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air-gradient-open-air.yaml
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air-gradient-open-air.yaml
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# Airgradient Open Air Outdoor v1.1 presoldered
#
# @llamagecko, @Hendrik, @spectrumjade, and @ex-nerd from AirGradient forum
# did most of the work for this integration, see the following thread:
# https://forum.airgradient.com/t/outdoor-monitor-esphome-configuration/823
#
# Upstream AirGradient Firmware can be found here:
# https://github.com/airgradienthq/arduino/blob/master/examples/DIY_OUTDOOR_C3/DIY_OUTDOOR_C3.ino
#
substitutions:
id: "1"
devicename: "airgradient-open-air"
# WARNING: upper_devicename is component of SSID which is limited to 32 characters
upper_devicename: "AirGradient Open Air"
# Only trigger the particle sensor every 3 minutes so it can go into sleep mode and extend its operational lifetime.
# Here as a substitution mostly to ensure consistent use in this file (several calculations rely on this 3min value).
pm_update_interval: "3min"
globals:
- id: aqi_delay_mins
type: int
restore_value: no
# AQI is calculated over a 24 hour minimum, but EPA says it's acceptable to
# report at 75%, or 18 hours: https://forum.airnowtech.org/t/aqi-calculations-overview-ozone-pm2-5-and-pm10/168
initial_value: '1080'
- id: nowcast_delay_mins
type: int
restore_value: no
# NowCast is calculated over a 12 hour period
initial_value: '720'
- id: pm_2_5_hourly_avg
type: std::vector<float>
restore_value: no
- id: pm_10_0_hourly_avg
type: std::vector<float>
restore_value: no
esphome:
name: "${devicename}-${id}"
friendly_name: "${upper_devicename} ${id}"
# Automatically add the mac address to the name
# so you can use a single firmware for all devices
# name_add_mac_suffix: true
platform: esp32
board: esp32-c3-devkitm-1
# Enable logging?
logger:
baud_rate: 0
# Enable Home Assistant API (API password is deprecated in favor of encryption key)
# https://esphome.io/components/api.html
api:
encryption:
key: !secret home_assistant_encryption_key
ota:
password: !secret ota_password
wifi:
networks:
- ssid: !secret wifi_ssid
password: !secret wifi_password
reboot_timeout: 15min
# Enable fallback hotspot (captive portal) in case wifi connection fails
ap:
ssid: "${upper_devicename} Hotspot"
password: !secret fallback_ssid_password
# The captive portal is a fallback mechanism for when connecting to the configured WiFi fails.
# https://esphome.io/components/captive_portal.html
captive_portal:
# Used to support POST request to send data to AirGradient
# https://esphome.io/components/http_request.html
http_request:
# Creates a simple web server on the node that can be accessed through any browser
# https://esphome.io/components/web_server.html
# Turn on the webserver so we can connect and look at raw stats
web_server:
port: 80
include_internal: true
# Create a switch for safe_mode in order to flash the device
# Solution from this thread:
# https://community.home-assistant.io/t/esphome-flashing-over-wifi-does-not-work/357352/1
switch:
- platform: safe_mode
name: "Flash Mode (Safe Mode)"
icon: "mdi:cellphone-arrow-down"
button:
- platform: restart
id: button_restart
name: "Restart"
disabled_by_default: true
output:
- platform: gpio
id: watchdog
pin: GPIO2
script:
- id: calculate_aqi
mode: restart # restart script if called while it's still running (because we run it after pm2.5 and pm10 sensors)
then:
- lambda: |
// AQI is calculated over a 24 hour minimum, but EPA says it's acceptable to
// report at 75%, or 18 hours: https://forum.airnowtech.org/t/aqi-calculations-overview-ozone-pm2-5-and-pm10/168
int hours_to_wait = 18;
// https://en.wikipedia.org/wiki/Air_quality_index#Computing_the_AQI
int aqi_2_5 = -1;
int size_2_5 = id(pm_2_5_hourly_avg).size();
if (size_2_5 >= hours_to_wait) {
float sum = 0.0;
for (int i = 0; i < size_2_5; i++) {
sum += id(pm_2_5_hourly_avg)[i];
}
float pm25 = sum / (float)size_2_5;
if (pm25 < 12.0) {
aqi_2_5 = (50.0 - 0.0) / (12.0 - 0.0) * (pm25 - 0.0) + 0.0;
} else if (pm25 < 35.4) {
aqi_2_5 = (100.0 - 51.0) / (35.4 - 12.1) * (pm25 - 12.1) + 51.0;
} else if (pm25 < 55.4) {
aqi_2_5 = (150.0 - 101.0) / (55.4 - 35.5) * (pm25 - 35.5) + 101.0;
} else if (pm25 < 150.4) {
aqi_2_5 = (200.0 - 151.0) / (150.4 - 55.5) * (pm25 - 55.5) + 151.0;
} else if (pm25 < 250.4) {
aqi_2_5 = (300.0 - 201.0) / (250.4 - 150.5) * (pm25 - 150.5) + 201.0;
} else if (pm25 < 350.4) {
aqi_2_5 = (400.0 - 301.0) / (350.4 - 250.5) * (pm25 - 250.5) + 301.0;
} else if (pm25 < 500.4) {
aqi_2_5 = (500.0 - 401.0) / (500.4 - 350.5) * (pm25 - 350.5) + 401.0;
} else {
aqi_2_5 = 500; // everything higher is just counted as 500
}
} else {
ESP_LOGD("custom", "Skipping pm2.5 AQI calculation. %d hours remaining.", hours_to_wait - size_2_5);
}
int aqi_10_0 = -1;
int size_10_0 = id(pm_10_0_hourly_avg).size();
if (size_10_0 >= hours_to_wait) {
float sum = 0.0;
for (int i = 0; i < size_10_0; i++) {
sum += id(pm_10_0_hourly_avg)[i];
}
float pm10 = sum / (float)size_10_0;
if (pm10 < 54.0) {
aqi_10_0 = (50.0 - 0.0) / (54.0 - 0.0) * (pm10 - 0.0) + 0.0;
} else if (pm10 < 154.0) {
aqi_10_0 = (100.0 - 51.0) / (154.0 - 55.0) * (pm10 - 55.0) + 51.0;
} else if (pm10 < 254.0) {
aqi_10_0 = (150.0 - 101.0) / (254.0 - 155.0) * (pm10 - 155.0) + 101.0;
} else if (pm10 < 354.0) {
aqi_10_0 = (200.0 - 151.0) / (354.0 - 255.0) * (pm10 - 255.0) + 151.0;
} else if (pm10 < 424.0) {
aqi_10_0 = (300.0 - 201.0) / (424.0 - 355.0) * (pm10 - 355.0) + 201.0;
} else if (pm10 < 504.0) {
aqi_10_0 = (400.0 - 301.0) / (504.0 - 425.0) * (pm10 - 425.0) + 301.0;
} else if (pm10 < 604) {
aqi_10_0 = (500.0 - 401.0) / (604.0 - 505.0) * (pm10 - 505.0) + 401.0;
} else {
aqi_10_0 = 500; // everything higher is just counted as 500
}
} else {
ESP_LOGD("custom", "Skipping pm10 AQI calculation. %d hours remaining.", hours_to_wait - size_10_0);
}
int aqi_calc = std::max(aqi_2_5, aqi_10_0);
if (aqi_calc > 0) {
id(aqi).publish_state(aqi_calc);
// Just in case we're counting down, make sure we set to zero
id(aqi_delay_mins) = 0;
if (id(aqi_delay_mins) > 0) {
id(aqi_delay_mins) = 0;
id(aqi_mins_remaining).publish_state(0);
}
// And now publish the category string
if (aqi_calc <= 50.0) {
id(aqi_category).publish_state("Good");
} else if (aqi_calc <= 100.0) {
id(aqi_category).publish_state("Moderate");
} else if (aqi_calc <= 150.0) {
id(aqi_category).publish_state("Unhealthy for Sensitive Groups");
} else if (aqi_calc <= 200.0) {
id(aqi_category).publish_state("Unhealthy");
} else if (aqi_calc <= 300.0) {
id(aqi_category).publish_state("Very Unhealthy");
} else if (aqi_calc <= 400.0) {
id(aqi_category).publish_state("Hazardous");
} else if (aqi_calc <= 500.0) {
id(aqi_category).publish_state("Hazardous"); // again
} else {
id(aqi_category).publish_state("Hazardous"); // and again
}
} else {
int remaining_hours = hours_to_wait - std::max(size_2_5, size_10_0);
ESP_LOGD("custom", "No AQI calculations available. %d hours remaining.", remaining_hours);
// Intervals don't quite overlap with the sensor notification windows,
// so let's readjust this just in case it's fallen out of sync.
id(aqi_delay_mins) = 60 * remaining_hours;
id(aqi_mins_remaining).publish_state(60 * remaining_hours);
}
- id: calculate_nowcast
mode: restart # restart script if called while it's still running
then:
# https://forum.airnowtech.org/t/the-nowcast-for-pm2-5-and-pm10/172
- lambda: |
// NowCast is always calculated over 12 hours, but this is extracted here
// to make debugging easier.
int hours_to_wait = 12;
int nowcast_2_5 = -1;
int size_2_5 = id(pm_2_5_hourly_avg).size();
if (size_2_5 > 12) {
size_2_5 = 12;
}
if (size_2_5 >= hours_to_wait) {
// if (size_2_5 >= 12) {
// Calculate min and max
float max = 0.0;
float min = 31337.0; // just a random large number
for (int i = 0; i < size_2_5; i++) {
float pm = id(pm_2_5_hourly_avg)[i];
if (pm < min) {
min = pm;
}
if (pm > max) {
max = pm;
}
}
// Calculate the weight factor
float range = max - min;
float rate = range / max;
float weight_factor = 1.0 - range;
if (weight_factor < 0.5) {
weight_factor = 0.5;
} else if (weight_factor > 1.0) {
weight_factor = 1.0;
}
float pm_sum = 0.0;
float weight_sum = 0.0;
for (int i = 0; i < size_2_5; i++) {
float weight_pow = pow(weight_factor, i);
pm_sum += id(pm_2_5_hourly_avg)[i] * weight_pow;
weight_sum += weight_pow;
}
float pm25 = pm_sum / weight_sum;
// https://en.wikipedia.org/wiki/Air_quality_index#Computing_the_AQI
if (pm25 < 12.0) {
nowcast_2_5 = (50.0 - 0.0) / (12.0 - 0.0) * (pm25 - 0.0) + 0.0;
} else if (pm25 < 35.4) {
nowcast_2_5 = (100.0 - 51.0) / (35.4 - 12.1) * (pm25 - 12.1) + 51.0;
} else if (pm25 < 55.4) {
nowcast_2_5 = (150.0 - 101.0) / (55.4 - 35.5) * (pm25 - 35.5) + 101.0;
} else if (pm25 < 150.4) {
nowcast_2_5 = (200.0 - 151.0) / (150.4 - 55.5) * (pm25 - 55.5) + 151.0;
} else if (pm25 < 250.4) {
nowcast_2_5 = (300.0 - 201.0) / (250.4 - 150.5) * (pm25 - 150.5) + 201.0;
} else if (pm25 < 350.4) {
nowcast_2_5 = (400.0 - 301.0) / (350.4 - 250.5) * (pm25 - 250.5) + 301.0;
} else if (pm25 < 500.4) {
nowcast_2_5 = (500.0 - 401.0) / (500.4 - 350.5) * (pm25 - 350.5) + 401.0;
} else {
// everything higher is just counted as 500
nowcast_2_5 = 500;
}
} else {
ESP_LOGD("custom", "Skipping pm2.5 NowCast calculation. %d hours remaining.", hours_to_wait - size_2_5);
}
int nowcast_10_0 = -1;
int size_10_0 = id(pm_10_0_hourly_avg).size();
if (size_10_0 > 12) {
size_10_0 = 12;
}
if (size_10_0 >= hours_to_wait) {
// if (size_10_0 >= 12) {
// Calculate min and max
float max = 0.0;
float min = 31337.0; // just a random large number
for (int i = 0; i < size_10_0; i++) {
float pm = id(pm_10_0_hourly_avg)[i];
if (pm < min) {
min = pm;
}
if (pm > max) {
max = pm;
}
}
// Calculate the weight factor
float range = max - min;
float rate = range / max;
float weight_factor = 1.0 - range;
if (weight_factor < 0.5) {
weight_factor = 0.5;
} else if (weight_factor > 1.0) {
weight_factor = 1.0;
}
float pm_sum = 0.0;
float weight_sum = 0.0;
for (int i = 0; i < size_10_0; i++) {
float weight_pow = pow(weight_factor, i);
pm_sum += id(pm_10_0_hourly_avg)[i] * weight_pow;
weight_sum += weight_pow;
}
float pm10 = pm_sum / weight_sum;
// https://en.wikipedia.org/wiki/Air_quality_index#Computing_the_AQI
if (pm10 < 54.0) {
nowcast_10_0 = (50.0 - 0.0) / (54.0 - 0.0) * (pm10 - 0.0) + 0.0;
} else if (pm10 < 154.0) {
nowcast_10_0 = (100.0 - 51.0) / (154.0 - 55.0) * (pm10 - 55.0) + 51.0;
} else if (pm10 < 254.0) {
nowcast_10_0 = (150.0 - 101.0) / (254.0 - 155.0) * (pm10 - 155.0) + 101.0;
} else if (pm10 < 354.0) {
nowcast_10_0 = (200.0 - 151.0) / (354.0 - 255.0) * (pm10 - 255.0) + 151.0;
} else if (pm10 < 424.0) {
nowcast_10_0 = (300.0 - 201.0) / (424.0 - 355.0) * (pm10 - 355.0) + 201.0;
} else if (pm10 < 504.0) {
nowcast_10_0 = (400.0 - 301.0) / (504.0 - 425.0) * (pm10 - 425.0) + 301.0;
} else if (pm10 < 604) {
nowcast_10_0 = (500.0 - 401.0) / (604.0 - 505.0) * (pm10 - 505.0) + 401.0;
} else {
// everything higher is just counted as 500
nowcast_10_0 = 500.0;
}
} else {
ESP_LOGD("custom", "Skipping pm10 NowCast calculation. %d hours remaining.", hours_to_wait - size_10_0);
}
int nowcast_calc = std::max(nowcast_2_5, nowcast_10_0);
if (nowcast_calc > 0) {
id(nowcast).publish_state(nowcast_calc);
// Just in case we're counting down, make sure we set to zero
if (id(nowcast_delay_mins) > 0) {
id(nowcast_delay_mins) = 0;
id(nowcast_mins_remaining).publish_state(0);
}
// And now publish the category string
if (nowcast_calc <= 50.0) {
id(nowcast_category).publish_state("Good");
} else if (nowcast_calc <= 100.0) {
id(nowcast_category).publish_state("Moderate");
} else if (nowcast_calc <= 150.0) {
id(nowcast_category).publish_state("Unhealthy for Sensitive Groups");
} else if (nowcast_calc <= 200.0) {
id(nowcast_category).publish_state("Unhealthy");
} else if (nowcast_calc <= 300.0) {
id(nowcast_category).publish_state("Very Unhealthy");
} else if (nowcast_calc <= 400.0) {
id(nowcast_category).publish_state("Hazardous");
} else if (nowcast_calc <= 500.0) {
id(nowcast_category).publish_state("Hazardous"); // again
} else {
id(nowcast_category).publish_state("Hazardous"); // and again
}
} else {
int remaining_hours = hours_to_wait - std::max(size_2_5, size_10_0);
ESP_LOGD("custom", "No NowCast calculations available. %d hours remaining.", remaining_hours);
// Intervals don't quite overlap with the sensor notification windows,
// so let's readjust this just in case it's fallen out of sync.
id(nowcast_delay_mins) = 60 * remaining_hours;
id(nowcast_mins_remaining).publish_state(60 * remaining_hours);
}
interval:
# Reset hardware watchdog. This varies between hardware. 3min should be plenty.
- interval: 3min
then:
- output.turn_on: watchdog
- delay: 20ms
- output.turn_off: watchdog
# Send data to AirGradient API server
# for more details have a look at sendToServer() function:
# https://www.airgradient.com/open-airgradient/blog/airgradient-diy-pro-instructions/
- interval: 5min
then:
- http_request.post:
# AirGradient URL with full MAC address in Hex format all lower case
url: !lambda |
return "http://hw.airgradient.com/sensors/airgradient:" + get_mac_address() + "/measures";
headers:
Content-Type: application/json
# "!lambda return to_string(id(pm2).state);" Converts sensor output from double to string
# Note: can't use the built-in json encoder here because it does not support nested objects.
body: !lambda |
String jsonString;
StaticJsonDocument<1024> doc;
doc["wifi"] = id(airgradient_wifi_signal).state;
doc["pm01"] = to_string(id(pm_1_0).state);
doc["pm02"] = to_string(id(pm_2_5).state);
doc["pm10"] = to_string(id(pm_10_0).state);
doc["pm003_count"] = to_string(id(pm_0_3um).state);
doc["atmp"] = to_string(id(temperature).state);
doc["rhum"] = to_string(id(humidity).state);
// We don't have access to the boot loop counter in esphome, so just send a 1
// See: https://github.com/esphome/issues/issues/1539
doc["boot"] = "1";
JsonObject channels = doc.createNestedObject("channels");
JsonObject channels_1 = channels.createNestedObject("1");
channels_1["pm01"] = to_string(id(pm1_1_0).state);
channels_1["pm02"] = to_string(id(pm1_2_5).state);
channels_1["pm10"] = to_string(id(pm1_10_0).state);
channels_1["pm003_count"] = to_string(id(pm1_0_3um).state);
channels_1["atmp"] = to_string(id(pm1_temperature).state);
channels_1["rhum"] = to_string(id(pm1_humidity).state);
JsonObject channels_2 = channels.createNestedObject("2");
channels_2["pm01"] = to_string(id(pm2_1_0).state);
channels_2["pm02"] = to_string(id(pm2_2_5).state);
channels_2["pm10"] = to_string(id(pm2_10_0).state);
channels_2["pm003_count"] = to_string(id(pm2_0_3um).state);
channels_2["atmp"] = to_string(id(pm2_temperature).state);
channels_2["rhum"] = to_string(id(pm2_humidity).state);
// Serialize the JSON document into the string
serializeJson(doc, jsonString);
// Convert String to std::string
std::string stdJsonString(jsonString.c_str());
return stdJsonString;
# Decrement the AQI countdowns once per minute until they reach zero
- interval: 1min
then:
- lambda: |
if (id(aqi_delay_mins) > 0) {
id(aqi_delay_mins) -= 1;
id(aqi_mins_remaining).publish_state(id(aqi_delay_mins));
}
if (id(nowcast_delay_mins) > 0) {
id(nowcast_delay_mins) -= 1;
id(nowcast_mins_remaining).publish_state(id(nowcast_delay_mins));
}
light:
- platform: status_led
name: "Status LED"
pin: GPIO10
binary_sensor:
- platform: gpio
name: "Button"
pin:
number: GPIO9
inverted: true
mode:
input: true
pullup: true
on_click:
min_length: 5s
max_length: 30s
then:
- button.press: button_restart
i2c:
sda: GPIO7 # Pin 21
scl: GPIO6 # Pin 20
scan: false
uart:
- id: uart_pm1
baud_rate: 9600
rx_pin: GPIO20 # Pin 30 / RXD0
tx_pin: GPIO21 # Pin 31 / TXD0
- id: uart_pm2
baud_rate: 9600
rx_pin: GPIO0 # Pin 12
tx_pin: GPIO1 # Pin 13
text_sensor:
- platform: template
id: aqi_category
name: "${upper_devicename} AQI Category"
icon: "mdi:weather-windy-variant"
update_interval: 15min
- platform: template
id: nowcast_category
name: "${upper_devicename} NowCast Category"
icon: "mdi:weather-windy-variant"
update_interval: 15min
sensor:
- platform: pmsx003
type: PMS5003T
uart_id: uart_pm1
update_interval: $pm_update_interval
pm_1_0:
id: pm1_1_0
name: "${upper_devicename} Particulate Matter <1.0µm Concentration (1)"
disabled_by_default: true
pm_2_5:
id: pm1_2_5
name: "${upper_devicename} Particulate Matter <2.5µm Concentration (1)"
disabled_by_default: true
pm_10_0:
id: pm1_10_0
name: "${upper_devicename} Particulate Matter <10.0µm Concentration (1)"
disabled_by_default: true
pm_0_3um:
id: pm1_0_3um
name: "${upper_devicename} Particulate Matter >0.3µm Count (1)"
disabled_by_default: true
pm_0_5um:
id: pm1_0_5um
name: "${upper_devicename} Particulate Matter >0.5µm Count (1)"
disabled_by_default: true
pm_1_0um:
id: pm1_1_0um
name: "${upper_devicename} Particulate Matter >1.0µm Count (1)"
disabled_by_default: true
pm_2_5um:
id: pm1_2_5um
name: "${upper_devicename} Particulate Matter >2.5µm Count (1)"
disabled_by_default: true
temperature:
id: pm1_temperature
name: "${upper_devicename} Temperature (1)"
disabled_by_default: true
humidity:
id: pm1_humidity
accuracy_decimals: 1
name: "${upper_devicename} Relative Humidity (1)"
disabled_by_default: true
- platform: pmsx003
type: PMS5003T
uart_id: uart_pm2
update_interval: $pm_update_interval
pm_1_0:
id: pm2_1_0
name: "${upper_devicename} Particulate Matter <1.0µm Concentration (2)"
disabled_by_default: true
pm_2_5:
id: pm2_2_5
name: "${upper_devicename} Particulate Matter <2.5µm Concentration (2)"
disabled_by_default: true
pm_10_0:
id: pm2_10_0
name: "${upper_devicename} Particulate Matter <10.0µm Concentration (2)"
disabled_by_default: true
pm_0_3um:
id: pm2_0_3um
name: "${upper_devicename} Particulate Matter >0.3µm Count (2)"
disabled_by_default: true
pm_0_5um:
id: pm2_0_5um
name: "${upper_devicename} Particulate Matter >0.5µm Count (2)"
disabled_by_default: true
pm_1_0um:
id: pm2_1_0um
name: "${upper_devicename} Particulate Matter >1.0µm Count (2)"
disabled_by_default: true
pm_2_5um:
id: pm2_2_5um
name: "${upper_devicename} Particulate Matter >2.5µm Count (2)"
disabled_by_default: true
temperature:
id: pm2_temperature
name: "${upper_devicename} Temperature (2)"
disabled_by_default: true
humidity:
id: pm2_humidity
accuracy_decimals: 1
name: "${upper_devicename} Relative Humidity (2)"
disabled_by_default: true
# Calculate the average values across both PMS5003T sensors
- platform: template
id: temperature
name: "${upper_devicename} Temperature"
icon: mdi:thermometer
device_class: temperature
state_class: "measurement"
accuracy_decimals: 1
unit_of_measurement: "°C"
lambda: return (id(pm1_temperature).state + id(pm2_temperature).state) / 2.0;
- platform: template
id: humidity
name: "${upper_devicename} Relative Humidity"
icon: mdi:water-percent
device_class: humidity
state_class: "measurement"
accuracy_decimals: 1
unit_of_measurement: "%"
lambda: return (id(pm1_humidity).state + id(pm2_humidity).state) / 2.0;
- platform: template
id: pm_1_0
name: "${upper_devicename} Particulate Matter <1.0µm Concentration"
icon: mdi:chemical-weapon
device_class: pm1
state_class: "measurement"
accuracy_decimals: 0
unit_of_measurement: µg/m³
update_interval: $pm_update_interval
lambda: return (id(pm1_1_0).state + id(pm2_1_0).state) / 2.0;
- platform: template
id: pm_2_5
name: "${upper_devicename} Particulate Matter <2.5µm Concentration"
icon: mdi:chemical-weapon
device_class: pm25
state_class: "measurement"
accuracy_decimals: 0
unit_of_measurement: µg/m³
update_interval: $pm_update_interval
lambda: return (id(pm1_2_5).state + id(pm2_2_5).state) / 2.0;
- platform: template
id: pm_10_0
name: "${upper_devicename} Particulate Matter <10.0µm Concentration"
icon: mdi:chemical-weapon
device_class: pm10
state_class: "measurement"
accuracy_decimals: 0
unit_of_measurement: µg/m³
update_interval: $pm_update_interval
lambda: return (id(pm1_10_0).state + id(pm2_10_0).state) / 2.0;
- platform: template
id: pm_0_3um
name: "${upper_devicename} Particulate Matter >0.3µm Count"
icon: mdi:blur
accuracy_decimals: 0
state_class: "measurement"
unit_of_measurement: /dL
update_interval: $pm_update_interval
lambda: return (id(pm1_0_3um).state + id(pm2_0_3um).state) / 2.0;
- platform: template
id: pm_0_5um
name: "${upper_devicename} Particulate Matter >0.5µm Count"
icon: mdi:blur
accuracy_decimals: 0
state_class: "measurement"
unit_of_measurement: /dL
update_interval: $pm_update_interval
lambda: return (id(pm1_0_5um).state + id(pm2_0_5um).state) / 2.0;
- platform: template
id: pm_1_0um
name: "${upper_devicename} Particulate Matter >1.0µm Count"
icon: mdi:blur
accuracy_decimals: 0
state_class: "measurement"
unit_of_measurement: /dL
update_interval: $pm_update_interval
lambda: return (id(pm1_1_0um).state + id(pm2_1_0um).state) / 2.0;
- platform: template
id: pm_2_5um
name: "${upper_devicename} Particulate Matter >2.5µm Count"
icon: mdi:blur
accuracy_decimals: 0
state_class: "measurement"
unit_of_measurement: /dL
update_interval: $pm_update_interval
lambda: return (id(pm1_2_5um).state + id(pm2_2_5um).state) / 2.0;
- platform: wifi_signal
id: airgradient_wifi_signal
name: "Wifi Strength"
state_class: "measurement"
update_interval: 1min
- platform: uptime
id: uptime_sensor
name: "Uptime Sensor"
update_interval: 1min
- platform: template
id: aqi
name: "${upper_devicename} AQI"
device_class: aqi
state_class: "measurement"
icon: "mdi:weather-windy-variant"
accuracy_decimals: 0
- platform: template
id: nowcast
name: "${upper_devicename} NowCast"
device_class: aqi
state_class: "measurement"
icon: "mdi:weather-windy-variant"
accuracy_decimals: 0
- platform: template
id: aqi_mins_remaining
name: "AQI: Minutes Remaining"
icon: mdi:timer-sand
accuracy_decimals: 0
unit_of_measurement: minutes
- platform: template
id: nowcast_mins_remaining
name: "NowCast: Minutes Remaining"
icon: mdi:timer-sand
accuracy_decimals: 0
unit_of_measurement: minutes
- platform: copy
source_id: pm_2_5
id: pm_2_5_1h_avg
name: "${upper_devicename} PM <2.5µm 1h Average"
disabled_by_default: true
device_class: pm25
accuracy_decimals: 1
filters:
- sliding_window_moving_average:
window_size: 20 # every 3 minutes = 1 hour
send_every: 20
send_first_at: 20
on_value:
lambda: |
// Insert the current value
float current = id(pm_2_5_1h_avg).state;
if (!isnan(current)) {
id(pm_2_5_hourly_avg).insert(id(pm_2_5_hourly_avg).begin(), current);
// Truncate anything past the first 24
if (id(pm_2_5_hourly_avg).size() > 24) {
id(pm_2_5_hourly_avg).resize(24);
}
}
ESP_LOGD("custom", "pm_2_5_hourly_avg size: %d", id(pm_2_5_hourly_avg).size());
// Trigger the AQI calculations (they'll restart if the pm10 finishes slightly later)
id(calculate_nowcast).execute();
id(calculate_aqi).execute();
- platform: copy
source_id: pm_10_0
id: pm_10_0_1h_avg
name: "${upper_devicename} PM <10.0µm 1h Average"
disabled_by_default: true
device_class: pm10
accuracy_decimals: 1
filters:
- sliding_window_moving_average:
window_size: 20 # every 3 minutes = 1 hour
send_every: 20
send_first_at: 20
on_value:
lambda: |
// Insert the current value
float current = id(pm_10_0_1h_avg).state;
if (!isnan(current)) {
id(pm_10_0_hourly_avg).insert(id(pm_10_0_hourly_avg).begin(), current);
// Truncate anything past the first 24
if (id(pm_10_0_hourly_avg).size() > 24) {
id(pm_10_0_hourly_avg).resize(24);
}
}
ESP_LOGD("custom", "pm_10_0_hourly_avg size: %d", id(pm_10_0_hourly_avg).size());
// Trigger the AQI calculations (they'll restart if the pm2.5 finishes slightly later)
id(calculate_nowcast).execute();
id(calculate_aqi).execute();