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111 lines
3.1 KiB
111 lines
3.1 KiB
substitutions:
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name: bedside_lamp
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friendly_name: Bedside Lamp
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transition_length: 1s
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# Use your own preferences for these components.
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wifi:
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#ssid: "Your-SSID"
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#password: "Your-Password"
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#use_address: 192.168.10.12
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#
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# Enable fallback hotspot (captive portal) in case wifi connection fails
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#ap:
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# ssid: "Bedside_lamp_$name"
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# password: "bedside2021"
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captive_portal:
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api:
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ota:
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logger:
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# Special platform + package are used for enabling unicore and disabling the
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# efuse mac crc check. These two changes are required for the ESP32-WROOM-32D
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# that is used in the Yeelight bedside lamp 2.
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esphome:
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name: $name
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platform: ESP32
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board: esp32doit-devkit-v1
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platformio_options:
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platform: espressif32@1.11.0
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platform_packages: |-4
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framework-arduinoespressif32 @ https://github.com/pauln/arduino-esp32.git#solo-no-mac-crc/1.0.4
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light:
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- platform: yeelight_bs2
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name: ${friendly_name} RGBW Light
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red: led_red
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green: led_green
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blue: led_blue
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white: led_white
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master1: master1
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master2: master2
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default_transition_length: ${transition_length}
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# You can use any effects that you like. These are just examples.
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effects:
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- random:
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name: "Slow Random"
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transition_length: 30s
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update_interval: 30s
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- random:
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name: "Fast Random"
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transition_length: 3s
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update_interval: 3s
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# The device uses two I2C busses.
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i2c:
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# This bus is very likely connected to an EEPROM that can be found
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# on the lamp's board, right next to the GND, TX, RX and GPIO0 debug
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# pads. The exact use of this component has not yet been reverse
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# engineered.
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- id: eeprom_i2c
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sda: GPIO17
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scl: GPIO18
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scan: True
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# This bus is connected to the front panel with the touch buttons.
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# The touch panel is fully separated form the main board and ESP32,
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# and communication is done strictly through I2C. The exact protocol
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# has been reverse engineered and can be found in the file
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# "doc/reverse_engineering/I2C protocol/i2c_commands.txt".
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- id: front_panel_i2c
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sda: GPIO21
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scl: GPIO19
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scan: True
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# The device uses six GPIO pins for driving the LED circuitry.
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output:
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# master1 + master2 are used for turning on and off the
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# LED circuitry in the lamp. So these are light the
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# internal light switch.
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- platform: gpio
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id: master1
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pin: GPIO33
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- platform: gpio
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id: master2
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pin: GPIO4
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# The following ledc outputs are used to drive the color of the light
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# in two different modes: white light mode (using color temperature
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# to set the type of white light) and RGB light (using an RGB mix).
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# Note: it is important to include the channels and frequencies as-is.
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- platform: ledc
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id: led_red
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pin: GPIO13
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channel: 0
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frequency: 3kHz
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- platform: ledc
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id: led_green
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pin: GPIO14
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channel: 1
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frequency: 3kHz
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- platform: ledc
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id: led_blue
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pin: GPIO5
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channel: 2
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frequency: 3kHz
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- platform: ledc
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id: led_white
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pin: GPIO12
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channel: 4
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frequency: 10kHz
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