2017-01-11 10:43:31 -05:00
/*
* This file is part of the Micro Python project , http : //micropython.org/
*
* The MIT License ( MIT )
*
* Copyright ( c ) 2017 Glenn Ruben Bakke
*
* Permission is hereby granted , free of charge , to any person obtaining a copy
* of this software and associated documentation files ( the " Software " ) , to deal
* in the Software without restriction , including without limitation the rights
* to use , copy , modify , merge , publish , distribute , sublicense , and / or sell
* copies of the Software , and to permit persons to whom the Software is
* furnished to do so , subject to the following conditions :
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software .
*
* THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
* IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
* LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM ,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE .
*/
2017-01-11 16:12:41 -05:00
# include <stdio.h>
2017-01-11 10:43:31 -05:00
# include "mphalport.h"
# include "hal_adc.h"
2017-01-11 11:02:41 -05:00
# ifdef HAL_ADC_MODULE_ENABLED
2017-01-11 10:43:31 -05:00
2017-01-11 16:12:41 -05:00
# define ADC_REF_VOLTAGE_IN_MILLIVOLTS (1200) // Reference voltage (in milli volts) used by ADC while doing conversion.
# define ADC_PRE_SCALING_COMPENSATION (3) // The ADC is configured to use VDD with 1/3 prescaling as input. And hence the result of conversion is to be multiplied by 3 to get the actual value of the battery voltage.
# define DIODE_FWD_VOLT_DROP_MILLIVOLTS (270) // Typical forward voltage drop of the diode (Part no: SD103ATW-7-F) that is connected in series with the voltage supply. This is the voltage drop when the forward current is 1mA. Source: Data sheet of 'SURFACE MOUNT SCHOTTKY BARRIER DIODE ARRAY' available at www.diodes.com.
# define ADC_RESULT_IN_MILLI_VOLTS(ADC_VALUE)\
( ( ( ( ADC_VALUE ) * ADC_REF_VOLTAGE_IN_MILLIVOLTS ) / 255 ) * ADC_PRE_SCALING_COMPENSATION )
static const uint32_t hal_adc_input_lookup [ ] = {
ADC_CONFIG_PSEL_AnalogInput0 < < ADC_CONFIG_PSEL_Pos ,
ADC_CONFIG_PSEL_AnalogInput1 < < ADC_CONFIG_PSEL_Pos ,
ADC_CONFIG_PSEL_AnalogInput2 < < ADC_CONFIG_PSEL_Pos ,
ADC_CONFIG_PSEL_AnalogInput3 < < ADC_CONFIG_PSEL_Pos ,
ADC_CONFIG_PSEL_AnalogInput4 < < ADC_CONFIG_PSEL_Pos ,
ADC_CONFIG_PSEL_AnalogInput5 < < ADC_CONFIG_PSEL_Pos ,
ADC_CONFIG_PSEL_AnalogInput6 < < ADC_CONFIG_PSEL_Pos ,
ADC_CONFIG_PSEL_AnalogInput7 < < ADC_CONFIG_PSEL_Pos
} ;
static uint8_t battery_level_in_percent ( const uint16_t mvolts )
{
uint8_t battery_level ;
if ( mvolts > = 3000 ) {
battery_level = 100 ;
} else if ( mvolts > 2900 ) {
battery_level = 100 - ( ( 3000 - mvolts ) * 58 ) / 100 ;
} else if ( mvolts > 2740 ) {
battery_level = 42 - ( ( 2900 - mvolts ) * 24 ) / 160 ;
} else if ( mvolts > 2440 ) {
battery_level = 18 - ( ( 2740 - mvolts ) * 12 ) / 300 ;
} else if ( mvolts > 2100 ) {
battery_level = 6 - ( ( 2440 - mvolts ) * 6 ) / 340 ;
} else {
battery_level = 0 ;
}
return battery_level ;
}
2017-01-12 11:20:08 -05:00
uint16_t hal_adc_channel_value ( hal_adc_config_t const * p_adc_conf ) {
ADC_BASE - > INTENSET = ADC_INTENSET_END_Msk ;
ADC_BASE - > CONFIG = ( ADC_CONFIG_RES_8bit < < ADC_CONFIG_RES_Pos )
2017-01-11 16:12:41 -05:00
| ( ADC_CONFIG_INPSEL_AnalogInputTwoThirdsPrescaling < < ADC_CONFIG_INPSEL_Pos )
2017-01-12 11:20:08 -05:00
| ( ADC_CONFIG_REFSEL_VBG < < ADC_CONFIG_REFSEL_Pos )
| ( hal_adc_input_lookup [ p_adc_conf - > channel ] )
| ( ADC_CONFIG_EXTREFSEL_None < < ADC_CONFIG_EXTREFSEL_Pos ) ;
2017-01-11 16:12:41 -05:00
2017-01-12 11:20:08 -05:00
ADC_BASE - > EVENTS_END = 0 ;
ADC_BASE - > ENABLE = ADC_ENABLE_ENABLE_Enabled ;
2017-01-11 16:12:41 -05:00
2017-01-12 11:20:08 -05:00
ADC_BASE - > EVENTS_END = 0 ;
ADC_BASE - > TASKS_START = 1 ;
2017-01-11 16:12:41 -05:00
2017-01-12 11:20:08 -05:00
while ( ! ADC_BASE - > EVENTS_END ) {
2017-01-11 16:12:41 -05:00
;
}
2017-01-12 11:20:08 -05:00
uint8_t adc_result ;
2017-01-11 16:12:41 -05:00
2017-01-12 11:20:08 -05:00
ADC_BASE - > EVENTS_END = 0 ;
adc_result = ADC_BASE - > RESULT ;
ADC_BASE - > TASKS_STOP = 1 ;
2017-01-11 16:12:41 -05:00
return adc_result ;
}
2017-01-12 11:20:08 -05:00
uint16_t hal_adc_battery_level ( void ) {
ADC_BASE - > INTENSET = ADC_INTENSET_END_Msk ;
ADC_BASE - > CONFIG = ( ADC_CONFIG_RES_8bit < < ADC_CONFIG_RES_Pos )
2017-01-11 16:12:41 -05:00
| ( ADC_CONFIG_INPSEL_SupplyOneThirdPrescaling < < ADC_CONFIG_INPSEL_Pos )
| ( ADC_CONFIG_REFSEL_VBG < < ADC_CONFIG_REFSEL_Pos )
| ( ADC_CONFIG_PSEL_Disabled < < ADC_CONFIG_PSEL_Pos )
| ( ADC_CONFIG_EXTREFSEL_None < < ADC_CONFIG_EXTREFSEL_Pos ) ;
2017-01-12 11:20:08 -05:00
ADC_BASE - > EVENTS_END = 0 ;
ADC_BASE - > ENABLE = ADC_ENABLE_ENABLE_Enabled ;
2017-01-11 16:12:41 -05:00
2017-01-12 11:20:08 -05:00
ADC_BASE - > EVENTS_END = 0 ;
ADC_BASE - > TASKS_START = 1 ;
2017-01-11 16:12:41 -05:00
2017-01-12 11:20:08 -05:00
while ( ! ADC_BASE - > EVENTS_END ) {
2017-01-11 16:12:41 -05:00
;
}
uint8_t adc_result ;
uint16_t batt_lvl_in_milli_volts ;
2017-01-12 11:20:08 -05:00
ADC_BASE - > EVENTS_END = 0 ;
adc_result = ADC_BASE - > RESULT ;
ADC_BASE - > TASKS_STOP = 1 ;
2017-01-11 16:12:41 -05:00
batt_lvl_in_milli_volts = ADC_RESULT_IN_MILLI_VOLTS ( adc_result ) + DIODE_FWD_VOLT_DROP_MILLIVOLTS ;
return battery_level_in_percent ( batt_lvl_in_milli_volts ) ;
2017-01-11 10:43:31 -05:00
}
# endif // HAL_ADC_MODULE_ENABLED