esphome: name: epaperframe platform: ESP32 board: nodemcu-32s on_boot: priority: -10 then: - delay: 10s - display.page.show: power # temporary for power page dev - component.update: epaper wifi: ssid: "Voltage-legacy" password: !secret voltage_legacy_psk use_address: epaperframe.home power_save_mode: high fast_connect: on # Enable fallback hotspot (captive portal) in case wifi connection fails ap: ssid: "Epaperframe Fallback Hotspot" password: !secret fallback_psk captive_portal: # Enable logging logger: # Enable Home Assistant API api: password: !secret api encryption: key: !secret apikey ota: password: !secret ota # Power key of li-ion charger output: - platform: gpio pin: number: GPIO15 inverted: true mode: output: true id: power_key # Refresh screen on button click binary_sensor: - platform: gpio pin: number: GPIO18 mode: INPUT_PULLUP inverted: True name: "Refresh screen" internal: True on_multi_click: - timing: - ON for at most 1s - OFF for at most 0.3s - ON for at most 1s - OFF for at least 0.2s then: - logger.log: level: INFO format: 'Button doubleclick, rendering next page!' - display.page.show_next: epaper - component.update: epaper - timing: - ON for at most 1s - OFF for at least 0.5s then: - logger.log: level: INFO format: 'Button click, refreshing screen!' - component.update: epaper # HA pushbutton configuration button: - platform: template name: Refresh screen id: refresh_button icon: "mdi:refresh" on_press: - logger.log: level: INFO format: 'HA Button click, refreshing screen!' - component.update: epaper - platform: template name: Next screen id: next_button icon: "mdi:skip-next" on_press: - logger.log: level: INFO format: 'HA Button click, rendering next page!' - display.page.show_next: epaper - component.update: epaper sensor: # WiFi signal strength - platform: wifi_signal name: "WiFi Signalstärke" id: wifisignal update_interval: 60s - platform: homeassistant entity_id: sensor.wohnzimmer_feinstaub_pm_2_5um id: pm25_livingroom - platform: homeassistant entity_id: sensor.wohnzimmer_temperatur id: temp_livingroom - platform: homeassistant entity_id: sensor.wohnzimmer_luftfeuchtigkeit id: humid_livingroom - platform: homeassistant entity_id: sensor.wohnzimmer_co2 id: co2_livingroom - platform: homeassistant entity_id: sensor.feinstaub_pm_2_5um id: pm25_sleepingroom - platform: homeassistant entity_id: sensor.schlafzimmer_temperatur id: temp_sleepingroom - platform: homeassistant entity_id: sensor.schlafzimmer_luftfeuchtigkeit id: humid_sleepingroom - platform: homeassistant entity_id: sensor.schlafzimmer_co2 id: co2_sleepingroom - platform: homeassistant entity_id: sensor.temperatur_aussen id: temp_outdoor - platform: homeassistant entity_id: sensor.auriol_ahfl_1_106_h id: humid_outdoor - platform: homeassistant entity_id: sensor.luftdruck id: airpressure - platform: homeassistant entity_id: sensor.serveraum_temperatur id: temp_serverroom - platform: homeassistant entity_id: sensor.line_power_total id: power_total - platform: homeassistant entity_id: sensor.serverraum_power id: power_serverroom - platform: homeassistant entity_id: sensor.schreibtisch_power id: desk_livingroom - platform: homeassistant entity_id: sensor.wohnzimmer_heimkino_power id: media_livingroom - platform: homeassistant entity_id: sensor.schlafzimmer_bett_power id: bedlight_sleepingroom - platform: homeassistant entity_id: sensor.schlafzimmer_heimkino_power id: media_sleepingroom - platform: homeassistant entity_id: sensor.radioaktive_strahlungsleistung id: radiation text_sensor: - platform: homeassistant name: "Sun Rising ESP" entity_id: sensor.sun_rising_template id: sun_rising internal: true - platform: homeassistant name: "Sun Setting ESP" entity_id: sensor.sun_setting_template id: sun_setting internal: true - platform: homeassistant entity_id: sensor.moon id: moonphase - platform: homeassistant entity_id: weather.zuhause id: weather - platform: homeassistant entity_id: sensor.schlafzimmer_co2_warnstufe id: szco2 - platform: homeassistant entity_id: sensor.schlafzimmer_feinstaub_warnstufe id: szpm - platform: homeassistant entity_id: sensor.wohnzimmer_co2_warnstufe id: wzco2 - platform: homeassistant entity_id: sensor.wohnzimmer_feinstaub_warnstufe id: wzpm graph: - id: line_power_graph sensor: power_total duration: 2h width: 235 height: 100 time: - platform: homeassistant id: homeassistant_time on_time: # Every 10 seconds - seconds: /10 then: - logger.log: level: INFO format: 'Power button press' - output.turn_on: power_key - delay: 0.5s - output.turn_off: power_key # Every 10 minutes - seconds: 0 minutes: /10 then: - logger.log: level: INFO format: 'Timer based screen refresh' - component.update: epaper # Font definitions font: - file: 'fonts/Roboto-Medium.ttf' id: roboto_med_30 size: 30 - file: 'fonts/Roboto-Regular.ttf' id: footer_font size: 15 glyphs: ['&', '@', '!', ',', '.', '"', '%', '(', ')', '+', '-', '_', ':', '°', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', ' ', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', 'Ä', 'ä', 'ö', '/', 'º', 'µ', '³', 'ß', 'Ü', 'ü', 'Ö', '0'] - file: 'fonts/Roboto-Regular.ttf' id: sensor_unit size: 20 glyphs: ['&', '@', '!', ',', '.', '"', '%', '(', ')', '+', '-', '_', ':', '°', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', ' ', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', 'Ä', 'ä', 'ö', '/', 'º', 'µ', '³', 'ß', 'Ü', 'ü', 'Ö', '0'] - file: 'fonts/Roboto-Medium.ttf' id: sub_sensor_font size: 30 glyphs: ['&', '@', '!', ',', '.', '"', '%', '(', ')', '+', '-', '_', ':', '°', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', ' ', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', 'Ä', 'ä', 'ö', '/', 'º', 'µ', '³', 'ß', 'Ü', 'ü', 'Ö', '0'] - file: 'fonts/Roboto-Bold.ttf' id: big_sensor_font size: 50 glyphs: ['&', '@', '!', ',', '.', '"', '%', '(', ')', '+', '-', '_', ':', '°', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', ' ', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', 'Ä', 'ä', 'ö', '/', 'º', 'µ', '³', 'ß', 'Ü', 'ü', 'Ö', '0'] - file: 'fonts/materialdesignicons-webfont.ttf' id: mdi_small size: 31 glyphs: [ '󰔏', # mdi-thermometer '󰖎', # mdi-water-percent '󰮬', # mdi-molecule (pm2.5) '󰟤', # mdi-co2 '󰊚', # mdi-gauge (air pressure) '󰖙', # mdi-weather-sunny '󰖛', # mdi-weather-sunset-down '󰖜', # mdi-weather-sunset-up '󱐋', # mdi-lightning-bolt '󰴾', # mdi-transmission-tower '󰚥', # mdi-power-plug '󱈹', # mdi-desk '󰔂', # mdi-television '󰐼' # mdi-radiation ] - file: 'fonts/materialdesignicons-webfont.ttf' id: mdi_weather size: 80 glyphs: [ '󰽡', # mdi-moon-first-quarter '󰽢', # mdi-moon-full '󰽣', # mdi-moon-last-quarter '󰽤', # mdi-moon-new '󰽥', # mdi-moon-waning-crescent '󰽦', # mdi-moon-waning-gibbous '󰽧', # mdi-moon-waxing-crescent '󰽨', # mdi-moon-waxing-gibbous '󰖔', # mdi-weather-night '󰖐', # mdi-weather-cloudy '󰖑', # mdi-weather-fog '󰖒', # mdi-weather-hail '󰖓', # mdi-weather-lightning '󰙾', # mdi-weather-lightning-rainy '󰖕', # mdi-weather-partly-cloudy '󰖖', # mdi-weather-pouring '󰖗', # mdi-weather-rainy '󰖘', # mdi-weather-snowy '󰙿', # mdi-weather-snowy-rainy '󰖙', # mdi-weather-sunny '󰖝', # mdi-weather-windy '󰖞', # mdi-weather-windy-variant '󰳥' # mdi-weather-exceptional ] - file: 'fonts/materialdesignicons-webfont.ttf' id: mdi_wifi size: 20 glyphs: [ # WiFi '󰤫', # mdi-wifi-strength-alert-outline '󰤟', # mdi-wifi-strength-1 '󰤢', # mdi-wifi-strength-2 '󰤥', # mdi-wifi-strength-3 '󰤨' # mdi-wifi-strength-4 ] - file: 'fonts/materialdesignicons-webfont.ttf' id: mdi_med size: 60 glyphs: [ '󰀦' # mdi-alert ] image: - file: "epaperframe/C1024_logo_flat_bw.png" id: c1024_logo type: binary resize: 77x40 spi: clk_pin: 23 mosi_pin: 22 display: - platform: waveshare_epaper id: epaper cs_pin: 19 dc_pin: 21 busy_pin: 16 reset_pin: 17 model: 7.50in # full_update_every: 30 # not supported on this display update_interval: never pages: - id: environment lambda: |- float outdoor_temp = id(temp_outdoor).state; int outdoor_humid = int(id(humid_outdoor).state); float air_pressure = id(airpressure).state; float outdoor_radiation = id(radiation).state; float livingroom_temp = id(temp_livingroom).state; int livingroom_humid = int(id(humid_livingroom).state); int livingroom_pm25 = int(id(pm25_livingroom).state); float livingroom_co2 = id(co2_livingroom).state; float sleepingroom_temp = id(temp_sleepingroom).state; int sleepingroom_humid = int(id(humid_sleepingroom).state); int sleepingroom_pm25 = int(id(pm25_sleepingroom).state); float sleepingroom_co2 = id(co2_sleepingroom).state; float serverroom_temp = id(temp_serverroom).state; int offsetX = 0; int offsetY = 0; /* OUTSIDE */ it.print(10, 10, id(sensor_unit), "Umwelt"); /* Draw the outline of a rectangle with the top left at [86,21], a width of 297 and a height of 3 */ it.filled_rectangle(86, 21, 297, 3); /* C1024 logo */ it.image(10 , 37, id(c1024_logo)); it.print(10, 130, id(mdi_small), TextAlign::BASELINE_LEFT, "󰊚"); // air pressure icon it.print(375, 80, id(mdi_small), TextAlign::BASELINE_CENTER, "󰔏"); // thermometer icon it.print(375, 130, id(mdi_small), TextAlign::BASELINE_CENTER, "󰖎"); // water percent icon it.print(95, 80, id(mdi_small), TextAlign::BASELINE_LEFT, "󰐼"); // radioactive icon if(outdoor_radiation > 0 && outdoor_radiation < 100) { it.printf(200, 80, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.2f", outdoor_radiation); it.print(205, 80, id(sensor_unit), TextAlign::BASELINE_LEFT, "µS/h"); } else { it.print(200, 80, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - "); it.print(205, 80, id(sensor_unit), TextAlign::BASELINE_LEFT, "µS/h"); } if(outdoor_temp > -100 && outdoor_temp < 100) { it.printf(357, 80, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1fºC", outdoor_temp); } else { it.print(357, 80, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - ºC"); } if(outdoor_humid >=0 && outdoor_humid <= 100) { it.printf(357, 130, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%3d%%", outdoor_humid); } else { it.print(357, 130, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - %"); } if(air_pressure < 1200 && air_pressure >=800) { it.printf(220, 130, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%4.1f", air_pressure); it.print(225, 130, id(sensor_unit), TextAlign::BASELINE_LEFT, "hPa"); } else { it.print(220, 130, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "- "); it.print(225, 130, id(sensor_unit), TextAlign::BASELINE_LEFT, "hPa"); } /* Livingroom */ offsetY = 127; it.print(10, 10 + offsetY, id(sensor_unit), "Wohnzimmer"); it.filled_rectangle(136, 21 + offsetY, 247, 3); it.print(10, 125 + offsetY, id(mdi_small), TextAlign::BASELINE_LEFT, "󰮬"); // PM2.5 it.print(375, 75 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰔏"); // thermometer it.print(375, 125 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰖎"); // water percent it.print(10, 75 + offsetY, id(mdi_small), TextAlign::BASELINE_LEFT, "󰟤"); // CO2 if(livingroom_temp > -100 && livingroom_temp < 100) { it.printf(357, 75 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1fºC", livingroom_temp); } else { it.print(357, 75 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - ºC"); } if(livingroom_humid >=0 && livingroom_humid <= 100) { it.printf(357, 125 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%3d%%", livingroom_humid); } else { it.print(357, 125 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - %"); } if(livingroom_co2 >=380 && livingroom_co2 <= 20000) { it.printf(170, 75 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%4.0f", livingroom_co2); it.print(175, 50 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "ppm"); } else { it.print(170, 75 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "- "); it.print(175, 50 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "ppm³"); } if(livingroom_pm25 < 255 && livingroom_pm25 >=0) { it.printf(220, 125 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%3d", livingroom_pm25); it.print(225, 125 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "µg/m³"); } else { it.print(220, 125 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "- "); it.print(225, 125 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "µg/m³"); } /* Sleepingroom */ offsetY = 247; it.print(10, 10 + offsetY, id(sensor_unit), "Schlafzimmer"); it.filled_rectangle(144, 21 + offsetY, 239, 3); it.print(10, 124 + offsetY, id(mdi_small), TextAlign::BASELINE_LEFT, "󰮬"); // PM2.5 it.print(375, 75 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰔏"); // thermometer it.print(375, 124 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰖎"); // water percent it.print(10, 75 + offsetY, id(mdi_small), TextAlign::BASELINE_LEFT, "󰟤"); // CO2 if(sleepingroom_temp > -100 && sleepingroom_temp < 100) { it.printf(357, 75 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1fºC", sleepingroom_temp); } else { it.print(357, 75 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - ºC"); } if(sleepingroom_humid >=0 && sleepingroom_humid <= 100) { it.printf(357, 125 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%3d%%", sleepingroom_humid); } else { it.print(357, 125 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - %"); } if(sleepingroom_co2 >=380 && sleepingroom_co2 <= 20000) { it.printf(170, 75 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%4.0f", sleepingroom_co2); it.print(175, 50 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "ppm"); } else { it.print(170, 75 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "- "); it.print(175, 50 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "ppm³"); } if(sleepingroom_pm25 < 255 && sleepingroom_pm25 >=0) { it.printf(220, 125 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%3d", sleepingroom_pm25); it.print(225, 125 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "µg/m³"); } else { it.print(220, 125 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "- "); it.print(225, 125 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "µg/m³"); } /* Weather */ offsetX = 390; it.print(10 + offsetX, 10, id(sensor_unit), "Wetter"); it.filled_rectangle(80 + offsetX, 21, 155, 3); /* Current weather */ if(id(weather).has_state()) { int x = 227 + offsetX; int y = 116; if (id(weather).state == "clear-night") { // clear night it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖔"); ESP_LOGI("Weather", "clear night"); } else if (id(weather).state == "cloudy") { // cloudy it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖐"); ESP_LOGI("Weather", "cloudy"); } else if (id(weather).state == "fog") { // fog it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖑"); ESP_LOGI("Weather", "fog"); } else if (id(weather).state == "hail") { // hail it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖒"); ESP_LOGI("Weather", "hail"); } else if (id(weather).state == "lightning") { // lightning it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖓"); ESP_LOGI("Weather", "lightning"); } else if (id(weather).state == "lightning-rainy") { // lightning-rainy it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰙾"); ESP_LOGI("Weather", "lightning-rainy"); } else if (id(weather).state == "partlycloudy") { // partly cloudy it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖕"); ESP_LOGI("Weather", "partlycloudy"); } else if (id(weather).state == "pouring") { // pouring it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖖"); ESP_LOGI("Weather", "pouring"); } else if (id(weather).state == "rainy") { // rainy it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖗"); ESP_LOGI("Weather", "rainy"); } else if (id(weather).state == "snowy") { // snowy it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖘"); ESP_LOGI("Weather", "snowy"); } else if (id(weather).state == "snowy-rainy") { // snowy-rainy it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰙿"); ESP_LOGI("Weather", "snowy-rainy"); } else if (id(weather).state == "sunny") { // sunny it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖙"); ESP_LOGI("Weather", "sunny"); } else if (id(weather).state == "windy") { // windy it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖝"); ESP_LOGI("Weather", "windy"); } else if (id(weather).state == "windy-variant") { // windy variant it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰖞"); ESP_LOGI("Weather", "windy variant"); } else if (id(weather).state == "exceptional") { // exceptional it.print(x, y, id(mdi_weather), TextAlign::BASELINE_RIGHT, "󰳥"); ESP_LOGI("Weather", "exceptional"); } else { // N/A it.print(x, y, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "-"); ESP_LOGE("Weather", "No data"); } } /* Moon phase display */ if(id(moonphase).has_state()) { int x = 10 + offsetX; int y = 116; if (id(moonphase).state == "new_moon") { // new moon it.print(x, y, id(mdi_weather), TextAlign::BASELINE_LEFT, "󰽤"); ESP_LOGI("Moonphase", "new moon"); } else if (id(moonphase).state == "waxing_crescent") { // waxing crescent it.print(x, y, id(mdi_weather), TextAlign::BASELINE_LEFT, "󰽧"); ESP_LOGI("Moonphase", "waxing crescent"); } else if (id(moonphase).state == "first_quarter") { // first_quarter it.print(x, y, id(mdi_weather), TextAlign::BASELINE_LEFT, "󰽡"); ESP_LOGI("Moonphase", "first quarter"); } else if (id(moonphase).state == "waxing_gibbous") { // waxing gibbous it.print(x, y, id(mdi_weather), TextAlign::BASELINE_LEFT, "󰽨"); ESP_LOGI("Moonphase", "waxing gibbous"); } else if (id(moonphase).state == "full_moon") { // full moon it.print(x, y, id(mdi_weather), TextAlign::BASELINE_LEFT, "󰽢"); ESP_LOGI("Moonphase", "full moon"); } else if (id(moonphase).state == "waning_gibbous") { // waning gibbous it.print(x, y, id(mdi_weather), TextAlign::BASELINE_LEFT, "󰽦"); ESP_LOGI("Moonphase", "waning gibbous"); } else if (id(moonphase).state == "last_quarter") { // last quarter it.print(x, y, id(mdi_weather), TextAlign::BASELINE_LEFT, "󰽣"); ESP_LOGI("Moonphase", "last quarter"); } else if (id(moonphase).state == "waning_crescent") { // waning crescent it.print(x, y, id(mdi_weather), TextAlign::BASELINE_LEFT, "󰽥"); ESP_LOGI("Moonphase", "waning crescent"); } else { // N/A it.print(x, y, id(big_sensor_font), TextAlign::BASELINE_LEFT, "-"); ESP_LOGE("Moonphase", "No data"); } } /* Warnings */ if(id(szco2).state == "rot" || id(szpm).state == "rot" || id(wzco2).state == "rot" || id(wzpm).state == "rot") { it.print(10 + offsetX, 200, id(mdi_med), TextAlign::BASELINE_LEFT, "󰀦"); it.print(80 + offsetX, 200, id(big_sensor_font), TextAlign::BASELINE_LEFT, "Lüften!"); } it.print(10 + offsetX, 250, id(mdi_small), TextAlign::BASELINE_LEFT, "󰖜"); // sun-up it.printf(50 + offsetX, 250, id(sensor_unit), TextAlign::BASELINE_LEFT, "%s", id(sun_rising).state.c_str()); it.print(135 + offsetX, 250, id(mdi_small), TextAlign::BASELINE_LEFT, "󰖛"); // sun-down it.printf(175 + offsetX, 250, id(sensor_unit), TextAlign::BASELINE_LEFT, "%s", id(sun_setting).state.c_str()); /* Serverroom */ offsetY = 247; it.print(10 + offsetX, 10 + offsetY, id(sensor_unit), "Serverraum"); it.filled_rectangle(125 + offsetX, 21 + offsetY, 110, 3); it.print(227 + offsetX, 110 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰔏"); // thermometer if(serverroom_temp > -100 && serverroom_temp < 100) { it.printf(207 + offsetX, 110 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "ºC"); it.printf(170 + offsetX, 110 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1f", serverroom_temp); } else { it.print(207 + offsetX, 110 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - ºC"); } /* FOOTER */ it.strftime(614, 380, id(footer_font), TextAlign::BASELINE_RIGHT , "Aktualisiert um %d.%m.%Y %H:%M", id(homeassistant_time).now()); /* WiFi Signal Strenght */ if(id(wifisignal).has_state()) { int x = 630; int y = 384; if (id(wifisignal).state >= -50) { // Excellent it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤨"); ESP_LOGI("WiFi", "Excellent"); } else if (id(wifisignal).state >= -60) { // Good it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤥"); ESP_LOGI("WiFi", "Good"); } else if (id(wifisignal).state >= -75) { // Fair it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤢"); ESP_LOGI("WiFi", "Fair"); } else if (id(wifisignal).state >= -100) { // Weak it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤟"); ESP_LOGI("WiFi", "Weak"); } else { // Unlikely working signal it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤫"); ESP_LOGI("WiFi", "Unlikely"); } } - id: power lambda: |- float total_power = id(power_total).state; float serverroom_power = id(power_serverroom).state; float livingroom_desk = id(desk_livingroom).state; float livingroom_media = id(media_livingroom).state; float sleepingroom = id(media_sleepingroom).state + id(bedlight_sleepingroom).state; int offsetX = 0; int offsetY = 0; /* BASEMENT */ it.print(10, 10, id(sensor_unit), "Keller"); /* Draw the outline of a rectangle with the top left at [86,21], a width of 297 and a height of 3 */ it.filled_rectangle(76, 21, 307, 3); /* C1024 logo */ it.image(10 , 37, id(c1024_logo)); /* Livingroom */ offsetY = 127; it.print(10, 10 + offsetY, id(sensor_unit), "Wohnzimmer"); it.filled_rectangle(136, 21 + offsetY, 247, 3); it.print(375, 75 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰚥"); // power-plug it.print(375, 115 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰚥"); // power-plug it.print(20, 75 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_LEFT, "Schreibtisch"); if(livingroom_desk >= 0) { it.printf(357, 75 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1f W", livingroom_desk); } else { it.print(357, 75 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - W"); } it.print(20, 115 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_LEFT, "Heimkino"); if(livingroom_media >= 0) { it.printf(357, 115 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1f W", livingroom_media); } else { it.print(357, 115 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - W"); } /* Sleepingroom */ offsetY = 247; it.print(10, 10 + offsetY, id(sensor_unit), "Schlafzimmer"); it.filled_rectangle(144, 21 + offsetY, 239, 3); it.print(375, 115 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰚥"); // power-plug // it.print(20, 115 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_LEFT, "Heimkino"); if(sleepingroom >= 0) { it.printf(357, 115 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1f W", sleepingroom); } else { it.print(357, 115 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - W"); } /* LINEPOWER */ offsetX = 390; offsetY = 65; it.print(10 + offsetX, 10, id(sensor_unit), "Gesamt"); it.filled_rectangle(90 + offsetX, 21, 155, 3); it.print(227 + offsetX, 20 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰴾"); // transmission-tower if(total_power >= 0) { it.printf(207 + offsetX, 20 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "W"); it.printf(170 + offsetX, 20 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1f", total_power); } else { it.print(207 + offsetX, 20 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - W"); } it.graph(10 + offsetX, 30 + offsetY, id(line_power_graph)); /* Serverroom */ offsetY = 247; it.print(10 + offsetX, 10 + offsetY, id(sensor_unit), "Serverraum"); it.filled_rectangle(125 + offsetX, 21 + offsetY, 110, 3); it.print(227 + offsetX, 110 + offsetY, id(mdi_small), TextAlign::BASELINE_CENTER, "󰚥"); // power-plug if(serverroom_power >= 0) { it.printf(207 + offsetX, 110 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "W"); it.printf(170 + offsetX, 110 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1f", serverroom_power); } else { it.print(207 + offsetX, 110 + offsetY, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - W"); } /* FOOTER */ it.strftime(614, 380, id(footer_font), TextAlign::BASELINE_RIGHT , "Aktualisiert um %d.%m.%Y %H:%M", id(homeassistant_time).now()); /* WiFi Signal Strenght */ if(id(wifisignal).has_state()) { int x = 630; int y = 384; if (id(wifisignal).state >= -50) { // Excellent it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤨"); ESP_LOGI("WiFi", "Excellent"); } else if (id(wifisignal).state >= -60) { // Good it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤥"); ESP_LOGI("WiFi", "Good"); } else if (id(wifisignal).state >= -75) { // Fair it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤢"); ESP_LOGI("WiFi", "Fair"); } else if (id(wifisignal).state >= -100) { // Weak it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤟"); ESP_LOGI("WiFi", "Weak"); } else { // Unlikely working signal it.print(x, y, id(mdi_wifi), TextAlign::BASELINE_CENTER, "󰤫"); ESP_LOGI("WiFi", "Unlikely"); } }