#include #include #include "AP_ADC_ADS1115.h" #define ADS1115_ADDRESS_ADDR_GND 0x48 // address pin low (GND) #define ADS1115_ADDRESS_ADDR_VDD 0x49 // address pin high (VCC) #define ADS1115_ADDRESS_ADDR_SDA 0x4A // address pin tied to SDA pin #define ADS1115_ADDRESS_ADDR_SCL 0x4B // address pin tied to SCL pin #define ADS1115_I2C_ADDR ADS1115_ADDRESS_ADDR_GND #define ADS1115_I2C_BUS 1 #define ADS1115_RA_CONVERSION 0x00 #define ADS1115_RA_CONFIG 0x01 #define ADS1115_RA_LO_THRESH 0x02 #define ADS1115_RA_HI_THRESH 0x03 #define ADS1115_OS_SHIFT 15 #define ADS1115_OS_INACTIVE 0x00 << ADS1115_OS_SHIFT #define ADS1115_OS_ACTIVE 0x01 << ADS1115_OS_SHIFT #define ADS1115_MUX_SHIFT 12 #define ADS1115_MUX_P0_N1 0x00 << ADS1115_MUX_SHIFT /* default */ #define ADS1115_MUX_P0_N3 0x01 << ADS1115_MUX_SHIFT #define ADS1115_MUX_P1_N3 0x02 << ADS1115_MUX_SHIFT #define ADS1115_MUX_P2_N3 0x03 << ADS1115_MUX_SHIFT #define ADS1115_MUX_P0_NG 0x04 << ADS1115_MUX_SHIFT #define ADS1115_MUX_P1_NG 0x05 << ADS1115_MUX_SHIFT #define ADS1115_MUX_P2_NG 0x06 << ADS1115_MUX_SHIFT #define ADS1115_MUX_P3_NG 0x07 << ADS1115_MUX_SHIFT #define ADS1115_PGA_SHIFT 9 #define ADS1115_PGA_6P144 0x00 << ADS1115_PGA_SHIFT #define ADS1115_PGA_4P096 0x01 << ADS1115_PGA_SHIFT #define ADS1115_PGA_2P048 0x02 << ADS1115_PGA_SHIFT // default #define ADS1115_PGA_1P024 0x03 << ADS1115_PGA_SHIFT #define ADS1115_PGA_0P512 0x04 << ADS1115_PGA_SHIFT #define ADS1115_PGA_0P256 0x05 << ADS1115_PGA_SHIFT #define ADS1115_PGA_0P256B 0x06 << ADS1115_PGA_SHIFT #define ADS1115_PGA_0P256C 0x07 << ADS1115_PGA_SHIFT #define ADS1115_MV_6P144 0.187500f #define ADS1115_MV_4P096 0.125000f #define ADS1115_MV_2P048 0.062500f // default #define ADS1115_MV_1P024 0.031250f #define ADS1115_MV_0P512 0.015625f #define ADS1115_MV_0P256 0.007813f #define ADS1115_MV_0P256B 0.007813f #define ADS1115_MV_0P256C 0.007813f #define ADS1115_MODE_SHIFT 8 #define ADS1115_MODE_CONTINUOUS 0x00 << ADS1115_MODE_SHIFT #define ADS1115_MODE_SINGLESHOT 0x01 << ADS1115_MODE_SHIFT // default #define ADS1115_RATE_SHIFT 5 #define ADS1115_RATE_8 0x00 << ADS1115_RATE_SHIFT #define ADS1115_RATE_16 0x01 << ADS1115_RATE_SHIFT #define ADS1115_RATE_32 0x02 << ADS1115_RATE_SHIFT #define ADS1115_RATE_64 0x03 << ADS1115_RATE_SHIFT #define ADS1115_RATE_128 0x04 << ADS1115_RATE_SHIFT // default #define ADS1115_RATE_250 0x05 << ADS1115_RATE_SHIFT #define ADS1115_RATE_475 0x06 << ADS1115_RATE_SHIFT #define ADS1115_RATE_860 0x07 << ADS1115_RATE_SHIFT #define ADS1115_COMP_MODE_SHIFT 4 #define ADS1115_COMP_MODE_HYSTERESIS 0x00 << ADS1115_COMP_MODE_SHIFT // default #define ADS1115_COMP_MODE_WINDOW 0x01 << ADS1115_COMP_MODE_SHIFT #define ADS1115_COMP_POL_SHIFT 3 #define ADS1115_COMP_POL_ACTIVE_LOW 0x00 << ADS1115_COMP_POL_SHIFT // default #define ADS1115_COMP_POL_ACTIVE_HIGH 0x01 << ADS1115_COMP_POL_SHIFT #define ADS1115_COMP_LAT_SHIFT 2 #define ADS1115_COMP_LAT_NON_LATCHING 0x00 << ADS1115_COMP_LAT_SHIFT // default #define ADS1115_COMP_LAT_LATCHING 0x01 << ADS1115_COMP_LAT_SHIFT #define ADS1115_COMP_QUE_SHIFT 0 #define ADS1115_COMP_QUE_ASSERT1 0x00 << ADS1115_COMP_SHIFT #define ADS1115_COMP_QUE_ASSERT2 0x01 << ADS1115_COMP_SHIFT #define ADS1115_COMP_QUE_ASSERT4 0x02 << ADS1115_COMP_SHIFT #define ADS1115_COMP_QUE_DISABLE 0x03 // default #define ADS1115_DEBUG 0 #if ADS1115_DEBUG #include #define debug(fmt, args ...) do {hal.console->printf("%s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args); } while(0) #define error(fmt, args ...) do {fprintf(stderr,"%s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args); } while(0) #else #define debug(fmt, args ...) #define error(fmt, args ...) #endif extern const AP_HAL::HAL &hal; #define ADS1115_CHANNELS_COUNT 6 const uint8_t AP_ADC_ADS1115::_channels_number = ADS1115_CHANNELS_COUNT; /* Only two differential channels used */ static const uint16_t mux_table[ADS1115_CHANNELS_COUNT] = { ADS1115_MUX_P1_N3, ADS1115_MUX_P2_N3, ADS1115_MUX_P0_NG, ADS1115_MUX_P1_NG, ADS1115_MUX_P2_NG, ADS1115_MUX_P3_NG }; AP_ADC_ADS1115::AP_ADC_ADS1115() : _dev{} , _gain(ADS1115_PGA_4P096) , _channel_to_read(0) { _samples = NEW_NOTHROW adc_report_s[_channels_number]; } AP_ADC_ADS1115::~AP_ADC_ADS1115() { delete[] _samples; } bool AP_ADC_ADS1115::init() { _dev = hal.i2c_mgr->get_device(ADS1115_I2C_BUS, ADS1115_I2C_ADDR); if (!_dev) { return false; } _gain = ADS1115_PGA_4P096; _dev->register_periodic_callback(100000, FUNCTOR_BIND_MEMBER(&AP_ADC_ADS1115::_update, void)); return true; } bool AP_ADC_ADS1115::_start_conversion(uint8_t channel) { struct PACKED { uint8_t reg; be16_t val; } config; config.reg = ADS1115_RA_CONFIG; config.val = htobe16(ADS1115_OS_ACTIVE | _gain | mux_table[channel] | ADS1115_MODE_SINGLESHOT | ADS1115_COMP_QUE_DISABLE | ADS1115_RATE_250); return _dev->transfer((uint8_t *)&config, sizeof(config), nullptr, 0); } size_t AP_ADC_ADS1115::read(adc_report_s *report, size_t length) const { for (size_t i = 0; i < length; i++) { report[i].data = _samples[i].data; report[i].id = _samples[i].id; } return length; } float AP_ADC_ADS1115::_convert_register_data_to_mv(int16_t word) const { float pga; switch (_gain) { case ADS1115_PGA_6P144: pga = ADS1115_MV_6P144; break; case ADS1115_PGA_4P096: pga = ADS1115_MV_4P096; break; case ADS1115_PGA_2P048: pga = ADS1115_MV_2P048; break; case ADS1115_PGA_1P024: pga = ADS1115_MV_1P024; break; case ADS1115_PGA_0P512: pga = ADS1115_MV_0P512; break; case ADS1115_PGA_0P256: pga = ADS1115_MV_0P256; break; case ADS1115_PGA_0P256B: pga = ADS1115_MV_0P256B; break; case ADS1115_PGA_0P256C: pga = ADS1115_MV_0P256C; break; default: pga = 0.0f; DEV_PRINTF("Wrong gain"); AP_HAL::panic("ADS1115: wrong gain selected"); break; } return (float) word * pga; } void AP_ADC_ADS1115::_update() { uint8_t config[2]; be16_t val; if (!_dev->read_registers(ADS1115_RA_CONFIG, config, sizeof(config))) { error("_dev->read_registers failed in ADS1115"); return; } /* check rdy bit */ if ((config[1] & 0x80) != 0x80 ) { return; } if (!_dev->read_registers(ADS1115_RA_CONVERSION, (uint8_t *)&val, sizeof(val))) { return; } float sample = _convert_register_data_to_mv(be16toh(val)); _samples[_channel_to_read].data = sample; _samples[_channel_to_read].id = _channel_to_read; /* select next channel */ _channel_to_read = (_channel_to_read + 1) % _channels_number; _start_conversion(_channel_to_read); }