIE4 Mask */
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#define EADC_INTSRC_SPLIE5_Pos (5) /*!< EADC_T::INTSRCn: SPLIE5 Position */
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#define EADC_INTSRC_SPLIE5_Msk (0x1ul << EADC_INTSRC_SPLIE5_Pos) /*!< EADC_T::INTSRCn: SPLIE5 Mask */
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#define EADC_INTSRC_SPLIE6_Pos (6) /*!< EADC_T::INTSRCn: SPLIE6 Position */
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#define EADC_INTSRC_SPLIE6_Msk (0x1ul << EADC_INTSRC_SPLIE6_Pos) /*!< EADC_T::INTSRCn: SPLIE6 Mask */
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#define EADC_INTSRC_SPLIE7_Pos (7) /*!< EADC_T::INTSRCn: SPLIE7 Position */
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#define EADC_INTSRC_SPLIE7_Msk (0x1ul << EADC_INTSRC_SPLIE7_Pos) /*!< EADC_T::INTSRCn: SPLIE7 Mask */
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#define EADC_INTSRC_SPLIE8_Pos (8) /*!< EADC_T::INTSRCn: SPLIE8 Position */
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#define EADC_INTSRC_SPLIE8_Msk (0x1ul << EADC_INTSRC_SPLIE8_Pos) /*!< EADC_T::INTSRCn: SPLIE8 Mask */
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#define EADC_INTSRC_SPLIE9_Pos (9) /*!< EADC_T::INTSRCn: SPLIE9 Position */
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#define EADC_INTSRC_SPLIE9_Msk (0x1ul << EADC_INTSRC_SPLIE9_Pos) /*!< EADC_T::INTSRCn: SPLIE9 Mask */
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#define EADC_INTSRC_SPLIE10_Pos (10) /*!< EADC_T::INTSRCn: SPLIE10 Position */
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#define EADC_INTSRC_SPLIE10_Msk (0x1ul << EADC_INTSRC_SPLIE10_Pos) /*!< EADC_T::INTSRCn: SPLIE10 Mask */
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#define EADC_INTSRC_SPLIE11_Pos (11) /*!< EADC_T::INTSRCn: SPLIE11 Position */
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#define EADC_INTSRC_SPLIE11_Msk (0x1ul << EADC_INTSRC_SPLIE11_Pos) /*!< EADC_T::INTSRCn: SPLIE11 Mask */
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#define EADC_INTSRC_SPLIE12_Pos (12) /*!< EADC_T::INTSRCn: SPLIE12 Position */
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#define EADC_INTSRC_SPLIE12_Msk (0x1ul << EADC_INTSRC_SPLIE12_Pos) /*!< EADC_T::INTSRCn: SPLIE12 Mask */
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#define EADC_INTSRC_SPLIE13_Pos (13) /*!< EADC_T::INTSRCn: SPLIE13 Position */
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#define EADC_INTSRC_SPLIE13_Msk (0x1ul << EADC_INTSRC_SPLIE13_Pos) /*!< EADC_T::INTSRCn: SPLIE13 Mask */
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#define EADC_INTSRC_SPLIE14_Pos (14) /*!< EADC_T::INTSRCn: SPLIE14 Position */
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#define EADC_INTSRC_SPLIE14_Msk (0x1ul << EADC_INTSRC_SPLIE14_Pos) /*!< EADC_T::INTSRCn: SPLIE14 Mask */
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#define EADC_INTSRC_SPLIE15_Pos (15) /*!< EADC_T::INTSRCn: SPLIE15 Position */
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#define EADC_INTSRC_SPLIE15_Msk (0x1ul << EADC_INTSRC_SPLIE15_Pos) /*!< EADC_T::INTSRCn: SPLIE15 Mask */
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#define EADC_INTSRC_SPLIE16_Pos (16) /*!< EADC_T::INTSRCn: SPLIE16 Position */
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#define EADC_INTSRC_SPLIE16_Msk (0x1ul << EADC_INTSRC_SPLIE16_Pos) /*!< EADC_T::INTSRCn: SPLIE16 Mask */
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#define EADC_INTSRC_SPLIE17_Pos (17) /*!< EADC_T::INTSRCn: SPLIE17 Position */
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#define EADC_INTSRC_SPLIE17_Msk (0x1ul << EADC_INTSRC_SPLIE17_Pos) /*!< EADC_T::INTSRCn: SPLIE17 Mask */
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#define EADC_INTSRC_SPLIE18_Pos (18) /*!< EADC_T::INTSRCn: SPLIE18 Position */
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#define EADC_INTSRC_SPLIE18_Msk (0x1ul << EADC_INTSRC_SPLIE18_Pos) /*!< EADC_T::INTSRCn: SPLIE18 Mask */
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#define EADC_CMP_ADCMPEN_Pos (0) /*!< EADC_T::CMPn: ADCMPEN Position */
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#define EADC_CMP_ADCMPEN_Msk (0x1ul << EADC_CMP_ADCMPEN_Pos) /*!< EADC_T::CMPn: ADCMPEN Mask */
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#define EADC_CMP_ADCMPIE_Pos (1) /*!< EADC_T::CMPn: ADCMPIE Position */
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#define EADC_CMP_ADCMPIE_Msk (0x1ul << EADC_CMP_ADCMPIE_Pos) /*!< EADC_T::CMPn: ADCMPIE Mask */
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#define EADC_CMP_CMPCOND_Pos (2) /*!< EADC_T::CMPn: CMPCOND Position */
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#define EADC_CMP_CMPCOND_Msk (0x1ul << EADC_CMP_CMPCOND_Pos) /*!< EADC_T::CMPn: CMPCOND Mask */
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#define EADC_CMP_CMPSPL_Pos (3) /*!< EADC_T::CMPn: CMPSPL Position */
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#define EADC_CMP_CMPSPL_Msk (0x1ful << EADC_CMP_CMPSPL_Pos) /*!< EADC_T::CMPn: CMPSPL Mask */
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#define EADC_CMP_CMPMCNT_Pos (8) /*!< EADC_T::CMPn: CMPMCNT Position */
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#define EADC_CMP_CMPMCNT_Msk (0xful << EADC_CMP_CMPMCNT_Pos) /*!< EADC_T::CMPn: CMPMCNT Mask */
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#define EADC_CMP_CMPWEN_Pos (15) /*!< EADC_T::CMPn: CMPWEN Position */
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#define EADC_CMP_CMPWEN_Msk (0x1ul << EADC_CMP_CMPWEN_Pos) /*!< EADC_T::CMPn: CMPWEN Mask */
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#define EADC_CMP_CMPDAT_Pos (16) /*!< EADC_T::CMPn: CMPDAT Position */
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#define EADC_CMP_CMPDAT_Msk (0xffful << EADC_CMP_CMPDAT_Pos) /*!< EADC_T::CMPn: CMPDAT Mask */
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#define EADC_STATUS0_VALID_Pos (0) /*!< EADC_T::STATUS0: VALID Position */
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#define EADC_STATUS0_VALID_Msk (0xfffful << EADC_STATUS0_VALID_Pos) /*!< EADC_T::STATUS0: VALID Mask */
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#define EADC_STATUS0_OV_Pos (16) /*!< EADC_T::STATUS0: OV Position */
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#define EADC_STATUS0_OV_Msk (0xfffful << EADC_STATUS0_OV_Pos) /*!< EADC_T::STATUS0: OV Mask */
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#define EADC_STATUS1_VALID_Pos (0) /*!< EADC_T::STATUS1: VALID Position */
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#define EADC_STATUS1_VALID_Msk (0x7ul << EADC_STATUS1_VALID_Pos) /*!< EADC_T::STATUS1: VALID Mask */
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#define EADC_STATUS1_OV_Pos (16) /*!< EADC_T::STATUS1: OV Position */
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#define EADC_STATUS1_OV_Msk (0x7ul << EADC_STATUS1_OV_Pos) /*!< EADC_T::STATUS1: OV Mask */
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#define EADC_STATUS2_ADIF0_Pos (0) /*!< EADC_T::STATUS2: ADIF0 Position */
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#define EADC_STATUS2_ADIF0_Msk (0x1ul << EADC_STATUS2_ADIF0_Pos) /*!< EADC_T::STATUS2: ADIF0 Mask */
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#define EADC_STATUS2_ADIF1_Pos (1) /*!< EADC_T::STATUS2: ADIF1 Position */
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#define EADC_STATUS2_ADIF1_Msk (0x1ul << EADC_STATUS2_ADIF1_Pos) /*!< EADC_T::STATUS2: ADIF1 Mask */
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#define EADC_STATUS2_ADIF2_Pos (2) /*!< EADC_T::STATUS2: ADIF2 Position */
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#define EADC_STATUS2_ADIF2_Msk (0x1ul << EADC_STATUS2_ADIF2_Pos) /*!< EADC_T::STATUS2: ADIF2 Mask */
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#define EADC_STATUS2_ADIF3_Pos (3) /*!< EADC_T::STATUS2: ADIF3 Position */
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#define EADC_STATUS2_ADIF3_Msk (0x1ul << EADC_STATUS2_ADIF3_Pos) /*!< EADC_T::STATUS2: ADIF3 Mask */
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#define EADC_STATUS2_ADCMPF0_Pos (4) /*!< EADC_T::STATUS2: ADCMPF0 Position */
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#define EADC_STATUS2_ADCMPF0_Msk (0x1ul << EADC_STATUS2_ADCMPF0_Pos) /*!< EADC_T::STATUS2: ADCMPF0 Mask */
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#define EADC_STATUS2_ADCMPF1_Pos (5) /*!< EADC_T::STATUS2: ADCMPF1 Position */
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#define EADC_STATUS2_ADCMPF1_Msk (0x1ul << EADC_STATUS2_ADCMPF1_Pos) /*!< EADC_T::STATUS2: ADCMPF1 Mask */
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#define EADC_STATUS2_ADCMPF2_Pos (6) /*!< EADC_T::STATUS2: ADCMPF2 Position */
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#define EADC_STATUS2_ADCMPF2_Msk (0x1ul << EADC_STATUS2_ADCMPF2_Pos) /*!< EADC_T::STATUS2: ADCMPF2 Mask */
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#define EADC_STATUS2_ADCMPF3_Pos (7) /*!< EADC_T::STATUS2: ADCMPF3 Position */
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#define EADC_STATUS2_ADCMPF3_Msk (0x1ul << EADC_STATUS2_ADCMPF3_Pos) /*!< EADC_T::STATUS2: ADCMPF3 Mask */
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#define EADC_STATUS2_ADOVIF0_Pos (8) /*!< EADC_T::STATUS2: ADOVIF0 Position */
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#define EADC_STATUS2_ADOVIF0_Msk (0x1ul << EADC_STATUS2_ADOVIF0_Pos) /*!< EADC_T::STATUS2: ADOVIF0 Mask */
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#define EADC_STATUS2_ADOVIF1_Pos (9) /*!< EADC_T::STATUS2: ADOVIF1 Position */
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#define EADC_STATUS2_ADOVIF1_Msk (0x1ul << EADC_STATUS2_ADOVIF1_Pos) /*!< EADC_T::STATUS2: ADOVIF1 Mask */
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#define EADC_STATUS2_ADOVIF2_Pos (10) /*!< EADC_T::STATUS2: ADOVIF2 Position */
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#define EADC_STATUS2_ADOVIF2_Msk (0x1ul << EADC_STATUS2_ADOVIF2_Pos) /*!< EADC_T::STATUS2: ADOVIF2 Mask */
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#define EADC_STATUS2_ADOVIF3_Pos (11) /*!< EADC_T::STATUS2: ADOVIF3 Position */
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#define EADC_STATUS2_ADOVIF3_Msk (0x1ul << EADC_STATUS2_ADOVIF3_Pos) /*!< EADC_T::STATUS2: ADOVIF3 Mask */
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#define EADC_STATUS2_ADCMPO0_Pos (12) /*!< EADC_T::STATUS2: ADCMPO0 Position */
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#define EADC_STATUS2_ADCMPO0_Msk (0x1ul << EADC_STATUS2_ADCMPO0_Pos) /*!< EADC_T::STATUS2: ADCMPO0 Mask */
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#define EADC_STATUS2_ADCMPO1_Pos (13) /*!< EADC_T::STATUS2: ADCMPO1 Position */
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#define EADC_STATUS2_ADCMPO1_Msk (0x1ul << EADC_STATUS2_ADCMPO1_Pos) /*!< EADC_T::STATUS2: ADCMPO1 Mask */
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#define EADC_STATUS2_ADCMPO2_Pos (14) /*!< EADC_T::STATUS2: ADCMPO2 Position */
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#define EADC_STATUS2_ADCMPO2_Msk (0x1ul << EADC_STATUS2_ADCMPO2_Pos) /*!< EADC_T::STATUS2: ADCMPO2 Mask */
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#define EADC_STATUS2_ADCMPO3_Pos (15) /*!< EADC_T::STATUS2: ADCMPO3 Position */
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#define EADC_STATUS2_ADCMPO3_Msk (0x1ul << EADC_STATUS2_ADCMPO3_Pos) /*!< EADC_T::STATUS2: ADCMPO3 Mask */
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#define EADC_STATUS2_CHANNEL_Pos (16) /*!< EADC_T::STATUS2: CHANNEL Position */
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#define EADC_STATUS2_CHANNEL_Msk (0x1ful << EADC_STATUS2_CHANNEL_Pos) /*!< EADC_T::STATUS2: CHANNEL Mask */
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#define EADC_STATUS2_BUSY_Pos (23) /*!< EADC_T::STATUS2: BUSY Position */
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#define EADC_STATUS2_BUSY_Msk (0x1ul << EADC_STATUS2_BUSY_Pos) /*!< EADC_T::STATUS2: BUSY Mask */
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#define EADC_STATUS2_ADOVIF_Pos (24) /*!< EADC_T::STATUS2: ADOVIF Position */
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#define EADC_STATUS2_ADOVIF_Msk (0x1ul << EADC_STATUS2_ADOVIF_Pos) /*!< EADC_T::STATUS2: ADOVIF Mask */
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#define EADC_STATUS2_STOVF_Pos (25) /*!< EADC_T::STATUS2: STOVF Position */
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#define EADC_STATUS2_STOVF_Msk (0x1ul << EADC_STATUS2_STOVF_Pos) /*!< EADC_T::STATUS2: STOVF Mask */
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#define EADC_STATUS2_AVALID_Pos (26) /*!< EADC_T::STATUS2: AVALID Position */
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#define EADC_STATUS2_AVALID_Msk (0x1ul << EADC_STATUS2_AVALID_Pos) /*!< EADC_T::STATUS2: AVALID Mask */
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#define EADC_STATUS2_AOV_Pos (27) /*!< EADC_T::STATUS2: AOV Position */
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#define EADC_STATUS2_AOV_Msk (0x1ul << EADC_STATUS2_AOV_Pos) /*!< EADC_T::STATUS2: AOV Mask */
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#define EADC_STATUS3_CURSPL_Pos (0) /*!< EADC_T::STATUS3: CURSPL Position */
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#define EADC_STATUS3_CURSPL_Msk (0x1ful << EADC_STATUS3_CURSPL_Pos) /*!< EADC_T::STATUS3: CURSPL Mask */
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#define EADC_MCTL1_ALIGN_Pos (0) /*!< EADC_T::MnCTL1: ALIGN Position */
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#define EADC_MCTL1_ALIGN_Msk (0x1ul << EADC_MCTL1_ALIGN_Pos) /*!< EADC_T::MnCTL1: ALIGN Mask */
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#define EADC_MCTL1_AVG_Pos (1) /*!< EADC_T::MnCTL1: AVG Position */
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#define EADC_MCTL1_AVG_Msk (0x1ul << EADC_MCTL1_AVG_Pos) /*!< EADC_T::MnCTL1: AVG Mask */
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#define EADC_MCTL1_ACU_Pos (4) /*!< EADC_T::MnCTL1: ACU Position */
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#define EADC_MCTL1_ACU_Msk (0xful << EADC_MCTL1_ACU_Pos) /*!< EADC_T::MnCTL1: ACU Mask */
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#define EADC_PWRCTL_READY_Pos (0) /*!< EADC_T::PWRCTL: READY Position */
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#define EADC_PWRCTL_READY_Msk (0x1ul << EADC_PWRCTL_READY_Pos) /*!< EADC_T::PWRCTL: READY Mask */
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#define EADC_PWRCTL_AUTOFF_Pos (5) /*!< EADC_T::PWRCTL: AUTOFF Position */
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#define EADC_PWRCTL_AUTOFF_Msk (0x1ul << EADC_PWRCTL_AUTOFF_Pos) /*!< EADC_T::PWRCTL: AUTOFF Mask */
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#define EADC_PWRCTL_STUPT_Pos (8) /*!< EADC_T::PWRCTL: STUPT Position */
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#define EADC_PWRCTL_STUPT_Msk (0xffful << EADC_PWRCTL_STUPT_Pos) /*!< EADC_T::PWRCTL: STUPT Mask */
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#define EADC_PWRCTL_AUTOPDTHT_Pos (20) /*!< EADC_T::PWRCTL: AUTOPDTHT Position */
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#define EADC_PWRCTL_AUTOPDTHT_Msk (0xful << EADC_PWRCTL_AUTOPDTHT_Pos) /*!< EADC_T::PWRCTL: AUTOPDTHT Mask */
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#define EADC_PDMACTL_PDMATEN_Pos (0) /*!< EADC_T::PDMACTL: PDMATEN Position */
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#define EADC_PDMACTL_PDMATEN_Msk (0x7fffful << EADC_PDMACTL_PDMATEN_Pos) /*!< EADC_T::PDMACTL: PDMATEN Mask */
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/** @} EADC_CONST */
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/** @} end of EADC register group */
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/** @} end of REGISTER group */
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#if defined ( __CC_ARM )
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#pragma no_anon_unions
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#endif
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#endif /* __EADC_REG_H__ */
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