esphome/tests/test1.yaml
2021-10-31 15:34:08 +13:00

2473 lines
57 KiB
YAML

substitutions:
devicename: test1
sensorname: my
textname: template
roomname: living_room
esphome:
name: test1
name_add_mac_suffix: true
platform: ESP32
board: nodemcu-32s
platformio_options:
board_build.partitions: huge_app.csv
on_boot:
priority: 150.0
then:
- lambda: >-
ESP_LOGD("main", "ON BOOT!");
on_shutdown:
then:
- lambda: >-
ESP_LOGD("main", "ON SHUTDOWN!");
on_loop:
then:
- lambda: >-
ESP_LOGV("main", "ON LOOP!");
- light.addressable_set:
id: addr1
range_from: 0
range_to: 100
red: 100%
green: !lambda 'return 255;'
blue: 0%
white: 100%
- http_request.get:
url: https://esphome.io
headers:
Content-Type: application/json
verify_ssl: false
- http_request.post:
url: https://esphome.io
verify_ssl: false
json:
key: !lambda |-
return id(${textname}_text).state;
greeting: 'Hello World'
- http_request.send:
method: PUT
url: https://esphome.io
headers:
Content-Type: application/json
body: 'Some data'
verify_ssl: false
on_response:
then:
- logger.log:
format: 'Response status: %d'
args:
- status_code
build_path: build/test1
packages:
wifi: !include test_packages/test_packages_package_wifi.yaml
pkg_test: !include test_packages/test_packages_package1.yaml
wifi:
networks:
- ssid: 'MySSID'
password: 'password1'
- ssid: 'MySSID2'
password: ''
channel: 14
bssid: 'A1:63:95:47:D3:1D'
manual_ip:
static_ip: 192.168.178.230
gateway: 192.168.178.1
subnet: 255.255.255.0
dns1: 1.1.1.1
dns2: 1.2.2.1
domain: .local
reboot_timeout: 120s
power_save_mode: light
mdns:
disabled: false
http_request:
useragent: esphome/device
timeout: 10s
mqtt:
broker: '192.168.178.84'
port: 1883
username: 'debug'
password: 'debug'
client_id: someclient
use_abbreviations: false
discovery: True
discovery_retain: False
discovery_prefix: discovery
topic_prefix: helloworld
log_topic:
topic: helloworld/hi
level: INFO
birth_message:
will_message:
shutdown_message:
topic: topic/to/send/to
payload: hi
qos: 2
retain: True
keepalive: 60s
reboot_timeout: 60s
on_message:
- topic: my/custom/topic
qos: 0
then:
- lambda: >-
ESP_LOGD("main", "Got message %s", x.c_str());
- topic: livingroom/ota_mode
then:
- deep_sleep.prevent
- topic: livingroom/ota_mode
then:
- deep_sleep.enter:
on_json_message:
topic: the/topic
then:
- if:
condition:
- wifi.connected:
- mqtt.connected:
- light.is_on: kitchen
- light.is_off: kitchen
- fan.is_on: fan_speed
- fan.is_off: fan_speed
then:
- lambda: |-
int data = x["my_data"];
ESP_LOGD("main", "The data is: %d", data);
- light.turn_on:
id: ${roomname}_lights
brightness: !lambda |-
float brightness = 1.0;
if (x.containsKey("brightness"))
brightness = x["brightness"];
return brightness;
effect: !lambda |-
const char *effect = "None";
if (x.containsKey("effect"))
effect = x["effect"];
return effect;
- light.control:
id: ${roomname}_lights
brightness: !lambda 'return id(${roomname}_lights).current_values.get_brightness() + 0.5;'
- light.dim_relative:
id: ${roomname}_lights
relative_brightness: 5%
- uart.write:
id: uart0
data: Hello World
- uart.write:
id: uart0
data: [0x00, 0x20, 0x30]
- uart.write:
id: uart0
data: !lambda |-
return {};
i2c:
sda: 21
scl: 22
scan: True
frequency: 100kHz
setup_priority: -100
id: i2c_bus
spi:
clk_pin: GPIO21
mosi_pin: GPIO22
miso_pin: GPIO23
uart:
- tx_pin:
number: GPIO22
inverted: yes
rx_pin:
number: GPIO23
inverted: yes
baud_rate: 115200
id: uart0
parity: NONE
data_bits: 8
stop_bits: 1
rx_buffer_size: 512
- id: adalight_uart
tx_pin: GPIO25
rx_pin: GPIO26
baud_rate: 115200
rx_buffer_size: 1024
ota:
safe_mode: True
password: 'superlongpasswordthatnoonewillknow'
port: 3286
reboot_timeout: 2min
num_attempts: 5
on_state_change:
then:
lambda: >-
ESP_LOGD("ota", "State %d", state);
on_begin:
then:
logger.log: "OTA begin"
on_progress:
then:
lambda: >-
ESP_LOGD("ota", "Got progress %f", x);
on_end:
then:
logger.log: "OTA end"
on_error:
then:
lambda: >-
ESP_LOGD("ota", "Got error code %d", x);
logger:
baud_rate: 0
level: VERBOSE
logs:
mqtt.component: DEBUG
mqtt.client: ERROR
web_server:
port: 8080
css_url: https://esphome.io/_static/webserver-v1.min.css
js_url: https://esphome.io/_static/webserver-v1.min.js
power_supply:
id: 'atx_power_supply'
enable_time: 20ms
keep_on_time: 10s
pin:
number: 13
inverted: true
deep_sleep:
run_duration: 20s
sleep_duration: 50s
wakeup_pin: GPIO39
wakeup_pin_mode: INVERT_WAKEUP
ads1115:
address: 0x48
i2c_id: i2c_bus
dallas:
pin: GPIO23
as3935_spi:
cs_pin: GPIO12
irq_pin: GPIO13
wled:
adalight:
esp32_ble_tracker:
ble_client:
- mac_address: AA:BB:CC:DD:EE:FF
id: ble_foo
- mac_address: 11:22:33:44:55:66
id: ble_blah
on_connect:
then:
- switch.turn_on: ble1_status
on_disconnect:
then:
- switch.turn_on: ble1_status
mcp23s08:
- id: 'mcp23s08_hub'
cs_pin: GPIO12
deviceaddress: 0
mcp23s17:
- id: 'mcp23s17_hub'
cs_pin: GPIO12
deviceaddress: 1
sensor:
- platform: ble_client
ble_client_id: ble_foo
name: 'Green iTag btn'
service_uuid: 'ffe0'
characteristic_uuid: 'ffe1'
descriptor_uuid: 'ffe2'
notify: true
update_interval: never
lambda: |-
ESP_LOGD("main", "Length of data is %i", x.size());
return x[0];
on_notify:
then:
- lambda: |-
ESP_LOGD("green_btn", "Button was pressed, val%f", x);
- platform: adc
pin: A0
name: 'Living Room Brightness'
update_interval: '1:01'
attenuation: 2.5db
unit_of_measurement: '°C'
icon: 'mdi:water-percent'
accuracy_decimals: 5
expire_after: 120s
setup_priority: -100
force_update: true
filters:
- offset: 2.0
- multiply: 1.2
- calibrate_linear:
- 0.0 -> 0.0
- 40.0 -> 45.0
- 100.0 -> 102.5
- filter_out: 42.0
- filter_out: nan
- median:
window_size: 5
send_every: 5
send_first_at: 3
- min:
window_size: 5
send_every: 5
send_first_at: 3
- max:
window_size: 5
send_every: 5
send_first_at: 3
- sliding_window_moving_average:
window_size: 15
send_every: 15
send_first_at: 15
- exponential_moving_average:
alpha: 0.1
send_every: 15
- throttle_average: 60s
- throttle: 1s
- heartbeat: 5s
- debounce: 0.1s
- delta: 5.0
- or:
- throttle: 1s
- delta: 5.0
- lambda: return x * (9.0/5.0) + 32.0;
on_value:
then:
- lambda: |-
ESP_LOGD("main", "Got value %f", x);
id(${sensorname}_sensor).publish_state(42.0);
ESP_LOGI("main", "Value of my sensor: %f", id(${sensorname}_sensor).state);
ESP_LOGI("main", "Raw Value of my sensor: %f", id(${sensorname}_sensor).state);
on_value_range:
above: 5
below: 10
then:
- lambda: >-
ESP_LOGD("main", "Got value range %f", x);
- wait_until: wifi.connected
- wait_until:
condition:
binary_sensor.is_on: binary_sensor1
timeout: 1s
on_raw_value:
- lambda: >-
ESP_LOGD("main", "Got raw value %f", x);
- logger.log:
level: DEBUG
format: 'Got raw value %f'
args: ['x']
- logger.log: 'Got raw value NAN'
- mqtt.publish:
topic: some/topic
payload: Hello
qos: 2
retain: True
- platform: esp32_hall
name: ESP32 Hall Sensor
- platform: ads1115
multiplexer: 'A0_A1'
gain: 1.024
id: ${sensorname}_sensor
filters:
state_topic: hi/me
retain: false
availability:
- platform: atm90e32
cs_pin: 5
phase_a:
voltage:
name: 'EMON Line Voltage A'
current:
name: 'EMON CT1 Current'
power:
name: 'EMON Active Power CT1'
reactive_power:
name: 'EMON Reactive Power CT1'
power_factor:
name: 'EMON Power Factor CT1'
gain_voltage: 7305
gain_ct: 27961
phase_b:
current:
name: 'EMON CT2 Current'
power:
name: 'EMON Active Power CT2'
reactive_power:
name: 'EMON Reactive Power CT2'
power_factor:
name: 'EMON Power Factor CT2'
gain_voltage: 7305
gain_ct: 27961
phase_c:
current:
name: 'EMON CT3 Current'
power:
name: 'EMON Active Power CT3'
reactive_power:
name: 'EMON Reactive Power CT3'
power_factor:
name: 'EMON Power Factor CT3'
gain_voltage: 7305
gain_ct: 27961
frequency:
name: 'EMON Line Frequency'
chip_temperature:
name: 'EMON Chip Temp A'
line_frequency: 60Hz
current_phases: 3
gain_pga: 2X
- platform: bh1750
name: 'Living Room Brightness 3'
internal: true
address: 0x23
resolution: 1.0
update_interval: 30s
retain: False
availability:
state_topic: livingroom/custom_state_topic
measurement_duration: 31
i2c_id: i2c_bus
- platform: bme280
temperature:
name: 'Outside Temperature'
oversampling: 16x
pressure:
name: 'Outside Pressure'
oversampling: none
humidity:
name: 'Outside Humidity'
oversampling: 8x
address: 0x77
iir_filter: 16x
update_interval: 15s
i2c_id: i2c_bus
- platform: bme680
temperature:
name: 'Outside Temperature'
oversampling: 16x
pressure:
name: 'Outside Pressure'
humidity:
name: 'Outside Humidity'
gas_resistance:
name: 'Outside Gas Sensor'
address: 0x77
heater:
temperature: 320
duration: 150ms
update_interval: 15s
i2c_id: i2c_bus
- platform: bmp085
temperature:
name: 'Outside Temperature'
pressure:
name: 'Outside Pressure'
filters:
- lambda: >-
return x / powf(1.0 - (x / 44330.0), 5.255);
update_interval: 15s
i2c_id: i2c_bus
- platform: bmp280
temperature:
name: 'Outside Temperature'
oversampling: 16x
pressure:
name: 'Outside Pressure'
address: 0x77
update_interval: 15s
iir_filter: 16x
i2c_id: i2c_bus
- platform: dallas
address: 0x1C0000031EDD2A28
name: 'Living Room Temperature'
resolution: 9
- platform: dallas
index: 1
name: 'Living Room Temperature 2'
- platform: dht
pin: GPIO26
temperature:
name: 'Living Room Temperature 3'
humidity:
name: 'Living Room Humidity 3'
model: AM2302
update_interval: 15s
- platform: dht12
temperature:
name: 'Living Room Temperature 4'
humidity:
name: 'Living Room Humidity 4'
update_interval: 15s
i2c_id: i2c_bus
- platform: duty_cycle
pin: GPIO25
name: Duty Cycle Sensor
- platform: esp32_hall
name: 'ESP32 Hall Sensor'
update_interval: 15s
- platform: hdc1080
temperature:
name: 'Living Room Temperature 5'
humidity:
name: 'Living Room Pressure 5'
update_interval: 15s
i2c_id: i2c_bus
- platform: hlw8012
sel_pin: 5
cf_pin: 14
cf1_pin: 13
current:
name: 'HLW8012 Current'
voltage:
name: 'HLW8012 Voltage'
power:
name: 'HLW8012 Power'
id: hlw8012_power
energy:
name: 'HLW8012 Energy'
id: hlw8012_energy
update_interval: 15s
current_resistor: 0.001 ohm
voltage_divider: 2351
change_mode_every: 16
initial_mode: VOLTAGE
model: hlw8012
- platform: total_daily_energy
power_id: hlw8012_power
name: 'HLW8012 Total Daily Energy'
- platform: integration
sensor: hlw8012_power
name: 'Integration Sensor'
time_unit: s
- platform: integration
sensor: hlw8012_power
name: 'Integration Sensor lazy'
time_unit: s
min_save_interval: 60s
- platform: hmc5883l
address: 0x68
field_strength_x:
name: 'HMC5883L Field Strength X'
field_strength_y:
name: 'HMC5883L Field Strength Y'
field_strength_z:
name: 'HMC5883L Field Strength Z'
heading:
name: 'HMC5883L Heading'
range: 130uT
oversampling: 8x
update_interval: 15s
i2c_id: i2c_bus
- platform: qmc5883l
address: 0x0D
field_strength_x:
name: 'QMC5883L Field Strength X'
field_strength_y:
name: 'QMC5883L Field Strength Y'
field_strength_z:
name: 'QMC5883L Field Strength Z'
heading:
name: 'QMC5883L Heading'
range: 800uT
oversampling: 256x
update_interval: 15s
i2c_id: i2c_bus
- platform: hx711
name: 'HX711 Value'
dout_pin: GPIO23
clk_pin: GPIO25
gain: 128
update_interval: 15s
- platform: ina219
address: 0x40
shunt_resistance: 0.1 ohm
current:
name: 'INA219 Current'
power:
name: 'INA219 Power'
bus_voltage:
name: 'INA219 Bus Voltage'
shunt_voltage:
name: 'INA219 Shunt Voltage'
max_voltage: 32.0V
max_current: 3.2A
update_interval: 15s
i2c_id: i2c_bus
- platform: ina226
address: 0x40
shunt_resistance: 0.1 ohm
current:
name: 'INA226 Current'
power:
name: 'INA226 Power'
bus_voltage:
name: 'INA226 Bus Voltage'
shunt_voltage:
name: 'INA226 Shunt Voltage'
max_current: 3.2A
update_interval: 15s
i2c_id: i2c_bus
- platform: ina3221
address: 0x40
channel_1:
shunt_resistance: 0.1 ohm
current:
name: 'INA3221 Channel 1 Current'
power:
name: 'INA3221 Channel 1 Power'
bus_voltage:
name: 'INA3221 Channel 1 Bus Voltage'
shunt_voltage:
name: 'INA3221 Channel 1 Shunt Voltage'
update_interval: 15s
i2c_id: i2c_bus
- platform: htu21d
temperature:
name: 'Living Room Temperature 6'
humidity:
name: 'Living Room Humidity 6'
update_interval: 15s
i2c_id: i2c_bus
- platform: max6675
name: 'Living Room Temperature'
cs_pin: GPIO23
update_interval: 15s
- platform: max31855
name: 'Den Temperature'
cs_pin: GPIO23
update_interval: 15s
reference_temperature:
name: 'MAX31855 Internal Temperature'
- platform: max31856
name: 'BBQ Temperature'
cs_pin: GPIO17
update_interval: 15s
mains_filter: 50Hz
- platform: max31865
name: 'Water Tank Temperature'
cs_pin: GPIO23
update_interval: 15s
reference_resistance: '430 Ω'
rtd_nominal_resistance: '100 Ω'
- platform: mhz19
uart_id: uart0
co2:
name: 'MH-Z19 CO2 Value'
temperature:
name: 'MH-Z19 Temperature'
update_interval: 15s
automatic_baseline_calibration: false
- platform: mpu6050
address: 0x68
accel_x:
name: 'MPU6050 Accel X'
accel_y:
name: 'MPU6050 Accel Y'
accel_z:
name: 'MPU6050 Accel z'
gyro_x:
name: 'MPU6050 Gyro X'
gyro_y:
name: 'MPU6050 Gyro Y'
gyro_z:
name: 'MPU6050 Gyro z'
temperature:
name: 'MPU6050 Temperature'
i2c_id: i2c_bus
- platform: ms5611
temperature:
name: 'Outside Temperature'
pressure:
name: 'Outside Pressure'
address: 0x77
update_interval: 15s
i2c_id: i2c_bus
- platform: pmsa003i
pm_1_0:
name: "PMSA003i PM1.0"
pm_2_5:
name: "PMSA003i PM2.5"
pm_10_0:
name: "PMSA003i PM10.0"
pmc_0_3:
name: "PMSA003i PMC <0.3µm"
pmc_0_5:
name: "PMSA003i PMC <0.5µm"
pmc_1_0:
name: "PMSA003i PMC <1µm"
pmc_2_5:
name: "PMSA003i PMC <2.5µm"
pmc_5_0:
name: "PMSA003i PMC <5µm"
pmc_10_0:
name: "PMSA003i PMC <10µm"
address: 0x12
standard_units: True
i2c_id: i2c_bus
- platform: pulse_counter
name: 'Pulse Counter'
pin: GPIO12
count_mode:
rising_edge: INCREMENT
falling_edge: DECREMENT
internal_filter: 13us
update_interval: 15s
- platform: pulse_meter
name: 'Pulse Meter'
id: pulse_meter_sensor
pin: GPIO12
internal_filter: 100ms
timeout: 2 min
on_value:
- pulse_meter.set_total_pulses:
id: pulse_meter_sensor
value: 12345
total:
name: 'Pulse Meter Total'
- platform: rotary_encoder
name: 'Rotary Encoder'
id: rotary_encoder1
pin_a: GPIO23
pin_b: GPIO25
pin_reset: GPIO25
filters:
- or:
- debounce: 0.1s
- delta: 10
resolution: 4
min_value: -10
max_value: 30
on_value:
- sensor.rotary_encoder.set_value:
id: rotary_encoder1
value: 10
- sensor.rotary_encoder.set_value:
id: rotary_encoder1
value: !lambda 'return -1;'
on_clockwise:
- logger.log: 'Clockwise'
on_anticlockwise:
- logger.log: 'Anticlockwise'
- platform: pulse_width
name: Pulse Width
pin: GPIO12
- platform: sm300d2
uart_id: uart0
co2:
name: 'SM300D2 CO2 Value'
formaldehyde:
name: 'SM300D2 Formaldehyde Value'
tvoc:
name: 'SM300D2 TVOC Value'
pm_2_5:
name: 'SM300D2 PM2.5 Value'
pm_10_0:
name: 'SM300D2 PM10 Value'
temperature:
name: 'SM300D2 Temperature Value'
humidity:
name: 'SM300D2 Humidity Value'
update_interval: 60s
- platform: sht3xd
temperature:
name: 'Living Room Temperature 8'
humidity:
name: 'Living Room Humidity 8'
address: 0x44
i2c_id: i2c_bus
update_interval: 15s
- platform: sts3x
name: 'Living Room Temperature 9'
address: 0x4A
i2c_id: i2c_bus
- platform: scd30
co2:
name: 'Living Room CO2 9'
temperature:
name: 'Living Room Temperature 9'
humidity:
name: 'Living Room Humidity 9'
address: 0x61
update_interval: 15s
automatic_self_calibration: true
altitude_compensation: 10m
ambient_pressure_compensation: 961mBar
temperature_offset: 4.2C
i2c_id: i2c_bus
- platform: scd4x
co2:
name: "SCD4X CO2"
temperature:
name: "SCD4X Temperature"
humidity:
name: "SCD4X Humidity"
update_interval: 15s
automatic_self_calibration: true
altitude_compensation: 10m
ambient_pressure_compensation: 961mBar
temperature_offset: 4.2C
i2c_id: i2c_bus
- platform: sgp30
eco2:
name: 'Workshop eCO2'
accuracy_decimals: 1
tvoc:
name: 'Workshop TVOC'
accuracy_decimals: 1
address: 0x58
update_interval: 5s
i2c_id: i2c_bus
- platform: sps30
pm_1_0:
name: 'Workshop PM <1µm Weight concentration'
id: 'workshop_PM_1_0'
pm_2_5:
name: 'Workshop PM <2.5µm Weight concentration'
id: 'workshop_PM_2_5'
pm_4_0:
name: 'Workshop PM <4µm Weight concentration'
id: 'workshop_PM_4_0'
pm_10_0:
name: 'Workshop PM <10µm Weight concentration'
id: 'workshop_PM_10_0'
pmc_0_5:
name: 'Workshop PM <0.5µm Number concentration'
id: 'workshop_PMC_0_5'
pmc_1_0:
name: 'Workshop PM <1µm Number concentration'
id: 'workshop_PMC_1_0'
pmc_2_5:
name: 'Workshop PM <2.5µm Number concentration'
id: 'workshop_PMC_2_5'
pmc_4_0:
name: 'Workshop PM <4µm Number concentration'
id: 'workshop_PMC_4_0'
pmc_10_0:
name: 'Workshop PM <10µm Number concentration'
id: 'workshop_PMC_10_0'
address: 0x69
update_interval: 10s
i2c_id: i2c_bus
- platform: sht4x
temperature:
name: 'SHT4X Temperature'
humidity:
name: 'SHT4X Humidity'
address: 0x44
update_interval: 15s
i2c_id: i2c_bus
- platform: shtcx
temperature:
name: 'Living Room Temperature 10'
humidity:
name: 'Living Room Humidity 10'
address: 0x70
update_interval: 15s
i2c_id: i2c_bus
- platform: template
name: 'Template Sensor'
state_class: measurement
id: template_sensor
lambda: |-
if (id(ultrasonic_sensor1).state > 1) {
return 42.0;
} else {
return {};
}
update_interval: 15s
on_value:
- sensor.template.publish:
id: template_sensor
state: 43.0
- sensor.template.publish:
id: template_sensor
state: !lambda 'return NAN;'
- platform: tsl2561
name: 'TSL2561 Ambient Light'
address: 0x39
update_interval: 15s
is_cs_package: true
integration_time: 402ms
gain: 16x
i2c_id: i2c_bus
- platform: tsl2591
id: this_little_light_of_mine
address: 0x29
update_interval: 15s
integration_time: 600ms
gain: high
visible:
name: "tsl2591 visible"
id: tsl2591_vis
unit_of_measurement: 'pH'
infrared:
name: "tsl2591 infrared"
id: tsl2591_ir
full_spectrum:
name: "tsl2591 full_spectrum"
id: tsl2591_fs
calculated_lux:
name: "tsl2591 calculated_lux"
id: tsl2591_cl
i2c_id: i2c_bus
- platform: ultrasonic
trigger_pin: GPIO25
echo_pin:
number: GPIO23
inverted: true
name: 'Ultrasonic Sensor'
timeout: 5.5m
id: ultrasonic_sensor1
- platform: uptime
name: Uptime Sensor
- platform: wifi_signal
name: 'WiFi Signal Sensor'
update_interval: 15s
- platform: mqtt_subscribe
name: 'MQTT Subscribe Sensor 1'
topic: 'mqtt/topic'
id: the_sensor
qos: 2
on_value:
- mqtt.publish_json:
topic: the/topic
payload: |-
root["key"] = id(the_sensor).state;
root["greeting"] = "Hello World";
- platform: sds011
uart_id: uart0
pm_2_5:
name: 'SDS011 PM2.5'
pm_10_0:
name: 'SDS011 PM10.0'
update_interval: 5min
rx_only: false
- platform: ccs811
eco2:
name: CCS811 eCO2
tvoc:
name: CCS811 TVOC
update_interval: 30s
baseline: 0x4242
i2c_id: i2c_bus
- platform: tx20
wind_speed:
name: 'Windspeed'
wind_direction_degrees:
name: 'Winddirection Degrees'
pin:
number: GPIO04
mode: INPUT
- platform: zyaura
clock_pin: GPIO5
data_pin: GPIO4
co2:
name: 'ZyAura CO2'
temperature:
name: 'ZyAura Temperature'
humidity:
name: 'ZyAura Humidity'
- platform: as3935
lightning_energy:
name: 'Lightning Energy'
distance:
name: 'Distance Storm'
- platform: tmp117
name: 'TMP117 Temperature'
update_interval: 5s
i2c_id: i2c_bus
- platform: hm3301
pm_1_0:
name: 'PM1.0'
pm_2_5:
name: 'PM2.5'
pm_10_0:
name: 'PM10.0'
aqi:
name: 'AQI'
calculation_type: 'CAQI'
i2c_id: i2c_bus
- platform: teleinfo
tag_name: "HCHC"
name: "hchc"
unit_of_measurement: "Wh"
icon: mdi:flash
teleinfo_id: myteleinfo
- platform: mcp9808
name: 'MCP9808 Temperature'
update_interval: 15s
i2c_id: i2c_bus
- platform: ezo
id: ph_ezo
address: 99
unit_of_measurement: 'pH'
i2c_id: i2c_bus
- platform: sdp3x
name: "HVAC Filter Pressure drop"
id: filter_pressure
update_interval: 5s
accuracy_decimals: 3
i2c_id: i2c_bus
- platform: cs5460a
id: cs5460a1
current:
name: "Socket current"
voltage:
name: "Mains voltage"
power:
name: "Socket power"
on_value:
then:
cs5460a.restart: cs5460a1
samples: 1600
pga_gain: 10X
current_gain: 0.01
voltage_gain: 0.000573
current_hpf: on
voltage_hpf: on
phase_offset: 20
pulse_energy: 0.01 kWh
cs_pin:
mcp23xxx: mcp23017_hub
number: 14
esp32_touch:
setup_mode: False
iir_filter: 10ms
sleep_duration: 27ms
measurement_duration: 8ms
low_voltage_reference: 0.5V
high_voltage_reference: 2.7V
voltage_attenuation: 1.5V
binary_sensor:
- platform: gpio
name: 'MCP23S08 Pin #1'
pin:
mcp23xxx: mcp23s08_hub
# Use pin number 1
number: 1
# One of INPUT or INPUT_PULLUP
mode: INPUT_PULLUP
inverted: False
- platform: gpio
name: 'MCP23S17 Pin #1'
pin:
mcp23xxx: mcp23s17_hub
# Use pin number 1
number: 1
# One of INPUT or INPUT_PULLUP
mode: INPUT_PULLUP
inverted: False
- platform: gpio
name: 'MCP23S17 Pin #1 with interrupt'
pin:
mcp23xxx: mcp23s17_hub
# Use pin number 1
number: 1
# One of INPUT or INPUT_PULLUP
mode: INPUT_PULLUP
inverted: False
interrupt: FALLING
- platform: gpio
pin: GPIO9
name: 'Living Room Window'
device_class: window
filters:
- invert:
- delayed_on: 40ms
- delayed_off: 40ms
on_press:
then:
- lambda: >-
ESP_LOGD("main", "Pressed");
on_release:
then:
- lambda: >-
ESP_LOGD("main", "Released");
on_click:
- min_length: 50ms
max_length: 350ms
then:
- lambda: >-
ESP_LOGD("main", "Clicked");
- then:
- lambda: >-
ESP_LOGD("main", "Clicked");
on_double_click:
- min_length: 50ms
max_length: 350ms
then:
- lambda: >-
ESP_LOGD("main", "Double Clicked");
- then:
- lambda: >-
ESP_LOGD("main", "Double Clicked");
on_multi_click:
- timing:
- ON for at most 1s
- OFF for at most 1s
- ON for at most 1s
- OFF for at least 0.2s
then:
- logger.log:
format: 'Multi Clicked TWO'
level: warn
- timing:
- OFF for 1s to 2s
- ON for 1s to 2s
- OFF for at least 0.5s
then:
- logger.log:
format: 'Multi Clicked LONG SINGLE'
level: warn
- timing:
- ON for at most 1s
- OFF for at least 0.5s
then:
- logger.log:
format: 'Multi Clicked SINGLE'
level: warn
id: binary_sensor1
- platform: gpio
pin:
number: GPIO9
mode: INPUT_PULLUP
name: 'Living Room Window 2'
- platform: status
name: 'Living Room Status'
- platform: esp32_touch
name: 'ESP32 Touch Pad GPIO27'
pin: GPIO27
threshold: 1000
id: btn_left
- platform: template
name: 'Garage Door Open'
id: garage_door
lambda: |-
if (isnan(id(${sensorname}_sensor).state)) {
// isnan checks if the ultrasonic sensor echo
// has timed out, resulting in a NaN (not a number) state
// in that case, return {} to indicate that we don't know.
return {};
} else if (id(${sensorname}_sensor).state > 30) {
// Garage Door is open.
return true;
} else {
// Garage Door is closed.
return false;
}
on_press:
- binary_sensor.template.publish:
id: garage_door
state: OFF
- output.ledc.set_frequency:
id: gpio_19
frequency: 500.0Hz
- output.ledc.set_frequency:
id: gpio_19
frequency: !lambda 'return 500.0;'
- platform: pn532
pn532_id: pn532_bs
uid: 74-10-37-94
name: 'PN532 NFC Tag'
- platform: rdm6300
uid: 7616525
name: 'RDM6300 NFC Tag'
- platform: gpio
name: 'PCF binary sensor'
pin:
pcf8574: pcf8574_hub
number: 1
mode: INPUT
inverted: True
- platform: gpio
name: 'MCP21 binary sensor'
pin:
mcp23xxx: mcp23017_hub
number: 1
mode: INPUT
inverted: True
- platform: gpio
name: 'MCP22 binary sensor'
pin:
mcp23xxx: mcp23008_hub
number: 7
mode: INPUT_PULLUP
inverted: False
- platform: gpio
name: 'MCP23 binary sensor'
pin:
mcp23016: mcp23016_hub
number: 7
mode: INPUT
inverted: False
- platform: remote_receiver
name: 'Raw Remote Receiver Test'
raw:
code:
[
5685,
-4252,
1711,
-2265,
1712,
-2265,
1711,
-2264,
1712,
-2266,
3700,
-2263,
1712,
-4254,
1711,
-4249,
1715,
-2266,
1710,
-2267,
1709,
-2265,
3704,
-4250,
1712,
-4254,
3700,
-2260,
1714,
-2265,
1712,
-2262,
1714,
-2267,
1709,
]
- platform: as3935
name: 'Storm Alert'
pca9685:
frequency: 500
address: 0x0
i2c_id: i2c_bus
tlc59208f:
- address: 0x20
id: tlc59208f_1
i2c_id: i2c_bus
- address: 0x22
id: tlc59208f_2
i2c_id: i2c_bus
- address: 0x24
id: tlc59208f_3
i2c_id: i2c_bus
my9231:
data_pin: GPIO12
clock_pin: GPIO14
num_channels: 6
num_chips: 2
bit_depth: 16
output:
- platform: gpio
pin: GPIO26
id: gpio_26
power_supply: atx_power_supply
inverted: False
- platform: ledc
pin: 19
id: gpio_19
frequency: 1500Hz
channel: 14
max_power: 0.5
- platform: pca9685
id: pca_0
channel: 0
- platform: pca9685
id: pca_1
channel: 1
- platform: pca9685
id: pca_2
channel: 2
- platform: pca9685
id: pca_3
channel: 3
- platform: pca9685
id: pca_4
channel: 4
- platform: pca9685
id: pca_5
channel: 5
- platform: pca9685
id: pca_6
channel: 6
- platform: pca9685
id: pca_7
channel: 7
- platform: tlc59208f
id: tlc_0
channel: 0
tlc59208f_id: 'tlc59208f_1'
- platform: tlc59208f
id: tlc_1
channel: 1
tlc59208f_id: 'tlc59208f_1'
- platform: tlc59208f
id: tlc_2
channel: 2
tlc59208f_id: 'tlc59208f_1'
- platform: tlc59208f
id: tlc_3
channel: 0
tlc59208f_id: 'tlc59208f_2'
- platform: tlc59208f
id: tlc_4
channel: 1
tlc59208f_id: 'tlc59208f_2'
- platform: tlc59208f
id: tlc_5
channel: 2
tlc59208f_id: 'tlc59208f_2'
- platform: tlc59208f
id: tlc_6
channel: 0
tlc59208f_id: 'tlc59208f_3'
- platform: tlc59208f
id: tlc_7
channel: 1
tlc59208f_id: 'tlc59208f_3'
- platform: tlc59208f
id: tlc_8
channel: 2
tlc59208f_id: 'tlc59208f_3'
- platform: gpio
id: id2
pin:
pcf8574: pcf8574_hub
number: 0
mode: OUTPUT
inverted: False
- platform: gpio
id: id22
pin:
mcp23xxx: mcp23017_hub
number: 0
mode: OUTPUT
inverted: False
- platform: gpio
id: id23
pin:
mcp23xxx: mcp23008_hub
number: 0
mode: OUTPUT
inverted: False
- platform: gpio
id: id25
pin:
mcp23016: mcp23016_hub
number: 0
mode: OUTPUT
inverted: False
- platform: my9231
id: my_0
channel: 0
- platform: my9231
id: my_1
channel: 1
- platform: my9231
id: my_2
channel: 2
- platform: my9231
id: my_3
channel: 3
- platform: my9231
id: my_4
channel: 4
- platform: my9231
id: my_5
channel: 5
- platform: slow_pwm
id: id24
pin: GPIO26
period: 15s
- platform: ac_dimmer
id: dimmer1
gate_pin: GPIO5
zero_cross_pin: GPIO26
- platform: esp32_dac
pin: GPIO25
id: dac_output
- platform: mcp4725
id: mcp4725_dac_output
i2c_id: i2c_bus
e131:
light:
- platform: binary
name: 'Desk Lamp'
output: gpio_26
effects:
- strobe:
- strobe:
name: 'My Strobe'
colors:
- state: True
duration: 250ms
- state: False
duration: 250ms
on_turn_on:
- switch.template.publish:
id: livingroom_lights
state: yes
on_turn_off:
- switch.template.publish:
id: livingroom_lights
state: yes
- platform: monochromatic
name: 'Kitchen Lights'
id: kitchen
output: gpio_19
gamma_correct: 2.8
default_transition_length: 2s
effects:
- strobe:
- flicker:
- flicker:
name: 'My Flicker'
alpha: 98%
intensity: 1.5%
- lambda:
name: My Custom Effect
update_interval: 1s
lambda: |-
static int state = 0;
state += 1;
if (state == 4)
state = 0;
- platform: rgb
name: 'Living Room Lights'
id: ${roomname}_lights
red: pca_0
green: pca_1
blue: pca_2
- platform: rgbw
name: 'Living Room Lights 2'
red: pca_3
green: pca_4
blue: pca_5
white: pca_6
color_interlock: true
- platform: rgbww
name: 'Living Room Lights 2'
red: pca_3
green: pca_4
blue: pca_5
cold_white: pca_6
warm_white: pca_6
cold_white_color_temperature: 153 mireds
warm_white_color_temperature: 500 mireds
color_interlock: true
- platform: rgbct
name: 'Living Room Lights 2'
red: pca_3
green: pca_4
blue: pca_5
color_temperature: pca_6
white_brightness: pca_6
cold_white_color_temperature: 153 mireds
warm_white_color_temperature: 500 mireds
color_interlock: true
- platform: cwww
name: 'Living Room Lights 2'
cold_white: pca_6
warm_white: pca_6
cold_white_color_temperature: 153 mireds
warm_white_color_temperature: 500 mireds
constant_brightness: true
- platform: color_temperature
name: 'Living Room Lights 2'
color_temperature: pca_6
brightness: pca_6
cold_white_color_temperature: 153 mireds
warm_white_color_temperature: 500 mireds
- platform: fastled_clockless
id: addr1
chipset: WS2811
pin: GPIO23
num_leds: 60
rgb_order: BRG
max_refresh_rate: 20ms
power_supply: atx_power_supply
color_correct: [75%, 100%, 50%]
name: 'FastLED WS2811 Light'
effects:
- addressable_color_wipe:
- addressable_color_wipe:
name: Color Wipe Effect With Custom Values
colors:
- red: 100%
green: 100%
blue: 100%
num_leds: 1
- red: 0%
green: 0%
blue: 0%
num_leds: 1
add_led_interval: 100ms
reverse: False
- addressable_scan:
- addressable_scan:
name: Scan Effect With Custom Values
move_interval: 100ms
- addressable_twinkle:
- addressable_twinkle:
name: Twinkle Effect With Custom Values
twinkle_probability: 5%
progress_interval: 4ms
- addressable_random_twinkle:
- addressable_random_twinkle:
name: Random Twinkle Effect With Custom Values
twinkle_probability: 5%
progress_interval: 32ms
- addressable_fireworks:
- addressable_fireworks:
name: Fireworks Effect With Custom Values
update_interval: 32ms
spark_probability: 10%
use_random_color: false
fade_out_rate: 120
- addressable_flicker:
- addressable_flicker:
name: Flicker Effect With Custom Values
update_interval: 16ms
intensity: 5%
- addressable_lambda:
name: 'Test For Custom Lambda Effect'
lambda: |-
if (initial_run) {
it[0] = current_color;
}
- wled:
port: 11111
- adalight:
uart_id: adalight_uart
- automation:
name: Custom Effect
sequence:
- light.addressable_set:
id: addr1
red: 100%
green: 100%
blue: 0%
- delay: 100ms
- light.addressable_set:
id: addr1
red: 0%
green: 100%
blue: 0%
- e131:
universe: 1
- platform: fastled_spi
id: addr2
chipset: WS2801
data_pin: GPIO23
clock_pin: GPIO22
data_rate: 2MHz
num_leds: 60
rgb_order: BRG
name: 'FastLED SPI Light'
- platform: neopixelbus
id: addr3
name: 'Neopixelbus Light'
gamma_correct: 2.8
color_correct: [0.0, 0.0, 0.0, 0.0]
default_transition_length: 10s
power_supply: atx_power_supply
effects:
- addressable_flicker:
name: Flicker Effect With Custom Values
update_interval: 16ms
intensity: 5%
type: GRBW
variant: SK6812
method: ESP32_I2S_0
num_leds: 60
pin: GPIO23
- platform: partition
name: 'Partition Light'
segments:
- id: addr1
from: 0
to: 0
- id: addr2
from: 1
to: 10
- id: addr2
from: 20
to: 25
- single_light_id: ${roomname}_lights
remote_transmitter:
- pin: 32
carrier_duty_percent: 100%
climate:
- platform: tcl112
name: TCL112 Climate With Sensor
supports_heat: True
supports_cool: True
sensor: ${sensorname}_sensor
- platform: tcl112
name: TCL112 Climate
action_state_topic: action/state/topic
away_command_topic: away/command/topic
away_state_topic: away/state/topic
current_temperature_state_topic: current/temperature/state/topic
fan_mode_command_topic: fan_mode/mode/command/topic
fan_mode_state_topic: fan_mode/mode/state/topic
mode_command_topic: mode/command/topic
mode_state_topic: mode/state/topic
swing_mode_command_topic: swing_mode/command/topic
swing_mode_state_topic: swing_mode/state/topic
target_temperature_command_topic: target/temperature/command/topic
target_temperature_high_command_topic: target/temperature/high/command/topic
target_temperature_high_state_topic: target/temperature/high/state/topic
target_temperature_low_command_topic: target/temperature/low/command/topic
target_temperature_low_state_topic: target/temperature/low/state/topic
target_temperature_state_topic: target/temperature/state/topic
- platform: coolix
name: Coolix Climate With Sensor
supports_heat: True
supports_cool: True
sensor: ${sensorname}_sensor
- platform: coolix
name: Coolix Climate
- platform: fujitsu_general
name: Fujitsu General Climate
- platform: daikin
name: Daikin Climate
- platform: yashima
name: Yashima Climate
- platform: mitsubishi
name: Mitsubishi
- platform: whirlpool
name: Whirlpool Climate
- platform: climate_ir_lg
name: LG Climate
- platform: toshiba
name: Toshiba Climate
- platform: hitachi_ac344
name: Hitachi Climate
- platform: heatpumpir
protocol: mitsubishi_heavy_zm
horizontal_default: left
vertical_default: up
name: HeatpumpIR Climate
min_temperature: 18
max_temperature: 30
- platform: midea
id: midea_unit
uart_id: uart0
name: Midea Climate
transmitter_id:
period: 1s
num_attempts: 5
timeout: 2s
beeper: false
autoconf: true
visual:
min_temperature: 17 °C
max_temperature: 30 °C
temperature_step: 0.5 °C
supported_modes:
- FAN_ONLY
- HEAT_COOL
- COOL
- HEAT
- DRY
custom_fan_modes:
- SILENT
- TURBO
supported_presets:
- ECO
- BOOST
- SLEEP
custom_presets:
- FREEZE_PROTECTION
supported_swing_modes:
- VERTICAL
- HORIZONTAL
- BOTH
outdoor_temperature:
name: "Temp"
power_usage:
name: "Power"
humidity_setpoint:
name: "Humidity"
- platform: anova
name: Anova cooker
ble_client_id: ble_blah
unit_of_measurement: c
icon: mdi:stove
script:
- id: climate_custom
then:
- climate.control:
id: midea_unit
custom_preset: FREEZE_PROTECTION
custom_fan_mode: SILENT
- id: climate_preset
then:
- climate.control:
id: midea_unit
preset: SLEEP
switch:
- platform: template
name: MIDEA_AC_TOGGLE_LIGHT
turn_on_action:
midea_ac.display_toggle:
- platform: template
name: MIDEA_AC_SWING_STEP
turn_on_action:
midea_ac.swing_step:
- platform: template
name: MIDEA_AC_BEEPER_CONTROL
optimistic: true
turn_on_action:
midea_ac.beeper_on:
turn_off_action:
midea_ac.beeper_off:
- platform: template
name: MIDEA_RAW
turn_on_action:
remote_transmitter.transmit_midea:
code: [0xA2, 0x08, 0xFF, 0xFF, 0xFF]
- platform: gpio
name: 'MCP23S08 Pin #0'
pin:
mcp23xxx: mcp23s08_hub
# Use pin number 0
number: 0
mode: OUTPUT
inverted: False
- platform: gpio
name: 'MCP23S17 Pin #0'
pin:
mcp23xxx: mcp23s17_hub
# Use pin number 0
number: 1
mode: OUTPUT
inverted: False
- platform: gpio
pin: GPIO25
name: 'Living Room Dehumidifier'
icon: 'mdi:restart'
inverted: True
command_topic: custom_command_topic
restore_mode: ALWAYS_OFF
- platform: template
name: JVC Off
id: living_room_lights_on
turn_on_action:
remote_transmitter.transmit_jvc:
data: 0x10EF
- platform: template
name: NEC
id: living_room_lights_off
turn_on_action:
remote_transmitter.transmit_nec:
address: 0x4242
command: 0x8484
- platform: template
name: LG
turn_on_action:
remote_transmitter.transmit_lg:
data: 4294967295
nbits: 28
- platform: template
name: Samsung
turn_on_action:
remote_transmitter.transmit_samsung:
data: 0xABCDEF
- platform: template
name: Samsung36
turn_on_action:
remote_transmitter.transmit_samsung36:
address: 0x0400
command: 0x000E00FF
- platform: template
name: ToshibaAC
turn_on_action:
- remote_transmitter.transmit_toshiba_ac:
rc_code_1: 0xB24DBF4050AF
rc_code_2: 0xD5660001003C
- platform: template
name: Sony
turn_on_action:
remote_transmitter.transmit_sony:
data: 0xABCDEF
nbits: 12
- platform: template
name: Panasonic
turn_on_action:
remote_transmitter.transmit_panasonic:
address: 0x4004
command: 0x1000BCD
- platform: template
name: Pioneer
turn_on_action:
- remote_transmitter.transmit_pioneer:
rc_code_1: 0xA556
rc_code_2: 0xA506
repeat:
times: 2
- platform: template
name: RC Switch Raw
turn_on_action:
remote_transmitter.transmit_rc_switch_raw:
code: '00101001100111110101xxxx'
protocol: 1
- platform: template
name: RC Switch Type A
turn_on_action:
remote_transmitter.transmit_rc_switch_type_a:
group: '11001'
device: '01000'
state: True
protocol:
pulse_length: 175
sync: [1, 31]
zero: [1, 3]
one: [3, 1]
inverted: False
- platform: template
name: RC Switch Type B
turn_on_action:
remote_transmitter.transmit_rc_switch_type_b:
address: 4
channel: 2
state: True
- platform: template
name: RC Switch Type C
turn_on_action:
remote_transmitter.transmit_rc_switch_type_c:
family: 'a'
group: 1
device: 2
state: True
- platform: template
name: RC Switch Type D
turn_on_action:
remote_transmitter.transmit_rc_switch_type_d:
group: 'a'
device: 2
state: True
- platform: template
name: RC5
turn_on_action:
remote_transmitter.transmit_rc5:
address: 0x00
command: 0x0B
- platform: template
name: RC5
turn_on_action:
remote_transmitter.transmit_raw:
code: [1000, -1000]
- platform: template
name: Living Room Lights
id: livingroom_lights
optimistic: True
assumed_state: yes
turn_on_action:
- switch.turn_on: living_room_lights_on
- output.set_level:
id: gpio_19
level: 50%
- output.set_level:
id: gpio_19
level: !lambda 'return 0.5;'
- output.set_level:
id: dac_output
level: 50%
- output.set_level:
id: dac_output
level: !lambda 'return 0.5;'
- output.set_level:
id: mcp4725_dac_output
level: !lambda 'return 0.5;'
turn_off_action:
- switch.turn_on: living_room_lights_off
restore_state: False
on_turn_on:
- switch.template.publish:
id: livingroom_lights
state: yes
- platform: restart
name: 'Living Room Restart'
- platform: safe_mode
name: 'Living Room Restart (Safe Mode)'
- platform: shutdown
name: 'Living Room Shutdown'
- platform: output
name: 'Generic Output'
output: pca_6
- platform: template
name: 'Template Switch'
id: my_switch
lambda: |-
if (id(binary_sensor1).state) {
return true;
} else {
return {};
}
id(my_switch).publish_state(false);
id(my_switch).publish_state(true);
if (id(my_switch).state) {
// Switch is ON, do something here
id(my_switch).turn_off();
id(my_switch).turn_on();
} else {
// Switch is OFF, do something else here
}
optimistic: true
assumed_state: no
restore_state: True
on_turn_off:
- switch.template.publish:
id: my_switch
state: !lambda 'return false;'
- platform: uart
uart_id: uart0
name: 'UART String Output'
data: 'DataToSend'
- platform: uart
uart_id: uart0
name: 'UART Bytes Output'
data: [0xDE, 0xAD, 0xBE, 0xEF]
- platform: uart
uart_id: uart0
name: 'UART Recurring Output'
data: [0xDE, 0xAD, 0xBE, 0xEF]
send_every: 1s
- platform: template
assumed_state: yes
name: Stepper Switch
turn_on_action:
- stepper.set_target:
id: my_stepper
target: !lambda |-
static int32_t i = 0;
i += 1000;
if (i > 5000) {
i = -5000;
}
return i;
- stepper.report_position:
id: my_stepper
position: 0
- platform: gpio
name: 'SN74HC595 Pin #0'
pin:
sn74hc595: sn74hc595_hub
# Use pin number 0
number: 0
inverted: False
- platform: template
id: ble1_status
optimistic: true
fan:
- platform: binary
output: gpio_26
name: 'Living Room Fan 1'
oscillation_output: gpio_19
direction_output: gpio_26
- platform: speed
id: fan_speed
icon: mdi:weather-windy
output: pca_6
speed_count: 10
name: 'Living Room Fan 2'
oscillation_output: gpio_19
direction_output: gpio_26
oscillation_state_topic: oscillation/state/topic
oscillation_command_topic: oscillation/command/topic
speed_level_state_topic: speed_level/state/topic
speed_level_command_topic: speed_level/command/topic
speed_state_topic: speed/state/topic
speed_command_topic: speed/command/topic
on_speed_set:
then:
- logger.log: "Fan speed was changed!"
interval:
- interval: 10s
then:
- display.page.show: !lambda |-
if (true) return id(page1); else return id(page2);
- display.page.show_next: display1
- display.page.show_previous: display1
- interval: 2s
then:
- lambda: |-
static uint16_t btn_left_state = id(btn_left)->get_value();
ESP_LOGD("adaptive touch", "___ Touch Pad '%s' (T%u): val: %u state: %u tres:%u", id(btn_left)->get_name().c_str(), id(btn_left)->get_touch_pad(), id(btn_left)->get_value(), btn_left_state, id(btn_left)->get_threshold());
btn_left_state = ((uint32_t) id(btn_left)->get_value() + 63 * (uint32_t)btn_left_state) >> 6;
id(btn_left)->set_threshold(btn_left_state * 0.9);
- if:
condition:
display.is_displaying_page:
id: display1
page_id: page1
then:
- logger.log: 'Seeing page 1'
color:
- id: kbx_red
red: 100%
green_int: 123
blue: 2%
- id: kbx_blue
red: 0%
green: 1%
blue: 100%
display:
- platform: lcd_gpio
dimensions: 18x4
data_pins:
- GPIO19
- GPIO21
- GPIO22
- GPIO23
enable_pin: GPIO23
rs_pin: GPIO25
lambda: |-
it.print("Hello World!");
- platform: lcd_pcf8574
dimensions: 18x4
address: 0x3F
lambda: |-
it.print("Hello World!");
i2c_id: i2c_bus
- platform: max7219
cs_pin: GPIO23
num_chips: 1
lambda: |-
it.print("01234567");
- platform: tm1637
clk_pin: GPIO23
dio_pin: GPIO25
intensity: 3
lambda: |-
it.print("1234");
- platform: tm1637
clk_pin:
mcp23xxx: mcp23017_hub
number: 1
dio_pin:
mcp23xxx: mcp23017_hub
number: 2
intensity: 3
lambda: |-
it.print("1234");
- platform: pcd8544
cs_pin: GPIO23
dc_pin: GPIO23
reset_pin: GPIO23
contrast: 60
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- platform: ssd1306_i2c
model: 'SSD1306_128X64'
reset_pin: GPIO23
address: 0x3C
id: display1
contrast: 60%
pages:
- id: page1
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- id: page2
lambda: |-
// Nothing
on_page_change:
from: page1
to: page2
then:
lambda: |-
ESP_LOGD("display", "1 -> 2");
i2c_id: i2c_bus
- platform: ssd1306_spi
model: 'SSD1306 128x64'
cs_pin: GPIO23
dc_pin: GPIO23
reset_pin: GPIO23
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- platform: ssd1322_spi
model: 'SSD1322 256x64'
cs_pin: GPIO23
dc_pin: GPIO23
reset_pin: GPIO23
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- platform: ssd1325_spi
model: 'SSD1325 128x64'
cs_pin: GPIO23
dc_pin: GPIO23
reset_pin: GPIO23
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- platform: ssd1327_i2c
model: 'SSD1327 128X128'
reset_pin: GPIO23
address: 0x3D
id: display1327
brightness: 60%
pages:
- id: page13271
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- id: page13272
lambda: |-
// Nothing
i2c_id: i2c_bus
- platform: ssd1327_spi
model: 'SSD1327 128x128'
cs_pin: GPIO23
dc_pin: GPIO23
reset_pin: GPIO23
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- platform: ssd1331_spi
cs_pin: GPIO23
dc_pin: GPIO23
reset_pin: GPIO23
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- platform: ssd1351_spi
model: 'SSD1351 128x128'
cs_pin: GPIO23
dc_pin: GPIO23
reset_pin: GPIO23
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- platform: st7789v
cs_pin: GPIO5
dc_pin: GPIO16
reset_pin: GPIO23
backlight_pin: GPIO4
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- platform: st7920
width: 128
height: 64
cs_pin:
number: GPIO23
inverted: true
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
- platform: st7735
model: 'INITR_BLACKTAB'
cs_pin: GPIO5
dc_pin: GPIO16
reset_pin: GPIO23
rotation: 0
device_width: 128
device_height: 160
col_start: 0
row_start: 0
lambda: |-
it.rectangle(0, 0, it.get_width(), it.get_height());
tm1651:
id: tm1651_battery
clk_pin: GPIO23
dio_pin: GPIO23
remote_receiver:
pin: GPIO32
dump: all
status_led:
pin: GPIO2
pn532_spi:
id: pn532_bs
cs_pin: GPIO23
update_interval: 1s
on_tag:
- lambda: |-
ESP_LOGD("main", "Found tag %s", x.c_str());
- mqtt.publish:
topic: the/topic
payload: !lambda 'return x;'
on_tag_removed:
- lambda: |-
ESP_LOGD("main", "Removed tag %s", x.c_str());
- mqtt.publish:
topic: the/topic
payload: !lambda 'return x;'
pn532_i2c:
i2c_id: i2c_bus
rdm6300:
uart_id: uart0
rc522_spi:
cs_pin: GPIO23
update_interval: 1s
on_tag:
- lambda: |-
ESP_LOGD("main", "Found tag %s", x.c_str());
rc522_i2c:
- update_interval: 1s
on_tag:
- lambda: |-
ESP_LOGD("main", "Found tag %s", x.c_str());
i2c_id: i2c_bus
- update_interval: 1s
on_tag:
- lambda: |-
ESP_LOGD("main", "Found tag %s", x.c_str());
i2c_id: i2c_bus
gps:
uart_id: uart0
time:
- platform: sntp
id: sntp_time
servers:
- 0.pool.ntp.org
- 1.pool.ntp.org
- 192.168.178.1
on_time:
cron: '/30 0-30,30/5 * ? JAN-DEC MON,SAT-SUN,TUE-FRI'
then:
- lambda: 'ESP_LOGD("main", "time");'
- platform: gps
on_time_sync:
then:
ds1307.write_time:
id: ds1307_time
- platform: ds1307
id: ds1307_time
update_interval: never
on_time:
seconds: 0
then: ds1307.read_time
i2c_id: i2c_bus
cover:
- platform: template
name: 'Template Cover'
id: template_cover
lambda: |-
if (id(binary_sensor1).state) {
return COVER_OPEN;
} else {
return {};
}
optimistic: true
open_action:
- cover.template.publish:
id: template_cover
state: CLOSED
assumed_state: no
has_position: yes
position_state_topic: position/state/topic
position_command_topic: position/command/topic
tilt_lambda: !lambda 'return 0.5;'
tilt_state_topic: tilt/state/topic
tilt_command_topic: tilt/command/topic
on_open:
then:
- lambda: 'ESP_LOGD("cover", "open");'
on_closed:
then:
- lambda: 'ESP_LOGD("cover", "closed");'
- platform: am43
name: 'Test AM43'
id: am43_test
ble_client_id: ble_foo
icon: mdi:blinds
debug:
tca9548a:
- address: 0x70
id: multiplex0
channels:
- bus_id: multiplex0_chan0
channel: 0
i2c_id: i2c_bus
- address: 0x71
id: multiplex1
i2c_id: multiplex0_chan0
pcf8574:
- id: 'pcf8574_hub'
address: 0x21
pcf8575: False
i2c_id: i2c_bus
mcp23017:
- id: 'mcp23017_hub'
open_drain_interrupt: 'true'
i2c_id: i2c_bus
mcp23008:
- id: 'mcp23008_hub'
address: 0x22
open_drain_interrupt: 'true'
i2c_id: i2c_bus
mcp23016:
- id: 'mcp23016_hub'
address: 0x23
i2c_id: i2c_bus
stepper:
- platform: a4988
id: my_stepper
step_pin: GPIO23
dir_pin: GPIO25
sleep_pin: GPIO25
max_speed: 250 steps/s
acceleration: 100 steps/s^2
deceleration: 200 steps/s^2
globals:
- id: glob_int
type: int
restore_value: yes
initial_value: '0'
- id: glob_float
type: float
restore_value: yes
initial_value: '0.0f'
- id: glob_bool
type: bool
restore_value: no
initial_value: 'true'
- id: glob_string
type: std::string
restore_value: no
# initial_value: ""
text_sensor:
- platform: mqtt_subscribe
name: 'MQTT Subscribe Text'
topic: 'the/topic'
qos: 2
on_value:
- text_sensor.template.publish:
id: ${textname}_text
state: Hello World
- text_sensor.template.publish:
id: ${textname}_text
state: |-
return "Hello World2";
- globals.set:
id: glob_int
value: '0'
- canbus.send:
can_id: 23
data: [0x10, 0x20, 0x30]
- platform: template
name: Template Text Sensor
id: ${textname}_text
- platform: wifi_info
scan_results:
name: 'Scan Results'
ip_address:
name: 'IP Address'
ssid:
name: 'SSID'
bssid:
name: 'BSSID'
mac_address:
name: 'Mac Address'
- platform: version
name: 'ESPHome Version No Timestamp'
hide_timestamp: True
- platform: teleinfo
tag_name: "OPTARIF"
name: "optarif"
teleinfo_id: myteleinfo
sn74hc595:
- id: 'sn74hc595_hub'
data_pin: GPIO21
clock_pin: GPIO23
latch_pin: GPIO22
oe_pin: GPIO32
sr_count: 2
rtttl:
output: gpio_19
canbus:
- platform: mcp2515
cs_pin: GPIO17
can_id: 4
bit_rate: 50kbps
on_frame:
- can_id: 500
then:
- lambda: |-
std::string b(x.begin(), x.end());
ESP_LOGD("canid 500", "%s", &b[0] );
- can_id: 23
then:
- if:
condition:
lambda: 'return x[0] == 0x11;'
then:
light.toggle: ${roomname}_lights
teleinfo:
id: myteleinfo
uart_id: uart0
update_interval: 60s
historical_mode: true