Fork of the espurna firmware for `mhsw` switches
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// =============================================================================
// SENSORS - General data
// =============================================================================
#define SENSOR_DEBUG 0 // Debug sensors
#define SENSOR_READ_INTERVAL 6 // Read data from sensors every 6 seconds
#define SENSOR_READ_MIN_INTERVAL 6 // Minimum read interval
#define SENSOR_READ_MAX_INTERVAL 3600 // Maximum read interval
#define SENSOR_INIT_INTERVAL 10000 // Try to re-init non-ready sensors every 10s
#define SENSOR_REPORT_EVERY 10 // Report every this many readings
#define SENSOR_REPORT_MIN_EVERY 1 // Minimum every value
#define SENSOR_REPORT_MAX_EVERY 12 // Maximum
#define SENSOR_USE_INDEX 0 // Use the index in topic (i.e. temperature/0)
// even if just one sensor (0 for backwards compatibility)
#ifndef SENSOR_POWER_CHECK_STATUS
#define SENSOR_POWER_CHECK_STATUS 1 // If set to 1 the reported power/current/energy will be 0 if the relay[0] is OFF
#endif
#ifndef SENSOR_TEMPERATURE_CORRECTION
#define SENSOR_TEMPERATURE_CORRECTION 0.0 // Offset correction
#endif
#ifndef TEMPERATURE_MIN_CHANGE
#define TEMPERATURE_MIN_CHANGE 0.0 // Minimum temperature change to report
#endif
#ifndef SENSOR_HUMIDITY_CORRECTION
#define SENSOR_HUMIDITY_CORRECTION 0.0 // Offset correction
#endif
#ifndef HUMIDITY_MIN_CHANGE
#define HUMIDITY_MIN_CHANGE 0 // Minimum humidity change to report
#endif
#define SENSOR_PUBLISH_ADDRESSES 0 // Publish sensor addresses
#define SENSOR_ADDRESS_TOPIC "address" // Topic to publish sensor addresses
#ifndef SENSOR_TEMPERATURE_UNITS
#define SENSOR_TEMPERATURE_UNITS TMP_CELSIUS // Temperature units (TMP_CELSIUS | TMP_FAHRENHEIT)
#endif
#ifndef SENSOR_ENERGY_UNITS
#define SENSOR_ENERGY_UNITS ENERGY_JOULES // Energy units (ENERGY_JOULES | ENERGY_KWH)
#endif
#ifndef SENSOR_POWER_UNITS
#define SENSOR_POWER_UNITS POWER_WATTS // Power units (POWER_WATTS | POWER_KILOWATTS)
#endif
// =============================================================================
// Specific data for each sensor
// =============================================================================
//------------------------------------------------------------------------------
// AM2320 Humidity & Temperature sensor over I2C
// Enable support by passing AM2320_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef AM2320_SUPPORT
#define AM2320_SUPPORT 0
#endif
#ifndef AM2320_ADDRESS
#define AM2320_ADDRESS 0x00 // 0x00 means auto
#endif
//------------------------------------------------------------------------------
// Analog sensor
// Enable support by passing ANALOG_SUPPORT=1 build flag
//--------------------------------------------------------------------------------
#ifndef ANALOG_SUPPORT
#define ANALOG_SUPPORT 0
#endif
#ifndef ANALOG_SAMPLES
#define ANALOG_SAMPLES 10 // Number of samples
#endif
#ifndef ANALOG_DELAY
#define ANALOG_DELAY 0 // Delay between samples in micros
#endif
//------------------------------------------------------------------------------
// BH1750
// Enable support by passing BH1750_SUPPORT=1 build flag
// http://www.elechouse.com/elechouse/images/product/Digital%20light%20Sensor/bh1750fvi-e.pdf
//------------------------------------------------------------------------------
#ifndef BH1750_SUPPORT
#define BH1750_SUPPORT 0
#endif
#ifndef BH1750_ADDRESS
#define BH1750_ADDRESS 0x00 // 0x00 means auto
#endif
#define BH1750_MODE BH1750_CONTINUOUS_HIGH_RES_MODE
//------------------------------------------------------------------------------
// BME280/BMP280
// Enable support by passing BMX280_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef BMX280_SUPPORT
#define BMX280_SUPPORT 0
#endif
#ifndef BMX280_ADDRESS
#define BMX280_ADDRESS 0x00 // 0x00 means auto
#endif
#define BMX280_MODE 1 // 0 for sleep mode, 1 or 2 for forced mode, 3 for normal mode
#define BMX280_STANDBY 0 // 0 for 0.5ms, 1 for 62.5ms, 2 for 125ms
// 3 for 250ms, 4 for 500ms, 5 for 1000ms
// 6 for 10ms, 7 for 20ms
#define BMX280_FILTER 0 // 0 for OFF, 1 for 2 values, 2 for 4 values, 3 for 8 values and 4 for 16 values
#define BMX280_TEMPERATURE 1 // Oversampling for temperature (set to 0 to disable magnitude)
#define BMX280_HUMIDITY 1 // Oversampling for humidity (set to 0 to disable magnitude, only for BME280)
#define BMX280_PRESSURE 1 // Oversampling for pressure (set to 0 to disable magnitude)
//------------------------------------------------------------------------------
// Dallas OneWire temperature sensors
// Enable support by passing DALLAS_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef DALLAS_SUPPORT
#define DALLAS_SUPPORT 0
#endif
#ifndef DALLAS_PIN
#define DALLAS_PIN 14
#endif
#define DALLAS_RESOLUTION 9 // Not used atm
#define DALLAS_READ_INTERVAL 2000 // Force sensor read & cache every 2 seconds
//------------------------------------------------------------------------------
// DHTXX temperature/humidity sensor
// Enable support by passing DHT_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef DHT_SUPPORT
#define DHT_SUPPORT 0
#endif
#ifndef DHT_PIN
#define DHT_PIN 14
#endif
#ifndef DHT_TYPE
#define DHT_TYPE DHT_CHIP_DHT22
#endif
//------------------------------------------------------------------------------
// CSE7766 based power sensor
// Enable support by passing CSE7766_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef CSE7766_SUPPORT
#define CSE7766_SUPPORT 0
#endif
#ifndef CSE7766_PIN
#define CSE7766_PIN 1 // TX pin from the CSE7766
#endif
#ifndef CSE7766_PIN_INVERSE
#define CSE7766_PIN_INVERSE 0 // Signal is inverted
#endif
#define CSE7766_SYNC_INTERVAL 300 // Safe time between transmissions (ms)
#define CSE7766_BAUDRATE 4800 // UART baudrate
#define CSE7766_V1R 1.0 // 1mR current resistor
#define CSE7766_V2R 1.0 // 1M voltage resistor
//------------------------------------------------------------------------------
// Digital sensor
// Enable support by passing DIGITAL_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef DIGITAL_SUPPORT
#define DIGITAL_SUPPORT 0
#endif
#ifndef DIGITAL_PIN
#define DIGITAL_PIN 2
#endif
#ifndef DIGITAL_PIN_MODE
#define DIGITAL_PIN_MODE INPUT_PULLUP
#endif
#ifndef DIGITAL_DEFAULT_STATE
#define DIGITAL_DEFAULT_STATE 1
#endif
//------------------------------------------------------------------------------
// ECH1560 based power sensor
// Enable support by passing ECH1560_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef ECH1560_SUPPORT
#define ECH1560_SUPPORT 0
#endif
#ifndef ECH1560_CLK_PIN
#define ECH1560_CLK_PIN 4 // CLK pin for the ECH1560
#endif
#ifndef ECH1560_MISO_PIN
#define ECH1560_MISO_PIN 5 // MISO pin for the ECH1560
#endif
#ifndef ECH1560_INVERTED
#define ECH1560_INVERTED 0 // Signal is inverted
#endif
//------------------------------------------------------------------------------
// Energy Monitor general settings
//------------------------------------------------------------------------------
#define EMON_MAX_SAMPLES 1000 // Max number of samples to get
#define EMON_MAX_TIME 250 // Max time in ms to sample
#define EMON_FILTER_SPEED 512 // Mobile average filter speed
#define EMON_MAINS_VOLTAGE 230 // Mains voltage
#define EMON_REFERENCE_VOLTAGE 3.3 // Reference voltage of the ADC
#define EMON_CURRENT_RATIO 30 // Current ratio in the clamp (30V/1A)
#define EMON_REPORT_CURRENT 0 // Report current
#define EMON_REPORT_POWER 1 // Report power
#define EMON_REPORT_ENERGY 1 // Report energy
//------------------------------------------------------------------------------
// Energy Monitor based on ADC121
// Enable support by passing EMON_ADC121_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef EMON_ADC121_SUPPORT
#define EMON_ADC121_SUPPORT 0 // Do not build support by default
#endif
#define EMON_ADC121_I2C_ADDRESS 0x00 // 0x00 means auto
//------------------------------------------------------------------------------
// Energy Monitor based on ADS1X15
// Enable support by passing EMON_ADS1X15_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef EMON_ADS1X15_SUPPORT
#define EMON_ADS1X15_SUPPORT 0 // Do not build support by default
#endif
#define EMON_ADS1X15_I2C_ADDRESS 0x00 // 0x00 means auto
#define EMON_ADS1X15_TYPE ADS1X15_CHIP_ADS1115
#define EMON_ADS1X15_GAIN ADS1X15_REG_CONFIG_PGA_4_096V
#define EMON_ADS1X15_MASK 0x0F // A0=1 A1=2 A2=4 A3=8
//------------------------------------------------------------------------------
// Energy Monitor based on interval analog GPIO
// Enable support by passing EMON_ANALOG_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef EMON_ANALOG_SUPPORT
#define EMON_ANALOG_SUPPORT 0 // Do not build support by default
#endif
//------------------------------------------------------------------------------
// Counter sensor
// Enable support by passing EVENTS_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef EVENTS_SUPPORT
#define EVENTS_SUPPORT 0 // Do not build with counter support by default
#endif
#ifndef EVENTS_PIN
#define EVENTS_PIN 2 // GPIO to monitor
#endif
#ifndef EVENTS_PIN_MODE
#define EVENTS_PIN_MODE INPUT // INPUT, INPUT_PULLUP
#endif
#ifndef EVENTS_INTERRUPT_MODE
#define EVENTS_INTERRUPT_MODE RISING // RISING, FALLING, BOTH
#endif
#define EVENTS_DEBOUNCE 50 // Do not register events within less than 50 millis
//------------------------------------------------------------------------------
// Geiger sensor
// Enable support by passing GEIGER_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef GEIGER_SUPPORT
#define GEIGER_SUPPORT 0 // Do not build with geiger support by default
#endif
#ifndef GEIGER_PIN
#define GEIGER_PIN D1 // GPIO to monitor "D1" => "GPIO5"
#endif
#ifndef GEIGER_PIN_MODE
#define GEIGER_PIN_MODE INPUT // INPUT, INPUT_PULLUP
#endif
#ifndef GEIGER_INTERRUPT_MODE
#define GEIGER_INTERRUPT_MODE RISING // RISING, FALLING, BOTH
#endif
#define GEIGER_DEBOUNCE 25 // Do not register events within less than 25 millis.
// Value derived here: Debounce time 25ms, because https://github.com/Trickx/espurna/wiki/Geiger-counter
#define GEIGER_CPM2SIEVERT 240 // CPM to µSievert per hour conversion factor
// Typically the literature uses the invers, but I find an integer type more convienient.
#define GEIGER_REPORT_SIEVERTS 1 // Enabler for local dose rate reports in µSv/h
#define GEIGER_REPORT_CPM 1 // Enabler for local dose rate reports in counts per minute
//------------------------------------------------------------------------------
// GUVAS12SD UV Sensor (analog)
// Enable support by passing GUVAS12SD_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef GUVAS12SD_SUPPORT
#define GUVAS12SD_SUPPORT 0
#endif
#ifndef GUVAS12SD_PIN
#define GUVAS12SD_PIN 14
#endif
//------------------------------------------------------------------------------
// HC-SR04
// Enable support by passing HCSR04_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef HCSR04_SUPPORT
#define HCSR04_SUPPORT 0
#endif
#ifndef HCSR04_TRIGGER
#define HCSR04_TRIGGER 12 // GPIO for the trigger pin (output)
#endif
#ifndef HCSR04_ECHO
#define HCSR04_ECHO 14 // GPIO for the echo pin (input)
#endif
//------------------------------------------------------------------------------
// HLW8012 Energy monitor IC
// Enable support by passing HLW8012_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef HLW8012_SUPPORT
#define HLW8012_SUPPORT 0
#endif
#ifndef HLW8012_SEL_PIN
#define HLW8012_SEL_PIN 5
#endif
#ifndef HLW8012_CF1_PIN
#define HLW8012_CF1_PIN 13
#endif
#ifndef HLW8012_CF_PIN
#define HLW8012_CF_PIN 14
#endif
#ifndef HLW8012_SEL_CURRENT
#define HLW8012_SEL_CURRENT HIGH // SEL pin to HIGH to measure current
#endif
#ifndef HLW8012_CURRENT_R
#define HLW8012_CURRENT_R 0.001 // Current resistor
#endif
#ifndef HLW8012_VOLTAGE_R_UP
#define HLW8012_VOLTAGE_R_UP ( 5 * 470000 ) // Upstream voltage resistor
#endif
#ifndef HLW8012_VOLTAGE_R_DOWN
#define HLW8012_VOLTAGE_R_DOWN ( 1000 ) // Downstream voltage resistor
#endif
#ifndef HLW8012_CURRENT_RATIO
#define HLW8012_CURRENT_RATIO 0 // Set to 0 to use factory defaults
#endif
#ifndef HLW8012_VOLTAGE_RATIO
#define HLW8012_VOLTAGE_RATIO 0 // Set to 0 to use factory defaults
#endif
#ifndef HLW8012_POWER_RATIO
#define HLW8012_POWER_RATIO 0 // Set to 0 to use factory defaults
#endif
#ifndef HLW8012_USE_INTERRUPTS
#define HLW8012_USE_INTERRUPTS 1 // Use interrupts to trap HLW8012 signals
#endif
#ifndef HLW8012_INTERRUPT_ON
#define HLW8012_INTERRUPT_ON CHANGE // When to trigger the interrupt
// Use CHANGE for HLW8012
// Use FALLING for BL0937 / HJL0
#endif
//------------------------------------------------------------------------------
// MHZ19 CO2 sensor
// Enable support by passing MHZ19_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef MHZ19_SUPPORT
#define MHZ19_SUPPORT 0
#endif
#ifndef MHZ19_RX_PIN
#define MHZ19_RX_PIN 13
#endif
#ifndef MHZ19_TX_PIN
#define MHZ19_TX_PIN 15
#endif
//------------------------------------------------------------------------------
// NTC sensor
// Enable support by passing NTC_SUPPORT=1 build flag
//--------------------------------------------------------------------------------
#ifndef NTC_SUPPORT
#define NTC_SUPPORT 0
#endif
#ifndef NTC_SAMPLES
#define NTC_SAMPLES 10 // Number of samples
#endif
#ifndef NTC_DELAY
#define NTC_DELAY 0 // Delay between samples in micros
#endif
#ifndef NTC_R_UP
#define NTC_R_UP 0 // Resistor upstream, set to 0 if none
#endif
#ifndef NTC_R_DOWN
#define NTC_R_DOWN 10000 // Resistor downstream, set to 0 if none
#endif
#ifndef NTC_T0
#define NTC_T0 298.15 // 25 Celsius
#endif
#ifndef NTC_R0
#define NTC_R0 10000 // Resistance at T0
#endif
#ifndef NTC_BETA
#define NTC_BETA 3977 // Beta coeficient
#endif
//------------------------------------------------------------------------------
// SenseAir CO2 sensor
// Enable support by passing SENSEAIR_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef SENSEAIR_SUPPORT
#define SENSEAIR_SUPPORT 0
#endif
#ifndef SENSEAIR_RX_PIN
#define SENSEAIR_RX_PIN 0
#endif
#ifndef SENSEAIR_TX_PIN
#define SENSEAIR_TX_PIN 2
#endif
//------------------------------------------------------------------------------
// Particle Monitor based on Plantower PMS
// Enable support by passing PMSX003_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef PMSX003_SUPPORT
#define PMSX003_SUPPORT 0
#endif
#ifndef PMS_TYPE
#define PMS_TYPE PMS_TYPE_X003
#endif
// You can enable smart sleep (read 6-times then sleep on 24-reading-cycles) to extend PMS sensor's life.
// Otherwise the default lifetime of PMS sensor is about 8000-hours/1-years.
// The PMS's fan will stop working on sleeping cycle, and will wake up on reading cycle.
#ifndef PMS_SMART_SLEEP
#define PMS_SMART_SLEEP 0
#endif
#ifndef PMS_RX_PIN
#define PMS_RX_PIN 13
#endif
#ifndef PMS_TX_PIN
#define PMS_TX_PIN 15
#endif
//------------------------------------------------------------------------------
// PZEM004T based power monitor
// Enable support by passing PZEM004T_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef PZEM004T_SUPPORT
#define PZEM004T_SUPPORT 0
#endif
#ifndef PZEM004T_USE_SOFT
#define PZEM004T_USE_SOFT 0 // Software serial is not working atm, use hardware serial
#endif
#ifndef PZEM004T_RX_PIN
#define PZEM004T_RX_PIN 13 // Software serial RX GPIO (if PZEM004T_USE_SOFT == 1)
#endif
#ifndef PZEM004T_TX_PIN
#define PZEM004T_TX_PIN 15 // Software serial TX GPIO (if PZEM004T_USE_SOFT == 1)
#endif
#ifndef PZEM004T_HW_PORT
#define PZEM004T_HW_PORT Serial // Hardware serial port (if PZEM004T_USE_SOFT == 0)
#endif
//------------------------------------------------------------------------------
// SHT3X I2C (Wemos) temperature & humidity sensor
// Enable support by passing SHT3X_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef SHT3X_I2C_SUPPORT
#define SHT3X_I2C_SUPPORT 0
#endif
#ifndef SHT3X_I2C_ADDRESS
#define SHT3X_I2C_ADDRESS 0x00 // 0x00 means auto
#endif
//------------------------------------------------------------------------------
// SI7021 temperature & humidity sensor
// Enable support by passing SI7021_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef SI7021_SUPPORT
#define SI7021_SUPPORT 0
#endif
#ifndef SI7021_ADDRESS
#define SI7021_ADDRESS 0x00 // 0x00 means auto
#endif
//------------------------------------------------------------------------------
// TMP3X analog temperature sensor
// Enable support by passing TMP3X_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef TMP3X_SUPPORT
#define TMP3X_SUPPORT 0
#endif
#ifndef TMP3X_TYPE
#define TMP3X_TYPE TMP3X_TMP35
#endif
//------------------------------------------------------------------------------
// V9261F based power sensor
// Enable support by passing SI7021_SUPPORT=1 build flag
//------------------------------------------------------------------------------
#ifndef V9261F_SUPPORT
#define V9261F_SUPPORT 0
#endif
#ifndef V9261F_PIN
#define V9261F_PIN 2 // TX pin from the V9261F
#endif
#ifndef V9261F_PIN_INVERSE
#define V9261F_PIN_INVERSE 1 // Signal is inverted
#endif
#define V9261F_SYNC_INTERVAL 600 // Sync signal length (ms)
#define V9261F_BAUDRATE 4800 // UART baudrate
// Default ratios
#define V9261F_CURRENT_FACTOR 79371434.0
#define V9261F_VOLTAGE_FACTOR 4160651.0
#define V9261F_POWER_FACTOR 153699.0
#define V9261F_RPOWER_FACTOR V9261F_CURRENT_FACTOR
// =============================================================================
// Sensor helpers configuration - can't move to dependencies.h
// =============================================================================
#ifndef SENSOR_SUPPORT
#define SENSOR_SUPPORT ( \
AM2320_SUPPORT || \
ANALOG_SUPPORT || \
BH1750_SUPPORT || \
BMX280_SUPPORT || \
CSE7766_SUPPORT || \
DALLAS_SUPPORT || \
DHT_SUPPORT || \
DIGITAL_SUPPORT || \
ECH1560_SUPPORT || \
EMON_ADC121_SUPPORT || \
EMON_ADS1X15_SUPPORT || \
EMON_ANALOG_SUPPORT || \
EVENTS_SUPPORT || \
GEIGER_SUPPORT || \
GUVAS12SD_SUPPORT || \
HCSR04_SUPPORT || \
HLW8012_SUPPORT || \
MHZ19_SUPPORT || \
NTC_SUPPORT || \
SENSEAIR_SUPPORT || \
PMSX003_SUPPORT || \
PZEM004T_SUPPORT || \
SHT3X_I2C_SUPPORT || \
SI7021_SUPPORT || \
TMP3X_SUPPORT || \
V9261F_SUPPORT \
)
#endif
// -----------------------------------------------------------------------------
// ADC
// -----------------------------------------------------------------------------
// Default ADC mode is to monitor internal power supply
#ifndef ADC_MODE_VALUE
#define ADC_MODE_VALUE ADC_VCC
#endif
// -----------------------------------------------------------------------------
// I2C
// -----------------------------------------------------------------------------
#ifndef I2C_SUPPORT
#define I2C_SUPPORT 0 // I2C enabled (1.98Kb)
#endif
#define I2C_USE_BRZO 0 // Use brzo_i2c library or standard Wire
#ifndef I2C_SDA_PIN
#define I2C_SDA_PIN SDA // SDA GPIO (Sonoff => 4)
#endif
#ifndef I2C_SCL_PIN
#define I2C_SCL_PIN SCL // SCL GPIO (Sonoff => 14)
#endif
#define I2C_CLOCK_STRETCH_TIME 200 // BRZO clock stretch time
#define I2C_SCL_FREQUENCY 1000 // BRZO SCL frequency
#define I2C_CLEAR_BUS 0 // Clear I2C bus on boot
#define I2C_PERFORM_SCAN 1 // Perform a bus scan on boot
//--------------------------------------------------------------------------------
// Class loading
//--------------------------------------------------------------------------------
#if SENSOR_SUPPORT
#if SENSOR_DEBUG
#include "../config/debug.h"
#endif
#include "../sensors/BaseSensor.h"
#if AM2320_SUPPORT
#include "../sensors/AM2320Sensor.h"
#endif
#if ANALOG_SUPPORT
#include "../sensors/AnalogSensor.h"
#endif
#if BH1750_SUPPORT
#include "../sensors/BH1750Sensor.h"
#endif
#if BMX280_SUPPORT
#include "../sensors/BMX280Sensor.h"
#endif
#if CSE7766_SUPPORT
#include <SoftwareSerial.h>
#include "../sensors/CSE7766Sensor.h"
#endif
#if DALLAS_SUPPORT
#include <OneWire.h>
#include "../sensors/DallasSensor.h"
#endif
#if DHT_SUPPORT
#include "../sensors/DHTSensor.h"
#endif
#if DIGITAL_SUPPORT
#include "../sensors/DigitalSensor.h"
#endif
#if ECH1560_SUPPORT
#include "../sensors/ECH1560Sensor.h"
#endif
#if EMON_ADC121_SUPPORT
#include "../sensors/EmonADC121Sensor.h"
#endif
#if EMON_ADS1X15_SUPPORT
#include "../sensors/EmonADS1X15Sensor.h"
#endif
#if EMON_ANALOG_SUPPORT
#include "../sensors/EmonAnalogSensor.h"
#endif
#if EVENTS_SUPPORT
#include "../sensors/EventSensor.h"
#endif
#if GEIGER_SUPPORT
#include "../sensors/GeigerSensor.h" // The main file for geiger counting module
#endif
#if GUVAS12SD_SUPPORT
#include "../sensors/GUVAS12SDSensor.h"
#endif
#if HCSR04_SUPPORT
#include "../sensors/HCSR04Sensor.h"
#endif
#if HLW8012_SUPPORT
#include <HLW8012.h>
#include "../sensors/HLW8012Sensor.h"
#endif
#if MHZ19_SUPPORT
#include <SoftwareSerial.h>
#include "../sensors/MHZ19Sensor.h"
#endif
#if NTC_SUPPORT
#include "../sensors/AnalogSensor.h"
#include "../sensors/NTCSensor.h"
#endif
#if SENSEAIR_SUPPORT
#include <SoftwareSerial.h>
#include "../sensors/SenseAirSensor.h"
#endif
#if PMSX003_SUPPORT
#include <SoftwareSerial.h>
#include "../sensors/PMSX003Sensor.h"
#endif
#if PZEM004T_SUPPORT
#include <SoftwareSerial.h>
#include "../sensors/PZEM004TSensor.h"
#endif
#if SI7021_SUPPORT
#include "../sensors/SI7021Sensor.h"
#endif
#if SHT3X_I2C_SUPPORT
#include "../sensors/SHT3XI2CSensor.h"
#endif
#if TMP3X_SUPPORT
#include "../sensors/TMP3XSensor.h"
#endif
#if V9261F_SUPPORT
#include <SoftwareSerial.h>
#include "../sensors/V9261FSensor.h"
#endif
#endif // SENSOR_SUPPORT