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993 lines
38 KiB
993 lines
38 KiB
3 years ago
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/*!
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\file gd32vf103_adc.c
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\brief ADC driver
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\version 2019-06-05, V1.0.0, firmware for GD32VF103
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*/
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/*
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Copyright (c) 2019, GigaDevice Semiconductor Inc.
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Redistribution and use in source and binary forms, with or without modification,
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are permitted provided that the following conditions are met:
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1. Redistributions of source code must retain the above copyright notice, this
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list of conditions and the following disclaimer.
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2. Redistributions in binary form must reproduce the above copyright notice,
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this list of conditions and the following disclaimer in the documentation
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and/or other materials provided with the distribution.
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3. Neither the name of the copyright holder nor the names of its contributors
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may be used to endorse or promote products derived from this software without
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specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
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INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
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WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
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OF SUCH DAMAGE.
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*/
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#include "gd32vf103_adc.h"
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/* discontinuous mode macro*/
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#define ADC_CHANNEL_LENGTH_SUBTRACT_ONE ((uint8_t)1U)
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/* ADC regular channel macro */
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#define ADC_REGULAR_CHANNEL_RANK_SIX ((uint8_t)6U)
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#define ADC_REGULAR_CHANNEL_RANK_TWELVE ((uint8_t)12U)
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#define ADC_REGULAR_CHANNEL_RANK_SIXTEEN ((uint8_t)16U)
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#define ADC_REGULAR_CHANNEL_RANK_LENGTH ((uint8_t)5U)
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/* ADC sampling time macro */
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#define ADC_CHANNEL_SAMPLE_TEN ((uint8_t)10U)
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#define ADC_CHANNEL_SAMPLE_EIGHTEEN ((uint8_t)18U)
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#define ADC_CHANNEL_SAMPLE_LENGTH ((uint8_t)3U)
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/* ADC inserted channel macro */
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#define ADC_INSERTED_CHANNEL_RANK_LENGTH ((uint8_t)5U)
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#define ADC_INSERTED_CHANNEL_SHIFT_LENGTH ((uint8_t)15U)
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/* ADC inserted channel offset macro */
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#define ADC_OFFSET_LENGTH ((uint8_t)3U)
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#define ADC_OFFSET_SHIFT_LENGTH ((uint8_t)4U)
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/*!
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\brief reset ADC
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\param[in] adc_periph: ADCx, x=0,1
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\param[out] none
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\retval none
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*/
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void adc_deinit(uint32_t adc_periph)
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{
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switch(adc_periph){
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case ADC0:
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/* reset ADC0 */
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rcu_periph_reset_enable(RCU_ADC0RST);
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rcu_periph_reset_disable(RCU_ADC0RST);
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break;
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case ADC1:
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/* reset ADC1 */
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rcu_periph_reset_enable(RCU_ADC1RST);
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rcu_periph_reset_disable(RCU_ADC1RST);
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break;
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default:
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break;
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}
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}
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/*!
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\brief configure the ADC sync mode
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\param[in] mode: ADC mode
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only one parameter can be selected which is shown as below:
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\arg ADC_MODE_FREE: all the ADCs work independently
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\arg ADC_DAUL_REGULAL_PARALLEL_INSERTED_PARALLEL: ADC0 and ADC1 work in combined regular parallel + inserted parallel mode
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\arg ADC_DAUL_REGULAL_PARALLEL_INSERTED_ROTATION: ADC0 and ADC1 work in combined regular parallel + trigger rotation mode
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\arg ADC_DAUL_INSERTED_PARALLEL_REGULAL_FOLLOWUP_FAST: ADC0 and ADC1 work in combined inserted parallel + follow-up fast mode
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\arg ADC_DAUL_INSERTED_PARALLEL_REGULAL_FOLLOWUP_SLOW: ADC0 and ADC1 work in combined inserted parallel + follow-up slow mode
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\arg ADC_DAUL_INSERTED_PARALLEL: ADC0 and ADC1 work in inserted parallel mode only
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\arg ADC_DAUL_REGULAL_PARALLEL: ADC0 and ADC1 work in regular parallel mode only
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\arg ADC_DAUL_REGULAL_FOLLOWUP_FAST: ADC0 and ADC1 work in follow-up fast mode only
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\arg ADC_DAUL_REGULAL_FOLLOWUP_SLOW: ADC0 and ADC1 work in follow-up slow mode only
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\arg ADC_DAUL_INSERTED_TRIGGER_ROTATION: ADC0 and ADC1 work in trigger rotation mode only
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\param[out] none
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\retval none
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*/
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void adc_mode_config(uint32_t mode)
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{
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ADC_CTL0(ADC0) &= ~(ADC_CTL0_SYNCM);
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ADC_CTL0(ADC0) |= mode;
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}
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/*!
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\brief enable or disable ADC special function
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\param[in] adc_periph: ADCx, x=0,1
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\param[in] function: the function to config
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only one parameter can be selected which is shown as below:
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\arg ADC_SCAN_MODE: scan mode select
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\arg ADC_INSERTED_CHANNEL_AUTO: inserted channel group convert automatically
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\arg ADC_CONTINUOUS_MODE: continuous mode select
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\param[in] newvalue: ENABLE or DISABLE
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\param[out] none
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\retval none
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*/
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void adc_special_function_config(uint32_t adc_periph, uint32_t function, ControlStatus newvalue)
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{
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if(newvalue){
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if(0U != (function & ADC_SCAN_MODE)){
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/* enable scan mode */
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ADC_CTL0(adc_periph) |= ADC_SCAN_MODE;
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}
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if(0U != (function & ADC_INSERTED_CHANNEL_AUTO)){
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/* enable inserted channel group convert automatically */
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ADC_CTL0(adc_periph) |= ADC_INSERTED_CHANNEL_AUTO;
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}
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if(0U != (function & ADC_CONTINUOUS_MODE)){
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/* enable continuous mode */
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ADC_CTL1(adc_periph) |= ADC_CONTINUOUS_MODE;
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}
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}else{
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if(0U != (function & ADC_SCAN_MODE)){
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/* disable scan mode */
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ADC_CTL0(adc_periph) &= ~ADC_SCAN_MODE;
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}
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if(0U != (function & ADC_INSERTED_CHANNEL_AUTO)){
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/* disable inserted channel group convert automatically */
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ADC_CTL0(adc_periph) &= ~ADC_INSERTED_CHANNEL_AUTO;
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}
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if(0U != (function & ADC_CONTINUOUS_MODE)){
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/* disable continuous mode */
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ADC_CTL1(adc_periph) &= ~ADC_CONTINUOUS_MODE;
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}
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}
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}
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/*!
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\brief configure ADC data alignment
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\param[in] adc_periph: ADCx, x=0,1
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\param[in] data_alignment: data alignment select
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only one parameter can be selected which is shown as below:
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\arg ADC_DATAALIGN_RIGHT: LSB alignment
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\arg ADC_DATAALIGN_LEFT: MSB alignment
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\param[out] none
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\retval none
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*/
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void adc_data_alignment_config(uint32_t adc_periph, uint32_t data_alignment)
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{
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if(ADC_DATAALIGN_RIGHT != data_alignment){
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/* MSB alignment */
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ADC_CTL1(adc_periph) |= ADC_CTL1_DAL;
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}else{
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/* LSB alignment */
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ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_DAL);
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}
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}
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/*!
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\brief enable ADC interface
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\param[in] adc_periph: ADCx, x=0,1
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\param[out] none
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\retval none
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*/
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void adc_enable(uint32_t adc_periph)
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{
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if(RESET == (ADC_CTL1(adc_periph) & ADC_CTL1_ADCON)){
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/* enable ADC */
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ADC_CTL1(adc_periph) |= (uint32_t)ADC_CTL1_ADCON;
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}
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}
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/*!
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\brief disable ADC interface
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\param[in] adc_periph: ADCx, x=0,1
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\param[out] none
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\retval none
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*/
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void adc_disable(uint32_t adc_periph)
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{
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/* disable ADC */
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ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_ADCON);
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}
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/*!
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\brief ADC calibration and reset calibration
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\param[in] adc_periph: ADCx, x=0,1
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\param[out] none
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\retval none
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*/
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void adc_calibration_enable(uint32_t adc_periph)
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{
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/* reset the selected ADC1 calibration registers */
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ADC_CTL1(adc_periph) |= (uint32_t) ADC_CTL1_RSTCLB;
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/* check the RSTCLB bit state */
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while(RESET != (ADC_CTL1(adc_periph) & ADC_CTL1_RSTCLB)){
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}
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/* enable ADC calibration process */
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ADC_CTL1(adc_periph) |= ADC_CTL1_CLB;
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/* check the CLB bit state */
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while(RESET != (ADC_CTL1(adc_periph) & ADC_CTL1_CLB)){
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}
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}
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/*!
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\brief enable the temperature sensor and Vrefint channel
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\param[in] none
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\param[out] none
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\retval none
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*/
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void adc_tempsensor_vrefint_enable(void)
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{
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/* enable the temperature sensor and Vrefint channel */
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ADC_CTL1(ADC0) |= ADC_CTL1_TSVREN;
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}
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/*!
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\brief disable the temperature sensor and Vrefint channel
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\param[in] none
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\param[out] none
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\retval none
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*/
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void adc_tempsensor_vrefint_disable(void)
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{
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/* disable the temperature sensor and Vrefint channel */
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ADC_CTL1(ADC0) &= ~ADC_CTL1_TSVREN;
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}
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/*!
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\brief enable DMA request
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\param[in] adc_periph: ADCx, x=0,1
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\param[out] none
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\retval none
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*/
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void adc_dma_mode_enable(uint32_t adc_periph)
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{
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/* enable DMA request */
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ADC_CTL1(adc_periph) |= (uint32_t)(ADC_CTL1_DMA);
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}
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/*!
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\brief disable DMA request
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\param[in] adc_periph: ADCx, x=0,1
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\param[out] none
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\retval none
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*/
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void adc_dma_mode_disable(uint32_t adc_periph)
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{
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/* disable DMA request */
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ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_DMA);
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}
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/*!
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\brief configure ADC discontinuous mode
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\param[in] adc_periph: ADCx, x=0,1
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\param[in] adc_channel_group: select the channel group
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only one parameter can be selected which is shown as below:
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\arg ADC_REGULAR_CHANNEL: regular channel group
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\arg ADC_INSERTED_CHANNEL: inserted channel group
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\arg ADC_CHANNEL_DISCON_DISABLE: disable discontinuous mode of regular & inserted channel
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\param[in] length: number of conversions in discontinuous mode,the number can be 1..8
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for regular channel, the number has no effect for inserted channel
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\param[out] none
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\retval none
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*/
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void adc_discontinuous_mode_config(uint32_t adc_periph, uint8_t adc_channel_group, uint8_t length)
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{
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/* disable discontinuous mode of regular & inserted channel */
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ADC_CTL0(adc_periph) &= ~((uint32_t)(ADC_CTL0_DISRC | ADC_CTL0_DISIC));
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switch(adc_channel_group){
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case ADC_REGULAR_CHANNEL:
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/* config the number of conversions in discontinuous mode */
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ADC_CTL0(adc_periph) &= ~((uint32_t)ADC_CTL0_DISNUM);
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ADC_CTL0(adc_periph) |= CTL0_DISNUM(((uint32_t)length - ADC_CHANNEL_LENGTH_SUBTRACT_ONE));
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/* enable regular channel group discontinuous mode */
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ADC_CTL0(adc_periph) |= (uint32_t)ADC_CTL0_DISRC;
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break;
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case ADC_INSERTED_CHANNEL:
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/* enable inserted channel group discontinuous mode */
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ADC_CTL0(adc_periph) |= (uint32_t)ADC_CTL0_DISIC;
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break;
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case ADC_CHANNEL_DISCON_DISABLE:
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/* disable discontinuous mode of regular & inserted channel */
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default:
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break;
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}
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}
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/*!
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\brief configure the length of regular channel group or inserted channel group
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\param[in] adc_periph: ADCx, x=0,1
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\param[in] adc_channel_group: select the channel group
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only one parameter can be selected which is shown as below:
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\arg ADC_REGULAR_CHANNEL: regular channel group
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\arg ADC_INSERTED_CHANNEL: inserted channel group
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\param[in] length: the length of the channel
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regular channel 1-16
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inserted channel 1-4
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\param[out] none
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\retval none
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*/
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void adc_channel_length_config(uint32_t adc_periph, uint8_t adc_channel_group, uint32_t length)
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{
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switch(adc_channel_group){
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case ADC_REGULAR_CHANNEL:
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/* configure the length of regular channel group */
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ADC_RSQ0(adc_periph) &= ~((uint32_t)ADC_RSQ0_RL);
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ADC_RSQ0(adc_periph) |= RSQ0_RL((uint32_t)(length-ADC_CHANNEL_LENGTH_SUBTRACT_ONE));
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break;
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case ADC_INSERTED_CHANNEL:
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/* configure the length of inserted channel group */
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ADC_ISQ(adc_periph) &= ~((uint32_t)ADC_ISQ_IL);
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ADC_ISQ(adc_periph) |= ISQ_IL((uint32_t)(length-ADC_CHANNEL_LENGTH_SUBTRACT_ONE));
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break;
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default:
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break;
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}
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}
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/*!
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\brief configure ADC regular channel
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\param[in] adc_periph: ADCx, x=0,1
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\param[in] rank: the regular group sequence rank,this parameter must be between 0 to 15
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\param[in] adc_channel: the selected ADC channel
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only one parameter can be selected which is shown as below:
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\arg ADC_CHANNEL_x(x=0..17)(x=16 and x=17 are only for ADC0): ADC Channelx
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\param[in] sample_time: the sample time value
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only one parameter can be selected which is shown as below:
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\arg ADC_SAMPLETIME_1POINT5: 1.5 cycles
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\arg ADC_SAMPLETIME_7POINT5: 7.5 cycles
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\arg ADC_SAMPLETIME_13POINT5: 13.5 cycles
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\arg ADC_SAMPLETIME_28POINT5: 28.5 cycles
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\arg ADC_SAMPLETIME_41POINT5: 41.5 cycles
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\arg ADC_SAMPLETIME_55POINT5: 55.5 cycles
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\arg ADC_SAMPLETIME_71POINT5: 71.5 cycles
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\arg ADC_SAMPLETIME_239POINT5: 239.5 cycles
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\param[out] none
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\retval none
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*/
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void adc_regular_channel_config(uint32_t adc_periph, uint8_t rank, uint8_t adc_channel, uint32_t sample_time)
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{
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uint32_t rsq,sampt;
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/* ADC regular sequence config */
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if(rank < ADC_REGULAR_CHANNEL_RANK_SIX){
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/* the regular group sequence rank is smaller than six */
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rsq = ADC_RSQ2(adc_periph);
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rsq &= ~((uint32_t)(ADC_RSQX_RSQN << (ADC_REGULAR_CHANNEL_RANK_LENGTH*rank)));
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/* the channel number is written to these bits to select a channel as the nth conversion in the regular channel group */
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rsq |= ((uint32_t)adc_channel << (ADC_REGULAR_CHANNEL_RANK_LENGTH*rank));
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ADC_RSQ2(adc_periph) = rsq;
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}else if(rank < ADC_REGULAR_CHANNEL_RANK_TWELVE){
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/* the regular group sequence rank is smaller than twelve */
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rsq = ADC_RSQ1(adc_periph);
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rsq &= ~((uint32_t)(ADC_RSQX_RSQN << (ADC_REGULAR_CHANNEL_RANK_LENGTH*(rank-ADC_REGULAR_CHANNEL_RANK_SIX))));
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/* the channel number is written to these bits to select a channel as the nth conversion in the regular channel group */
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rsq |= ((uint32_t)adc_channel << (ADC_REGULAR_CHANNEL_RANK_LENGTH*(rank-ADC_REGULAR_CHANNEL_RANK_SIX)));
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ADC_RSQ1(adc_periph) = rsq;
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}else if(rank < ADC_REGULAR_CHANNEL_RANK_SIXTEEN){
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/* the regular group sequence rank is smaller than sixteen */
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rsq = ADC_RSQ0(adc_periph);
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rsq &= ~((uint32_t)(ADC_RSQX_RSQN << (ADC_REGULAR_CHANNEL_RANK_LENGTH*(rank-ADC_REGULAR_CHANNEL_RANK_TWELVE))));
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/* the channel number is written to these bits to select a channel as the nth conversion in the regular channel group */
|
||
|
rsq |= ((uint32_t)adc_channel << (ADC_REGULAR_CHANNEL_RANK_LENGTH*(rank-ADC_REGULAR_CHANNEL_RANK_TWELVE)));
|
||
|
ADC_RSQ0(adc_periph) = rsq;
|
||
|
}else{
|
||
|
}
|
||
|
|
||
|
/* ADC sampling time config */
|
||
|
if(adc_channel < ADC_CHANNEL_SAMPLE_TEN){
|
||
|
/* the regular group sequence rank is smaller than ten */
|
||
|
sampt = ADC_SAMPT1(adc_periph);
|
||
|
sampt &= ~((uint32_t)(ADC_SAMPTX_SPTN << (ADC_CHANNEL_SAMPLE_LENGTH*adc_channel)));
|
||
|
/* channel sample time set*/
|
||
|
sampt |= (uint32_t)(sample_time << (ADC_CHANNEL_SAMPLE_LENGTH*adc_channel));
|
||
|
ADC_SAMPT1(adc_periph) = sampt;
|
||
|
}else if(adc_channel < ADC_CHANNEL_SAMPLE_EIGHTEEN){
|
||
|
/* the regular group sequence rank is smaller than eighteen */
|
||
|
sampt = ADC_SAMPT0(adc_periph);
|
||
|
sampt &= ~((uint32_t)(ADC_SAMPTX_SPTN << (ADC_CHANNEL_SAMPLE_LENGTH*(adc_channel-ADC_CHANNEL_SAMPLE_TEN))));
|
||
|
/* channel sample time set*/
|
||
|
sampt |= (uint32_t)(sample_time << (ADC_CHANNEL_SAMPLE_LENGTH*(adc_channel-ADC_CHANNEL_SAMPLE_TEN)));
|
||
|
ADC_SAMPT0(adc_periph) = sampt;
|
||
|
}else{
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief configure ADC inserted channel
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] rank: the inserted group sequencer rank,this parameter must be between 0 to 3
|
||
|
\param[in] adc_channel: the selected ADC channel
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_CHANNEL_x(x=0..17)(x=16 and x=17 are only for ADC0): ADC Channelx
|
||
|
\param[in] sample_time: The sample time value
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_SAMPLETIME_1POINT5: 1.5 cycles
|
||
|
\arg ADC_SAMPLETIME_7POINT5: 7.5 cycles
|
||
|
\arg ADC_SAMPLETIME_13POINT5: 13.5 cycles
|
||
|
\arg ADC_SAMPLETIME_28POINT5: 28.5 cycles
|
||
|
\arg ADC_SAMPLETIME_41POINT5: 41.5 cycles
|
||
|
\arg ADC_SAMPLETIME_55POINT5: 55.5 cycles
|
||
|
\arg ADC_SAMPLETIME_71POINT5: 71.5 cycles
|
||
|
\arg ADC_SAMPLETIME_239POINT5: 239.5 cycles
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_inserted_channel_config(uint32_t adc_periph, uint8_t rank, uint8_t adc_channel, uint32_t sample_time)
|
||
|
{
|
||
|
uint8_t inserted_length;
|
||
|
uint32_t isq,sampt;
|
||
|
/* get inserted channel group length */
|
||
|
inserted_length = (uint8_t)GET_BITS(ADC_ISQ(adc_periph) , 20U , 21U);
|
||
|
/* the channel number is written to these bits to select a channel as the nth conversion in the inserted channel group */
|
||
|
isq = ADC_ISQ(adc_periph);
|
||
|
isq &= ~((uint32_t)(ADC_ISQ_ISQN << (ADC_INSERTED_CHANNEL_SHIFT_LENGTH-(inserted_length-rank)*ADC_INSERTED_CHANNEL_RANK_LENGTH)));
|
||
|
isq |= ((uint32_t)adc_channel << (ADC_INSERTED_CHANNEL_SHIFT_LENGTH-(inserted_length-rank)*ADC_INSERTED_CHANNEL_RANK_LENGTH));
|
||
|
ADC_ISQ(adc_periph) = isq;
|
||
|
|
||
|
/* ADC sampling time config */
|
||
|
if(adc_channel < ADC_CHANNEL_SAMPLE_TEN){
|
||
|
/* the inserted group sequence rank is smaller than ten */
|
||
|
sampt = ADC_SAMPT1(adc_periph);
|
||
|
sampt &= ~((uint32_t)(ADC_SAMPTX_SPTN << (ADC_CHANNEL_SAMPLE_LENGTH*adc_channel)));
|
||
|
/* channel sample time set*/
|
||
|
sampt |= (uint32_t) sample_time << (ADC_CHANNEL_SAMPLE_LENGTH*adc_channel);
|
||
|
ADC_SAMPT1(adc_periph) = sampt;
|
||
|
}else if(adc_channel < ADC_CHANNEL_SAMPLE_EIGHTEEN){
|
||
|
/* the inserted group sequence rank is smaller than eighteen */
|
||
|
sampt = ADC_SAMPT0(adc_periph);
|
||
|
sampt &= ~((uint32_t)(ADC_SAMPTX_SPTN << (ADC_CHANNEL_SAMPLE_LENGTH*(adc_channel-ADC_CHANNEL_SAMPLE_TEN))));
|
||
|
/* channel sample time set*/
|
||
|
sampt |= ((uint32_t)sample_time << (ADC_CHANNEL_SAMPLE_LENGTH*(adc_channel-ADC_CHANNEL_SAMPLE_TEN)));
|
||
|
ADC_SAMPT0(adc_periph) = sampt;
|
||
|
}else{
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief configure ADC inserted channel offset
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] inserted_channel: insert channel select
|
||
|
only one parameter can be selected
|
||
|
\arg ADC_INSERTED_CHANNEL_0: inserted channel0
|
||
|
\arg ADC_INSERTED_CHANNEL_1: inserted channel1
|
||
|
\arg ADC_INSERTED_CHANNEL_2: inserted channel2
|
||
|
\arg ADC_INSERTED_CHANNEL_3: inserted channel3
|
||
|
\param[in] offset: the offset data
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_inserted_channel_offset_config(uint32_t adc_periph, uint8_t inserted_channel, uint16_t offset)
|
||
|
{
|
||
|
uint8_t inserted_length;
|
||
|
uint32_t num = 0U;
|
||
|
|
||
|
inserted_length = (uint8_t)GET_BITS(ADC_ISQ(adc_periph) , 20U , 21U);
|
||
|
num = ((uint32_t)ADC_OFFSET_LENGTH - ((uint32_t)inserted_length - (uint32_t)inserted_channel));
|
||
|
|
||
|
if(num <= ADC_OFFSET_LENGTH){
|
||
|
/* calculate the offset of the register */
|
||
|
num = num * ADC_OFFSET_SHIFT_LENGTH;
|
||
|
/* config the offset of the selected channels */
|
||
|
REG32((adc_periph) + 0x14U + num) = IOFFX_IOFF((uint32_t)offset);
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief configure ADC external trigger source
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_channel_group: select the channel group
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_REGULAR_CHANNEL: regular channel group
|
||
|
\arg ADC_INSERTED_CHANNEL: inserted channel group
|
||
|
\param[in] external_trigger_source: regular or inserted group trigger source
|
||
|
only one parameter can be selected
|
||
|
for regular channel:
|
||
|
\arg ADC0_1_EXTTRIG_REGULAR_T0_CH0: TIMER0 CH0 event select
|
||
|
\arg ADC0_1_EXTTRIG_REGULAR_T0_CH1: TIMER0 CH1 event select
|
||
|
\arg ADC0_1_EXTTRIG_REGULAR_T0_CH2: TIMER0 CH2 event select
|
||
|
\arg ADC0_1_EXTTRIG_REGULAR_T1_CH1: TIMER1 CH1 event select
|
||
|
\arg ADC0_1_EXTTRIG_REGULAR_T2_TRGO: TIMER2 TRGO event select
|
||
|
\arg ADC0_1_EXTTRIG_REGULAR_T3_CH3: TIMER3 CH3 event select
|
||
|
\arg ADC0_1_EXTTRIG_REGULAR_EXTI_11: external interrupt line 11
|
||
|
\arg ADC0_1_EXTTRIG_REGULAR_NONE: software trigger
|
||
|
for inserted channel:
|
||
|
\arg ADC0_1_EXTTRIG_INSERTED_T0_TRGO: TIMER0 TRGO event select
|
||
|
\arg ADC0_1_EXTTRIG_INSERTED_T0_CH3: TIMER0 CH3 event select
|
||
|
\arg ADC0_1_EXTTRIG_INSERTED_T1_TRGO: TIMER1 TRGO event select
|
||
|
\arg ADC0_1_EXTTRIG_INSERTED_T1_CH0: TIMER1 CH0 event select
|
||
|
\arg ADC0_1_EXTTRIG_INSERTED_T2_CH3: TIMER2 CH3 event select
|
||
|
\arg ADC0_1_EXTTRIG_INSERTED_T3_TRGO: TIMER3 TRGO event select
|
||
|
\arg ADC0_1_EXTTRIG_INSERTED_EXTI_15: external interrupt line 15
|
||
|
\arg ADC0_1_EXTTRIG_INSERTED_NONE: software trigger
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_external_trigger_source_config(uint32_t adc_periph, uint8_t adc_channel_group, uint32_t external_trigger_source)
|
||
|
{
|
||
|
switch(adc_channel_group){
|
||
|
case ADC_REGULAR_CHANNEL:
|
||
|
/* configure ADC regular group external trigger source */
|
||
|
ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_ETSRC);
|
||
|
ADC_CTL1(adc_periph) |= (uint32_t)external_trigger_source;
|
||
|
break;
|
||
|
case ADC_INSERTED_CHANNEL:
|
||
|
/* configure ADC inserted group external trigger source */
|
||
|
ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_ETSIC);
|
||
|
ADC_CTL1(adc_periph) |= (uint32_t)external_trigger_source;
|
||
|
break;
|
||
|
default:
|
||
|
break;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief configure ADC external trigger
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_channel_group: select the channel group
|
||
|
one or more parameters can be selected which are shown as below:
|
||
|
\arg ADC_REGULAR_CHANNEL: regular channel group
|
||
|
\arg ADC_INSERTED_CHANNEL: inserted channel group
|
||
|
\param[in] newvalue: ENABLE or DISABLE
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_external_trigger_config(uint32_t adc_periph, uint8_t adc_channel_group, ControlStatus newvalue)
|
||
|
{
|
||
|
if(newvalue){
|
||
|
if(0U != (adc_channel_group & ADC_REGULAR_CHANNEL)){
|
||
|
/* enable ADC regular channel group external trigger */
|
||
|
ADC_CTL1(adc_periph) |= ADC_CTL1_ETERC;
|
||
|
}
|
||
|
if(0U != (adc_channel_group & ADC_INSERTED_CHANNEL)){
|
||
|
/* enable ADC inserted channel group external trigger */
|
||
|
ADC_CTL1(adc_periph) |= ADC_CTL1_ETEIC;
|
||
|
}
|
||
|
}else{
|
||
|
if(0U != (adc_channel_group & ADC_REGULAR_CHANNEL)){
|
||
|
/* disable ADC regular channel group external trigger */
|
||
|
ADC_CTL1(adc_periph) &= ~ADC_CTL1_ETERC;
|
||
|
}
|
||
|
if(0U != (adc_channel_group & ADC_INSERTED_CHANNEL)){
|
||
|
/* disable ADC regular channel group external trigger */
|
||
|
ADC_CTL1(adc_periph) &= ~ADC_CTL1_ETEIC;
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief enable ADC software trigger
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_channel_group: select the channel group
|
||
|
one or more parameters can be selected which are shown as below:
|
||
|
\arg ADC_REGULAR_CHANNEL: regular channel group
|
||
|
\arg ADC_INSERTED_CHANNEL: inserted channel group
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_software_trigger_enable(uint32_t adc_periph, uint8_t adc_channel_group)
|
||
|
{
|
||
|
if(0U != (adc_channel_group & ADC_REGULAR_CHANNEL)){
|
||
|
/* enable ADC regular channel group software trigger */
|
||
|
ADC_CTL1(adc_periph) |= ADC_CTL1_SWRCST;
|
||
|
}
|
||
|
if(0U != (adc_channel_group & ADC_INSERTED_CHANNEL)){
|
||
|
/* enable ADC inserted channel group software trigger */
|
||
|
ADC_CTL1(adc_periph) |= ADC_CTL1_SWICST;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief read ADC regular group data register
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] none
|
||
|
\param[out] none
|
||
|
\retval the conversion value
|
||
|
*/
|
||
|
uint16_t adc_regular_data_read(uint32_t adc_periph)
|
||
|
{
|
||
|
return (uint16_t)(ADC_RDATA(adc_periph));
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief read ADC inserted group data register
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] inserted_channel: insert channel select
|
||
|
only one parameter can be selected
|
||
|
\arg ADC_INSERTED_CHANNEL_0: inserted Channel0
|
||
|
\arg ADC_INSERTED_CHANNEL_1: inserted channel1
|
||
|
\arg ADC_INSERTED_CHANNEL_2: inserted Channel2
|
||
|
\arg ADC_INSERTED_CHANNEL_3: inserted Channel3
|
||
|
\param[out] none
|
||
|
\retval the conversion value
|
||
|
*/
|
||
|
uint16_t adc_inserted_data_read(uint32_t adc_periph, uint8_t inserted_channel)
|
||
|
{
|
||
|
uint32_t idata;
|
||
|
/* read the data of the selected channel */
|
||
|
switch(inserted_channel){
|
||
|
case ADC_INSERTED_CHANNEL_0:
|
||
|
/* read the data of channel 0 */
|
||
|
idata = ADC_IDATA0(adc_periph);
|
||
|
break;
|
||
|
case ADC_INSERTED_CHANNEL_1:
|
||
|
/* read the data of channel 1 */
|
||
|
idata = ADC_IDATA1(adc_periph);
|
||
|
break;
|
||
|
case ADC_INSERTED_CHANNEL_2:
|
||
|
/* read the data of channel 2 */
|
||
|
idata = ADC_IDATA2(adc_periph);
|
||
|
break;
|
||
|
case ADC_INSERTED_CHANNEL_3:
|
||
|
/* read the data of channel 3 */
|
||
|
idata = ADC_IDATA3(adc_periph);
|
||
|
break;
|
||
|
default:
|
||
|
idata = 0U;
|
||
|
break;
|
||
|
}
|
||
|
return (uint16_t)idata;
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief read the last ADC0 and ADC1 conversion result data in sync mode
|
||
|
\param[in] none
|
||
|
\param[out] none
|
||
|
\retval the conversion value
|
||
|
*/
|
||
|
uint32_t adc_sync_mode_convert_value_read(void)
|
||
|
{
|
||
|
/* return conversion value */
|
||
|
return ADC_RDATA(ADC0);
|
||
|
}
|
||
|
|
||
|
|
||
|
/*!
|
||
|
\brief configure ADC analog watchdog single channel
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_channel: the selected ADC channel
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_CHANNEL_x: ADC Channelx(x=0..17)(x=16 and x=17 are only for ADC0)
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_watchdog_single_channel_enable(uint32_t adc_periph, uint8_t adc_channel)
|
||
|
{
|
||
|
ADC_CTL0(adc_periph) &= (uint32_t)~(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN | ADC_CTL0_WDSC | ADC_CTL0_WDCHSEL);
|
||
|
/* analog watchdog channel select */
|
||
|
ADC_CTL0(adc_periph) |= (uint32_t)adc_channel;
|
||
|
ADC_CTL0(adc_periph) |= (uint32_t)(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN | ADC_CTL0_WDSC);
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief configure ADC analog watchdog group channel
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_channel_group: the channel group use analog watchdog
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_REGULAR_CHANNEL: regular channel group
|
||
|
\arg ADC_INSERTED_CHANNEL: inserted channel group
|
||
|
\arg ADC_REGULAR_INSERTED_CHANNEL: both regular and inserted group
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_watchdog_group_channel_enable(uint32_t adc_periph, uint8_t adc_channel_group)
|
||
|
{
|
||
|
ADC_CTL0(adc_periph) &= (uint32_t)~(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN | ADC_CTL0_WDSC);
|
||
|
/* select the group */
|
||
|
switch(adc_channel_group){
|
||
|
case ADC_REGULAR_CHANNEL:
|
||
|
/* regular channel analog watchdog enable */
|
||
|
ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_RWDEN;
|
||
|
break;
|
||
|
case ADC_INSERTED_CHANNEL:
|
||
|
/* inserted channel analog watchdog enable */
|
||
|
ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_IWDEN;
|
||
|
break;
|
||
|
case ADC_REGULAR_INSERTED_CHANNEL:
|
||
|
/* regular and inserted channel analog watchdog enable */
|
||
|
ADC_CTL0(adc_periph) |= (uint32_t)(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN);
|
||
|
break;
|
||
|
default:
|
||
|
break;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief disable ADC analog watchdog
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_watchdog_disable(uint32_t adc_periph)
|
||
|
{
|
||
|
ADC_CTL0(adc_periph) &= (uint32_t)~(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN | ADC_CTL0_WDSC | ADC_CTL0_WDCHSEL);
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief configure ADC analog watchdog threshold
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] low_threshold: analog watchdog low threshold, 0..4095
|
||
|
\param[in] high_threshold: analog watchdog high threshold, 0..4095
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_watchdog_threshold_config(uint32_t adc_periph, uint16_t low_threshold, uint16_t high_threshold)
|
||
|
{
|
||
|
ADC_WDLT(adc_periph) = (uint32_t)WDLT_WDLT(low_threshold);
|
||
|
ADC_WDHT(adc_periph) = (uint32_t)WDHT_WDHT(high_threshold);
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief get the ADC flag bits
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_flag: the adc flag bits
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_FLAG_WDE: analog watchdog event flag
|
||
|
\arg ADC_FLAG_EOC: end of group conversion flag
|
||
|
\arg ADC_FLAG_EOIC: end of inserted group conversion flag
|
||
|
\arg ADC_FLAG_STIC: start flag of inserted channel group
|
||
|
\arg ADC_FLAG_STRC: start flag of regular channel group
|
||
|
\param[out] none
|
||
|
\retval FlagStatus: SET or RESET
|
||
|
*/
|
||
|
FlagStatus adc_flag_get(uint32_t adc_periph, uint32_t adc_flag)
|
||
|
{
|
||
|
FlagStatus reval = RESET;
|
||
|
if(ADC_STAT(adc_periph) & adc_flag){
|
||
|
reval = SET;
|
||
|
}
|
||
|
return reval;
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief clear the ADC flag bits
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_flag: the adc flag bits
|
||
|
one or more parameters can be selected which are shown as below:
|
||
|
\arg ADC_FLAG_WDE: analog watchdog event flag
|
||
|
\arg ADC_FLAG_EOC: end of group conversion flag
|
||
|
\arg ADC_FLAG_EOIC: end of inserted group conversion flag
|
||
|
\arg ADC_FLAG_STIC: start flag of inserted channel group
|
||
|
\arg ADC_FLAG_STRC: start flag of regular channel group
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_flag_clear(uint32_t adc_periph, uint32_t adc_flag)
|
||
|
{
|
||
|
ADC_STAT(adc_periph) &= ~((uint32_t)adc_flag);
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief get the bit state of ADCx software start conversion
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] none
|
||
|
\param[out] none
|
||
|
\retval FlagStatus: SET or RESET
|
||
|
*/
|
||
|
FlagStatus adc_regular_software_startconv_flag_get(uint32_t adc_periph)
|
||
|
{
|
||
|
FlagStatus reval = RESET;
|
||
|
if((uint32_t)RESET != (ADC_CTL1(adc_periph) & ADC_CTL1_SWRCST)){
|
||
|
reval = SET;
|
||
|
}
|
||
|
return reval;
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief get the bit state of ADCx software inserted channel start conversion
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] none
|
||
|
\param[out] none
|
||
|
\retval FlagStatus: SET or RESET
|
||
|
*/
|
||
|
FlagStatus adc_inserted_software_startconv_flag_get(uint32_t adc_periph)
|
||
|
{
|
||
|
FlagStatus reval = RESET;
|
||
|
if((uint32_t)RESET != (ADC_CTL1(adc_periph) & ADC_CTL1_SWICST)){
|
||
|
reval = SET;
|
||
|
}
|
||
|
return reval;
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief get the ADC interrupt bits
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_interrupt: the adc interrupt bits
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_INT_FLAG_WDE: analog watchdog interrupt
|
||
|
\arg ADC_INT_FLAG_EOC: end of group conversion interrupt
|
||
|
\arg ADC_INT_FLAG_EOIC: end of inserted group conversion interrupt
|
||
|
\param[out] none
|
||
|
\retval FlagStatus: SET or RESET
|
||
|
*/
|
||
|
FlagStatus adc_interrupt_flag_get(uint32_t adc_periph, uint32_t adc_interrupt)
|
||
|
{
|
||
|
FlagStatus interrupt_flag = RESET;
|
||
|
uint32_t state;
|
||
|
/* check the interrupt bits */
|
||
|
switch(adc_interrupt){
|
||
|
case ADC_INT_FLAG_WDE:
|
||
|
/* get the ADC analog watchdog interrupt bits */
|
||
|
state = ADC_STAT(adc_periph) & ADC_STAT_WDE;
|
||
|
if((ADC_CTL0(adc_periph) & ADC_CTL0_WDEIE) && state){
|
||
|
interrupt_flag = SET;
|
||
|
}
|
||
|
break;
|
||
|
case ADC_INT_FLAG_EOC:
|
||
|
/* get the ADC end of group conversion interrupt bits */
|
||
|
state = ADC_STAT(adc_periph) & ADC_STAT_EOC;
|
||
|
if((ADC_CTL0(adc_periph) & ADC_CTL0_EOCIE) && state){
|
||
|
interrupt_flag = SET;
|
||
|
}
|
||
|
break;
|
||
|
case ADC_INT_FLAG_EOIC:
|
||
|
/* get the ADC end of inserted group conversion interrupt bits */
|
||
|
state = ADC_STAT(adc_periph) & ADC_STAT_EOIC;
|
||
|
if((ADC_CTL0(adc_periph) & ADC_CTL0_EOICIE) && state){
|
||
|
interrupt_flag = SET;
|
||
|
}
|
||
|
break;
|
||
|
default:
|
||
|
break;
|
||
|
}
|
||
|
return interrupt_flag;
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief clear the ADC flag
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_interrupt: the adc status flag
|
||
|
one or more parameters can be selected which are shown as below:
|
||
|
\arg ADC_INT_FLAG_WDE: analog watchdog interrupt
|
||
|
\arg ADC_INT_FLAG_EOC: end of group conversion interrupt
|
||
|
\arg ADC_INT_FLAG_EOIC: end of inserted group conversion interrupt
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_interrupt_flag_clear(uint32_t adc_periph, uint32_t adc_interrupt)
|
||
|
{
|
||
|
ADC_STAT(adc_periph) &= ~((uint32_t)adc_interrupt);
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief enable ADC interrupt
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_interrupt: the adc interrupt
|
||
|
one or more parameters can be selected which are shown as below:
|
||
|
\arg ADC_INT_WDE: analog watchdog interrupt flag
|
||
|
\arg ADC_INT_EOC: end of group conversion interrupt flag
|
||
|
\arg ADC_INT_EOIC: end of inserted group conversion interrupt flag
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_interrupt_enable(uint32_t adc_periph, uint32_t adc_interrupt)
|
||
|
{
|
||
|
/* enable ADC analog watchdog interrupt */
|
||
|
if(0U != (adc_interrupt & ADC_INT_WDE)){
|
||
|
ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_WDEIE;
|
||
|
}
|
||
|
/* enable ADC end of group conversion interrupt */
|
||
|
if(0U != (adc_interrupt & ADC_INT_EOC)){
|
||
|
ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_EOCIE;
|
||
|
}
|
||
|
/* enable ADC end of inserted group conversion interrupt */
|
||
|
if(0U != (adc_interrupt & ADC_INT_EOIC)){
|
||
|
ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_EOICIE;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief disable ADC interrupt
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] adc_interrupt: the adc interrupt flag
|
||
|
one or more parameters can be selected which are shown as below:
|
||
|
\arg ADC_INT_WDE: analog watchdog interrupt flag
|
||
|
\arg ADC_INT_EOC: end of group conversion interrupt flag
|
||
|
\arg ADC_INT_EOIC: end of inserted group conversion interrupt flag
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_interrupt_disable(uint32_t adc_periph, uint32_t adc_interrupt)
|
||
|
{
|
||
|
/* disable ADC analog watchdog interrupt */
|
||
|
if(0U != (adc_interrupt & ADC_INT_WDE)){
|
||
|
ADC_CTL0(adc_periph) &= ~(uint32_t) ADC_CTL0_WDEIE;
|
||
|
}
|
||
|
/* disable ADC end of group conversion interrupt */
|
||
|
if(0U != (adc_interrupt & ADC_INT_EOC)){
|
||
|
ADC_CTL0(adc_periph) &= ~(uint32_t) ADC_CTL0_EOCIE;
|
||
|
}
|
||
|
/* disable ADC end of inserted group conversion interrupt */
|
||
|
if(0U != (adc_interrupt & ADC_INT_EOIC)){
|
||
|
ADC_CTL0(adc_periph) &= ~(uint32_t) ADC_CTL0_EOICIE;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief adc resolution config
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] resolution: ADC resolution
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_RESOLUTION_12B: 12-bit ADC resolution
|
||
|
\arg ADC_RESOLUTION_10B: 10-bit ADC resolution
|
||
|
\arg ADC_RESOLUTION_8B: 8-bit ADC resolution
|
||
|
\arg ADC_RESOLUTION_6B: 6-bit ADC resolution
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_resolution_config(uint32_t adc_periph, uint32_t resolution)
|
||
|
{
|
||
|
ADC_OVSCR(adc_periph) &= ~((uint32_t)ADC_OVSCR_DRES);
|
||
|
ADC_OVSCR(adc_periph) |= (uint32_t)resolution;
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief adc oversample mode config
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[in] mode: ADC oversampling mode
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_OVERSAMPLING_ALL_CONVERT: all oversampled conversions for a channel
|
||
|
are done consecutively after a trigger
|
||
|
\arg ADC_OVERSAMPLING_ONE_CONVERT: each oversampled conversion for a channel
|
||
|
needs a trigger
|
||
|
\param[in] shift: ADC oversampling shift
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_OVERSAMPLING_SHIFT_NONE: no oversampling shift
|
||
|
\arg ADC_OVERSAMPLING_SHIFT_1B: 1-bit oversampling shift
|
||
|
\arg ADC_OVERSAMPLING_SHIFT_2B: 2-bit oversampling shift
|
||
|
\arg ADC_OVERSAMPLING_SHIFT_3B: 3-bit oversampling shift
|
||
|
\arg ADC_OVERSAMPLING_SHIFT_4B: 3-bit oversampling shift
|
||
|
\arg ADC_OVERSAMPLING_SHIFT_5B: 5-bit oversampling shift
|
||
|
\arg ADC_OVERSAMPLING_SHIFT_6B: 6-bit oversampling shift
|
||
|
\arg ADC_OVERSAMPLING_SHIFT_7B: 7-bit oversampling shift
|
||
|
\arg ADC_OVERSAMPLING_SHIFT_8B: 8-bit oversampling shift
|
||
|
\param[in] ratio: ADC oversampling ratio
|
||
|
only one parameter can be selected which is shown as below:
|
||
|
\arg ADC_OVERSAMPLING_RATIO_MUL2: oversampling ratio X2
|
||
|
\arg ADC_OVERSAMPLING_RATIO_MUL4: oversampling ratio X4
|
||
|
\arg ADC_OVERSAMPLING_RATIO_MUL8: oversampling ratio X8
|
||
|
\arg ADC_OVERSAMPLING_RATIO_MUL16: oversampling ratio X16
|
||
|
\arg ADC_OVERSAMPLING_RATIO_MUL32: oversampling ratio X32
|
||
|
\arg ADC_OVERSAMPLING_RATIO_MUL64: oversampling ratio X64
|
||
|
\arg ADC_OVERSAMPLING_RATIO_MUL128: oversampling ratio X128
|
||
|
\arg ADC_OVERSAMPLING_RATIO_MUL256: oversampling ratio X256
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_oversample_mode_config(uint32_t adc_periph, uint8_t mode, uint16_t shift,uint8_t ratio)
|
||
|
{
|
||
|
if(mode){
|
||
|
ADC_OVSCR(adc_periph) |= (uint32_t)ADC_OVSCR_TOVS;
|
||
|
}else{
|
||
|
ADC_OVSCR(adc_periph) &= ~((uint32_t)ADC_OVSCR_TOVS);
|
||
|
}
|
||
|
/* config the shift and ratio */
|
||
|
ADC_OVSCR(adc_periph) &= ~((uint32_t)(ADC_OVSCR_OVSR | ADC_OVSCR_OVSS));
|
||
|
ADC_OVSCR(adc_periph) |= ((uint32_t)shift | (uint32_t)ratio);
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief enable ADC oversample mode
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_oversample_mode_enable(uint32_t adc_periph)
|
||
|
{
|
||
|
ADC_OVSCR(adc_periph) |= ADC_OVSCR_OVSEN;
|
||
|
}
|
||
|
|
||
|
/*!
|
||
|
\brief disable ADC oversample mode
|
||
|
\param[in] adc_periph: ADCx, x=0,1
|
||
|
\param[out] none
|
||
|
\retval none
|
||
|
*/
|
||
|
void adc_oversample_mode_disable(uint32_t adc_periph)
|
||
|
{
|
||
|
ADC_OVSCR(adc_periph) &= ~((uint32_t)ADC_OVSCR_OVSEN);
|
||
|
}
|