# display #250x122 pixels (250x128) font: - file: 'fonts/Vera.ttf' id: font1 size: 10 glyphs: '!"%()[]+=,-_.:°0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz/²³µΩ' - file: 'fonts/Vera.ttf' id: font2 size: 20 # - file: 'fonts/VeraMono.ttf' # id: font3 # size: 10 - file: 'fonts/materialdesignicons-webfont.ttf' id: icon_font size: 48 glyphs: - "\U000F0590" # weather-cloudy - "\U000F0F2F" # weather-cloudy-alert - "\U000F0E6E" # weather-cloudy-arrow-right - "\U000F0591" # weather-fog - "\U000F0592" # weather-hail - "\U000F0F30" # weather-hazy - "\U000F0898" # weather-hurricane - "\U000F0593" # weather-lightning - "\U000F067E" # weather-lightning-rainy - "\U000F0594" # weather-night - "\U000F0F31" # weather-night-partly-cloudy - "\U000F0595" # weather-partly-cloudy - "\U000F0F32" # weather-partly-lightning - "\U000F0F33" # weather-partly-rainy - "\U000F0F34" # weather-partly-snowy - "\U000F0F35" # weather-partly-snowy-rainy - "\U000F0596" # weather-pouring - "\U000F0597" # weather-rainy - "\U000F0598" # weather-snowy - "\U000F0F36" # weather-snowy-heavy - "\U000F067F" # weather-snowy-rainy - "\U000F0599" # weather-sunny - "\U000F0F37" # weather-sunny-alert - "\U000F14E4" # weather-sunny-off - "\U000F059A" # weather-sunset - "\U000F059B" # weather-sunset-down - "\U000F059C" # weather-sunset-up - "\U000F0F38" # weather-tornado - "\U000F059D" # weather-windy - "\U000F059E" # weather-windy-variant display: - platform: waveshare_epaper cs_pin: 14 dc_pin: 27 reset_pin: 33 model: 2.13in-ttgo rotation: 90 update_interval: 60s full_update_every: 1 id: my_display pages: - id: page1 lambda: |- it.print(10, 50, id(font2), "esp32weatherstation2"); - id: page2 lambda: |- // Title it.filled_rectangle(0,0,250,20, COLOR_ON); it.print(5, 6, id(font1), COLOR_OFF, "${node_name}"); it.strftime(150, 6, id(font1), COLOR_OFF, "%Y-%m-%d %H:%M", id(sntp_time).now()); // Weather icon if (id(weather_icon).has_state()) { it.printf(0, 18, id(icon_font), weather_icon_map[id(weather_icon).state.c_str()].c_str()); } it.printf(55, 25, id(font1), "T: %.1f°C", id(temperature_outside).state); it.printf(55, 35, id(font1), "H: %.1f%%", id(humidity_outside).state); it.printf(55, 45, id(font1), "%s", id(weather_icon).state.c_str()); // own measurements it.filled_rectangle(0, 65, 59, 33, COLOR_ON); it.printf(2, 65+4, id(font2), COLOR_OFF, "%.1f", id(temperature).state); it.printf(45, 65+4, id(font1), COLOR_OFF, "°C"); it.filled_rectangle(60, 65, 59, 33, COLOR_ON); it.printf(62, 65+4, id(font2), COLOR_OFF, "%.1f", id(humidity).state); it.printf(105, 65+4, id(font1), COLOR_OFF, "%%"); it.filled_rectangle(120, 65, 59, 33, COLOR_ON); it.printf(122, 65+4, id(font2), COLOR_OFF, "%.0f", id(pressure_sealevel).state); it.printf(178, 87, id(font1), COLOR_OFF, TextAlign::TOP_RIGHT, "hPa"); // humidity human readable if (id(humidity).state < 30) { it.printf(116, 87, id(font1), COLOR_OFF, TextAlign::TOP_RIGHT, "low"); } else if (id(humidity).state < 60) { it.printf(116, 87, id(font1), COLOR_OFF, TextAlign::TOP_RIGHT, "comfort"); } else { it.printf(116, 87, id(font1), COLOR_OFF, TextAlign::TOP_RIGHT, "high"); } // graphs it.graph(0, 98, id(temperature_graph)); it.graph(60, 98, id(humidity_graph)); it.graph(120, 98, id(pressure_graph)); // voc it.circle(130, 42, 20); it.line(115, 42, 145, 42); it.filled_rectangle(130-10, 21, 20, 10, COLOR_OFF); it.print(130, 26, id(font1), TextAlign::CENTER, "WZ"); if (id(iaq_accuracy_wz).state == 3) { it.printf(130, 41, id(font1), "%.0f ", id(iaq_wz).state); if (id(iaq_wz).state < 50) { it.printf(130, 43, id(font1), TextAlign::TOP_CENTER, "excellent"); } else if (id(iaq_wz).state < 100) { it.printf(130, 43, id(font1), TextAlign::TOP_CENTER, "fine"); } else if (id(iaq_wz).state < 150) { it.printf(130, 43, id(font1), TextAlign::TOP_CENTER, "moderate"); } else if (id(iaq_wz).state < 200) { it.printf(130, 43, id(font1), TextAlign::TOP_CENTER, "poor"); } else if (id(iaq_wz).state < 300) { it.printf(130, 43, id(font1), TextAlign::TOP_CENTER, "very poor"); } else if (id(iaq_wz).state < 500) { it.printf(130, 43, id(font1), TextAlign::TOP_CENTER, "severe"); } } else { it.printf(130, 41, id(font1), TextAlign::BASELINE_CENTER, "%.0f \u03A9", id(voc_wz).state); it.printf(130, 43, id(font1), TextAlign::TOP_CENTER, "VOC"); } // voc2 it.circle(175, 42, 20); it.line(160, 42, 190, 42); it.filled_rectangle(175-10, 21, 20, 10, COLOR_OFF); it.print(175, 26, id(font1), TextAlign::CENTER, "SZ"); if (id(iaq_accuracy_sz).state == 3) { it.printf(175, 41, id(font1), "%.0f ", id(iaq_sz).state); if (id(iaq_sz).state < 50) { it.printf(175, 43, id(font1), TextAlign::TOP_CENTER, "excellent"); } else if (id(iaq_sz).state < 100) { it.printf(175, 43, id(font1), TextAlign::TOP_CENTER, "fine"); } else if (id(iaq_sz).state < 150) { it.printf(175, 43, id(font1), TextAlign::TOP_CENTER, "moderate"); } else if (id(iaq_sz).state < 200) { it.printf(175, 43, id(font1), TextAlign::TOP_CENTER, "poor"); } else if (id(iaq_sz).state < 300) { it.printf(175, 43, id(font1), TextAlign::TOP_CENTER, "very poor"); } else if (id(iaq_sz).state < 500) { it.printf(175, 43, id(font1), TextAlign::TOP_CENTER, "severe"); } } else { it.printf(175, 41, id(font1), TextAlign::BASELINE_CENTER, "%.0f \u03A9", id(voc_sz).state); it.printf(175, 43, id(font1), TextAlign::TOP_CENTER, "VOC"); } // Particulate Matter Sensor it.circle(220, 42, 20); it.line(205, 42, 235, 42); it.filled_rectangle(220-10, 21, 20, 10, COLOR_OFF); it.print(220, 26, id(font1), TextAlign::CENTER, "PM"); it.printf(220, 41, id(font1), TextAlign::BASELINE_CENTER, "%.0f", id(pm2_outdoor).state); it.printf(220, 43, id(font1), TextAlign::TOP_CENTER, "%.0f", id(pm10_outdoor).state); // other values it.print(184, 65, id(font1), "Lux:"); it.printf(248, 65, id(font1), TextAlign::TOP_RIGHT, "%.0f lx", id(lux_outdoor).state); it.print(184, 75, id(font1), "UVI:"); it.printf(248, 75, id(font1), TextAlign::TOP_RIGHT, "%.0f", id(uvi_outdoor).state); it.print(184, 85, id(font1), "UVA:"); it.printf(248, 85, id(font1), TextAlign::TOP_RIGHT, "%.0f", id(uva_outdoor).state); it.print(184, 95, id(font1), "UVB:"); it.printf(248, 95, id(font1), TextAlign::TOP_RIGHT, "%.0f", id(uvb_outdoor).state); // Springer it.print(184, 105, id(font1), "Springer"); if (id(battery_springer).state >=0 && id(battery_springer).state <= 100) { it.printf(248, 105, id(font1), TextAlign::TOP_RIGHT, "%.0f%%", id(battery_springer).state); } it.printf(184,115, id(font1), "%.1f°C, %.1f%%H, %.0fhPa", id(temperature_springer).state, id(humidity_springer).state, id(pressure_springer).state); interval: - interval: 30s then: - if: condition: - display.is_displaying_page: page1 then: - display.page.show: page2 - component.update: my_display graph: # Show bare-minimum auto-ranged graph - id: temperature_graph duration: 1h width: 59 height: 31 traces: - sensor: temperature line_type: SOLID line_thickness: 2 # - sensor: temperature_outside # line_type: DASHED # line_thickness: 1 - id: humidity_graph sensor: humidity duration: 1h width: 59 height: 31 - id: pressure_graph sensor: pressure duration: 1h width: 59 height: 31 # Example configuration entry sensor: - platform: homeassistant name: "Temperature Outdoor" internal: true entity_id: sensor.sensor_outdoor_temperature id: temperature_outside - platform: homeassistant name: "Humidity Outdoor" internal: true entity_id: sensor.sensor_outdoor_humidity id: humidity_outside - platform: homeassistant name: "WZ VOC" internal: true entity_id: sensor.sensor_wz_gas_resistance id: voc_wz - platform: homeassistant name: "SZ VOC" internal: true entity_id: sensor.sensor_sz_gas_resistance id: voc_sz - platform: homeassistant name: "WZ IAQ" internal: true entity_id: sensor.sensor_wz_iaq id: iaq_wz - platform: homeassistant name: "SZ IAQ" internal: true entity_id: sensor.sensor_sz_iaq id: iaq_sz - platform: homeassistant name: "WZ IAQ Accuracy" internal: true entity_id: sensor.sensor_wz_iaq_accuracy id: iaq_accuracy_wz - platform: homeassistant name: "SZ IAQ Accuracy" internal: true entity_id: sensor.sensor_sz_iaq_accuracy id: iaq_accuracy_sz - platform: homeassistant name: "PM2.5 Outdoor" internal: true entity_id: sensor.sensor_outdoor_particulate_matter_2_5um_concentration id: pm2_outdoor - platform: homeassistant name: "PM10 Outdoor" internal: true entity_id: sensor.sensor_outdoor_particulate_matter_10_0um_concentration id: pm10_outdoor - platform: homeassistant name: "UVI Outdoor" internal: true entity_id: sensor.sensor_outdoor_uvi id: uvi_outdoor - platform: homeassistant name: "UVA Outdoor" internal: true entity_id: sensor.sensor_outdoor_uva id: uva_outdoor - platform: homeassistant name: "UVB Outdoor" internal: true entity_id: sensor.sensor_outdoor_uvb id: uvb_outdoor - platform: homeassistant name: "Illuminance Outdoor" internal: true entity_id: sensor.sensor_outdoor_illuminance id: lux_outdoor - platform: homeassistant name: "Temperature Springer" internal: true entity_id: sensor.sensor_springer_temperature id: temperature_springer - platform: homeassistant name: "Humidity Springer" internal: true entity_id: sensor.sensor_springer_humidity id: humidity_springer - platform: homeassistant name: "Pressure Springer" internal: true entity_id: sensor.sensor_springer_equivalent_sea_level_pressure id: pressure_springer - platform: homeassistant name: "Battery Springer" internal: true entity_id: sensor.sensor_springer_battery_level id: battery_springer text_sensor: - platform: homeassistant id: weather_icon internal: true entity_id: weather.openweathermap