substitutions: devicename: test1 sensorname: my textname: template roomname: living_room esphome: name: test1 name_add_mac_suffix: true platform: ESP32 board: nodemcu-32s on_boot: priority: 150.0 then: - lambda: >- ESP_LOGD("main", "ON BOOT!"); on_shutdown: then: - lambda: >- ESP_LOGD("main", "ON SHUTDOWN!"); on_loop: then: - lambda: >- ESP_LOGV("main", "ON LOOP!"); - light.addressable_set: id: addr1 range_from: 0 range_to: 100 red: 100% green: !lambda 'return 255;' blue: 0% white: 100% - http_request.get: url: https://esphome.io headers: Content-Type: application/json verify_ssl: false - http_request.post: url: https://esphome.io verify_ssl: false json: key: !lambda |- return id(${textname}_text).state; greeting: 'Hello World' - http_request.send: method: PUT url: https://esphome.io headers: Content-Type: application/json body: 'Some data' verify_ssl: false build_path: build/test1 packages: wifi: !include test_packages/test_packages_package_wifi.yaml pkg_test: !include test_packages/test_packages_package1.yaml wifi: networks: - ssid: 'MySSID' password: 'password1' - ssid: 'MySSID2' password: '' channel: 14 bssid: 'A1:63:95:47:D3:1D' manual_ip: static_ip: 192.168.178.230 gateway: 192.168.178.1 subnet: 255.255.255.0 dns1: 1.1.1.1 dns2: 1.2.2.1 domain: .local reboot_timeout: 120s power_save_mode: none http_request: useragent: esphome/device timeout: 10s mqtt: broker: '192.168.178.84' port: 1883 username: 'debug' password: 'debug' client_id: someclient discovery: True discovery_retain: False discovery_prefix: discovery topic_prefix: helloworld log_topic: topic: helloworld/hi level: INFO birth_message: will_message: shutdown_message: topic: topic/to/send/to payload: hi qos: 2 retain: True keepalive: 60s reboot_timeout: 60s on_message: - topic: my/custom/topic qos: 0 then: - lambda: >- ESP_LOGD("main", "Got message %s", x.c_str()); - topic: livingroom/ota_mode then: - deep_sleep.prevent - topic: livingroom/ota_mode then: - deep_sleep.enter: on_json_message: topic: the/topic then: - if: condition: - wifi.connected: - mqtt.connected: - light.is_on: kitchen - light.is_off: kitchen then: - lambda: |- int data = x["my_data"]; ESP_LOGD("main", "The data is: %d", data); - light.turn_on: id: ${roomname}_lights brightness: !lambda |- float brightness = 1.0; if (x.containsKey("brightness")) brightness = x["brightness"]; return brightness; effect: !lambda |- const char *effect = "None"; if (x.containsKey("effect")) effect = x["effect"]; return effect; - light.control: id: ${roomname}_lights brightness: !lambda 'return id(${roomname}_lights).current_values.get_brightness() + 0.5;' - light.dim_relative: id: ${roomname}_lights relative_brightness: 5% - uart.write: id: uart0 data: Hello World - uart.write: id: uart0 data: [0x00, 0x20, 0x30] - uart.write: id: uart0 data: !lambda |- return {}; i2c: sda: 21 scl: 22 scan: True frequency: 100kHz setup_priority: -100 spi: clk_pin: GPIO21 mosi_pin: GPIO22 miso_pin: GPIO23 uart: - tx_pin: GPIO22 rx_pin: GPIO23 baud_rate: 115200 id: uart0 parity: NONE data_bits: 8 stop_bits: 1 rx_buffer_size: 512 invert: false - id: adalight_uart tx_pin: GPIO25 rx_pin: GPIO26 baud_rate: 115200 rx_buffer_size: 1024 ota: safe_mode: True password: 'superlongpasswordthatnoonewillknow' port: 3286 reboot_timeout: 2min num_attempts: 5 logger: baud_rate: 0 level: VERBOSE logs: mqtt.component: DEBUG mqtt.client: ERROR web_server: port: 8080 css_url: https://esphome.io/_static/webserver-v1.min.css js_url: https://esphome.io/_static/webserver-v1.min.js power_supply: id: 'atx_power_supply' enable_time: 20ms keep_on_time: 10s pin: number: 13 inverted: true deep_sleep: run_duration: 20s sleep_duration: 50s wakeup_pin: GPIO39 wakeup_pin_mode: INVERT_WAKEUP ads1115: address: 0x48 dallas: pin: GPIO23 as3935_spi: cs_pin: GPIO12 irq_pin: GPIO13 wled: adalight: mcp3008: - id: 'mcp3008_hub' cs_pin: GPIO12 mcp23s08: - id: 'mcp23s08_hub' cs_pin: GPIO12 deviceaddress: 0 mcp23s17: - id: 'mcp23s17_hub' cs_pin: GPIO12 deviceaddress: 1 sensor: - platform: adc pin: A0 name: 'Living Room Brightness' update_interval: '1:01' attenuation: 2.5db unit_of_measurement: '°C' icon: 'mdi:water-percent' accuracy_decimals: 5 expire_after: 120s setup_priority: -100 force_update: true filters: - offset: 2.0 - multiply: 1.2 - calibrate_linear: - 0.0 -> 0.0 - 40.0 -> 45.0 - 100.0 -> 102.5 - filter_out: 42.0 - filter_out: nan - median: window_size: 5 send_every: 5 send_first_at: 3 - min: window_size: 5 send_every: 5 send_first_at: 3 - max: window_size: 5 send_every: 5 send_first_at: 3 - sliding_window_moving_average: window_size: 15 send_every: 15 send_first_at: 15 - exponential_moving_average: alpha: 0.1 send_every: 15 - throttle: 1s - heartbeat: 5s - debounce: 0.1s - delta: 5.0 - or: - throttle: 1s - delta: 5.0 - lambda: return x * (9.0/5.0) + 32.0; on_value: then: - lambda: |- ESP_LOGD("main", "Got value %f", x); id(${sensorname}_sensor).publish_state(42.0); ESP_LOGI("main", "Value of my sensor: %f", id(${sensorname}_sensor).state); ESP_LOGI("main", "Raw Value of my sensor: %f", id(${sensorname}_sensor).state); on_value_range: above: 5 below: 10 then: - lambda: >- ESP_LOGD("main", "Got value range %f", x); - wait_until: binary_sensor.is_on: binary_sensor1 on_raw_value: - lambda: >- ESP_LOGD("main", "Got raw value %f", x); - logger.log: level: DEBUG format: 'Got raw value %f' args: ['x'] - logger.log: 'Got raw value NAN' - mqtt.publish: topic: some/topic payload: Hello qos: 2 retain: True - platform: esp32_hall name: ESP32 Hall Sensor - platform: ads1115 multiplexer: 'A0_A1' gain: 1.024 id: ${sensorname}_sensor filters: state_topic: hi/me retain: false availability: - platform: atm90e32 cs_pin: 5 phase_a: voltage: name: 'EMON Line Voltage A' current: name: 'EMON CT1 Current' power: name: 'EMON Active Power CT1' reactive_power: name: 'EMON Reactive Power CT1' power_factor: name: 'EMON Power Factor CT1' gain_voltage: 7305 gain_ct: 27961 phase_b: current: name: 'EMON CT2 Current' power: name: 'EMON Active Power CT2' reactive_power: name: 'EMON Reactive Power CT2' power_factor: name: 'EMON Power Factor CT2' gain_voltage: 7305 gain_ct: 27961 phase_c: current: name: 'EMON CT3 Current' power: name: 'EMON Active Power CT3' reactive_power: name: 'EMON Reactive Power CT3' power_factor: name: 'EMON Power Factor CT3' gain_voltage: 7305 gain_ct: 27961 frequency: name: 'EMON Line Frequency' chip_temperature: name: 'EMON Chip Temp A' line_frequency: 60Hz current_phases: 3 gain_pga: 2X - platform: bh1750 name: 'Living Room Brightness 3' internal: true address: 0x23 resolution: 1.0 update_interval: 30s retain: False availability: state_topic: livingroom/custom_state_topic measurement_time: 31 - platform: bme280 temperature: name: 'Outside Temperature' oversampling: 16x pressure: name: 'Outside Pressure' oversampling: none humidity: name: 'Outside Humidity' oversampling: 8x address: 0x77 iir_filter: 16x update_interval: 15s - platform: bme680 temperature: name: 'Outside Temperature' oversampling: 16x pressure: name: 'Outside Pressure' humidity: name: 'Outside Humidity' gas_resistance: name: 'Outside Gas Sensor' address: 0x77 heater: temperature: 320 duration: 150ms update_interval: 15s - platform: bmp085 temperature: name: 'Outside Temperature' pressure: name: 'Outside Pressure' filters: - lambda: >- return x / powf(1.0 - (x / 44330.0), 5.255); update_interval: 15s - platform: bmp280 temperature: name: 'Outside Temperature' oversampling: 16x pressure: name: 'Outside Pressure' address: 0x77 update_interval: 15s iir_filter: 16x - platform: dallas address: 0x1C0000031EDD2A28 name: 'Living Room Temperature' resolution: 9 - platform: dallas index: 1 name: 'Living Room Temperature 2' - platform: dht pin: GPIO26 temperature: name: 'Living Room Temperature 3' humidity: name: 'Living Room Humidity 3' model: AM2302 update_interval: 15s - platform: dht12 temperature: name: 'Living Room Temperature 4' humidity: name: 'Living Room Humidity 4' update_interval: 15s - platform: duty_cycle pin: GPIO25 name: Duty Cycle Sensor - platform: esp32_hall name: 'ESP32 Hall Sensor' update_interval: 15s - platform: hdc1080 temperature: name: 'Living Room Temperature 5' humidity: name: 'Living Room Pressure 5' update_interval: 15s - platform: hlw8012 sel_pin: 5 cf_pin: 14 cf1_pin: 13 current: name: 'HLW8012 Current' voltage: name: 'HLW8012 Voltage' power: name: 'HLW8012 Power' id: hlw8012_power energy: name: 'HLW8012 Energy' id: hlw8012_energy update_interval: 15s current_resistor: 0.001 ohm voltage_divider: 2351 change_mode_every: 16 initial_mode: VOLTAGE - platform: total_daily_energy power_id: hlw8012_power name: 'HLW8012 Total Daily Energy' - platform: integration sensor: hlw8012_power name: 'Integration Sensor' time_unit: s - platform: hmc5883l address: 0x68 field_strength_x: name: 'HMC5883L Field Strength X' field_strength_y: name: 'HMC5883L Field Strength Y' field_strength_z: name: 'HMC5883L Field Strength Z' heading: name: 'HMC5883L Heading' range: 130uT oversampling: 8x update_interval: 15s - platform: qmc5883l address: 0x0D field_strength_x: name: 'QMC5883L Field Strength X' field_strength_y: name: 'QMC5883L Field Strength Y' field_strength_z: name: 'QMC5883L Field Strength Z' heading: name: 'QMC5883L Heading' range: 800uT oversampling: 256x update_interval: 15s - platform: hx711 name: 'HX711 Value' dout_pin: GPIO23 clk_pin: GPIO25 gain: 128 update_interval: 15s - platform: ina219 address: 0x40 shunt_resistance: 0.1 ohm current: name: 'INA219 Current' power: name: 'INA219 Power' bus_voltage: name: 'INA219 Bus Voltage' shunt_voltage: name: 'INA219 Shunt Voltage' max_voltage: 32.0V max_current: 3.2A update_interval: 15s - platform: ina226 address: 0x40 shunt_resistance: 0.1 ohm current: name: 'INA226 Current' power: name: 'INA226 Power' bus_voltage: name: 'INA226 Bus Voltage' shunt_voltage: name: 'INA226 Shunt Voltage' max_current: 3.2A update_interval: 15s - platform: ina3221 address: 0x40 channel_1: shunt_resistance: 0.1 ohm current: name: 'INA3221 Channel 1 Current' power: name: 'INA3221 Channel 1 Power' bus_voltage: name: 'INA3221 Channel 1 Bus Voltage' shunt_voltage: name: 'INA3221 Channel 1 Shunt Voltage' update_interval: 15s - platform: htu21d temperature: name: 'Living Room Temperature 6' humidity: name: 'Living Room Humidity 6' update_interval: 15s - platform: max6675 name: 'Living Room Temperature' cs_pin: GPIO23 update_interval: 15s - platform: max31855 name: 'Den Temperature' cs_pin: GPIO23 update_interval: 15s reference_temperature: name: 'MAX31855 Internal Temperature' - platform: max31856 name: 'BBQ Temperature' cs_pin: GPIO17 update_interval: 15s mains_filter: 50Hz - platform: max31865 name: 'Water Tank Temperature' cs_pin: GPIO23 update_interval: 15s reference_resistance: '430 Ω' rtd_nominal_resistance: '100 Ω' - platform: mhz19 uart_id: uart0 co2: name: 'MH-Z19 CO2 Value' temperature: name: 'MH-Z19 Temperature' update_interval: 15s automatic_baseline_calibration: false - platform: mpu6050 address: 0x68 accel_x: name: 'MPU6050 Accel X' accel_y: name: 'MPU6050 Accel Y' accel_z: name: 'MPU6050 Accel z' gyro_x: name: 'MPU6050 Gyro X' gyro_y: name: 'MPU6050 Gyro Y' gyro_z: name: 'MPU6050 Gyro z' temperature: name: 'MPU6050 Temperature' - platform: ms5611 temperature: name: 'Outside Temperature' pressure: name: 'Outside Pressure' address: 0x77 update_interval: 15s - platform: pulse_counter name: 'Pulse Counter' pin: GPIO12 count_mode: rising_edge: INCREMENT falling_edge: DECREMENT internal_filter: 13us update_interval: 15s - platform: pulse_meter name: 'Pulse Meter' pin: GPIO12 internal_filter: 100ms timeout: 2 min total: name: 'Pulse Meter Total' - platform: rotary_encoder name: 'Rotary Encoder' id: rotary_encoder1 pin_a: GPIO23 pin_b: GPIO25 pin_reset: GPIO25 filters: - or: - debounce: 0.1s - delta: 10 resolution: 4 min_value: -10 max_value: 30 on_value: - sensor.rotary_encoder.set_value: id: rotary_encoder1 value: 10 - sensor.rotary_encoder.set_value: id: rotary_encoder1 value: !lambda 'return -1;' on_clockwise: - logger.log: 'Clockwise' on_anticlockwise: - logger.log: 'Anticlockwise' - platform: pulse_width name: Pulse Width pin: GPIO12 - platform: senseair uart_id: uart0 co2: name: 'SenseAir CO2 Value' update_interval: 15s - platform: sm300d2 uart_id: uart0 co2: name: 'SM300D2 CO2 Value' formaldehyde: name: 'SM300D2 Formaldehyde Value' tvoc: name: 'SM300D2 TVOC Value' pm_2_5: name: 'SM300D2 PM2.5 Value' pm_10_0: name: 'SM300D2 PM10 Value' temperature: name: 'SM300D2 Temperature Value' humidity: name: 'SM300D2 Humidity Value' update_interval: 60s - platform: sht3xd temperature: name: 'Living Room Temperature 8' humidity: name: 'Living Room Humidity 8' address: 0x44 update_interval: 15s - platform: sts3x name: 'Living Room Temperature 9' address: 0x4A - platform: scd30 co2: name: 'Living Room CO2 9' temperature: name: 'Living Room Temperature 9' humidity: name: 'Living Room Humidity 9' address: 0x61 update_interval: 15s automatic_self_calibration: true altitude_compensation: 10m ambient_pressure_compensation: 961mBar temperature_offset: 4.2C - platform: sgp30 eco2: name: 'Workshop eCO2' accuracy_decimals: 1 tvoc: name: 'Workshop TVOC' accuracy_decimals: 1 address: 0x58 update_interval: 5s - platform: sps30 pm_1_0: name: 'Workshop PM <1µm Weight concentration' id: 'workshop_PM_1_0' pm_2_5: name: 'Workshop PM <2.5µm Weight concentration' id: 'workshop_PM_2_5' pm_4_0: name: 'Workshop PM <4µm Weight concentration' id: 'workshop_PM_4_0' pm_10_0: name: 'Workshop PM <10µm Weight concentration' id: 'workshop_PM_10_0' pmc_0_5: name: 'Workshop PM <0.5µm Number concentration' id: 'workshop_PMC_0_5' pmc_1_0: name: 'Workshop PM <1µm Number concentration' id: 'workshop_PMC_1_0' pmc_2_5: name: 'Workshop PM <2.5µm Number concentration' id: 'workshop_PMC_2_5' pmc_4_0: name: 'Workshop PM <4µm Number concentration' id: 'workshop_PMC_4_0' pmc_10_0: name: 'Workshop PM <10µm Number concentration' id: 'workshop_PMC_10_0' address: 0x69 update_interval: 10s - platform: shtcx temperature: name: 'Living Room Temperature 10' humidity: name: 'Living Room Humidity 10' address: 0x70 update_interval: 15s - platform: template name: 'Template Sensor' id: template_sensor lambda: |- if (id(ultrasonic_sensor1).state > 1) { return 42.0; } else { return {}; } update_interval: 15s on_value: - sensor.template.publish: id: template_sensor state: 43.0 - sensor.template.publish: id: template_sensor state: !lambda 'return NAN;' - platform: tsl2561 name: 'TSL2561 Ambient Light' address: 0x39 update_interval: 15s is_cs_package: true integration_time: 402ms gain: 16x - platform: ultrasonic trigger_pin: GPIO25 echo_pin: number: GPIO23 inverted: true name: 'Ultrasonic Sensor' timeout: 5.5m id: ultrasonic_sensor1 - platform: uptime name: Uptime Sensor - platform: wifi_signal name: 'WiFi Signal Sensor' update_interval: 15s - platform: mqtt_subscribe name: 'MQTT Subscribe Sensor 1' topic: 'mqtt/topic' id: the_sensor qos: 2 on_value: - mqtt.publish_json: topic: the/topic payload: |- root["key"] = id(the_sensor).state; root["greeting"] = "Hello World"; - platform: sds011 uart_id: uart0 pm_2_5: name: 'SDS011 PM2.5' pm_10_0: name: 'SDS011 PM10.0' update_interval: 5min rx_only: false - platform: ccs811 eco2: name: CCS811 eCO2 tvoc: name: CCS811 TVOC update_interval: 30s baseline: 0x4242 - platform: tx20 wind_speed: name: 'Windspeed' wind_direction_degrees: name: 'Winddirection Degrees' pin: number: GPIO04 mode: INPUT - platform: zyaura clock_pin: GPIO5 data_pin: GPIO4 co2: name: 'ZyAura CO2' temperature: name: 'ZyAura Temperature' humidity: name: 'ZyAura Humidity' - platform: as3935 lightning_energy: name: 'Lightning Energy' distance: name: 'Distance Storm' - platform: tmp117 name: 'TMP117 Temperature' update_interval: 5s - platform: hm3301 pm_1_0: name: 'PM1.0' pm_2_5: name: 'PM2.5' pm_10_0: name: 'PM10.0' aqi: name: 'AQI' calculation_type: 'CAQI' - platform: teleinfo uart_id: uart0 tags: - tag_name: 'HCHC' sensor: name: 'hchc' unit_of_measurement: 'Wh' icon: mdi:flash - tag_name: 'HCHP' sensor: name: 'hchp' unit_of_measurement: 'Wh' icon: mdi:flash - tag_name: 'PAPP' sensor: name: 'papp' unit_of_measurement: 'VA' icon: mdi:flash update_interval: 60s historical_mode: true - platform: mcp9808 name: 'MCP9808 Temperature' update_interval: 15s - platform: ezo id: ph_ezo address: 99 unit_of_measurement: 'pH' - platform: mcp3008 update_interval: 5s mcp3008_id: 'mcp3008_hub' id: freezer_temp_source reference_voltage: 3.19 number: 0 esp32_touch: setup_mode: False iir_filter: 10ms sleep_duration: 27ms measurement_duration: 8ms low_voltage_reference: 0.5V high_voltage_reference: 2.7V voltage_attenuation: 1.5V binary_sensor: - platform: gpio name: 'MCP23S08 Pin #1' pin: mcp23xxx: mcp23s08_hub # Use pin number 1 number: 1 # One of INPUT or INPUT_PULLUP mode: INPUT_PULLUP inverted: False - platform: gpio name: 'MCP23S17 Pin #1' pin: mcp23xxx: mcp23s17_hub # Use pin number 1 number: 1 # One of INPUT or INPUT_PULLUP mode: INPUT_PULLUP inverted: False - platform: gpio name: 'MCP23S17 Pin #1 with interrupt' pin: mcp23xxx: mcp23s17_hub # Use pin number 1 number: 1 # One of INPUT or INPUT_PULLUP mode: INPUT_PULLUP inverted: False interrupt: FALLING - platform: gpio pin: GPIO9 name: 'Living Room Window' device_class: window filters: - invert: - delayed_on: 40ms - delayed_off: 40ms on_press: then: - lambda: >- ESP_LOGD("main", "Pressed"); on_release: then: - lambda: >- ESP_LOGD("main", "Released"); on_click: - min_length: 50ms max_length: 350ms then: - lambda: >- ESP_LOGD("main", "Clicked"); - then: - lambda: >- ESP_LOGD("main", "Clicked"); on_double_click: - min_length: 50ms max_length: 350ms then: - lambda: >- ESP_LOGD("main", "Double Clicked"); - then: - lambda: >- ESP_LOGD("main", "Double Clicked"); on_multi_click: - timing: - ON for at most 1s - OFF for at most 1s - ON for at most 1s - OFF for at least 0.2s then: - logger.log: format: 'Multi Clicked TWO' level: warn - timing: - OFF for 1s to 2s - ON for 1s to 2s - OFF for at least 0.5s then: - logger.log: format: 'Multi Clicked LONG SINGLE' level: warn - timing: - ON for at most 1s - OFF for at least 0.5s then: - logger.log: format: 'Multi Clicked SINGLE' level: warn id: binary_sensor1 - platform: gpio pin: number: GPIO9 mode: INPUT_PULLUP name: 'Living Room Window 2' - platform: status name: 'Living Room Status' - platform: esp32_touch name: 'ESP32 Touch Pad GPIO27' pin: GPIO27 threshold: 1000 id: btn_left - platform: nextion page_id: 0 component_id: 2 name: 'Nextion Component 2 Touch' - platform: template name: 'Garage Door Open' id: garage_door lambda: |- if (isnan(id(${sensorname}_sensor).state)) { // isnan checks if the ultrasonic sensor echo // has timed out, resulting in a NaN (not a number) state // in that case, return {} to indicate that we don't know. return {}; } else if (id(${sensorname}_sensor).state > 30) { // Garage Door is open. return true; } else { // Garage Door is closed. return false; } on_press: - binary_sensor.template.publish: id: garage_door state: OFF - output.ledc.set_frequency: id: gpio_19 frequency: 500.0Hz - output.ledc.set_frequency: id: gpio_19 frequency: !lambda 'return 500.0;' - platform: pn532 pn532_id: pn532_bs uid: 74-10-37-94 name: 'PN532 NFC Tag' - platform: rdm6300 uid: 7616525 name: 'RDM6300 NFC Tag' - platform: gpio name: 'PCF binary sensor' pin: pcf8574: pcf8574_hub number: 1 mode: INPUT inverted: True - platform: gpio name: 'MCP21 binary sensor' pin: mcp23xxx: mcp23017_hub number: 1 mode: INPUT inverted: True - platform: gpio name: 'MCP22 binary sensor' pin: mcp23xxx: mcp23008_hub number: 7 mode: INPUT_PULLUP inverted: False - platform: gpio name: 'MCP23 binary sensor' pin: mcp23016: mcp23016_hub number: 7 mode: INPUT inverted: False - platform: remote_receiver name: 'Raw Remote Receiver Test' raw: code: [ 5685, -4252, 1711, -2265, 1712, -2265, 1711, -2264, 1712, -2266, 3700, -2263, 1712, -4254, 1711, -4249, 1715, -2266, 1710, -2267, 1709, -2265, 3704, -4250, 1712, -4254, 3700, -2260, 1714, -2265, 1712, -2262, 1714, -2267, 1709, ] - platform: as3935 name: 'Storm Alert' pca9685: frequency: 500 address: 0x0 tlc59208f: - address: 0x20 id: tlc59208f_1 - address: 0x22 id: tlc59208f_2 - address: 0x24 id: tlc59208f_3 my9231: data_pin: GPIO12 clock_pin: GPIO14 num_channels: 6 num_chips: 2 bit_depth: 16 output: - platform: gpio pin: GPIO26 id: gpio_26 power_supply: atx_power_supply inverted: False - platform: ledc pin: 19 id: gpio_19 frequency: 1500Hz channel: 14 max_power: 0.5 - platform: pca9685 id: pca_0 channel: 0 - platform: pca9685 id: pca_1 channel: 1 - platform: pca9685 id: pca_2 channel: 2 - platform: pca9685 id: pca_3 channel: 3 - platform: pca9685 id: pca_4 channel: 4 - platform: pca9685 id: pca_5 channel: 5 - platform: pca9685 id: pca_6 channel: 6 - platform: pca9685 id: pca_7 channel: 7 - platform: tlc59208f id: tlc_0 channel: 0 tlc59208f_id: 'tlc59208f_1' - platform: tlc59208f id: tlc_1 channel: 1 tlc59208f_id: 'tlc59208f_1' - platform: tlc59208f id: tlc_2 channel: 2 tlc59208f_id: 'tlc59208f_1' - platform: tlc59208f id: tlc_3 channel: 0 tlc59208f_id: 'tlc59208f_2' - platform: tlc59208f id: tlc_4 channel: 1 tlc59208f_id: 'tlc59208f_2' - platform: tlc59208f id: tlc_5 channel: 2 tlc59208f_id: 'tlc59208f_2' - platform: tlc59208f id: tlc_6 channel: 0 tlc59208f_id: 'tlc59208f_3' - platform: tlc59208f id: tlc_7 channel: 1 tlc59208f_id: 'tlc59208f_3' - platform: tlc59208f id: tlc_8 channel: 2 tlc59208f_id: 'tlc59208f_3' - platform: gpio id: id2 pin: pcf8574: pcf8574_hub number: 0 mode: OUTPUT inverted: False - platform: gpio id: id22 pin: mcp23xxx: mcp23017_hub number: 0 mode: OUTPUT inverted: False - platform: gpio id: id23 pin: mcp23xxx: mcp23008_hub number: 0 mode: OUTPUT inverted: False - platform: gpio id: id25 pin: mcp23016: mcp23016_hub number: 0 mode: OUTPUT inverted: False - platform: my9231 id: my_0 channel: 0 - platform: my9231 id: my_1 channel: 1 - platform: my9231 id: my_2 channel: 2 - platform: my9231 id: my_3 channel: 3 - platform: my9231 id: my_4 channel: 4 - platform: my9231 id: my_5 channel: 5 - platform: slow_pwm id: id24 pin: GPIO26 period: 15s - platform: ac_dimmer id: dimmer1 gate_pin: GPIO5 zero_cross_pin: GPIO26 - platform: esp32_dac pin: GPIO25 id: dac_output - platform: mcp4725 id: mcp4725_dac_output e131: light: - platform: binary name: 'Desk Lamp' output: gpio_26 effects: - strobe: - strobe: name: 'My Strobe' colors: - state: True duration: 250ms - state: False duration: 250ms on_turn_on: - switch.template.publish: id: livingroom_lights state: yes on_turn_off: - switch.template.publish: id: livingroom_lights state: yes - platform: monochromatic name: 'Kitchen Lights' id: kitchen output: gpio_19 gamma_correct: 2.8 default_transition_length: 2s effects: - strobe: - flicker: - flicker: name: 'My Flicker' alpha: 98% intensity: 1.5% - lambda: name: My Custom Effect update_interval: 1s lambda: |- static int state = 0; state += 1; if (state == 4) state = 0; - platform: rgb name: 'Living Room Lights' id: ${roomname}_lights red: pca_0 green: pca_1 blue: pca_2 - platform: rgbw name: 'Living Room Lights 2' red: pca_3 green: pca_4 blue: pca_5 white: pca_6 color_interlock: true - platform: rgbww name: 'Living Room Lights 2' red: pca_3 green: pca_4 blue: pca_5 cold_white: pca_6 warm_white: pca_6 cold_white_color_temperature: 153 mireds warm_white_color_temperature: 500 mireds color_interlock: true - platform: cwww name: 'Living Room Lights 2' cold_white: pca_6 warm_white: pca_6 cold_white_color_temperature: 153 mireds warm_white_color_temperature: 500 mireds constant_brightness: true - platform: fastled_clockless id: addr1 chipset: WS2811 pin: GPIO23 num_leds: 60 rgb_order: BRG max_refresh_rate: 20ms power_supply: atx_power_supply color_correct: [75%, 100%, 50%] name: 'FastLED WS2811 Light' effects: - addressable_color_wipe: - addressable_color_wipe: name: Color Wipe Effect With Custom Values colors: - red: 100% green: 100% blue: 100% num_leds: 1 - red: 0% green: 0% blue: 0% num_leds: 1 add_led_interval: 100ms reverse: False - addressable_scan: - addressable_scan: name: Scan Effect With Custom Values move_interval: 100ms - addressable_twinkle: - addressable_twinkle: name: Twinkle Effect With Custom Values twinkle_probability: 5% progress_interval: 4ms - addressable_random_twinkle: - addressable_random_twinkle: name: Random Twinkle Effect With Custom Values twinkle_probability: 5% progress_interval: 32ms - addressable_fireworks: - addressable_fireworks: name: Fireworks Effect With Custom Values update_interval: 32ms spark_probability: 10% use_random_color: false fade_out_rate: 120 - addressable_flicker: - addressable_flicker: name: Flicker Effect With Custom Values update_interval: 16ms intensity: 5% - addressable_lambda: name: 'Test For Custom Lambda Effect' lambda: |- if (initial_run) { it[0] = current_color; } - wled: port: 11111 - adalight: uart_id: adalight_uart - automation: name: Custom Effect sequence: - light.addressable_set: id: addr1 red: 100% green: 100% blue: 0% - delay: 100ms - light.addressable_set: id: addr1 red: 0% green: 100% blue: 0% - e131: universe: 1 - platform: fastled_spi id: addr2 chipset: WS2801 data_pin: GPIO23 clock_pin: GPIO22 data_rate: 2MHz num_leds: 60 rgb_order: BRG name: 'FastLED SPI Light' - platform: neopixelbus id: addr3 name: 'Neopixelbus Light' gamma_correct: 2.8 color_correct: [0.0, 0.0, 0.0, 0.0] default_transition_length: 10s power_supply: atx_power_supply effects: - addressable_flicker: name: Flicker Effect With Custom Values update_interval: 16ms intensity: 5% type: GRBW variant: SK6812 method: ESP32_I2S_0 num_leds: 60 pin: GPIO23 - platform: partition name: 'Partition Light' segments: - id: addr1 from: 0 to: 0 - id: addr2 from: 1 to: 10 - id: addr2 from: 20 to: 25 remote_transmitter: - pin: 32 carrier_duty_percent: 100% climate: - platform: tcl112 name: TCL112 Climate With Sensor supports_heat: True supports_cool: True sensor: ${sensorname}_sensor - platform: tcl112 name: TCL112 Climate - platform: coolix name: Coolix Climate With Sensor supports_heat: True supports_cool: True sensor: ${sensorname}_sensor - platform: coolix name: Coolix Climate - platform: fujitsu_general name: Fujitsu General Climate - platform: daikin name: Daikin Climate - platform: yashima name: Yashima Climate - platform: mitsubishi name: Mitsubishi - platform: whirlpool name: Whirlpool Climate - platform: climate_ir_lg name: LG Climate - platform: toshiba name: Toshiba Climate - platform: hitachi_ac344 name: Hitachi Climate - platform: midea_ac visual: min_temperature: 18 °C max_temperature: 25 °C temperature_step: 0.1 °C name: "Electrolux EACS" beeper: true outdoor_temperature: name: "Temp" power_usage: name: "Power" humidity_setpoint: name: "Hum" midea_dongle: uart_id: uart0 strength_icon: true switch: - platform: gpio name: 'MCP23S08 Pin #0' pin: mcp23xxx: mcp23s08_hub # Use pin number 0 number: 0 mode: OUTPUT inverted: False - platform: gpio name: 'MCP23S17 Pin #0' pin: mcp23xxx: mcp23s17_hub # Use pin number 0 number: 1 mode: OUTPUT inverted: False - platform: gpio pin: GPIO25 name: 'Living Room Dehumidifier' icon: 'mdi:restart' inverted: True command_topic: custom_command_topic restore_mode: ALWAYS_OFF - platform: template name: JVC Off id: living_room_lights_on turn_on_action: remote_transmitter.transmit_jvc: data: 0x10EF - platform: template name: NEC id: living_room_lights_off turn_on_action: remote_transmitter.transmit_nec: address: 0x4242 command: 0x8484 - platform: template name: LG turn_on_action: remote_transmitter.transmit_lg: data: 4294967295 nbits: 28 - platform: template name: Samsung turn_on_action: remote_transmitter.transmit_samsung: data: 0xABCDEF - platform: template name: Samsung36 turn_on_action: remote_transmitter.transmit_samsung36: address: 0x0400 command: 0x000E00FF - platform: template name: Sony turn_on_action: remote_transmitter.transmit_sony: data: 0xABCDEF nbits: 12 - platform: template name: Panasonic turn_on_action: remote_transmitter.transmit_panasonic: address: 0x4004 command: 0x1000BCD - platform: template name: Pioneer turn_on_action: - remote_transmitter.transmit_pioneer: rc_code_1: 0xA556 rc_code_2: 0xA506 repeat: times: 2 - platform: template name: RC Switch Raw turn_on_action: remote_transmitter.transmit_rc_switch_raw: code: '00101001100111110101xxxx' protocol: 1 - platform: template name: RC Switch Type A turn_on_action: remote_transmitter.transmit_rc_switch_type_a: group: '11001' device: '01000' state: True protocol: pulse_length: 175 sync: [1, 31] zero: [1, 3] one: [3, 1] inverted: False - platform: template name: RC Switch Type B turn_on_action: remote_transmitter.transmit_rc_switch_type_b: address: 4 channel: 2 state: True - platform: template name: RC Switch Type C turn_on_action: remote_transmitter.transmit_rc_switch_type_c: family: 'a' group: 1 device: 2 state: True - platform: template name: RC Switch Type D turn_on_action: remote_transmitter.transmit_rc_switch_type_d: group: 'a' device: 2 state: True - platform: template name: RC5 turn_on_action: remote_transmitter.transmit_rc5: address: 0x00 command: 0x0B - platform: template name: RC5 turn_on_action: remote_transmitter.transmit_raw: code: [1000, -1000] - platform: template name: Living Room Lights id: livingroom_lights optimistic: True assumed_state: yes turn_on_action: - switch.turn_on: living_room_lights_on - output.set_level: id: gpio_19 level: 50% - output.set_level: id: gpio_19 level: !lambda 'return 0.5;' - output.set_level: id: dac_output level: 50% - output.set_level: id: dac_output level: !lambda 'return 0.5;' - output.set_level: id: mcp4725_dac_output level: !lambda 'return 0.5;' turn_off_action: - switch.turn_on: living_room_lights_off restore_state: False on_turn_on: - switch.template.publish: id: livingroom_lights state: yes - platform: restart name: 'Living Room Restart' - platform: shutdown name: 'Living Room Shutdown' - platform: output name: 'Generic Output' output: pca_6 - platform: template name: 'Template Switch' id: my_switch lambda: |- if (id(binary_sensor1).state) { return true; } else { return {}; } id(my_switch).publish_state(false); id(my_switch).publish_state(true); if (id(my_switch).state) { // Switch is ON, do something here id(my_switch).turn_off(); id(my_switch).turn_on(); } else { // Switch is OFF, do something else here } optimistic: true assumed_state: no restore_state: True on_turn_off: - switch.template.publish: id: my_switch state: !lambda 'return false;' - platform: uart uart_id: uart0 name: 'UART String Output' data: 'DataToSend' - platform: uart uart_id: uart0 name: 'UART Bytes Output' data: [0xDE, 0xAD, 0xBE, 0xEF] - platform: uart uart_id: uart0 name: 'UART Recurring Output' data: [0xDE, 0xAD, 0xBE, 0xEF] send_every: 1s - platform: template assumed_state: yes name: Stepper Switch turn_on_action: - stepper.set_target: id: my_stepper target: !lambda |- static int32_t i = 0; i += 1000; if (i > 5000) { i = -5000; } return i; - stepper.report_position: id: my_stepper position: 0 - platform: gpio name: 'SN74HC595 Pin #0' pin: sn74hc595: sn74hc595_hub # Use pin number 0 number: 0 inverted: False fan: - platform: binary output: gpio_26 name: 'Living Room Fan 1' oscillation_output: gpio_19 direction_output: gpio_26 - platform: speed output: pca_6 speed_count: 10 name: 'Living Room Fan 2' oscillation_output: gpio_19 direction_output: gpio_26 oscillation_state_topic: oscillation/state/topic oscillation_command_topic: oscillation/command/topic speed_state_topic: speed/state/topic speed_command_topic: speed/command/topic interval: - interval: 10s then: - display.page.show: !lambda |- if (true) return id(page1); else return id(page2); - display.page.show_next: display1 - display.page.show_previous: display1 - interval: 2s then: - lambda: |- static uint16_t btn_left_state = id(btn_left)->get_value(); ESP_LOGD("adaptive touch", "___ Touch Pad '%s' (T%u): val: %u state: %u tres:%u", id(btn_left)->get_name().c_str(), id(btn_left)->get_touch_pad(), id(btn_left)->get_value(), btn_left_state, id(btn_left)->get_threshold()); btn_left_state = ((uint32_t) id(btn_left)->get_value() + 63 * (uint32_t)btn_left_state) >> 6; id(btn_left)->set_threshold(btn_left_state * 0.9); color: - id: kbx_red red: 100% green_int: 123 blue: 2% - id: kbx_blue red: 0% green: 1% blue: 100% display: - platform: lcd_gpio dimensions: 18x4 data_pins: - GPIO19 - GPIO21 - GPIO22 - GPIO23 enable_pin: GPIO23 rs_pin: GPIO25 lambda: |- it.print("Hello World!"); - platform: lcd_pcf8574 dimensions: 18x4 address: 0x3F lambda: |- it.print("Hello World!"); - platform: max7219 cs_pin: GPIO23 num_chips: 1 lambda: |- it.print("01234567"); - platform: tm1637 clk_pin: GPIO23 dio_pin: GPIO25 intensity: 3 lambda: |- it.print("1234"); - platform: tm1637 clk_pin: mcp23xxx: mcp23017_hub number: 1 dio_pin: mcp23xxx: mcp23017_hub number: 2 intensity: 3 lambda: |- it.print("1234"); - platform: nextion uart_id: uart0 lambda: |- it.set_component_value("gauge", 50); it.set_component_text("textview", "Hello World!"); - platform: pcd8544 cs_pin: GPIO23 dc_pin: GPIO23 reset_pin: GPIO23 contrast: 60 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: ssd1306_i2c model: 'SSD1306_128X64' reset_pin: GPIO23 address: 0x3C id: display1 brightness: 60% pages: - id: page1 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - id: page2 lambda: |- // Nothing - platform: ssd1306_spi model: 'SSD1306 128x64' cs_pin: GPIO23 dc_pin: GPIO23 reset_pin: GPIO23 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: ssd1322_spi model: 'SSD1322 256x64' cs_pin: GPIO23 dc_pin: GPIO23 reset_pin: GPIO23 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: ssd1325_spi model: 'SSD1325 128x64' cs_pin: GPIO23 dc_pin: GPIO23 reset_pin: GPIO23 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: ssd1327_i2c model: 'SSD1327 128X128' reset_pin: GPIO23 address: 0x3D id: display1327 brightness: 60% pages: - id: page13271 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - id: page13272 lambda: |- // Nothing - platform: ssd1327_spi model: 'SSD1327 128x128' cs_pin: GPIO23 dc_pin: GPIO23 reset_pin: GPIO23 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: ssd1331_spi cs_pin: GPIO23 dc_pin: GPIO23 reset_pin: GPIO23 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: ssd1351_spi model: 'SSD1351 128x128' cs_pin: GPIO23 dc_pin: GPIO23 reset_pin: GPIO23 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: st7789v cs_pin: GPIO5 dc_pin: GPIO16 reset_pin: GPIO23 backlight_pin: GPIO4 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: st7735 model: 'INITR_BLACKTAB' cs_pin: GPIO5 dc_pin: GPIO16 reset_pin: GPIO23 rotation: 0 device_width: 128 device_height: 160 col_start: 0 row_start: 0 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); tm1651: id: tm1651_battery clk_pin: GPIO23 dio_pin: GPIO23 remote_receiver: pin: GPIO32 dump: all status_led: pin: GPIO2 pn532_spi: id: pn532_bs cs_pin: GPIO23 update_interval: 1s on_tag: - lambda: |- ESP_LOGD("main", "Found tag %s", x.c_str()); - mqtt.publish: topic: the/topic payload: !lambda 'return x;' pn532_i2c: rdm6300: uart_id: uart0 rc522_spi: cs_pin: GPIO23 update_interval: 1s on_tag: - lambda: |- ESP_LOGD("main", "Found tag %s", x.c_str()); rc522_i2c: update_interval: 1s on_tag: - lambda: |- ESP_LOGD("main", "Found tag %s", x.c_str()); gps: uart_id: uart0 time: - platform: sntp id: sntp_time servers: - 0.pool.ntp.org - 1.pool.ntp.org - 192.168.178.1 on_time: cron: '/30 0-30,30/5 * ? JAN-DEC MON,SAT-SUN,TUE-FRI' then: - lambda: 'ESP_LOGD("main", "time");' - platform: gps on_time_sync: then: ds1307.write_time: id: ds1307_time - platform: ds1307 id: ds1307_time update_interval: never on_time: seconds: 0 then: ds1307.read_time cover: - platform: template name: 'Template Cover' id: template_cover lambda: |- if (id(binary_sensor1).state) { return COVER_OPEN; } else { return {}; } optimistic: true open_action: - cover.template.publish: id: template_cover state: CLOSED assumed_state: no debug: pcf8574: - id: 'pcf8574_hub' address: 0x21 pcf8575: False mcp23017: - id: 'mcp23017_hub' open_drain_interrupt: 'true' mcp23008: - id: 'mcp23008_hub' address: 0x22 open_drain_interrupt: 'true' mcp23016: - id: 'mcp23016_hub' address: 0x23 stepper: - platform: a4988 id: my_stepper step_pin: GPIO23 dir_pin: GPIO25 sleep_pin: GPIO25 max_speed: 250 steps/s acceleration: 100 steps/s^2 deceleration: 200 steps/s^2 globals: - id: glob_int type: int restore_value: yes initial_value: '0' - id: glob_float type: float restore_value: yes initial_value: '0.0f' - id: glob_bool type: bool restore_value: no initial_value: 'true' - id: glob_string type: std::string restore_value: no # initial_value: "" text_sensor: - platform: mqtt_subscribe name: 'MQTT Subscribe Text' topic: 'the/topic' qos: 2 on_value: - text_sensor.template.publish: id: ${textname}_text state: Hello World - text_sensor.template.publish: id: ${textname}_text state: |- return "Hello World2"; - globals.set: id: glob_int value: '0' - canbus.send: can_id: 23 data: [0x10, 0x20, 0x30] - platform: template name: Template Text Sensor id: ${textname}_text - platform: wifi_info ip_address: name: 'IP Address' ssid: name: 'SSID' bssid: name: 'BSSID' mac_address: name: 'Mac Address' - platform: version name: 'ESPHome Version No Timestamp' hide_timestamp: True sn74hc595: - id: 'sn74hc595_hub' data_pin: GPIO21 clock_pin: GPIO23 latch_pin: GPIO22 oe_pin: GPIO32 sr_count: 2 rtttl: output: gpio_19 canbus: - platform: mcp2515 cs_pin: GPIO17 can_id: 4 bit_rate: 50kbps on_frame: - can_id: 500 then: - lambda: |- std::string b(x.begin(), x.end()); ESP_LOGD("canid 500", "%s", &b[0] ); - can_id: 23 then: - if: condition: lambda: 'return x[0] == 0x11;' then: light.toggle: ${roomname}_lights