mirror of https://github.com/arendst/Tasmota.git
406 lines
17 KiB
C++
406 lines
17 KiB
C++
/*
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xsns_13_ina219.ino - INA219 & ISL28022 Current Sensor support for Tasmota
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Copyright (C) 2021 Stefan Bode and Theo Arends
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifdef USE_I2C
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#ifdef USE_INA219
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/*********************************************************************************************\
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* INA219 - Low voltage (max 32V!) Current sensor
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* Supports also ISL28022
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*
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* Source: Adafruit Industries
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*
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* I2C Address: 0x40, 0x41 0x44 or 0x45
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\*********************************************************************************************/
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#define XSNS_13 13
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#define XI2C_14 14 // See I2CDEVICES.md
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#ifndef INA219_MAX_COUNT
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#define INA219_MAX_COUNT 4
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#endif
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#if (INA219_MAX_COUNT > 4)
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#error "**** INA219_MAX_COUNT can't be greater than 4 ****"
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#endif
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#ifndef INA219_FIRST_ADDRESS
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#define INA219_FIRST_ADDRESS (0)
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#endif
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#if ((INA219_FIRST_ADDRESS + INA219_MAX_COUNT) > 4)
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#error "**** INA219 bad combination for FIRST_ADDRESS and MAX_COUNT ****"
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#endif
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#ifndef INA219_SHUNT_RESISTOR
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#define INA219_SHUNT_RESISTOR (0.100) // 0.1 Ohm default on most INA219 modules
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#endif
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#define INA219_ADDRESS1 (0x40) // 1000000 (A0+A1=GND)
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#define INA219_ADDRESS2 (0x41) // 1000000 (A0=Vcc, A1=GND)
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#define INA219_ADDRESS3 (0x44) // 1000000 (A0=GND, A1=Vcc)
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#define INA219_ADDRESS4 (0x45) // 1000000 (A0+A1=Vcc)
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#define INA219_READ (0x01)
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#define INA219_REG_CONFIG (0x00)
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#define INA219_CONFIG_RESET (0x8000) // Reset Bit
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#define INA219_CONFIG_BVOLTAGERANGE_MASK (0x2000) // Bus Voltage Range Mask
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#define INA219_CONFIG_BVOLTAGERANGE_16V (0x0000) // 0-16V Range
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#define INA219_CONFIG_BVOLTAGERANGE_32V (0x2000) // 0-32V Range
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#define ISL28022_CONFIG_BVOLTAGERANGE_60V (0x6000) // 0-60V Range for ISL28022
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#define INA219_CONFIG_GAIN_MASK (0x1800) // Gain Mask
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#define INA219_CONFIG_GAIN_1_40MV (0x0000) // Gain 1, 40mV Range
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#define INA219_CONFIG_GAIN_2_80MV (0x0800) // Gain 2, 80mV Range
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#define INA219_CONFIG_GAIN_4_160MV (0x1000) // Gain 4, 160mV Range
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#define INA219_CONFIG_GAIN_8_320MV (0x1800) // Gain 8, 320mV Range
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#define INA219_CONFIG_BADCRES_MASK (0x0780) // Bus ADC Resolution Mask
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#define INA219_CONFIG_BADCRES_9BIT_1S_84US (0x0<<7) // 9-bit bus res = 0..511
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#define INA219_CONFIG_BADCRES_10BIT_1S_148US (0x1<<7) // 10-bit bus res = 0..1023
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#define INA219_CONFIG_BADCRES_11BIT_1S_276US (0x2<<7) // 11-bit bus res = 0..2047
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#define INA219_CONFIG_BADCRES_12BIT_1S_532US (0x3<<7) // 12-bit bus res = 0..4097
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#define INA219_CONFIG_BADCRES_12BIT_2S_1060US (0x9<<7) // 2 x 12-bit bus samples averaged together
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#define INA219_CONFIG_BADCRES_12BIT_4S_2130US (0xA<<7) // 4 x 12-bit bus samples averaged together
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#define INA219_CONFIG_BADCRES_12BIT_8S_4260US (0xB<<7) // 8 x 12-bit bus samples averaged together
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#define INA219_CONFIG_BADCRES_12BIT_16S_8510US (0xC<<7) // 16 x 12-bit bus samples averaged together
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#define INA219_CONFIG_BADCRES_12BIT_32S_17MS (0xD<<7) // 32 x 12-bit bus samples averaged together
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#define INA219_CONFIG_BADCRES_12BIT_64S_34MS (0xE<<7) // 64 x 12-bit bus samples averaged together
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#define INA219_CONFIG_BADCRES_12BIT_128S_69MS (0xF<<7) // 128 x 12-bit bus samples averaged together
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// Note: for IS28022, the ADC has 3 more bits and approximatively similar conversion times
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#define INA219_CONFIG_SADCRES_MASK (0x0078) // Shunt ADC Resolution and Averaging Mask
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#define INA219_CONFIG_SADCRES_9BIT_1S_84US (0x0<<3) // 1 x 9-bit shunt sample
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#define INA219_CONFIG_SADCRES_10BIT_1S_148US (0x1<<3) // 1 x 10-bit shunt sample
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#define INA219_CONFIG_SADCRES_11BIT_1S_276US (0x2<<3) // 1 x 11-bit shunt sample
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#define INA219_CONFIG_SADCRES_12BIT_1S_532US (0x3<<3) // 1 x 12-bit shunt sample
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#define INA219_CONFIG_SADCRES_12BIT_2S_1060US (0x9<<3) // 2 x 12-bit shunt samples averaged together
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#define INA219_CONFIG_SADCRES_12BIT_4S_2130US (0xA<<3) // 4 x 12-bit shunt samples averaged together
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#define INA219_CONFIG_SADCRES_12BIT_8S_4260US (0xB<<3) // 8 x 12-bit shunt samples averaged together
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#define INA219_CONFIG_SADCRES_12BIT_16S_8510US (0xC<<3) // 16 x 12-bit shunt samples averaged together
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#define INA219_CONFIG_SADCRES_12BIT_32S_17MS (0xD<<3) // 32 x 12-bit shunt samples averaged together
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#define INA219_CONFIG_SADCRES_12BIT_64S_34MS (0xE<<3) // 64 x 12-bit shunt samples averaged together
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#define INA219_CONFIG_SADCRES_12BIT_128S_69MS (0xF<<3) // 128 x 12-bit shunt samples averaged together
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#define INA219_CONFIG_MODE_MASK (0x0007) // Operating Mode Mask
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#define INA219_CONFIG_MODE_POWERDOWN (0x0000)
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#define INA219_CONFIG_MODE_SVOLT_TRIGGERED (0x0001)
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#define INA219_CONFIG_MODE_BVOLT_TRIGGERED (0x0002)
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#define INA219_CONFIG_MODE_SANDBVOLT_TRIGGERED (0x0003)
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#define INA219_CONFIG_MODE_ADCOFF (0x0004)
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#define INA219_CONFIG_MODE_SVOLT_CONTINUOUS (0x0005)
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#define INA219_CONFIG_MODE_BVOLT_CONTINUOUS (0x0006)
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#define INA219_CONFIG_MODE_SANDBVOLT_CONTINUOUS (0x0007)
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#define INA219_REG_SHUNTVOLTAGE (0x01)
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#define INA219_REG_BUSVOLTAGE (0x02)
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#define INA219_REG_POWER (0x03)
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#define INA219_REG_CURRENT (0x04)
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#define INA219_REG_CALIBRATION (0x05)
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#define ISL28022_REG_SHUNTTHRESHOLD (0x06)
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#define ISL28022_REG_BUSTHRESHOLD (0x07)
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#define ISL28022_REG_INTRSTATUS (0x08)
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#define ISL28022_REG_AUXCTRL (0x09)
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#define INA219_BUS_ADC_LSB (0.004) // VBus ADC LSB=4mV=0.004V
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#define INA219_SHUNT_ADC_LSB_MV (0.01) // VShunt ADC LSB=10µV=0.01mV
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#ifdef DEBUG_TASMOTA_SENSOR
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// temporary strings for floating point in debug messages
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char __ina219_dbg1[FLOATSZ];
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char __ina219_dbg2[FLOATSZ];
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#endif
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#define INA219_MODEL 1
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#define ISL28022_MODEL 2
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struct INA219_Data {
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float voltage;
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float current;
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// The following multiplier is used to convert shunt voltage (in mV) to current (in A)
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// Current_A = ShuntVoltage_mV / ShuntResistor_milliOhms = ShuntVoltage_mV * ina219_current_multiplier
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// ina219_current_multiplier = 1 / ShuntResistor_milliOhms
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float current_multiplier;
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uint8_t model;
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uint8_t addr;
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};
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struct INA219_Data *Ina219Data = nullptr;
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uint8_t Ina219Count = 0;
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const char INA219_SENSORCMND_START[] PROGMEM = "{\"" D_CMND_SENSOR "%d\":{\"mode\":%d,\"rshunt\":[";
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const char INA219_SENSORCMND_END[] PROGMEM = "]}}";
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const char *INA219_TYPE[] = { "INA219", "ISL28022" };
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const uint8_t INA219_ADDRESSES[] = { INA219_ADDRESS1, INA219_ADDRESS2, INA219_ADDRESS3, INA219_ADDRESS4 };
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/*********************************************************************************************\
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* Calculate current multiplier depending on the selected mode
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* For mode = 0, 1, 2 : legacy modes simplified as Vmax: 32V, Imax: 3.2A range
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* For mode = 10..255 : specify Rshunt encoded as RRM where resistor value is RR * 10^M milliOhms
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* Vmax: 32V, Imax: 0.320 / Rshunt
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* Exemple:
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* 10: Rshunt = 1 * 10^0 = 1 millOhms => Max current = 320A !
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* 11: Rshunt = 1 * 10^1 = 10 milliOhms => Max current = 32A
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* 21: Rshunt = 2 * 10^1 = 20 milliOhms => Max current = 16A
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* 12: Rshunt = 1 * 10^2 = 100 milliOhms => Max current = 3.2A == mode 0,1,2
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* 13: Rshunt = 1 * 10^3 = 1 Ohms => Max current = 320mA
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* Note that some shunt values can be represented by 2 different encoded values such as
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* 11 or 100 both present 10 milliOhms
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* Because it is difficult to make a range check on such encoded value, none is performed
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\*********************************************************************************************/
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void Ina219SetShuntMode(uint8_t index, uint8_t mode, float shunt)
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{
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if (mode < 10) {
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// All legacy modes: shunt is INA219_SHUNT_RESISTOR unless provided by `Sensor13 <n> <shunt>`
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// Shunt value provided this way is NOT stored in flash and requires an "on system#boot" rule
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} else {
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// Modes >= 10 allow to provide shunt values that is stored in flash but limited in possible
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// values due to the encoding mode used to store the value in a single uint8_t
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int mult = mode % 10;
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int shunt_milliOhms = mode / 10;
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shunt = shunt_milliOhms / 1000.0;
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for ( ; mult > 0 ; mult-- )
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shunt *= 10.0;
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}
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Ina219Data[index].current_multiplier = 0.001 / shunt;
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#ifdef DEBUG_TASMOTA_SENSOR
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dtostrfd(shunt,6,__ina219_dbg1);
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dtostrfd(Ina219Data[index].current_multiplier,5,__ina219_dbg2);
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DEBUG_SENSOR_LOG("Ina219SetShuntMode[%d]: mode=%d, shunt=%s, cur_mul=%s", index, mode, __ina219_dbg1, __ina219_dbg2);
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#endif
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}
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float Ina219GetShunt(uint8_t index)
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{
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return 0.001 / Ina219Data[index].current_multiplier;
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}
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/*********************************************************************************************\
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* Return 0 if configuration failed
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* Return 1 if chip identified as INA219
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* Return 2 if chip identified as ISL28022
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\*********************************************************************************************/
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uint8_t Ina219Init(uint16_t addr)
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{
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uint16_t config = 0;
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config = ISL28022_CONFIG_BVOLTAGERANGE_60V // If INA219 0..32V, If ISL28022 0..60V
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| INA219_CONFIG_GAIN_8_320MV // Use max scale
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| INA219_CONFIG_BADCRES_12BIT_16S_8510US // use averaging to improve accuracy
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| INA219_CONFIG_SADCRES_12BIT_16S_8510US // use averaging to improve accuracy
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| INA219_CONFIG_MODE_SANDBVOLT_CONTINUOUS;
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DEBUG_SENSOR_LOG(PSTR("Ina219Init: Config=0x%04X (%d)"), config, config);
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// Set Config register to take into account the settings above
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if (!I2cWrite16(addr, INA219_REG_CONFIG, config))
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return 0;
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uint16_t intr_reg = 0x0FFFF;
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bool status = I2cValidRead16(&intr_reg, addr, ISL28022_REG_INTRSTATUS);
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DEBUG_SENSOR_LOG(PSTR("Ina219Init: IntrReg=0x%04X (%d)"), intr_reg, status);
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if (status && 0 == intr_reg)
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return ISL28022_MODEL; // ISL28022
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return INA219_MODEL; // INA219
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}
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float Ina219GetShuntVoltage_mV(uint16_t addr)
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{
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// raw shunt voltage (16-bit signed integer, so +-32767)
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int16_t shunt_voltage = I2cReadS16(addr, INA219_REG_SHUNTVOLTAGE);
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DEBUG_SENSOR_LOG("Ina219GetShuntVoltage_mV: ShReg = 0x%04X (%d)",shunt_voltage, shunt_voltage);
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// convert to shunt voltage in mV (so +-327mV) (LSB=10µV=0.01mV)
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return (float)shunt_voltage * INA219_SHUNT_ADC_LSB_MV;
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}
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float Ina219GetBusVoltage_V(uint16_t addr, uint8_t model)
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{
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uint16_t bus_voltage = I2cRead16(addr, INA219_REG_BUSVOLTAGE);
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bus_voltage >>= (ISL28022_MODEL == model) ? 2 : 3;
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DEBUG_SENSOR_LOG("Ina219GetBusVoltage_V: BusReg = 0x%04X (%d)",bus_voltage, bus_voltage);
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// and multiply by LSB raw bus voltage to return bus voltage in volts (LSB=4mV=0.004V)
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return (float)bus_voltage * INA219_BUS_ADC_LSB;
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}
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bool Ina219Read(void)
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{
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for (int i=0 ; i < Ina219Count; i++) {
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uint16_t addr = Ina219Data[i].addr;
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if (!addr) { continue; }
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float bus_voltage_V = Ina219GetBusVoltage_V(addr, Ina219Data[i].model);
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float shunt_voltage_mV = Ina219GetShuntVoltage_mV(addr);
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#ifdef DEBUG_TASMOTA_SENSOR
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dtostrfd(bus_voltage_V,5,__ina219_dbg1);
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dtostrfd(shunt_voltage_mV,5,__ina219_dbg2);
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DEBUG_SENSOR_LOG("Ina219Read[%d]: bV=%sV, sV=%smV", i, __ina219_dbg1, __ina219_dbg2);
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#endif
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// we return the power-supply-side voltage (as bus_voltage register provides the load-side voltage)
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Ina219Data[i].voltage = bus_voltage_V + (shunt_voltage_mV / 1000);
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// current is simply calculted from shunt voltage using pre-calculated multiplier
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Ina219Data[i].current = shunt_voltage_mV * Ina219Data[i].current_multiplier;
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#ifdef DEBUG_TASMOTA_SENSOR
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dtostrfd(Ina219Data[i].voltage,5,__ina219_dbg1);
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dtostrfd(Ina219Data[i].current,5,__ina219_dbg2);
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DEBUG_SENSOR_LOG("Ina219Read[%d]: V=%sV, I=%smA", i, __ina219_dbg1,__ina219_dbg2);
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#endif
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}
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return true;
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}
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/*********************************************************************************************\
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* Command Sensor13
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\*********************************************************************************************/
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bool Ina219CommandSensor(void)
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{
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char argument[XdrvMailbox.data_len];
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if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload <= 255)) {
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Settings->ina219_mode = XdrvMailbox.payload;
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for (int i=0; i < Ina219Count; i++) {
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float shunt = INA219_SHUNT_RESISTOR;
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if (ArgC() > (i +1)) {
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shunt = CharToFloat(ArgV(argument, 2 +i));
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}
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Ina219SetShuntMode(i, Settings->ina219_mode, shunt);
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}
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}
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Response_P(INA219_SENSORCMND_START, XSNS_13, Settings->ina219_mode);
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for (int i = 0 ; i < Ina219Count ; i++ ) {
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dtostrfd(Ina219GetShunt(i),5,argument);
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ResponseAppend_P(PSTR("%s%c"), argument, ((i < (Ina219Count-1))?',':'\0'));
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}
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ResponseAppend_P(INA219_SENSORCMND_END);
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return true;
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}
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/********************************************************************************************/
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void Ina219Detect(void)
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{
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for (uint32_t i = 0; i < INA219_MAX_COUNT; i++) {
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uint16_t addr = INA219_ADDRESSES[INA219_FIRST_ADDRESS +i];
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if (!I2cSetDevice(addr)) { continue; }
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if (!Ina219Data) {
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Ina219Data = (struct INA219_Data*)calloc(INA219_MAX_COUNT,sizeof(struct INA219_Data));
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if (!Ina219Data) {
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AddLog(LOG_LEVEL_ERROR,PSTR("INA219: Mem Error"));
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return;
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}
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}
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int model = Ina219Init(addr);
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if (model) {
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I2cSetActiveFound(addr, INA219_TYPE[model-1]);
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Ina219SetShuntMode(Ina219Count, Settings->ina219_mode, INA219_SHUNT_RESISTOR);
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Ina219Data[Ina219Count].model = model;
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Ina219Data[Ina219Count].addr = addr;
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Ina219Count++;
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}
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}
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}
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void Ina219EverySecond(void)
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{
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// 4 x 3mS
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Ina219Read();
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}
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#ifdef USE_WEBSERVER
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const char HTTP_SNS_INA219_DATA[] PROGMEM =
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"{s}%s " D_VOLTAGE "{m}%s " D_UNIT_VOLT "{e}"
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"{s}%s " D_CURRENT "{m}%s " D_UNIT_AMPERE "{e}"
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"{s}%s " D_POWERUSAGE "{m}%s " D_UNIT_WATT "{e}";
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#endif // USE_WEBSERVER
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void Ina219Show(bool json)
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{
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for (int i = 0; i < Ina219Count; i++) {
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if (!Ina219Data[i].model)
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continue;
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char voltage[16];
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dtostrfd(Ina219Data[i].voltage, Settings->flag2.voltage_resolution, voltage);
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char current[16];
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dtostrfd(Ina219Data[i].current, Settings->flag2.current_resolution, current);
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char power[16];
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dtostrfd(Ina219Data[i].voltage * Ina219Data[i].current, Settings->flag2.wattage_resolution, power);
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char name[16];
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if (Ina219Count>1)
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snprintf_P(name, sizeof(name), PSTR("%s%c%d"), INA219_TYPE[Ina219Data[i].model-1], IndexSeparator(), i +1);
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else
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snprintf_P(name, sizeof(name), PSTR("%s"), INA219_TYPE[Ina219Data[i].model-1]);
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if (json) {
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ResponseAppend_P(PSTR(",\"%s\":{\"Id\":%02x,\"" D_JSON_VOLTAGE "\":%s,\"" D_JSON_CURRENT "\":%s,\"" D_JSON_POWERUSAGE "\":%s}"),
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name, INA219_ADDRESSES[i], voltage, current, power);
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#ifdef USE_DOMOTICZ
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if (0 == TasmotaGlobal.tele_period) {
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DomoticzSensor(DZ_VOLTAGE, voltage);
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DomoticzSensor(DZ_CURRENT, current);
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}
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#endif // USE_DOMOTICZ
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#ifdef USE_WEBSERVER
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} else {
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WSContentSend_PD(HTTP_SNS_INA219_DATA, name, voltage, name, current, name, power);
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#endif // USE_WEBSERVER
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}
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}
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}
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/*********************************************************************************************\
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* Interface
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\*********************************************************************************************/
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bool Xsns13(uint32_t function)
|
|
{
|
|
if (!I2cEnabled(XI2C_14)) { return false; }
|
|
|
|
bool result = false;
|
|
|
|
if (FUNC_INIT == function) {
|
|
Ina219Detect();
|
|
}
|
|
else if (Ina219Data) {
|
|
switch (function) {
|
|
case FUNC_COMMAND_SENSOR:
|
|
if (XSNS_13 == XdrvMailbox.index) {
|
|
result = Ina219CommandSensor();
|
|
}
|
|
break;
|
|
case FUNC_EVERY_SECOND:
|
|
Ina219EverySecond();
|
|
break;
|
|
case FUNC_JSON_APPEND:
|
|
Ina219Show(1);
|
|
break;
|
|
#ifdef USE_WEBSERVER
|
|
case FUNC_WEB_SENSOR:
|
|
Ina219Show(0);
|
|
break;
|
|
#endif // USE_WEBSERVER
|
|
}
|
|
}
|
|
return result;
|
|
}
|
|
|
|
#endif // USE_INA219
|
|
#endif // USE_I2C
|