2025.3.4
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PurpleAir

PurpleAir makes sensors that measure hyper-local air quality data and share it with the public.

配置

要将 PurpleAir integration 添加到您的 Home Assistant 实例中,请使用此 My 按钮:

手动配置步骤

如果上述 My 按钮不起作用,您也可以手动执行以下步骤:

选项

PurpleAir 的选项可以通过用户界面设置,具体步骤如下:

  • 浏览到您的 Home Assistant 实例。
  • 转到 设置 > 设备与服务
  • 如果配置了多个 PurpleAir 实例,请选择您想配置的实例。
  • 选择集成,然后选择 配置
Add Sensor

Track an additional sensor.

Remove Sensor

Untrack a sensor.

Settings

Configure additional settings (e.g., show/hide sensor icons on the map).

Creating an API key

To add this integration, you need a (free) Purple Air API Key. A new account currently comes with 1 million free points. After that, you need to buy additional points to continue to use the API. The current plugin uses ~30K points/day. The 1 million points last about a month. A lack of points will trigger API errors until you buy more points.

Detailed instructions can be found here but in summary you:

  • Create an account at https://develop.purpleair.com/ (which uses Single Sign-On through a Google account).
  • On the ‘keys’ page press the “plus” button to create an API key. Leave the defaults of Read and Enabled.
  • Go to the ‘projects’ page and select the edit (pencil) button on the listed Project. Add points (for example 1,000,000), then select Update.
  • Go back to the ‘keys’ page and copy the API key. It will be a value like XXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXXX.
  • Paste that API key into the API Key field when creating the integration in Home Assistant.

Note that if you are using your own sensor, it will need to be set to Public to be visible.

Creating an AQI Rating from Raw Particulate Data

The PurpleAir API does not provide AQI data; therefore, the integration does not create an AQI sensor automatically. However, sensors providing raw particulate data can be used to create a human-friendly AQI rating sensor.

Warning

The guidelines within this documentation constitute estimates and are intended to help informed decision making. They should not replace analysis, advice or diagnosis from a trained medical professional.

Understanding EPA Guidelines

The United States Environmental Protection Agency (EPA) provides guidelines on correlating the concentration of pollution over a time period to overall “healthiness.” For example, a PM2.5 concentration between 0.0 and 12.0 µg/m³ over a 24-hour period equates to a “Good” AQI rating.

Therefore, a common strategy would be to use the guidelines for the particulate types provided by the PurpleAir integration and “merge” them into a single AQI rating.

Creating Statistics Sensors

With the EPA guidelines in hand, the next step is to create statistics sensors for each particulate sensor you are interested. This example uses PM2.5 and PM10.0 over a 24-hour period:

Note

The entity IDs provided below are simulated; make sure that you use entity IDs that actually exist in your Home Assistant instance.

sensor:
  - platform: statistics
    name: "Average Outdoor PM2.5 (24h)"
    entity_id: sensor.sensor_pm2_5_mass_concentration
    state_characteristic: mean
    max_age:
      hours: 24

  - platform: statistics
    name: "Average Outdoor PM10.0 (24h)"
    entity_id: sensor.sensor_pm10_0_mass_concentration
    state_characteristic: mean
    max_age:
      hours: 24

Creating the AQI Rating Sensor

The statistics sensors can then be combined into a template sensor. Note that this example takes a conservative approach: the “worse” of the two values (PM2.5 or PM10.0) is used to determine the overall rating.

Tip

Reminder that the breakpoints used below can be determined from the aforementioned EPA guidelines.

template:
  - sensor:
    - name: "Local Outdoor Air Quality"
      state: >
        {% set pm2_5_avg = states("sensor.average_outdoor_pm2_5_24h") | int %}
        {% if 0 <= pm2_5_avg <= 12.0 %}
          {% set pm2_5_rating = 0 %}
        {% elif 12.0 < pm2_5_avg <= 35.4 %}
          {% set pm2_5_rating = 1 %}
        {% elif 35.4 < pm2_5_avg <= 55.4 %}
          {% set pm2_5_rating = 2 %}
        {% elif 55.4 < pm2_5_avg <= 150.4 %}
          {% set pm2_5_rating = 3 %}
        {% elif 150.4 < pm2_5_avg <= 250.4 %}
          {% set pm2_5_rating = 4 %}
        {% else %}
          {% set pm2_5_rating = 5 %}
        {% endif %}

        {% set pm10_0_avg = states("sensor.average_outdoor_pm10_0_24h") | int %}
        {% if 0 <= pm10_0_avg <= 54.0 %}
          {% set pm10_0_rating = 0 %}
        {% elif 54.0 < pm10_0_avg <= 154.0 %}
          {% set pm10_0_rating = 1 %}
        {% elif 154.0 < pm10_0_avg <= 254.0 %}
          {% set pm10_0_rating = 2 %}
        {% elif 254.0 < pm10_0_avg <= 354.0 %}
          {% set pm10_0_rating = 3 %}
        {% elif 354.0 < pm10_0_avg <= 424.0 %}
          {% set pm10_0_rating = 4 %}
        {% else %}
          {% set pm10_0_rating = 5 %}
        {% endif %}

        {% set rating = [pm2_5_rating, pm10_0_rating] | max %}
        {% if rating == 0 %}
          Good
        {% elif rating == 1 %}
          Moderate
        {% elif rating == 2 %}
          Unhealthy for sensitive groups
        {% elif rating == 3 %}
          Unhealthy
        {% elif rating == 4 %}
          Very unhealthy
        {% else %}
          Hazardous
        {% endif %}
      unique_id: local_outdoor_air_quality