esphome/tests/test3.yaml
Otto Winter e077ad56bd
Add PZEM004T/PZEMAC/PZEMDC Support (#587)
* Add PZEM004T Support

* Don't flush as much

* Update pzem004t.cpp

* Add generalized modbus

* Add PZEMAC

* Add PZEMDC

* Fix file modes

* Lint

* Fix

* Fix

* Add check_uart_settings
2019-10-20 19:24:20 +02:00

649 lines
14 KiB
YAML

esphome:
name: $devicename
comment: $devicecomment
platform: ESP8266
board: d1_mini
build_path: build/test3
on_boot:
- wait_until:
- api.connected
- wifi.connected
includes:
- custom.h
substitutions:
devicename: test3
devicecomment: test3 device
api:
port: 8000
password: 'pwd'
reboot_timeout: 0min
services:
- service: hello_world
variables:
name: string
then:
- logger.log:
format: 'Hello World %s!'
args:
- name.c_str()
- service: empty_service
then:
- logger.log: 'Service Called'
- service: all_types
variables:
bool_: bool
int_: int
float_: float
string_: string
then:
- logger.log: 'Something happened'
- stepper.set_target:
id: my_stepper2
target: !lambda 'return int_;'
- service: array_types
variables:
bool_arr: bool[]
int_arr: int[]
float_arr: float[]
string_arr: string[]
then:
- logger.log:
format: 'Bool: %s (%u), Int: %d (%u), Float: %f (%u), String: %s (%u)'
args:
- YESNO(bool_arr[0])
- bool_arr.size()
- int_arr[0]
- int_arr.size()
- float_arr[0]
- float_arr.size()
- string_arr[0].c_str()
- string_arr.size()
- service: dfplayer_next
then:
- dfplayer.play_next:
- service: dfplayer_previous
then:
- dfplayer.play_previous:
- service: dfplayer_play
variables:
file: int
then:
- dfplayer.play: !lambda 'return file;'
- service: dfplayer_play_loop
variables:
file: int
loop_: bool
then:
- dfplayer.play:
file: !lambda 'return file;'
loop: !lambda 'return loop_;'
- service: dfplayer_play_folder
variables:
folder: int
file: int
then:
- dfplayer.play_folder:
folder: !lambda 'return folder;'
file: !lambda 'return file;'
- service: dfplayer_play_loo_folder
variables:
folder: int
then:
- dfplayer.play_folder:
folder: !lambda 'return folder;'
loop: True
- service: dfplayer_set_device
variables:
device: int
then:
- dfplayer.set_device:
device: TF_CARD
- service: dfplayer_set_volume
variables:
volume: int
then:
- dfplayer.set_volume: !lambda 'return volume;'
- service: dfplayer_set_eq
variables:
preset: int
then:
- dfplayer.set_eq: !lambda 'return static_cast<dfplayer::EqPreset>(preset);'
- service: dfplayer_sleep
then:
- dfplayer.sleep
- service: dfplayer_reset
then:
- dfplayer.reset
- service: dfplayer_start
then:
- dfplayer.start
- service: dfplayer_pause
then:
- dfplayer.pause
- service: dfplayer_stop
then:
- dfplayer.stop
- service: dfplayer_random
then:
- dfplayer.random
wifi:
ssid: 'MySSID'
password: 'password1'
i2c:
sda: 4
scl: 5
scan: False
spi:
clk_pin: GPIO12
mosi_pin: GPIO13
miso_pin: GPIO14
uart:
tx_pin: GPIO1
rx_pin: GPIO3
baud_rate: 115200
ota:
safe_mode: True
port: 3286
logger:
hardware_uart: UART1
level: DEBUG
esp8266_store_log_strings_in_flash: false
web_server:
deep_sleep:
run_duration: 20s
sleep_duration: 50s
sensor:
- platform: apds9960
type: proximity
name: APDS9960 Proximity
- platform: apds9960
type: clear
name: APDS9960 Clear
- platform: apds9960
type: red
name: APDS9960 Red
- platform: apds9960
type: green
name: APDS9960 Green
- platform: apds9960
type: blue
name: APDS9960 Blue
- platform: homeassistant
entity_id: sensor.hello_world
id: ha_hello_world
- platform: am2320
temperature:
name: "Temperature"
humidity:
name: "Humidity"
- platform: adc
pin: VCC
id: my_sensor
filters:
- offset: 5.0
- multiply: 2.0
- filter_out: NAN
- sliding_window_moving_average:
- exponential_moving_average:
- lambda: 'return 0;'
- delta: 100
- throttle: 100ms
- debounce: 500s
- calibrate_linear:
- 0 -> 0
- 100 -> 100
- calibrate_polynomial:
degree: 3
datapoints:
- 0 -> 0
- 100 -> 200
- 400 -> 500
- -50 -> -1000
- -100 -> -10000
- platform: resistance
sensor: my_sensor
configuration: DOWNSTREAM
resistor: 10kΩ
reference_voltage: 3.3V
name: Resistance
id: resist
- platform: ntc
sensor: resist
name: NTC Sensor
calibration:
b_constant: 3950
reference_resistance: 10k
reference_temperature: 25°C
- platform: ntc
sensor: resist
name: NTC Sensor2
calibration:
- 10.0kOhm -> 25°C
- 27.219kOhm -> 0°C
- 14.674kOhm -> 15°C
- platform: ct_clamp
sensor: my_sensor
name: CT Clamp
sample_duration: 500ms
update_interval: 5s
- platform: tcs34725
red_channel:
name: Red Channel
green_channel:
name: Green Channel
blue_channel:
name: Blue Channel
clear_channel:
name: Clear Channel
illuminance:
name: Illuminance
color_temperature:
name: Color Temperature
integration_time: 700ms
gain: 60x
- platform: custom
lambda: |-
auto s = new CustomSensor();
App.register_component(s);
return {s};
sensors:
- id: custom_sensor
name: Custom Sensor
- platform: binary_sensor_map
name: Binary Sensor Map
type: group
channels:
- binary_sensor: bin1
value: 10.0
- binary_sensor: bin2
value: 15.0
- binary_sensor: bin3
value: 100.0
- platform: ade7953
voltage:
name: ADE7953 Voltage
current_a:
name: ADE7953 Current A
current_b:
name: ADE7953 Current B
active_power_a:
name: ADE7953 Active Power A
active_power_b:
name: ADE7953 Active Power B
- platform: pzem004t
voltage:
name: "PZEM00T Voltage"
current:
name: "PZEM004T Current"
power:
name: "PZEM004T Power"
- platform: pzemac
voltage:
name: "PZEMAC Voltage"
current:
name: "PZEMAC Current"
power:
name: "PZEMAC Power"
frequency:
name: "PZEMAC Frequency"
power_factor:
name: "PZEMAC Power Factor"
- platform: pzemdc
voltage:
name: "PZEMDC Voltage"
current:
name: "PZEMDC Current"
power:
name: "PZEMDC Power"
time:
- platform: homeassistant
apds9960:
address: 0x20
update_interval: 60s
mpr121:
id: mpr121_first
address: 0x5A
binary_sensor:
- platform: apds9960
direction: up
name: APDS9960 Up
device_class: motion
filters:
- invert
- delayed_on: 20ms
- delayed_off: 20ms
- lambda: 'return false;'
on_state:
- logger.log: New state
id: my_binary_sensor
- platform: apds9960
direction: down
name: APDS9960 Down
- platform: apds9960
direction: left
name: APDS9960 Left
- platform: apds9960
direction: right
name: APDS9960 Right
- platform: homeassistant
entity_id: binary_sensor.hello_world
id: ha_hello_world_binary
- platform: mpr121
id: touchkey0
channel: 0
name: "touchkey0"
- platform: mpr121
channel: 1
name: "touchkey1"
id: bin1
- platform: mpr121
channel: 2
name: "touchkey2"
id: bin2
- platform: mpr121
channel: 3
name: "touchkey3"
id: bin3
on_press:
then:
- switch.toggle: mpr121_toggle
- platform: ttp229_lsf
channel: 1
name: TTP229 LSF Test
- platform: ttp229_bsf
channel: 1
name: TTP229 BSF Test
- platform: custom
lambda: |-
auto s = new CustomBinarySensor();
App.register_component(s);
return {s};
binary_sensors:
- id: custom_binary_sensor
name: Custom Binary Sensor
globals:
- id: my_global_string
type: std::string
initial_value: '""'
remote_receiver:
pin: GPIO12
dump: []
status_led:
pin: GPIO2
text_sensor:
- platform: version
name: "ESPHome Version"
icon: mdi:icon
id: version_sensor
on_value:
- lambda: !lambda |-
ESP_LOGD("main", "The state is %s=%s", x.c_str(), id(version_sensor).state.c_str());
- script.execute: my_script
- script.wait: my_script
- script.stop: my_script
- homeassistant.service:
service: notify.html5
data:
title: New Humidity
data_template:
message: The humidity is {{ my_variable }}%.
variables:
my_variable: |-
return id(version_sensor).state;
- platform: template
name: "Template Text Sensor"
lambda: |-
return {"Hello World"};
- platform: homeassistant
entity_id: sensor.hello_world2
id: ha_hello_world2
- platform: custom
lambda: |-
auto s = new CustomTextSensor();
App.register_component(s);
return {s};
text_sensors:
- id: custom_text_sensor
name: Custom Text Sensor
script:
- id: my_script
then:
- lambda: 'ESP_LOGD("main", "Hello World!");'
switch:
- platform: template
name: "mpr121_toggle"
id: mpr121_toggle
optimistic: True
- platform: gpio
id: gpio_switch1
pin:
mcp23017: mcp23017_hub
number: 0
mode: OUTPUT
interlock: &interlock [gpio_switch1, gpio_switch2, gpio_switch3]
- platform: gpio
id: gpio_switch2
pin:
mcp23008: mcp23008_hub
number: 0
mode: OUTPUT
interlock: *interlock
- platform: gpio
id: gpio_switch3
pin: GPIO1
interlock: *interlock
- platform: custom
lambda: |-
auto s = new CustomSwitch();
return {s};
switches:
- id: custom_switch
name: Custom Switch
custom_component:
lambda: |-
auto s = new CustomComponent();
s->set_update_interval(15000);
return {s};
stepper:
- platform: uln2003
id: my_stepper
pin_a: GPIO12
pin_b: GPIO13
pin_c: GPIO14
pin_d: GPIO15
sleep_when_done: no
step_mode: HALF_STEP
max_speed: 250 steps/s
acceleration: inf
deceleration: inf
- platform: a4988
id: my_stepper2
step_pin: GPIO1
dir_pin: GPIO2
max_speed: 0.1 steps/s
acceleration: 10 steps/s^2
deceleration: 10 steps/s^2
interval:
interval: 5s
then:
- logger.log: "Interval Run"
- stepper.set_target:
id: my_stepper2
target: 500
- stepper.set_target:
id: my_stepper
target: !lambda 'return 0;'
- stepper.report_position:
id: my_stepper2
position: 0
- stepper.report_position:
id: my_stepper
position: !lambda 'return 50/100.0;'
climate:
- platform: bang_bang
name: Bang Bang Climate
sensor: ha_hello_world
default_target_temperature_low: 18°C
default_target_temperature_high: 24°C
idle_action:
- switch.turn_on: gpio_switch1
cool_action:
- switch.turn_on: gpio_switch2
heat_action:
- switch.turn_on: gpio_switch1
away_config:
default_target_temperature_low: 16°C
default_target_temperature_high: 20°C
cover:
- platform: endstop
name: Endstop Cover
stop_action:
- switch.turn_on: gpio_switch1
open_endstop: my_binary_sensor
open_action:
- switch.turn_on: gpio_switch1
open_duration: 5min
close_endstop: my_binary_sensor
close_action:
- switch.turn_on: gpio_switch2
- output.set_level:
id: out
level: 50%
- output.esp8266_pwm.set_frequency:
id: out
frequency: 500.0Hz
- output.esp8266_pwm.set_frequency:
id: out
frequency: !lambda 'return 500.0;'
- servo.write:
id: my_servo
level: -100%
- servo.write:
id: my_servo
level: !lambda 'return -1.0;'
- delay: 2s
- servo.detach: my_servo
close_duration: 4.5min
max_duration: 10min
- platform: time_based
name: Time Based Cover
stop_action:
- switch.turn_on: gpio_switch1
open_action:
- switch.turn_on: gpio_switch1
open_duration: 5min
close_action:
- switch.turn_on: gpio_switch2
close_duration: 4.5min
- platform: template
name: Template Cover with Tilt
tilt_lambda: "return 0.5;"
tilt_action:
- output.set_level:
id: out
level: !lambda "return tilt;"
output:
- platform: esp8266_pwm
id: out
pin: D3
frequency: 50Hz
- platform: custom
type: binary
lambda: |-
auto s = new CustomBinaryOutput();
App.register_component(s);
return {s};
outputs:
- id: custom_binary
- platform: custom
type: float
lambda: |-
auto s = new CustomFloatOutput();
App.register_component(s);
return {s};
outputs:
- id: custom_float
mcp23017:
id: mcp23017_hub
mcp23008:
id: mcp23008_hub
light:
- platform: neopixelbus
name: Neopixelbus Light
pin: GPIO1
type: GRBW
variant: SK6812
method: ESP8266_UART0
num_leds: 100
servo:
id: my_servo
output: out
ttp229_lsf:
ttp229_bsf:
sdo_pin: D0
scl_pin: D1
sim800l:
on_sms_received:
- lambda: |-
std::string str;
str = sender;
str = message;
- sim800l.send_sms:
message: 'hello you'
recipient: '+1234'
dfplayer:
on_finished_playback:
then:
if:
condition:
not:
dfplayer.is_playing
then:
logger.log: 'Playback finished event'