substitutions: # Default name name: "athom-garage-door" # Default friendly name friendly_name: "Athom Garage Door" # Allows ESP device to be automatically linked to an 'Area' in Home Assistant. Typically used for areas such as 'Lounge Room', 'Kitchen' etc room: "" # Description as appears in ESPHome & top of webserver page device_description: "athom esp32-c3 garage door opener" # Project Name project_name: "China Athom Technology.Garage Door Opener" # Project version denotes the release version of the yaml file, allowing checking of deployed vs latest version project_version: "v3.1.2" # Status inverted status_inverted: "true" # Define a domain for this device to use. i.e. iot.home.lan (so device will appear as athom-smart-plug-v2.iot.home.lan in DNS/DHCP logs) dns_domain: ".local" # Set timezone of the smart plug. Useful if the plug is in a location different to the HA server. Can be entered in unix Country/Area format (i.e. "Australia/Sydney") timezone: "" # Set the duration between the sntp service polling ntp.org servers for an update sntp_update_interval: 6h # Network time servers for your region, enter from lowest to highest priority. To use local servers update as per zones or countries at: https://www.ntppool.org/zone/@ sntp_server_1: "0.pool.ntp.org" sntp_server_2: "1.pool.ntp.org" sntp_server_3: "2.pool.ntp.org" # Enables faster network connections, with last connected SSID being connected to and no full scan for SSID being undertaken wifi_fast_connect: "false" # Define logging level: NONE, ERROR, WARN, INFO, DEBUG (Default), VERBOSE, VERY_VERBOSE log_level: "DEBUG" # Enable or disable the use of IPv6 networking on the device ipv6_enable: "false" esphome: name: "${name}" friendly_name: "${friendly_name}" comment: "${device_description}" area: "${room}" name_add_mac_suffix: true min_version: 2025.8.0 project: name: "${project_name}" version: "${project_version}" platformio_options: board_build.mcu: esp32c3 board_build.variant: esp32c3 board_build.flash_mode: dio esp32: board: esp32-c3-devkitm-1 flash_size: 4MB variant: ESP32C3 framework: type: esp-idf version: recommended sdkconfig_options: # @grigi found in testing that these options resulted in better responsiveness. # BLE 4.2 is supported by ALL ESP32 boards that have bluetooth, the original and derivatives. CONFIG_BT_BLE_42_FEATURES_SUPPORTED: y # Also enable this on any derivative boards (S2, C3 etc) but not the original ESP32. CONFIG_BT_BLE_50_FEATURES_SUPPORTED: y # Extend the watchdog timeout, so the device reboots if the device appears locked up for over 10 seconds. CONFIG_ESP_TASK_WDT_TIMEOUT_S: "10" api: # reboot_timeout: 0s # Only enable BLE tracking when wifi is up and api is connected # Gives single-core ESP32-C3 devices time to manage wifi and authenticate with api on_client_connected: - esp32_ble_tracker.start_scan: continuous: true # Disable BLE tracking when there are no api connections live on_client_disconnected: if: condition: not: api.connected: then: - esp32_ble_tracker.stop_scan: ota: - platform: esphome logger: baud_rate: 0 # 0 Enables logging, but disables serial-port logging to free CPU and memory level: ${log_level} hardware_uart: UART0 mdns: disabled: false web_server: port: 80 network: enable_ipv6: ${ipv6_enable} wifi: ap: {} fast_connect: "${wifi_fast_connect}" domain: "${dns_domain}" captive_portal: esp32_improv: authorizer: none esp32_ble_tracker: scan_parameters: # Don't auto start BLE scanning, we control it in the `api` block's automation. continuous: false active: true # send scan-request packets to gather more info, like device name for some devices. interval: 320ms # default 320ms - how long to spend on each advert channel window: 300ms # default 30ms - how long to actually "listen" in each interval. Reduce this if device is unstable. # If the device cannot keep up or becomes unstable, reduce the "window" setting. This may be # required if your device is controlling other sensors or doing PWM for lights etc. bluetooth_proxy: active: true dashboard_import: package_import_url: github://athom-tech/esp32-configs/athom-garage-door.yaml sensor: - platform: uptime name: "Uptime Sensor" id: uptime_sensor type: timestamp entity_category: "diagnostic" - platform: wifi_signal name: "WiFi Signal dB" id: wifi_signal_db update_interval: 60s entity_category: "diagnostic" - platform: copy source_id: wifi_signal_db name: "WiFi Signal Percent" filters: - lambda: return min(max(2 * (x + 100.0), 0.0), 100.0); unit_of_measurement: "Signal %" entity_category: "diagnostic" device_class: "" binary_sensor: - platform: status name: "Status" - platform: gpio name: "Contact" disabled_by_default: true device_class: garage_door id: contact pin: number: GPIO18 inverted: "${status_inverted}" filters: - delayed_on: 20ms - platform: gpio pin: number: GPIO3 mode: INPUT_PULLUP inverted: true name: "Button" disabled_by_default: true on_multi_click: - timing: - ON for at most 1s - OFF for at least 0.2s then: - switch.turn_on: relay - timing: - ON for at least 4s then: - button.press: Reset button: - platform: restart name: "Restart" entity_category: config - platform: factory_reset name: "Factory Reset" id: Reset entity_category: config - platform: safe_mode name: "Safe Mode" internal: false entity_category: config switch: - platform: gpio pin: GPIO7 name: "Relay" id: relay disabled_by_default: true on_turn_on: - light.turn_on: wifi_led - delay: 1s - switch.turn_off: relay - light.turn_off: wifi_led light: - platform: status_led name: "Status LED" id: wifi_led disabled_by_default: true pin: GPIO4 cover: - platform: template device_class: garage name: "Garage Door" lambda: "return id(contact).state ? COVER_OPEN : COVER_CLOSED;" open_action: then: - if: condition: lambda: 'return !id(contact).state;' then: - switch.turn_on: relay stop_action: - switch.turn_on: relay close_action: then: - if: condition: lambda: 'return id(contact).state;' then: - switch.turn_on: relay text_sensor: - platform: wifi_info ip_address: name: "IP Address" entity_category: diagnostic ssid: name: "Connected SSID" entity_category: diagnostic mac_address: name: "Mac Address" entity_category: diagnostic - platform: template name: 'Last Restart' id: device_last_restart icon: mdi:clock entity_category: diagnostic device_class: timestamp time: - platform: sntp id: sntp_time # Define the timezone of the device timezone: "${timezone}" # Change sync interval from default 5min to 6 hours (or as set in substitutions) update_interval: ${sntp_update_interval} # Set specific sntp servers to use servers: - "${sntp_server_1}" - "${sntp_server_2}" - "${sntp_server_3}" # Publish the time the device was last restarted on_time_sync: then: # Update last restart time, but only once. - if: condition: lambda: 'return id(device_last_restart).state == "";' then: - text_sensor.template.publish: id: device_last_restart state: !lambda 'return id(sntp_time).now().strftime("%a %d %b %Y - %I:%M:%S %p");'