/include/amiro/power/ina219.hpp - AMiRo-OS - Research for Cognitive Interaction

amiro-os / include / amiro / power / ina219.hpp @ 58fe0e0b

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       /*
        * INA219 - Power Monitor
        */
       #ifndef AMIRO_INA219_H_
       #define AMIRO_INA219_H_
       #include <ch.hpp>
       #include <amiro/bus/i2c/I2CParams.hpp>
       #include <amiro/bus/i2c/I2CDriver.hpp>
       #include <amiro/BaseSensor.hpp>
       namespace amiro {
         namespace INA219 {
           namespace Configuration
+          {
             union Register {
               uint16_t value = 0;
               struct {
                 uint16_t mode : 3;
                 uint16_t sadc : 4;
                 uint16_t badc : 4;
                 uint16_t pg : 2;
                 uint16_t brng : 1;
                 uint16_t rsvd : 1;
                 uint16_t rst : 1;
               } content;
             };
             enum BusRange {
               BRNG_16V = 0,
               BRNG_32V = 1, BRNG_DEFAULT = 1
             };
             enum Pga {
               PGA_40mV = 0,
               PGA_80mV = 1,
               PGA_160mV = 2,
               PGA_320mV = 3, PGA_DEFAULT = 3
             };
             enum Adc {
               ADC_84us = 0x0u,
               ADC_148us = 0x1u,
               ADC_276us = 0x2u,
               ADC_532us = 0x3u, ADC_632us_alt = 0x8u, ADC_DEFAULT = 0x3u,
               ADC_1060us = 0x9u,
               ADC_2130us = 0xAu,
               ADC_4260us = 0xBu,
               ADC_8510us = 0xCu,
               ADC_17020us = 0xDu,
               ADC_34050us = 0xEu,
               ADC_68100us = 0xFu
             };
             enum Mode {
               MODE_PowerDown = 0x0u,
               MODE_ShuntV_Triggered = 0x1u,
               MODE_BusV_Triggered = 0x2u,
               MODE_ShuntBus_Triggered = 0x3u,
               MODE_AdcOff = 0x4u,
               MODE_ShuntV_Continuous = 0x5u,
               MODE_BusV_Continuous = 0x6u,
               MODE_ShuntBus_Continuous = 0x7u, MODE_DEFAULT = 0x7u
             };
           } // end of namespace Configuration
           struct InitData {
             Configuration::Register configuration;
             uint16_t calibration;
             uint16_t current_lsb_uA;
           };
           struct CalibData {
             struct CalibInput {
               float shunt_resistance_O;
               float max_expected_current_A;
               uint16_t current_lsb_uA;
               Configuration::Register configuration;
             } input;
             struct CalibOutput {
               float max_current_before_overflow_A;
               float max_shuntvoltage_before_overflow_V;
               uint16_t current_lsb_uA;
               uint16_t calibration_value;
             } output;
             uint16_t power_lsb_uW() const
+            {
               return 20 * output.current_lsb_uA;
+            }
             float maximum_power_W() const
+            {
               return output.max_current_before_overflow_A * ((input.configuration.content.brng == Configuration::BusRange::BRNG_32V)? 32 : 16);}
           };
           struct BusVoltage {
             uint32_t voltage_uV : 25;
             uint32_t rsvd : 5;
             uint32_t conversion_ready : 1;
             uint32_t overflow : 1;
           };
           class Driver : public BaseSensor<InitData,CalibData>, public chibios_rt::BaseStaticThread<256>
+          {
           public:
             enum SelftestResult {
               ST_OK = BaseSensor<>::OK,
               ST_FAIL_ANY = BaseSensor<>::FAIL,
               ST_FAIL_BACKUP = BaseSensor<>::FAIL + 1,
               ST_FAIL_RESET = BaseSensor<>::FAIL + 2,
               ST_FAIL_IS_DEFAULT = BaseSensor<>::FAIL + 3,
               ST_FAIL_WRITE_CONFIG = BaseSensor<>::FAIL + 4,
               ST_FAIL_WRITE_CALIB = BaseSensor<>::FAIL + 5,
               ST_FAIL_CHECK_CONFIG = BaseSensor<>::FAIL + 6,
               ST_FAIL_CHECK_CALIB = BaseSensor<>::FAIL + 7
             };
           private:
             union BusVoltage {
               uint16_t value = 0;
               struct {
                 uint16_t overflow : 1;
                 uint16_t conversion_ready : 1;
                 uint16_t rsvd : 1;
                 uint16_t voltage : 13;
               } content;
             };
             struct Status {
               Driver::BusVoltage bus_voltage;
               uint16_t power;
               Status() {bus_voltage.value = 0; power = 0;}
             };
             enum RegisterAddress {
               REG_CONFIGURATION = 0x00u,
               REG_SHUNT_VOLTAGE = 0x01u,
               REG_BUS_VOLTAGE = 0x02u,
               REG_POWER = 0x03u,
               REG_CURRENT = 0x04u,
               REG_CALIBRATION = 0x05u
             };
             enum RegisterMask {
               MASK_CONFIGURATION = 0x3FFFu,
               MASK_CALIBRATION = 0xFFFEu,
               MASK_RESET = 0x8000u
             };
             I2CDriver *const i2c_driver;
             I2CTxParams tx_params;
             Configuration::Register config;
             uint16_t current_lsb_uA;
             Status status;
           public:
             /* constructor & destructor */
             explicit Driver(I2CDriver &i2c_driver, const uint8_t i2c_address);
             virtual ~Driver();
             /* inherited functions from BaseSensor */
             msg_t init(InitData* initialization_data = NULL);
             msg_t update();
             msg_t wakeup();
             msg_t hibernate();
       #ifndef AMIRO_NCALIBRATION
             msg_t calibration(CalibData* calibration_data = NULL);
       #endif
       #ifndef AMIRO_NSELFTEST
             msg_t selftest();
       #endif
             INA219::BusVoltage getVoltage() const
+            {
               return this->busVoltageReg2uV(this->status.bus_voltage);
+            }
             uint32_t getPower_uW() const
+            {
               return this->powerReg2uW(this->status.power);
+            }
             uint32_t getCurrent_uA() const
+            {
               return this->powerReg2uW(this->status.power) / this->busVoltageReg2uV(this->status.bus_voltage).voltage_uV;
+            }
             inline Configuration::Register readConfiguration();
             inline int32_t readShuntVoltage_uV();
             inline INA219::BusVoltage readBusVoltage();
             inline uint32_t readPower_uW();
             inline int32_t readCurrent_uA();
             inline uint16_t readCalibration();
             uint8_t reset();
         protected:
             virtual msg_t main(void);
           private:
             msg_t readRegister(const RegisterAddress reg, uint16_t& dst);
             msg_t writeRegister(const RegisterAddress reg, const uint16_t& val);
             static inline INA219::BusVoltage busVoltageReg2uV(const INA219::Driver::BusVoltage reg_val)
+            {
               INA219::BusVoltage bus_voltage;
               bus_voltage.conversion_ready = reg_val.content.conversion_ready;
               bus_voltage.overflow = reg_val.content.conversion_ready;
               /*
                * The least significant bit represents 4mV.
                * -> Multiply with 4000 in order to convert to uV.
                */
               bus_voltage.voltage_uV = reg_val.content.voltage * 4000;
               return bus_voltage;
+            }
             inline uint32_t powerReg2uW(const uint16_t reg_val) const
+            {
               /*
                * Multiply with the value of the least significant bit for the current and the constant 20.
                * -> see data sheet, chapter 'Programming the INA219 power measurement engine' for details
                */
               return reg_val * 20 * this->current_lsb_uA;
+            }
           };
         } // end of namespace INA219
+      }
       #endif /* AMIRO_INA219_H_ */