esp32_clock/esp32-clock-template.yaml

esphome:
  name: esphome-clock
  friendly_name: ESPHome Clock

esp32:
  board: esp32dev
  framework:
    type: arduino

# Enable logging
logger:
  logs:
    sensor: INFO

# Enable Home Assistant API
api:
  reboot_timeout: 0s
  encryption:
    key: ""

ota:


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

  # Enable fallback hotspot (captive portal) in case wifi connection fails
  ap:
    ssid: "ESP32Clock"
    password: "fallBackPass"

captive_portal:

web_server:
  local: true

external_components:
  - source:
      type: local
      path: components

time:
  - platform: sntp
    id: sntp_time
    timezone: Europe/Berlin
    on_time:
      - seconds: /10
        then:
          - logger.log:
              level: INFO
              format: "%2d %2d %2d %2d"
              args:
                - 'uint32_t(id(runtime).state/3600) - uint32_t(id(runtime).state/86400)*1440'
                - 'uint32_t(id(runtime).state/60) - uint32_t(id(runtime).state/3600)*60'
                - 'uint32_t(id(runtime).state) - uint32_t(id(runtime).state/60)*60'
                - 'uint32_t((id(runtime).state - uint32_t(id(runtime).state))*25)'

spi:
  clk_pin: GPIO18
  mosi_pin: GPIO19

sensor:
  - platform: uptime
    id: runtime
    update_interval: 100ms

display:
  - platform: spi_74hc595_display
    cs_pin: GPIO5
    data_rate: 1MHz #10MHz
    num_chips: 1 #3
    update_interval: 4s #16ms
    common_cathode: false
    segment_first: false
    reverse: false
    lambda: |-
      static uint32_t clock_frames=0;
      static uint32_t old_clock=0;

      if(id(sntp_time).now().second!=old_clock){
        clock_frames=0;
        old_clock=id(sntp_time).now().second;
      } else {
        clock_frames++;
      }

      //it.printf(0, ".*`,_+'-");
      it.printf(0, "88888888");
      //it.strftime(0, "%H%M%s", id(sntp_time).now());
      //it.printf(6, "%2d", clock_frames);

      //it.strftime(8, "%H%M%s", id(sntp_time).now());
      //it.printf(14, "%2d", clock_frames);
      /*it.strftime(8, "%H%M%s", id(sntp_time).now());*/
      /*it.printf(14, "%1d", 0)*/

      /*it.printf(16, "%02d%02d%02d%02d",
        uint32_t(id(runtime).state/3600) - uint32_t(id(runtime).state/86400)*1440,
        uint32_t(id(runtime).state/60) - uint32_t(id(runtime).state/3600)*60,
        uint32_t(id(runtime).state) - uint32_t(id(runtime).state/60)*60,
        uint32_t((id(runtime).state - uint32_t(id(runtime).state))*25) );
        */

# the first display should display a test string to figure out the digit and segment map:
# digit 0: >.< character (dot segment on)
# digit 1: >*< character (A upper segment on)
# digit 2: >`< character (B upper right segment on)
# digit 3: >,< character (C lower right segment on)
# digit 4: >_< character (D lower segment on)
# digit 5: >+< character (E lower left segment on)
# digit 6: >'< character (F upper left segment on)
# digit 7: >-< character (G middle segment on)
add ESP32 clock 2024-01-12 22:49:50 +01:00			`esphome:`
			`name: esphome-clock`
			`friendly_name: ESPHome Clock`

			`esp32:`
			`board: esp32dev`
			`framework:`
			`type: arduino`

			`# Enable logging`
			`logger:`
			`logs:`
			`sensor: INFO`

			`# Enable Home Assistant API`
			`api:`
disable autoreboot 2024-01-14 02:33:50 +01:00			`reboot_timeout: 0s`
add ESP32 clock 2024-01-12 22:49:50 +01:00			`encryption:`
			`key: ""`

			`ota:`


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

			`# Enable fallback hotspot (captive portal) in case wifi connection fails`
			`ap:`
			`ssid: "ESP32Clock"`
			`password: "fallBackPass"`

			`captive_portal:`

enable web server 2024-01-14 01:55:46 +01:00			`web_server:`
			`local: true`

add ESP32 clock 2024-01-12 22:49:50 +01:00			`external_components:`
			`- source:`
			`type: local`
			`path: components`

			`time:`
			`- platform: sntp`
			`id: sntp_time`
			`timezone: Europe/Berlin`
			`on_time:`
better output 2024-01-14 03:14:03 +01:00			`- seconds: /10`
add ESP32 clock 2024-01-12 22:49:50 +01:00			`then:`
			`- logger.log:`
			`level: INFO`
enable web server 2024-01-14 01:55:46 +01:00			`format: "%2d %2d %2d %2d"`
better output 2024-01-14 03:14:03 +01:00			`args:`
fix uptime calculations 2024-01-14 17:32:25 +01:00			`- 'uint32_t(id(runtime).state/3600) - uint32_t(id(runtime).state/86400)*1440'`
			`- 'uint32_t(id(runtime).state/60) - uint32_t(id(runtime).state/3600)*60'`
use uint 2024-01-14 05:50:07 +01:00			`- 'uint32_t(id(runtime).state) - uint32_t(id(runtime).state/60)*60'`
			`- 'uint32_t((id(runtime).state - uint32_t(id(runtime).state))*25)'`
add ESP32 clock 2024-01-12 22:49:50 +01:00
			`spi:`
			`clk_pin: GPIO18`
			`mosi_pin: GPIO19`
add segment test string 2024-01-14 01:45:22 +01:00
add ESP32 clock 2024-01-12 22:49:50 +01:00			`sensor:`
			`- platform: uptime`
			`id: runtime`
			`update_interval: 100ms`

			`display:`
			`- platform: spi_74hc595_display`
			`cs_pin: GPIO5`
debug template 2024-01-21 20:39:32 +01:00			`data_rate: 1MHz #10MHz`
			`num_chips: 1 #3`
			`update_interval: 4s #16ms`
			`common_cathode: false`
			`segment_first: false`
			`reverse: false`
add ESP32 clock 2024-01-12 22:49:50 +01:00			`lambda: \|-`
use uint 2024-01-14 05:50:07 +01:00			`static uint32_t clock_frames=0;`
			`static uint32_t old_clock=0;`
add ESP32 clock 2024-01-12 22:49:50 +01:00
			`if(id(sntp_time).now().second!=old_clock){`
			`clock_frames=0;`
			`old_clock=id(sntp_time).now().second;`
			`} else {`
			`clock_frames++;`
			`}`

debug template 2024-01-21 20:39:32 +01:00			//it.printf(0, ".*`,_+'-");
			`it.printf(0, "88888888");`
			`//it.strftime(0, "%H%M%s", id(sntp_time).now());`
			`//it.printf(6, "%2d", clock_frames);`
better output 2024-01-14 03:14:03 +01:00
debug template 2024-01-21 20:39:32 +01:00			`//it.strftime(8, "%H%M%s", id(sntp_time).now());`
			`//it.printf(14, "%2d", clock_frames);`
add ESP32 clock 2024-01-12 22:49:50 +01:00			`/it.strftime(8, "%H%M%s", id(sntp_time).now());/`
better output 2024-01-14 03:14:03 +01:00			`/it.printf(14, "%1d", 0)/`

debug template 2024-01-21 20:39:32 +01:00			`/*it.printf(16, "%02d%02d%02d%02d",`
fix uptime calculations 2024-01-14 17:32:25 +01:00			`uint32_t(id(runtime).state/3600) - uint32_t(id(runtime).state/86400)*1440,`
			`uint32_t(id(runtime).state/60) - uint32_t(id(runtime).state/3600)*60,`
use uint 2024-01-14 05:50:07 +01:00			`uint32_t(id(runtime).state) - uint32_t(id(runtime).state/60)*60,`
			`uint32_t((id(runtime).state - uint32_t(id(runtime).state))*25) );`
debug template 2024-01-21 20:39:32 +01:00			`*/`
add ESP32 clock 2024-01-12 22:49:50 +01:00
better output 2024-01-14 03:14:03 +01:00			`# the first display should display a test string to figure out the digit and segment map:`
add segment test string 2024-01-14 01:45:22 +01:00			`# digit 0: >.< character (dot segment on)`
better test string, faster transfer 2024-01-20 02:24:56 +01:00			`# digit 1: >*< character (A upper segment on)`
			# digit 2: >`< character (B upper right segment on)
			`# digit 3: >,< character (C lower right segment on)`
			`# digit 4: >_< character (D lower segment on)`
			`# digit 5: >+< character (E lower left segment on)`
			`# digit 6: >'< character (F upper left segment on)`
			`# digit 7: >-< character (G middle segment on)`