devices.esphome.io
LSC Led Filament Smart 3200074
LSC Led Filament Smart 3200074
Device Type: lightElectrical Standard: eu
Warning
The latest LSC Light Led Filament Smart 3200074 devices use the Tuya BK7231T module, which is not compatible with ESPHome!
Notice
- This light is flashable using the latest tuya-cloudcutter with a compiled ESPHome binary.
- The LEDs are controlled by 2 PWM output (Cold and White channels).
- The PWM are ingested into a BP5772 chip (Tuya).
- Note that in this device, the cold and warm outputs are inverted compared with the LSC White Ambiance 3000272.
Product Images
GPIO Pinout
| Pin | Function |
|---|---|
| P26 | Cold White (PWM) |
| P24 | Warm White (PWM) |
Basic configuration
### Transparent glass### cold and warm colors are different from the white glass
substitutions: name: lsc-light-warm-04 friendly_name: lsc-light-warm-04esphome: name: ${name} friendly_name: ${friendly_name}
libretuya: board: generic-bk7231t-qfn32-tuya framework: version: dev
# Enable logginglogger:
# Enable Home Assistant APIapi: encryption: key: !secret enc_key
ota: password: !secret ota_password
wifi: ssid: !secret wifi_ssid password: !secret wifi_password
# Enable fallback hotspot in case wifi connection fails ap: ssid: "Lsc-Light-Warm-01" password: !secret ap_password
#web_server:# port: 80
sensor: - platform: wifi_signal name: "WiFi Signal Sensor" update_interval: 60s
- platform: uptime name: Uptime Sensor id: uptime_sensor update_interval: 60s on_raw_value: then: - text_sensor.template.publish: id: uptime_human state: !lambda |- int seconds = round(id(uptime_sensor).raw_state); int days = seconds / (24 * 3600); seconds = seconds % (24 * 3600); int hours = seconds / 3600; seconds = seconds % 3600; int minutes = seconds / 60; seconds = seconds % 60; return ( (days ? to_string(days) + "d " : "") + (hours ? to_string(hours) + "h " : "") + (minutes ? to_string(minutes) + "m " : "") + (to_string(seconds) + "s") ).c_str();
text_sensor: - platform: template name: Uptime Human Readable id: uptime_human icon: mdi:clock-start - platform: wifi_info ip_address: name: IP Address entity_category: diagnostic
binary_sensor: - platform: status name: Status entity_category: diagnostic
button: - platform: restart id: restart_button name: Restart entity_category: diagnostic
output: - platform: ledc id: output_cold_white pin: P26 - platform: ledc id: output_warm_white pin: P24
# Example configuration entrylight: - platform: cwww name: ${friendly_name} id: the_light cold_white: output_cold_white warm_white: output_warm_white cold_white_color_temperature: 2736 K warm_white_color_temperature: 1800 K constant_brightness: true effects: - random: name: "Slow Random" transition_length: 30s update_interval: 30s - random: name: "Fast Random" transition_length: 4s update_interval: 5s - strobe: - flicker: alpha: 50% #The percentage that the last color value should affect the light. More or less the “forget-factor” of an exponential moving average. Defaults to 95%. intensity: 50% #The intensity of the flickering, basically the maximum amplitude of the random offsets. Defaults to 1.5%. - lambda: name: Throb update_interval: 1s lambda: |- static int state = 0; auto call = id(the_light).turn_on(); // Transtion of 1000ms = 1s call.set_transition_length(1000); if (state == 0) { call.set_brightness(1.0); } else { call.set_brightness(0.01); } call.perform(); state += 1; if (state == 2) state = 0;
## Blink the light if we aren't connected to WiFi.## Uncomment below#interval:#- interval: 500ms# then:# - if:# condition:# not:# wifi.connected:# then:# - light.turn_on:# id: the_light# brightness: 50%# transition_length: 0s# - delay: 250ms# - light.turn_off:# id: the_light# transition_length: 250ms