IKEA-LED-Clock/unhb-clock.yaml

esphome:
  name: unhb-uhr

esp8266:
  board: d1_mini

# Enable logging
logger:

# Enable Home Assistant API
api:
  encryption:
    key: !secret clock01_hass_api

ota:
  password: !secret clock01_ota


wifi:
  ssid: !secret wifi_ssid
  password: !secret wifi_password

  manual_ip:
    static_ip: 192.168.10.192
    gateway: 192.168.10.1
    subnet: 255.255.255.0
    dns1: 192.168.10.1
  # Enable fallback hotspot (captive portal) in case wifi connection fails
  ap:
    ssid: "Unhb-Uhr Fallback Hotspot"
    password: !secret wifi_fallback_passwd

captive_portal:

web_server:
  port: 80

mqtt:
  broker: mqtt.int.weltendiskus.de
  topic_prefix: uhr/01

time:
  - platform: sntp
    id: sntp_time

light:
  - platform: neopixelbus
    type: GRBW
    variant: SK6812
    pin: GPIO2
    num_leds: 19
    name: "NeoPixel Light"
    gamma_correct: 1.7
    method:
      type: esp8266_uart
      bus: 1
      async: false
    effects:
      - addressable_scan:
      - addressable_color_wipe:
      - addressable_rainbow:
      - addressable_fireworks:
      - addressable_lambda:
          name: "Uhr-Sek-Zufall"
          update_interval: 1000ms
          lambda: |-
            // it.size() - Number of LEDs
            // it[num] - Access the LED at index num.
            // Set the LED at num to the given r, g, b values
            // it[num] = Color(r, g, b);
            // Get the color at index num (Color instance)
            // it[num].get();

            // Example: Simple color wipe
            for (int i = it.size()-1 ; i >= 0; i--) {
              it[i] = Color::random_color();
            }
            // it[0] = Color::random_color();

            // Bonus: use .range() and .all() to set many LEDs without having to write a loop.
            // it.range(0, 50) = Color::BLACK;
            // it.all().fade_to_black(10);            
      - addressable_lambda:
          name: "Uhr-Sekunden"
          update_interval: 1000ms
          lambda: |-
            auto sek_offset=9;
            // it.size() - Number of LEDs
            // it[num] - Access the LED at index num.
            // Set the LED at num to the given r, g, b values
            // it[num] = Color(r, g, b);
            // Get the color at index num (Color instance)
            // it[num].get();
            auto time = id(sntp_time).now();
            // Example: Simple color wipe
            for (int i = it.size()-1 ; i >= 0; i--) {
              it[i] = Color(0,0,0);
            }
            auto center=time.second%it.size();;
            it[(center)]=Color(255,0,0);

            // it[0] = Color::random_color();

            // Bonus: use .range() and .all() to set many LEDs without having to write a loop.
            // it.range(0, 50) = Color::BLACK;
            // it.all().fade_to_black(10);            
      - addressable_lambda:
          name: "Uhr-Sekunden-Linie"
          update_interval: 500ms
          lambda: |-
            auto time = id(sntp_time).now();
            auto sek_offset=9;
            int sek, i;
            
            it.range(0, it.size()) = Color::BLACK;

            sek = time.second*19;
            i=0; 
            while(sek>=60) {
              it[i] = Color(255,0,0);
              sek-=60; i++;
            }
            if (sek!=0) it[i] = Color(sek*4, 0, 0);            
      - addressable_lambda:
          name: "Uhr-Sekunden-Punkt"
          update_interval: 1000ms
          lambda: |-
            auto time = id(sntp_time).now();
            auto sek_offset=9;
            int sek, i;
            
            it.range(0, it.size()) = Color::BLACK;

            sek = time.second*19;

            i=sek/60;
            sek=sek%60; 

            if (sek!=0) {
              it[i] = Color((sek*4)+10, 0, 0);
              it[(i+it.size()-1)%it.size()] = Color((60-sek)*4+10, 0, 0);
            }
            else { it[i] = Color(255, 0, 0); }