# Basic Config esphome: name: kc868-a8-contato-web-dht-tuya2 platform: ESP32 board: esp32dev external_components: - source: type: git url: https://github.com/hzkincony/esphome-tuya-iot ref: v1.2.0 # Enable logging logger: baud_rate: 0 api: encryption: key: "It2KB/xCg0EuwXMc1KyiTXRTSjr0hdQXmxQXnwIVmOE=" ota: - platform: esphome password: "70604538ddb4bdb4362c2d63114dfb1d" i2c: sda: 4 scl: 5 scan: true id: bus_a ethernet: type: LAN8720 mdc_pin: GPIO23 mdio_pin: GPIO18 clk_mode: GPIO17_OUT phy_addr: 0 # Add web server web_server: port: 80 auth: username: admin password: "admin" text_sensor: - platform: homeassistant name: "Casa Inteligente" id: home_assistant_text entity_id: input_text.test pcf8574: - id: 'pcf8574_hub_out_1' # for output channel 1-8 address: 0x24 - id: 'pcf8574_hub_in_1' # for input channel 1-8 address: 0x22 time: - platform: homeassistant id: homeassistant_time # Individual outputs switch: - platform: gpio name: "light1" id: light1 pin: pcf8574: pcf8574_hub_out_1 number: 0 mode: OUTPUT inverted: true restore_mode: RESTORE_DEFAULT_ON on_turn_on: - lambda: !lambda |- id(tuya_iot_component).property_report("output1", true); on_turn_off: - lambda: !lambda |- id(tuya_iot_component).property_report("output1", false); - platform: gpio name: "light2" id: light2 pin: pcf8574: pcf8574_hub_out_1 number: 1 mode: OUTPUT inverted: true restore_mode: RESTORE_DEFAULT_ON on_turn_on: - lambda: !lambda |- id(tuya_iot_component).property_report("output2", true); on_turn_off: - lambda: !lambda |- id(tuya_iot_component).property_report("output2", false); - platform: gpio name: "light3" id: light3 pin: pcf8574: pcf8574_hub_out_1 number: 2 mode: OUTPUT inverted: true restore_mode: RESTORE_DEFAULT_ON on_turn_on: - lambda: !lambda |- id(tuya_iot_component).property_report("output3", true); on_turn_off: - lambda: !lambda |- id(tuya_iot_component).property_report("output3", false); - platform: gpio name: "light4" id: light4 pin: pcf8574: pcf8574_hub_out_1 number: 3 mode: OUTPUT inverted: true restore_mode: RESTORE_DEFAULT_ON on_turn_on: - lambda: !lambda |- id(tuya_iot_component).property_report("output4", true); on_turn_off: - lambda: !lambda |- id(tuya_iot_component).property_report("output4", false); - platform: gpio name: "light5" id: light5 pin: pcf8574: pcf8574_hub_out_1 number: 4 mode: OUTPUT inverted: true restore_mode: RESTORE_DEFAULT_ON on_turn_on: - lambda: !lambda |- id(tuya_iot_component).property_report("output5", true); on_turn_off: - lambda: !lambda |- id(tuya_iot_component).property_report("output5", false); - platform: gpio name: "light6" id: light6 pin: pcf8574: pcf8574_hub_out_1 number: 5 mode: OUTPUT inverted: true restore_mode: RESTORE_DEFAULT_ON on_turn_on: - lambda: !lambda |- id(tuya_iot_component).property_report("output6", true); on_turn_off: - lambda: !lambda |- id(tuya_iot_component).property_report("output6", false); - platform: gpio name: "light7" id: light7 pin: pcf8574: pcf8574_hub_out_1 number: 6 mode: OUTPUT inverted: true restore_mode: RESTORE_DEFAULT_ON on_turn_on: - lambda: !lambda |- id(tuya_iot_component).property_report("output7", true); on_turn_off: - lambda: !lambda |- id(tuya_iot_component).property_report("output7", false); - platform: gpio name: "light8" id: light8 pin: pcf8574: pcf8574_hub_out_1 number: 7 mode: OUTPUT inverted: true restore_mode: RESTORE_DEFAULT_ON on_turn_on: - lambda: !lambda |- id(tuya_iot_component).property_report("output8", true); on_turn_off: - lambda: !lambda |- id(tuya_iot_component).property_report("output8", false); binary_sensor: - platform: gpio name: "input1" on_press: then: - switch.toggle: light1 pin: pcf8574: pcf8574_hub_in_1 number: 0 mode: INPUT inverted: true - platform: gpio name: "input2" on_press: then: - switch.toggle: light2 pin: pcf8574: pcf8574_hub_in_1 number: 1 mode: INPUT inverted: true - platform: gpio name: "input3" on_press: then: - switch.toggle: light3 pin: pcf8574: pcf8574_hub_in_1 number: 2 mode: INPUT inverted: true - platform: gpio name: "input4" on_press: then: - switch.toggle: light4 pin: pcf8574: pcf8574_hub_in_1 number: 3 mode: INPUT inverted: true - platform: gpio name: "input5" on_press: then: - switch.toggle: light5 pin: pcf8574: pcf8574_hub_in_1 number: 4 mode: INPUT inverted: true - platform: gpio name: "input6" on_press: then: - switch.toggle: light6 pin: pcf8574: pcf8574_hub_in_1 number: 5 mode: INPUT inverted: true - platform: gpio name: "input7" on_press: then: - switch.toggle: light7 pin: pcf8574: pcf8574_hub_in_1 number: 6 mode: INPUT inverted: true - platform: gpio name: "input8" on_press: then: - switch.toggle: light8 pin: pcf8574: pcf8574_hub_in_1 number: 7 mode: INPUT inverted: true - platform: gpio name: "a8-s3" pin: number: 32 inverted: true - platform: gpio name: "a8-s4" pin: number: 33 inverted: true one_wire: - platform: gpio pin: GPIO14 sensor: - platform: dallas_temp name: "Temperatura QCC" id: temperatura_1 address: 0x06136e7e1f64ff28 # Endereço específico do sensor accuracy_decimals: 1 # Precisão do sensor em casas decimais update_interval: 30s # Intervalo de atualização dos dados - platform: dht pin: GPIO13 # Ajuste para o pino que você está usando model: DHT22 # Substitua pelo modelo do seu sensor (DHT11, DHT22, AM2301, etc.) temperature: name: "Temperatura externa" humidity: name: "Umidade externa" update_interval: 30s # Ajuste o intervalo de atualização conforme necessário tuya_iot: id: tuya_iot_component product_id: 3zxxxxxxxxpwyu device_id: 26xxxxxxxxxxx57aruk device_secret: xxxxxxxxx32K region: us # eu, us, eus, weu, in, cn # eu: Central Europe Data Center # us: US West Data Center # eus: US East Data Center # weu: Western Europe Data Center # in: India Data Center # cn: Chinese Data Center on_event: - event_name: property/set then: - lambda: !lambda |- // Append the required switch in switch_map to respond to commands issued by Tuya. static std::map switch_map { { 1, id(light1) }, { 2, id(light2) }, { 3, id(light3) }, { 4, id(light4) }, { 5, id(light5) }, { 6, id(light6) }, { 7, id(light7) }, { 8, id(light8) }, }; bool is_target_output = false; bool output_state = false; int output_number = 0; // Modify this number 2 to match the number of switches in the above switch_map. for (int i = 1; i <= 8; i++) { String key = "output" + String(i); if (x.containsKey("data") && x["data"].containsKey(key.c_str())) { is_target_output = true; output_state = x["data"][key.c_str()]; output_number = i; break; } } if (is_target_output) { auto iterator = switch_map.find(output_number); if (iterator != switch_map.end()) { auto sw = iterator->second; if (output_state) { sw->turn_on(); } else { sw->turn_off(); } } } bool is_target_all_on = false; bool all_on_state = false; if (x.containsKey("data") && x["data"].containsKey("all_on")) { is_target_all_on = true; all_on_state = x["data"]["all_on"]; } if (is_target_all_on) { if (all_on_state) { for(const auto& pair : switch_map) { auto sw = pair.second; sw->turn_on(); } } } bool is_target_all_off = false; bool all_off_state = false; if (x.containsKey("data") && x["data"].containsKey("all_off")) { is_target_all_off = true; all_off_state = x["data"]["all_off"]; } if (is_target_all_off) { if (all_off_state) { for(const auto& pair : switch_map) { auto sw = pair.second; sw->turn_off(); } } }