Fork of the espurna firmware for `mhsw` switches
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//--------------------------------------------------------------------------------
// General
//--------------------------------------------------------------------------------
#ifndef TEMPERATURE_MIN_CHANGE
#define TEMPERATURE_MIN_CHANGE 0.0 // Minimum temperature change to report
#endif
#ifndef HUMIDITY_MIN_CHANGE
#define HUMIDITY_MIN_CHANGE 0 // Minimum humidity change to report
#endif
#define TEMPERATURE_DECIMALS 1 // Decimals for temperature values
//--------------------------------------------------------------------------------
// 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 DHT22
#endif
#ifndef DHT_PULLUP
#define DHT_PULLUP 0
#endif
#ifndef DHT_UPDATE_INTERVAL
#define DHT_UPDATE_INTERVAL 60000
#endif
#define DHT_TEMPERATURE_TOPIC "temperature"
#define DHT_HUMIDITY_TOPIC "humidity"
#define HUMIDITY_NORMAL 0
#define HUMIDITY_COMFORTABLE 1
#define HUMIDITY_DRY 2
#define HUMIDITY_WET 3
//--------------------------------------------------------------------------------
// 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 0x40
#endif
//--------------------------------------------------------------------------------
// BME280
// Enable support by passing BME280_SUPPORT=1 build flag
//--------------------------------------------------------------------------------
#ifndef BME280_SUPPORT
#define BME280_SUPPORT 0
#endif
#ifndef BME280_ADDRESS
#define BME280_ADDRESS 0x76
#endif
#define BME280_MODE 1 // 1 for forced mode, 3 for normal mode
#define BME280_TEMPERATURE 1 // Oversampling for temperature (set to 0 to disable magnitude)
#define BME280_HUMIDITY 1 // Oversampling for humidity (set to 0 to disable magnitude)
#define BME280_PRESSURE 1 // Oversampling for pressure (set to 0 to disable magnitude)
//--------------------------------------------------------------------------------
// DS18B20 temperature sensor
// Enable support by passing DS18B20_SUPPORT=1 build flag
//--------------------------------------------------------------------------------
#ifndef DS18B20_SUPPORT
#define DS18B20_SUPPORT 0
#endif
#ifndef DS18B20_PIN
#define DS18B20_PIN 13
#endif
#ifndef DS18B20_PULLUP
#define DS18B20_PULLUP 1
#endif
#ifndef DS18B20_UPDATE_INTERVAL
#define DS18B20_UPDATE_INTERVAL 60000
#endif
#ifndef DS18B20_TEMPERATURE_TOPIC
#define DS18B20_TEMPERATURE_TOPIC "temperature"
#endif
#define DS18B20_RESOLUTION 9
//--------------------------------------------------------------------------------
// 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
//--------------------------------------------------------------------------------
// Analog sensor
// Enable support by passing ANALOG_SUPPORT=1 build flag
//--------------------------------------------------------------------------------
#ifndef ANALOG_SUPPORT
#define ANALOG_SUPPORT 0
#endif
#ifndef ANALOG_PIN
#define ANALOG_PIN 0
#endif
#ifndef ANALOG_PIN_MODE
#define ANALOG_PIN_MODE INPUT
#endif
#if ANALOG_SUPPORT
#undef ADC_VCC_ENABLED
#define ADC_VCC_ENABLED 0
#endif
//--------------------------------------------------------------------------------
// Counter sensor
// Enable support by passing COUNTER_SUPPORT=1 build flag
//--------------------------------------------------------------------------------
#ifndef COUNTER_SUPPORT
#define COUNTER_SUPPORT 0 // Do not build with counter support by default
#endif
#ifndef COUNTER_PIN
#define COUNTER_PIN 2 // GPIO to monitor
#endif
#ifndef COUNTER_PIN_MODE
#define COUNTER_PIN_MODE INPUT // INPUT, INPUT_PULLUP
#endif
#ifndef COUNTER_INTERRUPT_MODE
#define COUNTER_INTERRUPT_MODE RISING // RISING, FALLING, BOTH
#endif
#define COUNTER_DEBOUNCE 50 // Do not register events within less than 10 millis
//--------------------------------------------------------------------------------
// Energy Monitor
//--------------------------------------------------------------------------------
#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_REPORT_CURRENT 0 // Calculate current
#define EMON_REPORT_POWER 1 // Calculate power
#define EMON_REPORT_ENERGY 1 // Calculate energy
//--------------------------------------------------------------------------------
// 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
#define EMON_ANALOG_CURRENT_RATIO 30 // Current ratio in the clamp (30V/1A)
#define EMON_ANALOG_ADC_BITS 10 // ADC depth
#define EMON_ANALOG_REFERENCE_VOLTAGE 3.3 // Reference voltage of the ADC
#if EMON_ANALOG_SUPPORT
#undef ADC_VCC_ENABLED
#define ADC_VCC_ENABLED 0
#endif
//--------------------------------------------------------------------------------
// 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 0x50 // I2C address of the ADC121
#define EMON_ADC121_CURRENT_RATIO 30 // Current ratio in the clamp (30V/1A)
#define EMON_ADC121_ADC_BITS 12 // ADC depth
#define EMON_ADC121_REFERENCE_VOLTAGE 3.3 // Reference voltage of the ADC
//--------------------------------------------------------------------------------
// 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_ADS1115 1 // 0 for ADS10115, 1 for ADS1115
#define EMON_ADS1X15_PORT_MASK 0x08 // A0=1 A1=2 A2=4 A4=8
#define EMON_ADS1X15_I2C_ADDRESS 0x48 // I2C address of the ADS1115
#define EMON_ADS1X15_CURRENT_RATIO 30 // Current ratio in the clamp (30V/1A)
#define EMON_ADS1X15_ADC_BITS 16 // ADC depth
#define EMON_ADS1X15_REFERENCE_VOLTAGE 8.192 // Double the gain for peak-to-peak
//--------------------------------------------------------------------------------
// Particle Monitor based on Plantower PMSX003
// Enable support by passing PMSX003_SUPPORT=1 build flag
//--------------------------------------------------------------------------------
#ifndef PMSX003_SUPPORT
#define PMSX003_SUPPORT 0
#endif
#define PMS_RX_PIN 13
#define PMS_TX_PIN 15
//--------------------------------------------------------------------------------
// Internal power montior
// Enable support by passing ADC_VCC_ENABLED=1 build flag
// Do not enable this if using the analog GPIO for any other thing
//--------------------------------------------------------------------------------
#ifndef ADC_VCC_ENABLED
#define ADC_VCC_ENABLED 1
#endif
#if ADC_VCC_ENABLED
ADC_MODE(ADC_VCC);
#endif