mirror of https://github.com/Desuuuu/klipper.git
570 lines
51 KiB
C
570 lines
51 KiB
C
/* ---------------------------------------------------------------------------- */
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/* Atmel Microcontroller Software Support */
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/* SAM Software Package License */
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/* ---------------------------------------------------------------------------- */
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/* Copyright (c) %copyright_year%, Atmel Corporation */
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/* */
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/* All rights reserved. */
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/* */
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/* Redistribution and use in source and binary forms, with or without */
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/* modification, are permitted provided that the following condition is met: */
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/* */
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/* - Redistributions of source code must retain the above copyright notice, */
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/* this list of conditions and the disclaimer below. */
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/* */
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/* Atmel's name may not be used to endorse or promote products derived from */
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/* this software without specific prior written permission. */
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/* */
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/* DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR */
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/* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF */
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/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE */
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/* DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT, */
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/* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT */
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/* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, */
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/* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF */
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/* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING */
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/* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, */
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/* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */
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/* ---------------------------------------------------------------------------- */
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#ifndef _SAM4S_ADC_COMPONENT_
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#define _SAM4S_ADC_COMPONENT_
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/* ============================================================================= */
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/** SOFTWARE API DEFINITION FOR Analog-to-Digital Converter */
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/* ============================================================================= */
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/** \addtogroup SAM4S_ADC Analog-to-Digital Converter */
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/*@{*/
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#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
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/** \brief Adc hardware registers */
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typedef struct {
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__O uint32_t ADC_CR; /**< \brief (Adc Offset: 0x00) Control Register */
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__IO uint32_t ADC_MR; /**< \brief (Adc Offset: 0x04) Mode Register */
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__IO uint32_t ADC_SEQR1; /**< \brief (Adc Offset: 0x08) Channel Sequence Register 1 */
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__IO uint32_t ADC_SEQR2; /**< \brief (Adc Offset: 0x0C) Channel Sequence Register 2 */
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__O uint32_t ADC_CHER; /**< \brief (Adc Offset: 0x10) Channel Enable Register */
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__O uint32_t ADC_CHDR; /**< \brief (Adc Offset: 0x14) Channel Disable Register */
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__I uint32_t ADC_CHSR; /**< \brief (Adc Offset: 0x18) Channel Status Register */
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__I uint32_t Reserved1[1];
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__I uint32_t ADC_LCDR; /**< \brief (Adc Offset: 0x20) Last Converted Data Register */
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__O uint32_t ADC_IER; /**< \brief (Adc Offset: 0x24) Interrupt Enable Register */
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__O uint32_t ADC_IDR; /**< \brief (Adc Offset: 0x28) Interrupt Disable Register */
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__I uint32_t ADC_IMR; /**< \brief (Adc Offset: 0x2C) Interrupt Mask Register */
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__I uint32_t ADC_ISR; /**< \brief (Adc Offset: 0x30) Interrupt Status Register */
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__I uint32_t Reserved2[2];
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__I uint32_t ADC_OVER; /**< \brief (Adc Offset: 0x3C) Overrun Status Register */
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__IO uint32_t ADC_EMR; /**< \brief (Adc Offset: 0x40) Extended Mode Register */
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__IO uint32_t ADC_CWR; /**< \brief (Adc Offset: 0x44) Compare Window Register */
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__IO uint32_t ADC_CGR; /**< \brief (Adc Offset: 0x48) Channel Gain Register */
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__IO uint32_t ADC_COR; /**< \brief (Adc Offset: 0x4C) Channel Offset Register */
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__I uint32_t ADC_CDR[16]; /**< \brief (Adc Offset: 0x50) Channel Data Register */
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__I uint32_t Reserved3[1];
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__IO uint32_t ADC_ACR; /**< \brief (Adc Offset: 0x94) Analog Control Register */
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__I uint32_t Reserved4[19];
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__IO uint32_t ADC_WPMR; /**< \brief (Adc Offset: 0xE4) Write Protection Mode Register */
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__I uint32_t ADC_WPSR; /**< \brief (Adc Offset: 0xE8) Write Protection Status Register */
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__I uint32_t Reserved5[5];
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__IO uint32_t ADC_RPR; /**< \brief (Adc Offset: 0x100) Receive Pointer Register */
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__IO uint32_t ADC_RCR; /**< \brief (Adc Offset: 0x104) Receive Counter Register */
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__I uint32_t Reserved6[2];
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__IO uint32_t ADC_RNPR; /**< \brief (Adc Offset: 0x110) Receive Next Pointer Register */
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__IO uint32_t ADC_RNCR; /**< \brief (Adc Offset: 0x114) Receive Next Counter Register */
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__I uint32_t Reserved7[2];
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__O uint32_t ADC_PTCR; /**< \brief (Adc Offset: 0x120) Transfer Control Register */
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__I uint32_t ADC_PTSR; /**< \brief (Adc Offset: 0x124) Transfer Status Register */
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} Adc;
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#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
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/* -------- ADC_CR : (ADC Offset: 0x00) Control Register -------- */
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#define ADC_CR_SWRST (0x1u << 0) /**< \brief (ADC_CR) Software Reset */
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#define ADC_CR_START (0x1u << 1) /**< \brief (ADC_CR) Start Conversion */
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#define ADC_CR_AUTOCAL (0x1u << 3) /**< \brief (ADC_CR) Automatic Calibration of ADC */
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/* -------- ADC_MR : (ADC Offset: 0x04) Mode Register -------- */
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#define ADC_MR_TRGEN (0x1u << 0) /**< \brief (ADC_MR) Trigger Enable */
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#define ADC_MR_TRGEN_DIS (0x0u << 0) /**< \brief (ADC_MR) Hardware triggers are disabled. Starting a conversion is only possible by software. */
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#define ADC_MR_TRGEN_EN (0x1u << 0) /**< \brief (ADC_MR) Hardware trigger selected by TRGSEL field is enabled. */
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#define ADC_MR_TRGSEL_Pos 1
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#define ADC_MR_TRGSEL_Msk (0x7u << ADC_MR_TRGSEL_Pos) /**< \brief (ADC_MR) Trigger Selection */
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#define ADC_MR_TRGSEL(value) ((ADC_MR_TRGSEL_Msk & ((value) << ADC_MR_TRGSEL_Pos)))
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#define ADC_MR_TRGSEL_ADC_TRIG0 (0x0u << 1) /**< \brief (ADC_MR) External trigger */
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#define ADC_MR_TRGSEL_ADC_TRIG1 (0x1u << 1) /**< \brief (ADC_MR) TIO Output of the Timer Counter Channel 0 */
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#define ADC_MR_TRGSEL_ADC_TRIG2 (0x2u << 1) /**< \brief (ADC_MR) TIO Output of the Timer Counter Channel 1 */
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#define ADC_MR_TRGSEL_ADC_TRIG3 (0x3u << 1) /**< \brief (ADC_MR) TIO Output of the Timer Counter Channel 2 */
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#define ADC_MR_TRGSEL_ADC_TRIG4 (0x4u << 1) /**< \brief (ADC_MR) PWM Event Line 0 */
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#define ADC_MR_TRGSEL_ADC_TRIG5 (0x5u << 1) /**< \brief (ADC_MR) PWM Event Line 1 */
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#define ADC_MR_SLEEP (0x1u << 5) /**< \brief (ADC_MR) Sleep Mode */
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#define ADC_MR_SLEEP_NORMAL (0x0u << 5) /**< \brief (ADC_MR) Normal Mode: The ADC core and reference voltage circuitry are kept ON between conversions. */
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#define ADC_MR_SLEEP_SLEEP (0x1u << 5) /**< \brief (ADC_MR) Sleep Mode: The wake-up time can be modified by programming FWUP bit. */
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#define ADC_MR_FWUP (0x1u << 6) /**< \brief (ADC_MR) Fast Wake Up */
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#define ADC_MR_FWUP_OFF (0x0u << 6) /**< \brief (ADC_MR) If SLEEP is 1, then both ADC core and reference voltage circuitry are OFF between conversions */
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#define ADC_MR_FWUP_ON (0x1u << 6) /**< \brief (ADC_MR) If SLEEP is 1, then Fast Wake-up Sleep mode: The voltage reference is ON between conversions and ADC core is OFF */
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#define ADC_MR_FREERUN (0x1u << 7) /**< \brief (ADC_MR) Free Run Mode */
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#define ADC_MR_FREERUN_OFF (0x0u << 7) /**< \brief (ADC_MR) Normal Mode */
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#define ADC_MR_FREERUN_ON (0x1u << 7) /**< \brief (ADC_MR) Free Run Mode: Never wait for any trigger. */
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#define ADC_MR_PRESCAL_Pos 8
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#define ADC_MR_PRESCAL_Msk (0xffu << ADC_MR_PRESCAL_Pos) /**< \brief (ADC_MR) Prescaler Rate Selection */
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#define ADC_MR_PRESCAL(value) ((ADC_MR_PRESCAL_Msk & ((value) << ADC_MR_PRESCAL_Pos)))
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#define ADC_MR_STARTUP_Pos 16
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#define ADC_MR_STARTUP_Msk (0xfu << ADC_MR_STARTUP_Pos) /**< \brief (ADC_MR) Startup Time */
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#define ADC_MR_STARTUP(value) ((ADC_MR_STARTUP_Msk & ((value) << ADC_MR_STARTUP_Pos)))
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#define ADC_MR_STARTUP_SUT0 (0x0u << 16) /**< \brief (ADC_MR) 0 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT8 (0x1u << 16) /**< \brief (ADC_MR) 8 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT16 (0x2u << 16) /**< \brief (ADC_MR) 16 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT24 (0x3u << 16) /**< \brief (ADC_MR) 24 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT64 (0x4u << 16) /**< \brief (ADC_MR) 64 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT80 (0x5u << 16) /**< \brief (ADC_MR) 80 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT96 (0x6u << 16) /**< \brief (ADC_MR) 96 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT112 (0x7u << 16) /**< \brief (ADC_MR) 112 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT512 (0x8u << 16) /**< \brief (ADC_MR) 512 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT576 (0x9u << 16) /**< \brief (ADC_MR) 576 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT640 (0xAu << 16) /**< \brief (ADC_MR) 640 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT704 (0xBu << 16) /**< \brief (ADC_MR) 704 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT768 (0xCu << 16) /**< \brief (ADC_MR) 768 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT832 (0xDu << 16) /**< \brief (ADC_MR) 832 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT896 (0xEu << 16) /**< \brief (ADC_MR) 896 periods of ADCCLK */
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#define ADC_MR_STARTUP_SUT960 (0xFu << 16) /**< \brief (ADC_MR) 960 periods of ADCCLK */
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#define ADC_MR_SETTLING_Pos 20
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#define ADC_MR_SETTLING_Msk (0x3u << ADC_MR_SETTLING_Pos) /**< \brief (ADC_MR) Analog Settling Time */
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#define ADC_MR_SETTLING(value) ((ADC_MR_SETTLING_Msk & ((value) << ADC_MR_SETTLING_Pos)))
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#define ADC_MR_SETTLING_AST3 (0x0u << 20) /**< \brief (ADC_MR) 3 periods of ADCCLK */
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#define ADC_MR_SETTLING_AST5 (0x1u << 20) /**< \brief (ADC_MR) 5 periods of ADCCLK */
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#define ADC_MR_SETTLING_AST9 (0x2u << 20) /**< \brief (ADC_MR) 9 periods of ADCCLK */
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#define ADC_MR_SETTLING_AST17 (0x3u << 20) /**< \brief (ADC_MR) 17 periods of ADCCLK */
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#define ADC_MR_ANACH (0x1u << 23) /**< \brief (ADC_MR) Analog Change */
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#define ADC_MR_ANACH_NONE (0x0u << 23) /**< \brief (ADC_MR) No analog change on channel switching: DIFF0, GAIN0 and OFF0 are used for all channels. */
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#define ADC_MR_ANACH_ALLOWED (0x1u << 23) /**< \brief (ADC_MR) Allows different analog settings for each channel. See ADC_CGR and ADC_COR registers. */
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#define ADC_MR_TRACKTIM_Pos 24
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#define ADC_MR_TRACKTIM_Msk (0xfu << ADC_MR_TRACKTIM_Pos) /**< \brief (ADC_MR) Tracking Time */
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#define ADC_MR_TRACKTIM(value) ((ADC_MR_TRACKTIM_Msk & ((value) << ADC_MR_TRACKTIM_Pos)))
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#define ADC_MR_TRANSFER_Pos 28
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#define ADC_MR_TRANSFER_Msk (0x3u << ADC_MR_TRANSFER_Pos) /**< \brief (ADC_MR) Hold Time */
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#define ADC_MR_TRANSFER(value) ((ADC_MR_TRANSFER_Msk & ((value) << ADC_MR_TRANSFER_Pos)))
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#define ADC_MR_USEQ (0x1u << 31) /**< \brief (ADC_MR) Use Sequence Enable */
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#define ADC_MR_USEQ_NUM_ORDER (0x0u << 31) /**< \brief (ADC_MR) Normal Mode: The controller converts channels in a simple numeric order depending only on the channel index. */
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#define ADC_MR_USEQ_REG_ORDER (0x1u << 31) /**< \brief (ADC_MR) User Sequence Mode: The sequence respects what is defined in ADC_SEQR1 and ADC_SEQR2 registers and can be used to convert the same channel several times. */
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/* -------- ADC_SEQR1 : (ADC Offset: 0x08) Channel Sequence Register 1 -------- */
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#define ADC_SEQR1_USCH1_Pos 0
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#define ADC_SEQR1_USCH1_Msk (0xfu << ADC_SEQR1_USCH1_Pos) /**< \brief (ADC_SEQR1) User Sequence Number 1 */
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#define ADC_SEQR1_USCH1(value) ((ADC_SEQR1_USCH1_Msk & ((value) << ADC_SEQR1_USCH1_Pos)))
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#define ADC_SEQR1_USCH2_Pos 4
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#define ADC_SEQR1_USCH2_Msk (0xfu << ADC_SEQR1_USCH2_Pos) /**< \brief (ADC_SEQR1) User Sequence Number 2 */
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#define ADC_SEQR1_USCH2(value) ((ADC_SEQR1_USCH2_Msk & ((value) << ADC_SEQR1_USCH2_Pos)))
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#define ADC_SEQR1_USCH3_Pos 8
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#define ADC_SEQR1_USCH3_Msk (0xfu << ADC_SEQR1_USCH3_Pos) /**< \brief (ADC_SEQR1) User Sequence Number 3 */
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#define ADC_SEQR1_USCH3(value) ((ADC_SEQR1_USCH3_Msk & ((value) << ADC_SEQR1_USCH3_Pos)))
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#define ADC_SEQR1_USCH4_Pos 12
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#define ADC_SEQR1_USCH4_Msk (0xfu << ADC_SEQR1_USCH4_Pos) /**< \brief (ADC_SEQR1) User Sequence Number 4 */
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#define ADC_SEQR1_USCH4(value) ((ADC_SEQR1_USCH4_Msk & ((value) << ADC_SEQR1_USCH4_Pos)))
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#define ADC_SEQR1_USCH5_Pos 16
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#define ADC_SEQR1_USCH5_Msk (0xfu << ADC_SEQR1_USCH5_Pos) /**< \brief (ADC_SEQR1) User Sequence Number 5 */
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#define ADC_SEQR1_USCH5(value) ((ADC_SEQR1_USCH5_Msk & ((value) << ADC_SEQR1_USCH5_Pos)))
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#define ADC_SEQR1_USCH6_Pos 20
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#define ADC_SEQR1_USCH6_Msk (0xfu << ADC_SEQR1_USCH6_Pos) /**< \brief (ADC_SEQR1) User Sequence Number 6 */
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#define ADC_SEQR1_USCH6(value) ((ADC_SEQR1_USCH6_Msk & ((value) << ADC_SEQR1_USCH6_Pos)))
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#define ADC_SEQR1_USCH7_Pos 24
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#define ADC_SEQR1_USCH7_Msk (0xfu << ADC_SEQR1_USCH7_Pos) /**< \brief (ADC_SEQR1) User Sequence Number 7 */
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#define ADC_SEQR1_USCH7(value) ((ADC_SEQR1_USCH7_Msk & ((value) << ADC_SEQR1_USCH7_Pos)))
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#define ADC_SEQR1_USCH8_Pos 28
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#define ADC_SEQR1_USCH8_Msk (0xfu << ADC_SEQR1_USCH8_Pos) /**< \brief (ADC_SEQR1) User Sequence Number 8 */
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#define ADC_SEQR1_USCH8(value) ((ADC_SEQR1_USCH8_Msk & ((value) << ADC_SEQR1_USCH8_Pos)))
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/* -------- ADC_SEQR2 : (ADC Offset: 0x0C) Channel Sequence Register 2 -------- */
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#define ADC_SEQR2_USCH9_Pos 0
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#define ADC_SEQR2_USCH9_Msk (0xfu << ADC_SEQR2_USCH9_Pos) /**< \brief (ADC_SEQR2) User Sequence Number 9 */
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#define ADC_SEQR2_USCH9(value) ((ADC_SEQR2_USCH9_Msk & ((value) << ADC_SEQR2_USCH9_Pos)))
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#define ADC_SEQR2_USCH10_Pos 4
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#define ADC_SEQR2_USCH10_Msk (0xfu << ADC_SEQR2_USCH10_Pos) /**< \brief (ADC_SEQR2) User Sequence Number 10 */
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#define ADC_SEQR2_USCH10(value) ((ADC_SEQR2_USCH10_Msk & ((value) << ADC_SEQR2_USCH10_Pos)))
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#define ADC_SEQR2_USCH11_Pos 8
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#define ADC_SEQR2_USCH11_Msk (0xfu << ADC_SEQR2_USCH11_Pos) /**< \brief (ADC_SEQR2) User Sequence Number 11 */
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#define ADC_SEQR2_USCH11(value) ((ADC_SEQR2_USCH11_Msk & ((value) << ADC_SEQR2_USCH11_Pos)))
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#define ADC_SEQR2_USCH12_Pos 12
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#define ADC_SEQR2_USCH12_Msk (0xfu << ADC_SEQR2_USCH12_Pos) /**< \brief (ADC_SEQR2) User Sequence Number 12 */
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#define ADC_SEQR2_USCH12(value) ((ADC_SEQR2_USCH12_Msk & ((value) << ADC_SEQR2_USCH12_Pos)))
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#define ADC_SEQR2_USCH13_Pos 16
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#define ADC_SEQR2_USCH13_Msk (0xfu << ADC_SEQR2_USCH13_Pos) /**< \brief (ADC_SEQR2) User Sequence Number 13 */
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#define ADC_SEQR2_USCH13(value) ((ADC_SEQR2_USCH13_Msk & ((value) << ADC_SEQR2_USCH13_Pos)))
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#define ADC_SEQR2_USCH14_Pos 20
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#define ADC_SEQR2_USCH14_Msk (0xfu << ADC_SEQR2_USCH14_Pos) /**< \brief (ADC_SEQR2) User Sequence Number 14 */
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#define ADC_SEQR2_USCH14(value) ((ADC_SEQR2_USCH14_Msk & ((value) << ADC_SEQR2_USCH14_Pos)))
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#define ADC_SEQR2_USCH15_Pos 24
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#define ADC_SEQR2_USCH15_Msk (0xfu << ADC_SEQR2_USCH15_Pos) /**< \brief (ADC_SEQR2) User Sequence Number 15 */
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#define ADC_SEQR2_USCH15(value) ((ADC_SEQR2_USCH15_Msk & ((value) << ADC_SEQR2_USCH15_Pos)))
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/* -------- ADC_CHER : (ADC Offset: 0x10) Channel Enable Register -------- */
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#define ADC_CHER_CH0 (0x1u << 0) /**< \brief (ADC_CHER) Channel 0 Enable */
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#define ADC_CHER_CH1 (0x1u << 1) /**< \brief (ADC_CHER) Channel 1 Enable */
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#define ADC_CHER_CH2 (0x1u << 2) /**< \brief (ADC_CHER) Channel 2 Enable */
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#define ADC_CHER_CH3 (0x1u << 3) /**< \brief (ADC_CHER) Channel 3 Enable */
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#define ADC_CHER_CH4 (0x1u << 4) /**< \brief (ADC_CHER) Channel 4 Enable */
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#define ADC_CHER_CH5 (0x1u << 5) /**< \brief (ADC_CHER) Channel 5 Enable */
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#define ADC_CHER_CH6 (0x1u << 6) /**< \brief (ADC_CHER) Channel 6 Enable */
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#define ADC_CHER_CH7 (0x1u << 7) /**< \brief (ADC_CHER) Channel 7 Enable */
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#define ADC_CHER_CH8 (0x1u << 8) /**< \brief (ADC_CHER) Channel 8 Enable */
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#define ADC_CHER_CH9 (0x1u << 9) /**< \brief (ADC_CHER) Channel 9 Enable */
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#define ADC_CHER_CH10 (0x1u << 10) /**< \brief (ADC_CHER) Channel 10 Enable */
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#define ADC_CHER_CH11 (0x1u << 11) /**< \brief (ADC_CHER) Channel 11 Enable */
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#define ADC_CHER_CH12 (0x1u << 12) /**< \brief (ADC_CHER) Channel 12 Enable */
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#define ADC_CHER_CH13 (0x1u << 13) /**< \brief (ADC_CHER) Channel 13 Enable */
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#define ADC_CHER_CH14 (0x1u << 14) /**< \brief (ADC_CHER) Channel 14 Enable */
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#define ADC_CHER_CH15 (0x1u << 15) /**< \brief (ADC_CHER) Channel 15 Enable */
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/* -------- ADC_CHDR : (ADC Offset: 0x14) Channel Disable Register -------- */
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#define ADC_CHDR_CH0 (0x1u << 0) /**< \brief (ADC_CHDR) Channel 0 Disable */
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#define ADC_CHDR_CH1 (0x1u << 1) /**< \brief (ADC_CHDR) Channel 1 Disable */
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#define ADC_CHDR_CH2 (0x1u << 2) /**< \brief (ADC_CHDR) Channel 2 Disable */
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#define ADC_CHDR_CH3 (0x1u << 3) /**< \brief (ADC_CHDR) Channel 3 Disable */
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#define ADC_CHDR_CH4 (0x1u << 4) /**< \brief (ADC_CHDR) Channel 4 Disable */
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#define ADC_CHDR_CH5 (0x1u << 5) /**< \brief (ADC_CHDR) Channel 5 Disable */
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#define ADC_CHDR_CH6 (0x1u << 6) /**< \brief (ADC_CHDR) Channel 6 Disable */
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#define ADC_CHDR_CH7 (0x1u << 7) /**< \brief (ADC_CHDR) Channel 7 Disable */
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#define ADC_CHDR_CH8 (0x1u << 8) /**< \brief (ADC_CHDR) Channel 8 Disable */
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#define ADC_CHDR_CH9 (0x1u << 9) /**< \brief (ADC_CHDR) Channel 9 Disable */
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#define ADC_CHDR_CH10 (0x1u << 10) /**< \brief (ADC_CHDR) Channel 10 Disable */
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#define ADC_CHDR_CH11 (0x1u << 11) /**< \brief (ADC_CHDR) Channel 11 Disable */
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#define ADC_CHDR_CH12 (0x1u << 12) /**< \brief (ADC_CHDR) Channel 12 Disable */
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#define ADC_CHDR_CH13 (0x1u << 13) /**< \brief (ADC_CHDR) Channel 13 Disable */
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#define ADC_CHDR_CH14 (0x1u << 14) /**< \brief (ADC_CHDR) Channel 14 Disable */
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#define ADC_CHDR_CH15 (0x1u << 15) /**< \brief (ADC_CHDR) Channel 15 Disable */
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/* -------- ADC_CHSR : (ADC Offset: 0x18) Channel Status Register -------- */
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#define ADC_CHSR_CH0 (0x1u << 0) /**< \brief (ADC_CHSR) Channel 0 Status */
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#define ADC_CHSR_CH1 (0x1u << 1) /**< \brief (ADC_CHSR) Channel 1 Status */
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#define ADC_CHSR_CH2 (0x1u << 2) /**< \brief (ADC_CHSR) Channel 2 Status */
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#define ADC_CHSR_CH3 (0x1u << 3) /**< \brief (ADC_CHSR) Channel 3 Status */
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#define ADC_CHSR_CH4 (0x1u << 4) /**< \brief (ADC_CHSR) Channel 4 Status */
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#define ADC_CHSR_CH5 (0x1u << 5) /**< \brief (ADC_CHSR) Channel 5 Status */
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#define ADC_CHSR_CH6 (0x1u << 6) /**< \brief (ADC_CHSR) Channel 6 Status */
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#define ADC_CHSR_CH7 (0x1u << 7) /**< \brief (ADC_CHSR) Channel 7 Status */
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#define ADC_CHSR_CH8 (0x1u << 8) /**< \brief (ADC_CHSR) Channel 8 Status */
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#define ADC_CHSR_CH9 (0x1u << 9) /**< \brief (ADC_CHSR) Channel 9 Status */
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#define ADC_CHSR_CH10 (0x1u << 10) /**< \brief (ADC_CHSR) Channel 10 Status */
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#define ADC_CHSR_CH11 (0x1u << 11) /**< \brief (ADC_CHSR) Channel 11 Status */
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#define ADC_CHSR_CH12 (0x1u << 12) /**< \brief (ADC_CHSR) Channel 12 Status */
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#define ADC_CHSR_CH13 (0x1u << 13) /**< \brief (ADC_CHSR) Channel 13 Status */
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#define ADC_CHSR_CH14 (0x1u << 14) /**< \brief (ADC_CHSR) Channel 14 Status */
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#define ADC_CHSR_CH15 (0x1u << 15) /**< \brief (ADC_CHSR) Channel 15 Status */
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/* -------- ADC_LCDR : (ADC Offset: 0x20) Last Converted Data Register -------- */
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#define ADC_LCDR_LDATA_Pos 0
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#define ADC_LCDR_LDATA_Msk (0xfffu << ADC_LCDR_LDATA_Pos) /**< \brief (ADC_LCDR) Last Data Converted */
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#define ADC_LCDR_CHNB_Pos 12
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#define ADC_LCDR_CHNB_Msk (0xfu << ADC_LCDR_CHNB_Pos) /**< \brief (ADC_LCDR) Channel Number */
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/* -------- ADC_IER : (ADC Offset: 0x24) Interrupt Enable Register -------- */
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#define ADC_IER_EOC0 (0x1u << 0) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 0 */
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#define ADC_IER_EOC1 (0x1u << 1) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 1 */
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#define ADC_IER_EOC2 (0x1u << 2) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 2 */
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#define ADC_IER_EOC3 (0x1u << 3) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 3 */
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#define ADC_IER_EOC4 (0x1u << 4) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 4 */
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#define ADC_IER_EOC5 (0x1u << 5) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 5 */
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#define ADC_IER_EOC6 (0x1u << 6) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 6 */
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#define ADC_IER_EOC7 (0x1u << 7) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 7 */
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#define ADC_IER_EOC8 (0x1u << 8) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 8 */
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#define ADC_IER_EOC9 (0x1u << 9) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 9 */
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#define ADC_IER_EOC10 (0x1u << 10) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 10 */
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#define ADC_IER_EOC11 (0x1u << 11) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 11 */
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#define ADC_IER_EOC12 (0x1u << 12) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 12 */
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#define ADC_IER_EOC13 (0x1u << 13) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 13 */
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#define ADC_IER_EOC14 (0x1u << 14) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 14 */
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#define ADC_IER_EOC15 (0x1u << 15) /**< \brief (ADC_IER) End of Conversion Interrupt Enable 15 */
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#define ADC_IER_EOCAL (0x1u << 23) /**< \brief (ADC_IER) End of Calibration Sequence */
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#define ADC_IER_DRDY (0x1u << 24) /**< \brief (ADC_IER) Data Ready Interrupt Enable */
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#define ADC_IER_GOVRE (0x1u << 25) /**< \brief (ADC_IER) General Overrun Error Interrupt Enable */
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#define ADC_IER_COMPE (0x1u << 26) /**< \brief (ADC_IER) Comparison Event Interrupt Enable */
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#define ADC_IER_ENDRX (0x1u << 27) /**< \brief (ADC_IER) End of Receive Buffer Interrupt Enable */
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#define ADC_IER_RXBUFF (0x1u << 28) /**< \brief (ADC_IER) Receive Buffer Full Interrupt Enable */
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/* -------- ADC_IDR : (ADC Offset: 0x28) Interrupt Disable Register -------- */
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#define ADC_IDR_EOC0 (0x1u << 0) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 0 */
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#define ADC_IDR_EOC1 (0x1u << 1) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 1 */
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#define ADC_IDR_EOC2 (0x1u << 2) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 2 */
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#define ADC_IDR_EOC3 (0x1u << 3) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 3 */
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#define ADC_IDR_EOC4 (0x1u << 4) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 4 */
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#define ADC_IDR_EOC5 (0x1u << 5) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 5 */
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#define ADC_IDR_EOC6 (0x1u << 6) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 6 */
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#define ADC_IDR_EOC7 (0x1u << 7) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 7 */
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#define ADC_IDR_EOC8 (0x1u << 8) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 8 */
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#define ADC_IDR_EOC9 (0x1u << 9) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 9 */
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#define ADC_IDR_EOC10 (0x1u << 10) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 10 */
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#define ADC_IDR_EOC11 (0x1u << 11) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 11 */
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#define ADC_IDR_EOC12 (0x1u << 12) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 12 */
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#define ADC_IDR_EOC13 (0x1u << 13) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 13 */
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#define ADC_IDR_EOC14 (0x1u << 14) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 14 */
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#define ADC_IDR_EOC15 (0x1u << 15) /**< \brief (ADC_IDR) End of Conversion Interrupt Disable 15 */
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#define ADC_IDR_EOCAL (0x1u << 23) /**< \brief (ADC_IDR) End of Calibration Sequence */
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#define ADC_IDR_DRDY (0x1u << 24) /**< \brief (ADC_IDR) Data Ready Interrupt Disable */
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#define ADC_IDR_GOVRE (0x1u << 25) /**< \brief (ADC_IDR) General Overrun Error Interrupt Disable */
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#define ADC_IDR_COMPE (0x1u << 26) /**< \brief (ADC_IDR) Comparison Event Interrupt Disable */
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#define ADC_IDR_ENDRX (0x1u << 27) /**< \brief (ADC_IDR) End of Receive Buffer Interrupt Disable */
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#define ADC_IDR_RXBUFF (0x1u << 28) /**< \brief (ADC_IDR) Receive Buffer Full Interrupt Disable */
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/* -------- ADC_IMR : (ADC Offset: 0x2C) Interrupt Mask Register -------- */
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#define ADC_IMR_EOC0 (0x1u << 0) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 0 */
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#define ADC_IMR_EOC1 (0x1u << 1) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 1 */
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#define ADC_IMR_EOC2 (0x1u << 2) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 2 */
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#define ADC_IMR_EOC3 (0x1u << 3) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 3 */
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#define ADC_IMR_EOC4 (0x1u << 4) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 4 */
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#define ADC_IMR_EOC5 (0x1u << 5) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 5 */
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#define ADC_IMR_EOC6 (0x1u << 6) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 6 */
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#define ADC_IMR_EOC7 (0x1u << 7) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 7 */
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#define ADC_IMR_EOC8 (0x1u << 8) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 8 */
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#define ADC_IMR_EOC9 (0x1u << 9) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 9 */
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#define ADC_IMR_EOC10 (0x1u << 10) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 10 */
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#define ADC_IMR_EOC11 (0x1u << 11) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 11 */
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#define ADC_IMR_EOC12 (0x1u << 12) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 12 */
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#define ADC_IMR_EOC13 (0x1u << 13) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 13 */
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#define ADC_IMR_EOC14 (0x1u << 14) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 14 */
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#define ADC_IMR_EOC15 (0x1u << 15) /**< \brief (ADC_IMR) End of Conversion Interrupt Mask 15 */
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#define ADC_IMR_EOCAL (0x1u << 23) /**< \brief (ADC_IMR) End of Calibration Sequence */
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#define ADC_IMR_DRDY (0x1u << 24) /**< \brief (ADC_IMR) Data Ready Interrupt Mask */
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#define ADC_IMR_GOVRE (0x1u << 25) /**< \brief (ADC_IMR) General Overrun Error Interrupt Mask */
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#define ADC_IMR_COMPE (0x1u << 26) /**< \brief (ADC_IMR) Comparison Event Interrupt Mask */
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#define ADC_IMR_ENDRX (0x1u << 27) /**< \brief (ADC_IMR) End of Receive Buffer Interrupt Mask */
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#define ADC_IMR_RXBUFF (0x1u << 28) /**< \brief (ADC_IMR) Receive Buffer Full Interrupt Mask */
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/* -------- ADC_ISR : (ADC Offset: 0x30) Interrupt Status Register -------- */
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#define ADC_ISR_EOC0 (0x1u << 0) /**< \brief (ADC_ISR) End of Conversion 0 (automatically set / cleared) */
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#define ADC_ISR_EOC1 (0x1u << 1) /**< \brief (ADC_ISR) End of Conversion 1 (automatically set / cleared) */
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#define ADC_ISR_EOC2 (0x1u << 2) /**< \brief (ADC_ISR) End of Conversion 2 (automatically set / cleared) */
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#define ADC_ISR_EOC3 (0x1u << 3) /**< \brief (ADC_ISR) End of Conversion 3 (automatically set / cleared) */
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#define ADC_ISR_EOC4 (0x1u << 4) /**< \brief (ADC_ISR) End of Conversion 4 (automatically set / cleared) */
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#define ADC_ISR_EOC5 (0x1u << 5) /**< \brief (ADC_ISR) End of Conversion 5 (automatically set / cleared) */
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#define ADC_ISR_EOC6 (0x1u << 6) /**< \brief (ADC_ISR) End of Conversion 6 (automatically set / cleared) */
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#define ADC_ISR_EOC7 (0x1u << 7) /**< \brief (ADC_ISR) End of Conversion 7 (automatically set / cleared) */
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#define ADC_ISR_EOC8 (0x1u << 8) /**< \brief (ADC_ISR) End of Conversion 8 (automatically set / cleared) */
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#define ADC_ISR_EOC9 (0x1u << 9) /**< \brief (ADC_ISR) End of Conversion 9 (automatically set / cleared) */
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#define ADC_ISR_EOC10 (0x1u << 10) /**< \brief (ADC_ISR) End of Conversion 10 (automatically set / cleared) */
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#define ADC_ISR_EOC11 (0x1u << 11) /**< \brief (ADC_ISR) End of Conversion 11 (automatically set / cleared) */
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#define ADC_ISR_EOC12 (0x1u << 12) /**< \brief (ADC_ISR) End of Conversion 12 (automatically set / cleared) */
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#define ADC_ISR_EOC13 (0x1u << 13) /**< \brief (ADC_ISR) End of Conversion 13 (automatically set / cleared) */
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#define ADC_ISR_EOC14 (0x1u << 14) /**< \brief (ADC_ISR) End of Conversion 14 (automatically set / cleared) */
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#define ADC_ISR_EOC15 (0x1u << 15) /**< \brief (ADC_ISR) End of Conversion 15 (automatically set / cleared) */
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#define ADC_ISR_EOCAL (0x1u << 23) /**< \brief (ADC_ISR) End of Calibration Sequence */
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#define ADC_ISR_DRDY (0x1u << 24) /**< \brief (ADC_ISR) Data Ready (automatically set / cleared) */
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#define ADC_ISR_GOVRE (0x1u << 25) /**< \brief (ADC_ISR) General Overrun Error (cleared on read) */
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#define ADC_ISR_COMPE (0x1u << 26) /**< \brief (ADC_ISR) Comparison Event (cleared on read) */
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#define ADC_ISR_ENDRX (0x1u << 27) /**< \brief (ADC_ISR) End of Receive Transfer (cleared by writing ADC_RCR or ADC_RNCR) */
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#define ADC_ISR_RXBUFF (0x1u << 28) /**< \brief (ADC_ISR) Receive Buffer Full (cleared by writing ADC_RCR or ADC_RNCR) */
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/* -------- ADC_OVER : (ADC Offset: 0x3C) Overrun Status Register -------- */
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#define ADC_OVER_OVRE0 (0x1u << 0) /**< \brief (ADC_OVER) Overrun Error 0 */
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#define ADC_OVER_OVRE1 (0x1u << 1) /**< \brief (ADC_OVER) Overrun Error 1 */
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#define ADC_OVER_OVRE2 (0x1u << 2) /**< \brief (ADC_OVER) Overrun Error 2 */
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#define ADC_OVER_OVRE3 (0x1u << 3) /**< \brief (ADC_OVER) Overrun Error 3 */
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#define ADC_OVER_OVRE4 (0x1u << 4) /**< \brief (ADC_OVER) Overrun Error 4 */
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#define ADC_OVER_OVRE5 (0x1u << 5) /**< \brief (ADC_OVER) Overrun Error 5 */
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#define ADC_OVER_OVRE6 (0x1u << 6) /**< \brief (ADC_OVER) Overrun Error 6 */
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#define ADC_OVER_OVRE7 (0x1u << 7) /**< \brief (ADC_OVER) Overrun Error 7 */
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#define ADC_OVER_OVRE8 (0x1u << 8) /**< \brief (ADC_OVER) Overrun Error 8 */
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#define ADC_OVER_OVRE9 (0x1u << 9) /**< \brief (ADC_OVER) Overrun Error 9 */
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#define ADC_OVER_OVRE10 (0x1u << 10) /**< \brief (ADC_OVER) Overrun Error 10 */
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#define ADC_OVER_OVRE11 (0x1u << 11) /**< \brief (ADC_OVER) Overrun Error 11 */
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#define ADC_OVER_OVRE12 (0x1u << 12) /**< \brief (ADC_OVER) Overrun Error 12 */
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#define ADC_OVER_OVRE13 (0x1u << 13) /**< \brief (ADC_OVER) Overrun Error 13 */
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#define ADC_OVER_OVRE14 (0x1u << 14) /**< \brief (ADC_OVER) Overrun Error 14 */
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#define ADC_OVER_OVRE15 (0x1u << 15) /**< \brief (ADC_OVER) Overrun Error 15 */
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/* -------- ADC_EMR : (ADC Offset: 0x40) Extended Mode Register -------- */
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#define ADC_EMR_CMPMODE_Pos 0
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#define ADC_EMR_CMPMODE_Msk (0x3u << ADC_EMR_CMPMODE_Pos) /**< \brief (ADC_EMR) Comparison Mode */
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#define ADC_EMR_CMPMODE(value) ((ADC_EMR_CMPMODE_Msk & ((value) << ADC_EMR_CMPMODE_Pos)))
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#define ADC_EMR_CMPMODE_LOW (0x0u << 0) /**< \brief (ADC_EMR) Generates an event when the converted data is lower than the low threshold of the window. */
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#define ADC_EMR_CMPMODE_HIGH (0x1u << 0) /**< \brief (ADC_EMR) Generates an event when the converted data is higher than the high threshold of the window. */
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#define ADC_EMR_CMPMODE_IN (0x2u << 0) /**< \brief (ADC_EMR) Generates an event when the converted data is in the comparison window. */
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#define ADC_EMR_CMPMODE_OUT (0x3u << 0) /**< \brief (ADC_EMR) Generates an event when the converted data is out of the comparison window. */
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#define ADC_EMR_CMPSEL_Pos 4
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#define ADC_EMR_CMPSEL_Msk (0xfu << ADC_EMR_CMPSEL_Pos) /**< \brief (ADC_EMR) Comparison Selected Channel */
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#define ADC_EMR_CMPSEL(value) ((ADC_EMR_CMPSEL_Msk & ((value) << ADC_EMR_CMPSEL_Pos)))
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#define ADC_EMR_CMPALL (0x1u << 9) /**< \brief (ADC_EMR) Compare All Channels */
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#define ADC_EMR_TAG (0x1u << 24) /**< \brief (ADC_EMR) Tag of the ADC_LCDR */
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/* -------- ADC_CWR : (ADC Offset: 0x44) Compare Window Register -------- */
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#define ADC_CWR_LOWTHRES_Pos 0
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#define ADC_CWR_LOWTHRES_Msk (0xfffu << ADC_CWR_LOWTHRES_Pos) /**< \brief (ADC_CWR) Low Threshold */
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#define ADC_CWR_LOWTHRES(value) ((ADC_CWR_LOWTHRES_Msk & ((value) << ADC_CWR_LOWTHRES_Pos)))
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#define ADC_CWR_HIGHTHRES_Pos 16
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#define ADC_CWR_HIGHTHRES_Msk (0xfffu << ADC_CWR_HIGHTHRES_Pos) /**< \brief (ADC_CWR) High Threshold */
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#define ADC_CWR_HIGHTHRES(value) ((ADC_CWR_HIGHTHRES_Msk & ((value) << ADC_CWR_HIGHTHRES_Pos)))
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/* -------- ADC_CGR : (ADC Offset: 0x48) Channel Gain Register -------- */
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#define ADC_CGR_GAIN0_Pos 0
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#define ADC_CGR_GAIN0_Msk (0x3u << ADC_CGR_GAIN0_Pos) /**< \brief (ADC_CGR) Gain for Channel 0 */
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#define ADC_CGR_GAIN0(value) ((ADC_CGR_GAIN0_Msk & ((value) << ADC_CGR_GAIN0_Pos)))
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#define ADC_CGR_GAIN0_SE1_DIFF0_5 (0x0u << 0) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN0_SE1_DIFF1 (0x1u << 0) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN0_SE2_DIFF2 (0x2u << 0) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN0_SE4_DIFF2 (0x3u << 0) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN1_Pos 2
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#define ADC_CGR_GAIN1_Msk (0x3u << ADC_CGR_GAIN1_Pos) /**< \brief (ADC_CGR) Gain for Channel 1 */
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#define ADC_CGR_GAIN1(value) ((ADC_CGR_GAIN1_Msk & ((value) << ADC_CGR_GAIN1_Pos)))
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#define ADC_CGR_GAIN1_SE1_DIFF0_5 (0x0u << 2) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN1_SE1_DIFF1 (0x1u << 2) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN1_SE2_DIFF2 (0x2u << 2) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN1_SE4_DIFF2 (0x3u << 2) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN2_Pos 4
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#define ADC_CGR_GAIN2_Msk (0x3u << ADC_CGR_GAIN2_Pos) /**< \brief (ADC_CGR) Gain for Channel 2 */
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#define ADC_CGR_GAIN2(value) ((ADC_CGR_GAIN2_Msk & ((value) << ADC_CGR_GAIN2_Pos)))
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#define ADC_CGR_GAIN2_SE1_DIFF0_5 (0x0u << 4) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN2_SE1_DIFF1 (0x1u << 4) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN2_SE2_DIFF2 (0x2u << 4) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN2_SE4_DIFF2 (0x3u << 4) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN3_Pos 6
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#define ADC_CGR_GAIN3_Msk (0x3u << ADC_CGR_GAIN3_Pos) /**< \brief (ADC_CGR) Gain for Channel 3 */
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#define ADC_CGR_GAIN3(value) ((ADC_CGR_GAIN3_Msk & ((value) << ADC_CGR_GAIN3_Pos)))
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#define ADC_CGR_GAIN3_SE1_DIFF0_5 (0x0u << 6) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN3_SE1_DIFF1 (0x1u << 6) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN3_SE2_DIFF2 (0x2u << 6) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN3_SE4_DIFF2 (0x3u << 6) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN4_Pos 8
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#define ADC_CGR_GAIN4_Msk (0x3u << ADC_CGR_GAIN4_Pos) /**< \brief (ADC_CGR) Gain for Channel 4 */
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#define ADC_CGR_GAIN4(value) ((ADC_CGR_GAIN4_Msk & ((value) << ADC_CGR_GAIN4_Pos)))
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#define ADC_CGR_GAIN4_SE1_DIFF0_5 (0x0u << 8) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN4_SE1_DIFF1 (0x1u << 8) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN4_SE2_DIFF2 (0x2u << 8) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN4_SE4_DIFF2 (0x3u << 8) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN5_Pos 10
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#define ADC_CGR_GAIN5_Msk (0x3u << ADC_CGR_GAIN5_Pos) /**< \brief (ADC_CGR) Gain for Channel 5 */
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#define ADC_CGR_GAIN5(value) ((ADC_CGR_GAIN5_Msk & ((value) << ADC_CGR_GAIN5_Pos)))
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#define ADC_CGR_GAIN5_SE1_DIFF0_5 (0x0u << 10) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN5_SE1_DIFF1 (0x1u << 10) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN5_SE2_DIFF2 (0x2u << 10) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN5_SE4_DIFF2 (0x3u << 10) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN6_Pos 12
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#define ADC_CGR_GAIN6_Msk (0x3u << ADC_CGR_GAIN6_Pos) /**< \brief (ADC_CGR) Gain for Channel 6 */
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#define ADC_CGR_GAIN6(value) ((ADC_CGR_GAIN6_Msk & ((value) << ADC_CGR_GAIN6_Pos)))
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#define ADC_CGR_GAIN6_SE1_DIFF0_5 (0x0u << 12) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN6_SE1_DIFF1 (0x1u << 12) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN6_SE2_DIFF2 (0x2u << 12) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN6_SE4_DIFF2 (0x3u << 12) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN7_Pos 14
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#define ADC_CGR_GAIN7_Msk (0x3u << ADC_CGR_GAIN7_Pos) /**< \brief (ADC_CGR) Gain for Channel 7 */
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#define ADC_CGR_GAIN7(value) ((ADC_CGR_GAIN7_Msk & ((value) << ADC_CGR_GAIN7_Pos)))
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#define ADC_CGR_GAIN7_SE1_DIFF0_5 (0x0u << 14) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN7_SE1_DIFF1 (0x1u << 14) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN7_SE2_DIFF2 (0x2u << 14) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN7_SE4_DIFF2 (0x3u << 14) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN8_Pos 16
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#define ADC_CGR_GAIN8_Msk (0x3u << ADC_CGR_GAIN8_Pos) /**< \brief (ADC_CGR) Gain for Channel 8 */
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#define ADC_CGR_GAIN8(value) ((ADC_CGR_GAIN8_Msk & ((value) << ADC_CGR_GAIN8_Pos)))
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#define ADC_CGR_GAIN8_SE1_DIFF0_5 (0x0u << 16) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN8_SE1_DIFF1 (0x1u << 16) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN8_SE2_DIFF2 (0x2u << 16) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN8_SE4_DIFF2 (0x3u << 16) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN9_Pos 18
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#define ADC_CGR_GAIN9_Msk (0x3u << ADC_CGR_GAIN9_Pos) /**< \brief (ADC_CGR) Gain for Channel 9 */
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#define ADC_CGR_GAIN9(value) ((ADC_CGR_GAIN9_Msk & ((value) << ADC_CGR_GAIN9_Pos)))
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#define ADC_CGR_GAIN9_SE1_DIFF0_5 (0x0u << 18) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN9_SE1_DIFF1 (0x1u << 18) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN9_SE2_DIFF2 (0x2u << 18) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN9_SE4_DIFF2 (0x3u << 18) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN10_Pos 20
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#define ADC_CGR_GAIN10_Msk (0x3u << ADC_CGR_GAIN10_Pos) /**< \brief (ADC_CGR) Gain for Channel 10 */
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#define ADC_CGR_GAIN10(value) ((ADC_CGR_GAIN10_Msk & ((value) << ADC_CGR_GAIN10_Pos)))
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#define ADC_CGR_GAIN10_SE1_DIFF0_5 (0x0u << 20) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN10_SE1_DIFF1 (0x1u << 20) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN10_SE2_DIFF2 (0x2u << 20) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN10_SE4_DIFF2 (0x3u << 20) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN11_Pos 22
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#define ADC_CGR_GAIN11_Msk (0x3u << ADC_CGR_GAIN11_Pos) /**< \brief (ADC_CGR) Gain for Channel 11 */
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#define ADC_CGR_GAIN11(value) ((ADC_CGR_GAIN11_Msk & ((value) << ADC_CGR_GAIN11_Pos)))
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#define ADC_CGR_GAIN11_SE1_DIFF0_5 (0x0u << 22) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN11_SE1_DIFF1 (0x1u << 22) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN11_SE2_DIFF2 (0x2u << 22) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN11_SE4_DIFF2 (0x3u << 22) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN12_Pos 24
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#define ADC_CGR_GAIN12_Msk (0x3u << ADC_CGR_GAIN12_Pos) /**< \brief (ADC_CGR) Gain for Channel 12 */
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#define ADC_CGR_GAIN12(value) ((ADC_CGR_GAIN12_Msk & ((value) << ADC_CGR_GAIN12_Pos)))
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#define ADC_CGR_GAIN12_SE1_DIFF0_5 (0x0u << 24) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN12_SE1_DIFF1 (0x1u << 24) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN12_SE2_DIFF2 (0x2u << 24) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN12_SE4_DIFF2 (0x3u << 24) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN13_Pos 26
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#define ADC_CGR_GAIN13_Msk (0x3u << ADC_CGR_GAIN13_Pos) /**< \brief (ADC_CGR) Gain for Channel 13 */
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#define ADC_CGR_GAIN13(value) ((ADC_CGR_GAIN13_Msk & ((value) << ADC_CGR_GAIN13_Pos)))
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#define ADC_CGR_GAIN13_SE1_DIFF0_5 (0x0u << 26) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN13_SE1_DIFF1 (0x1u << 26) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN13_SE2_DIFF2 (0x2u << 26) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN13_SE4_DIFF2 (0x3u << 26) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN14_Pos 28
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#define ADC_CGR_GAIN14_Msk (0x3u << ADC_CGR_GAIN14_Pos) /**< \brief (ADC_CGR) Gain for Channel 14 */
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#define ADC_CGR_GAIN14(value) ((ADC_CGR_GAIN14_Msk & ((value) << ADC_CGR_GAIN14_Pos)))
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#define ADC_CGR_GAIN14_SE1_DIFF0_5 (0x0u << 28) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN14_SE1_DIFF1 (0x1u << 28) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN14_SE2_DIFF2 (0x2u << 28) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN14_SE4_DIFF2 (0x3u << 28) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN15_Pos 30
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#define ADC_CGR_GAIN15_Msk (0x3u << ADC_CGR_GAIN15_Pos) /**< \brief (ADC_CGR) Gain for Channel 15 */
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#define ADC_CGR_GAIN15(value) ((ADC_CGR_GAIN15_Msk & ((value) << ADC_CGR_GAIN15_Pos)))
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#define ADC_CGR_GAIN15_SE1_DIFF0_5 (0x0u << 30) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 0.5 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN15_SE1_DIFF1 (0x1u << 30) /**< \brief (ADC_CGR) Single-ended gain = 1 (ADC_COR.DIFFx = 0), differential gain = 1 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN15_SE2_DIFF2 (0x2u << 30) /**< \brief (ADC_CGR) Single-ended gain = 2 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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#define ADC_CGR_GAIN15_SE4_DIFF2 (0x3u << 30) /**< \brief (ADC_CGR) Single-ended gain = 4 (ADC_COR.DIFFx = 0), differential gain = 2 (ADC_COR.DIFFx = 1) */
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/* -------- ADC_COR : (ADC Offset: 0x4C) Channel Offset Register -------- */
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#define ADC_COR_OFF0 (0x1u << 0) /**< \brief (ADC_COR) Offset for Channel 0 */
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#define ADC_COR_OFF1 (0x1u << 1) /**< \brief (ADC_COR) Offset for Channel 1 */
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#define ADC_COR_OFF2 (0x1u << 2) /**< \brief (ADC_COR) Offset for Channel 2 */
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#define ADC_COR_OFF3 (0x1u << 3) /**< \brief (ADC_COR) Offset for Channel 3 */
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#define ADC_COR_OFF4 (0x1u << 4) /**< \brief (ADC_COR) Offset for Channel 4 */
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#define ADC_COR_OFF5 (0x1u << 5) /**< \brief (ADC_COR) Offset for Channel 5 */
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#define ADC_COR_OFF6 (0x1u << 6) /**< \brief (ADC_COR) Offset for Channel 6 */
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#define ADC_COR_OFF7 (0x1u << 7) /**< \brief (ADC_COR) Offset for Channel 7 */
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#define ADC_COR_OFF8 (0x1u << 8) /**< \brief (ADC_COR) Offset for Channel 8 */
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#define ADC_COR_OFF9 (0x1u << 9) /**< \brief (ADC_COR) Offset for Channel 9 */
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#define ADC_COR_OFF10 (0x1u << 10) /**< \brief (ADC_COR) Offset for Channel 10 */
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#define ADC_COR_OFF11 (0x1u << 11) /**< \brief (ADC_COR) Offset for Channel 11 */
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#define ADC_COR_OFF12 (0x1u << 12) /**< \brief (ADC_COR) Offset for Channel 12 */
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#define ADC_COR_OFF13 (0x1u << 13) /**< \brief (ADC_COR) Offset for Channel 13 */
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#define ADC_COR_OFF14 (0x1u << 14) /**< \brief (ADC_COR) Offset for Channel 14 */
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#define ADC_COR_OFF15 (0x1u << 15) /**< \brief (ADC_COR) Offset for Channel 15 */
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#define ADC_COR_DIFF0 (0x1u << 16) /**< \brief (ADC_COR) Differential Inputs for Channel 0 */
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#define ADC_COR_DIFF1 (0x1u << 17) /**< \brief (ADC_COR) Differential Inputs for Channel 1 */
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#define ADC_COR_DIFF2 (0x1u << 18) /**< \brief (ADC_COR) Differential Inputs for Channel 2 */
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#define ADC_COR_DIFF3 (0x1u << 19) /**< \brief (ADC_COR) Differential Inputs for Channel 3 */
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#define ADC_COR_DIFF4 (0x1u << 20) /**< \brief (ADC_COR) Differential Inputs for Channel 4 */
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#define ADC_COR_DIFF5 (0x1u << 21) /**< \brief (ADC_COR) Differential Inputs for Channel 5 */
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#define ADC_COR_DIFF6 (0x1u << 22) /**< \brief (ADC_COR) Differential Inputs for Channel 6 */
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#define ADC_COR_DIFF7 (0x1u << 23) /**< \brief (ADC_COR) Differential Inputs for Channel 7 */
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#define ADC_COR_DIFF8 (0x1u << 24) /**< \brief (ADC_COR) Differential Inputs for Channel 8 */
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#define ADC_COR_DIFF9 (0x1u << 25) /**< \brief (ADC_COR) Differential Inputs for Channel 9 */
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#define ADC_COR_DIFF10 (0x1u << 26) /**< \brief (ADC_COR) Differential Inputs for Channel 10 */
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#define ADC_COR_DIFF11 (0x1u << 27) /**< \brief (ADC_COR) Differential Inputs for Channel 11 */
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#define ADC_COR_DIFF12 (0x1u << 28) /**< \brief (ADC_COR) Differential Inputs for Channel 12 */
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#define ADC_COR_DIFF13 (0x1u << 29) /**< \brief (ADC_COR) Differential Inputs for Channel 13 */
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#define ADC_COR_DIFF14 (0x1u << 30) /**< \brief (ADC_COR) Differential Inputs for Channel 14 */
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#define ADC_COR_DIFF15 (0x1u << 31) /**< \brief (ADC_COR) Differential Inputs for Channel 15 */
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/* -------- ADC_CDR[16] : (ADC Offset: 0x50) Channel Data Register -------- */
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#define ADC_CDR_DATA_Pos 0
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#define ADC_CDR_DATA_Msk (0xfffu << ADC_CDR_DATA_Pos) /**< \brief (ADC_CDR[16]) Converted Data */
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/* -------- ADC_ACR : (ADC Offset: 0x94) Analog Control Register -------- */
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#define ADC_ACR_TSON (0x1u << 4) /**< \brief (ADC_ACR) Temperature Sensor On */
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#define ADC_ACR_IBCTL_Pos 8
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#define ADC_ACR_IBCTL_Msk (0x3u << ADC_ACR_IBCTL_Pos) /**< \brief (ADC_ACR) ADC Bias Current Control */
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#define ADC_ACR_IBCTL(value) ((ADC_ACR_IBCTL_Msk & ((value) << ADC_ACR_IBCTL_Pos)))
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/* -------- ADC_WPMR : (ADC Offset: 0xE4) Write Protection Mode Register -------- */
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#define ADC_WPMR_WPEN (0x1u << 0) /**< \brief (ADC_WPMR) Write Protection Enable */
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#define ADC_WPMR_WPKEY_Pos 8
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#define ADC_WPMR_WPKEY_Msk (0xffffffu << ADC_WPMR_WPKEY_Pos) /**< \brief (ADC_WPMR) Write Protection Key */
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#define ADC_WPMR_WPKEY(value) ((ADC_WPMR_WPKEY_Msk & ((value) << ADC_WPMR_WPKEY_Pos)))
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#define ADC_WPMR_WPKEY_PASSWD (0x414443u << 8) /**< \brief (ADC_WPMR) Writing any other value in this field aborts the write operation of the WPEN bit.Always reads as 0 */
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/* -------- ADC_WPSR : (ADC Offset: 0xE8) Write Protection Status Register -------- */
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#define ADC_WPSR_WPVS (0x1u << 0) /**< \brief (ADC_WPSR) Write Protection Violation Status */
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#define ADC_WPSR_WPVSRC_Pos 8
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#define ADC_WPSR_WPVSRC_Msk (0xffffu << ADC_WPSR_WPVSRC_Pos) /**< \brief (ADC_WPSR) Write Protection Violation Source */
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/* -------- ADC_RPR : (ADC Offset: 0x100) Receive Pointer Register -------- */
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#define ADC_RPR_RXPTR_Pos 0
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#define ADC_RPR_RXPTR_Msk (0xffffffffu << ADC_RPR_RXPTR_Pos) /**< \brief (ADC_RPR) Receive Pointer Register */
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#define ADC_RPR_RXPTR(value) ((ADC_RPR_RXPTR_Msk & ((value) << ADC_RPR_RXPTR_Pos)))
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/* -------- ADC_RCR : (ADC Offset: 0x104) Receive Counter Register -------- */
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#define ADC_RCR_RXCTR_Pos 0
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#define ADC_RCR_RXCTR_Msk (0xffffu << ADC_RCR_RXCTR_Pos) /**< \brief (ADC_RCR) Receive Counter Register */
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#define ADC_RCR_RXCTR(value) ((ADC_RCR_RXCTR_Msk & ((value) << ADC_RCR_RXCTR_Pos)))
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/* -------- ADC_RNPR : (ADC Offset: 0x110) Receive Next Pointer Register -------- */
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#define ADC_RNPR_RXNPTR_Pos 0
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#define ADC_RNPR_RXNPTR_Msk (0xffffffffu << ADC_RNPR_RXNPTR_Pos) /**< \brief (ADC_RNPR) Receive Next Pointer */
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#define ADC_RNPR_RXNPTR(value) ((ADC_RNPR_RXNPTR_Msk & ((value) << ADC_RNPR_RXNPTR_Pos)))
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/* -------- ADC_RNCR : (ADC Offset: 0x114) Receive Next Counter Register -------- */
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#define ADC_RNCR_RXNCTR_Pos 0
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#define ADC_RNCR_RXNCTR_Msk (0xffffu << ADC_RNCR_RXNCTR_Pos) /**< \brief (ADC_RNCR) Receive Next Counter */
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#define ADC_RNCR_RXNCTR(value) ((ADC_RNCR_RXNCTR_Msk & ((value) << ADC_RNCR_RXNCTR_Pos)))
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/* -------- ADC_PTCR : (ADC Offset: 0x120) Transfer Control Register -------- */
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#define ADC_PTCR_RXTEN (0x1u << 0) /**< \brief (ADC_PTCR) Receiver Transfer Enable */
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#define ADC_PTCR_RXTDIS (0x1u << 1) /**< \brief (ADC_PTCR) Receiver Transfer Disable */
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#define ADC_PTCR_TXTEN (0x1u << 8) /**< \brief (ADC_PTCR) Transmitter Transfer Enable */
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#define ADC_PTCR_TXTDIS (0x1u << 9) /**< \brief (ADC_PTCR) Transmitter Transfer Disable */
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/* -------- ADC_PTSR : (ADC Offset: 0x124) Transfer Status Register -------- */
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#define ADC_PTSR_RXTEN (0x1u << 0) /**< \brief (ADC_PTSR) Receiver Transfer Enable */
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#define ADC_PTSR_TXTEN (0x1u << 8) /**< \brief (ADC_PTSR) Transmitter Transfer Enable */
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/*@}*/
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#endif /* _SAM4S_ADC_COMPONENT_ */
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