rt-thread-official/bsp/essemi/es32f369x/drivers/drv_adc.c

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/*
* Copyright (C) 2018 Shanghai Eastsoft Microelectronics Co., Ltd.
*
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* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
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*
* Change Logs:
* Date Author Notes
* 2019-04-03 wangyq the first version
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* 2019-11-01 wangyq update libraries
* 2021-04-20 liuhy the second version
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*/
#include <rthw.h>
#include <rtthread.h>
#include <rtdevice.h>
#include "board.h"
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#include "drv_adc.h"
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#ifdef RT_USING_ADC
/* define adc instance */
#ifdef BSP_USING_ADC0
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static struct rt_adc_device _device_adc0;
#endif /*BSP_USING_ADC0*/
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#ifdef BSP_USING_ADC1
static struct rt_adc_device _device_adc1;
#endif /*BSP_USING_ADC1*/
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/* enable or disable adc */
static rt_err_t es32f3_adc_enabled(struct rt_adc_device *device, rt_uint32_t channel, rt_bool_t enabled)
{
adc_handle_t *_hadc = (adc_handle_t *)device->parent.user_data;
RT_ASSERT(device != RT_NULL);
if (enabled)
{
ADC_ENABLE(_hadc); ;
}
else
{
ADC_DISABLE(_hadc);
}
return RT_EOK;
}
static adc_channel_t es32f3_adc_get_channel(rt_uint32_t channel)
{
adc_channel_t es32f3_channel;
gpio_init_t gpio_initstruct;
/* Initialize ADC pin */
gpio_initstruct.mode = GPIO_MODE_INPUT;
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gpio_initstruct.pupd = GPIO_FLOATING;
gpio_initstruct.odos = GPIO_OPEN_DRAIN;
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gpio_initstruct.podrv = GPIO_OUT_DRIVE_6;
gpio_initstruct.nodrv = GPIO_OUT_DRIVE_6;
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gpio_initstruct.flt = GPIO_FILTER_DISABLE;
gpio_initstruct.type = GPIO_TYPE_CMOS;
gpio_initstruct.func = GPIO_FUNC_0;
/* select gpio pin as adc function */
switch (channel)
{
case 0:
es32f3_channel = ADC_CHANNEL_0;
ald_gpio_init(ES_GPIO_ADC_CH0_GPIO, ES_GPIO_ADC_CH0_PIN, &gpio_initstruct);
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break;
case 1:
es32f3_channel = ADC_CHANNEL_1;
ald_gpio_init(ES_GPIO_ADC_CH1_GPIO, ES_GPIO_ADC_CH1_PIN, &gpio_initstruct);
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break;
case 2:
es32f3_channel = ADC_CHANNEL_2;
ald_gpio_init(ES_GPIO_ADC_CH2_GPIO, ES_GPIO_ADC_CH2_PIN, &gpio_initstruct);
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break;
case 3:
es32f3_channel = ADC_CHANNEL_3;
ald_gpio_init(ES_GPIO_ADC_CH3_GPIO, ES_GPIO_ADC_CH3_PIN, &gpio_initstruct);
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break;
case 4:
es32f3_channel = ADC_CHANNEL_4;
ald_gpio_init(ES_GPIO_ADC_CH4_GPIO, ES_GPIO_ADC_CH4_PIN, &gpio_initstruct);
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break;
case 5:
es32f3_channel = ADC_CHANNEL_5;
ald_gpio_init(ES_GPIO_ADC_CH5_GPIO, ES_GPIO_ADC_CH5_PIN, &gpio_initstruct);
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break;
case 6:
es32f3_channel = ADC_CHANNEL_6;
ald_gpio_init(ES_GPIO_ADC_CH6_GPIO, ES_GPIO_ADC_CH6_PIN, &gpio_initstruct);
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break;
case 7:
es32f3_channel = ADC_CHANNEL_7;
ald_gpio_init(ES_GPIO_ADC_CH7_GPIO, ES_GPIO_ADC_CH7_PIN, &gpio_initstruct);
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break;
case 8:
es32f3_channel = ADC_CHANNEL_8;
ald_gpio_init(ES_GPIO_ADC_CH8_GPIO, ES_GPIO_ADC_CH8_PIN, &gpio_initstruct);
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break;
case 9:
es32f3_channel = ADC_CHANNEL_9;
ald_gpio_init(ES_GPIO_ADC_CH9_GPIO, ES_GPIO_ADC_CH9_PIN, &gpio_initstruct);
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break;
case 10:
es32f3_channel = ADC_CHANNEL_10;
ald_gpio_init(ES_GPIO_ADC_CH10_GPIO, ES_GPIO_ADC_CH10_PIN, &gpio_initstruct);
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break;
case 11:
es32f3_channel = ADC_CHANNEL_11;
ald_gpio_init(ES_GPIO_ADC_CH11_GPIO, ES_GPIO_ADC_CH11_PIN, &gpio_initstruct);
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break;
case 12:
es32f3_channel = ADC_CHANNEL_12;
ald_gpio_init(ES_GPIO_ADC_CH12_GPIO, ES_GPIO_ADC_CH12_PIN, &gpio_initstruct);
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break;
case 13:
es32f3_channel = ADC_CHANNEL_13;
ald_gpio_init(ES_GPIO_ADC_CH13_GPIO, ES_GPIO_ADC_CH13_PIN, &gpio_initstruct);
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break;
case 14:
es32f3_channel = ADC_CHANNEL_14;
ald_gpio_init(ES_GPIO_ADC_CH14_GPIO, ES_GPIO_ADC_CH14_PIN, &gpio_initstruct);
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break;
case 15:
es32f3_channel = ADC_CHANNEL_15;
ald_gpio_init(ES_GPIO_ADC_CH15_GPIO, ES_GPIO_ADC_CH15_PIN, &gpio_initstruct);
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break;
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default:
break;
}
return es32f3_channel;
}
static rt_err_t es32f3_get_adc_value(struct rt_adc_device *device, rt_uint32_t channel, rt_uint32_t *value)
{
adc_handle_t *_hadc = (adc_handle_t *)device->parent.user_data;
adc_nch_conf_t nm_config;
RT_ASSERT(device != RT_NULL);
RT_ASSERT(value != RT_NULL);
/* config adc channel */
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nm_config.ch = es32f3_adc_get_channel(channel);
nm_config.idx = ADC_NCH_IDX_1;
nm_config.samp = ES_ADC0_NCH_SAMPLETIME;
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ald_adc_normal_channel_config(_hadc, &nm_config);
ald_adc_normal_start(_hadc);
if (ald_adc_normal_poll_for_conversion(_hadc, 5000) == OK)
*value = ald_adc_normal_get_value(_hadc);
return RT_EOK;
}
static const struct rt_adc_ops es32f3_adc_ops =
{
es32f3_adc_enabled,
es32f3_get_adc_value,
};
int rt_hw_adc_init(void)
{
int result = RT_EOK;
adc_handle_t _h_adc;
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/* adc function initialization */
_h_adc.init.scan = DISABLE;
_h_adc.init.cont = DISABLE;
_h_adc.init.disc = ADC_ALL_DISABLE;
_h_adc.init.disc_nr = ADC_DISC_NR_1;
_h_adc.init.nch_nr = ADC_NCH_NR_16;
_h_adc.init.nche_sel = ADC_NCHESEL_MODE_ALL;
_h_adc.init.cont = DISABLE;
_h_adc.init.n_ref = ADC_NEG_REF_VSS;
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_h_adc.init.p_ref = ADC_POS_REF_VDD;
#ifdef BSP_USING_ADC0
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static adc_handle_t _h_adc0;
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_h_adc0.init = _h_adc.init;
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_h_adc0.perh = ADC0;
_h_adc0.init.align = ES_ADC0_ALIGN;
_h_adc0.init.data_bit = ES_ADC0_DATA_BIT;
_h_adc0.init.div = ES_ADC0_CLK_DIV;
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ald_adc_init(&_h_adc0);
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rt_hw_adc_register(&_device_adc0, ES_DEVICE_NAME_ADC0, &es32f3_adc_ops, &_h_adc0);
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#endif /*BSP_USING_ADC0*/
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#ifdef BSP_USING_ADC1
static adc_handle_t _h_adc1;
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_h_adc1.init = _h_adc.init;
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_h_adc1.perh = ADC1;
_h_adc1.init.align = ES_ADC1_ALIGN;
_h_adc1.init.data_bit = ES_ADC1_DATA_BIT;
_h_adc1.init.div = ES_ADC1_CLK_DIV;
ald_adc_init(&_h_adc1);
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rt_hw_adc_register(&_device_adc1, ES_DEVICE_NAME_ADC1, &es32f3_adc_ops, &_h_adc1);
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#endif /*BSP_USING_ADC1*/
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return result;
}
INIT_BOARD_EXPORT(rt_hw_adc_init);
#endif