Powerwall-Dashboard

Monitoring Dashboard for the Tesla Powerwall using Grafana, InfluxDB, Telegraf and pyPowerwall.

Dashboards

The default dashboard.json shown above, pulls in the live power flows from the Powerwall web portal and embeds that animation in the Grafana dashboard.

A non-animated version of the dashboard is also available using dashboard-no-animation.json

Requirements

The host system will require:

• docker
• docker-compose
• You should not need to run sudo to install this tool. See Docker Errors below for help.
• TCP ports: 8086 (InfluxDB), 8675 (pyPowerwall), and 9000 (Grafana)

Setup

Clone this repo on the host that will run the dashboard:

    git clone https://github.com/jasonacox/Powerwall-Dashboard.git

Option 1 - Quick Start

Run the interactive setup script that will ask you for your Powerwall details and Local Time Zone (options).

  ./setup.sh

If you get docker errors during the setup, see the Docker Errors section below.

Follow the Grafana Setup instructions provided (or see below) to complete the setup.

Option 2 - Manual Install

If you prefer, you can perform the same steps that setup.sh performs.

You will want to set your local timezone by editing pypowerwall.env, influxdb.sql and dashboard.json or you can use this handy tz.sh update script. A list of timezones is available here.

  # Replace with your timezone
  bash tz.sh "America/Los_Angeles"

Docker Containers

• Copy pypowerwall.env.sample to pypowerwall.env and update the following details for your Powerwall:

      [email protected]
      PW_PASSWORD=password
      PW_HOST=192.168.91.1
      PW_TIMEZONE=America/Los_Angeles
      PW_DEBUG=no
  

• Copy grafana.env.sample to grafana.env - you do not need to edit these defaults. However, there are optional settings for alert notifications and HTTPS.

• Optional: If you want to pull in local weather data, copy weather/weather411.conf.sample to weather/weather411.conf and edit the file to include your location (Latitude and Longitude) and your OpenWeatherMap API Key. To get a Key, you need to set up a free account at openweathermap.org. Make sure you check your email to verify account. API keys can take a few hours to activate.

      [OpenWeatherMap]
      # Register and get APIKEY from OpenWeatherMap.org
      APIKEY = aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
      # Enter your location in latitude and longitude 
      LAT = xxx.xxxx
      LON = yyy.yyyy
  

• Start the docker containers

    docker-compose -f powerwall.yml up -d
  

InfluxDB

• Connect to the Influx database to import setup commands:

    docker exec -it influxdb influx -import -path=/var/lib/influxdb/influxdb.sql
  

Note: It can take a while for InfluxDB to start. Also the influxdb.sql file is set to use America/Los_Angeles as timezone. Use the tz.sh script or manually update the database commands above to replace America/Los_Angeles with your own timezone.

Grafana Setup

• Open up Grafana in a browser at http://<server ip>:9000 and login with admin/admin

• From Configuration\Data Sources add InfluxDB database with:

  • Name: InfluxDB
  • URL: http://influxdb:8086
  • Database: powerwall
  • Min time interval: 5s
  • Click "Save & test" button

• From Configuration\Data Sources add Sun and Moon database with:

  • Name: Sun and Moon
  • Enter your latitude and longitude. You can use this web page to find your GPS location if you don't know).
  • Click "Save & test" button

• From Dashboard\Manage (or Dashboard\Browse), select Import, and upload one of the dashboard files below:

  1. dashboard.json - Dashboard with the live trend graph, monthly power graphs, an animated power flow diagram and a Powerwall+ section that includes String data, temperature, voltage and frequency graphs. This also includes a "grid status" graph below the animation to identify and track grid outages.
  2. dashboard-no-animation.json - Same as above but without the animated power flow diagram.
  3. dashboard-simple.json - Similar to above but without the Powerwall+ metrics.
  4. dashboard-grid.json - Same as dashboard.json but with a simple grid status instead of the trend data.

Notes

• The database queries and dashboard are set to use America/Los_Angeles as the timezone. Remember to edit the database commands influxdb.sql, powerwall.yml, and dashboard.json to replace America/Los_Angeles with your own timezone.

Upgrading

• The included upgrade.sh script will attempt to upgrade your installation to the latest Powerwall-Dashboard version without removing existing data. A backup is still recommended.

Troubleshooting Tips and Tricks

Check the logs of the services using:

  docker logs -f pypowerwall
  docker logs -f telegraf
  docker logs -f influxdb
  docker logs -f grafana

• Docker terminating with error 139: InfluxDB does not run reliably on older models of Raspberry Pi.
• Grafana Error: Invalid interval string, expecting a number followed by one of "Mwdhmsy" - This indicates that the Grafana setup for InfluxDB is missing the time unit, "s", in the "Min time interval" field:
  • Min time interval: 5s

Missing String data?

• String data only shows up for Tesla inverters as part of Powerwall+ systems. Unfortunately, non-Tesla inverter data is not available via the Tesla API. If you find a way to pull this data, please submit an Issue or Pull Request to get it added.
• The default dashboard and InfluxDB setup supports up to 4 Tesla Powerwall+ inverters. Support for more can be added by editing the dashboard.json and influxdb.sql files. Open an Issue and we can help (see #2).

Docker Errors

If you are getting permission errors running docker, or an error that it isn't installed:

• Ensure docker is installed for your OS (run docker version to test)
• If you see permission denied, add your user to the docker group and reboot your system:

  # Add your user to docker group
  sudo usermod -aG docker $USER
  

• If you can't access the dashboard after a reboot, that means that docker was not set to start on reboot. On many OS distributions you can set it to start on boot with:

  # Set docker to start on boot
  sudo systemctl enable docker.service
  sudo systemctl enable containerd.service
  

• See Docker install here for more information.

Savings Errors

The savings estimates are based on a $0.19/kWh utility cost and net metering credit. You likely have a different value for this and can edit the queries in that panel to reflect your actual costs and credits. To help, here are the variables used to calculate the savings:

• s = kWh from solar (based on time frame selected)
• fp = kWh from powerwall
• tp = kWh to powerwall
• tg = kWh to grid

The equations that are used to compute the estimated savings:

• powerwall>home = fp * $/kWh [assumes all power to home from PW = savings]
• solar>home = (s - tp - tg) * $/kWh [assumes all solar not going to PW or grid is going to the home = savings]
• solar>grid = tg * $/kWh [assumes all power going to grid = savings]

Synology NAS

• If you are having trouble getting this to work on a Synology NAS, view the resolution discovered in Issue #22.

Tips and Tricks

Since pyPowerwall proxy is part of this dashboard stack, you can query it to get raw data (read only) from the Powerwall API. This includes some aggregate functions you might find useful for other projects. I use this for ESP32 driven display for example. Replace localhost with the address of the system running the dashboard:

• pyPowerwall stats: http://localhost:8675/stats
• Powerwall firmware version and uptime: http://localhost:8675/api/status
• Powerwall temperatures: http://localhost:8675/temps
• Powerwall device vitals: http://localhost:8675/vitals
• Powerwall strings: http://localhost:8675/strings
• Powerwall battery level: http://localhost:8675/soe
• Key power data in CSV format (grid, home, solar, battery, batterylevel): http://localhost:8675/csv

Since weather411 is part of this dashboard stack (if you set it up) you can query it to get current weather data from its built-in API.

• Current stats of weather411 service: http://localhost:8676/stats
• Current conditions: http://localhost:8676/
• Current conditions in JSON: http://localhost:8676/json

Data Retention and Backups InfluxDB is configured to use a infinite retention policy (see influxdb.sql). It uses continuous queries to downsample Powerwall data and preserve disk space. However, this does not safeguard the data from accidental deletion or corruption. It is recommend that you set up a backup plan to snapshot the data for disaster recovery. See backups for some suggestions.

Credits

• This project is based on the great work by mihailescu2m at https://github.com/mihailescu2m/powerwall_monitor and has been modified to use pypowerwall as a proxy to the Powerwall and includes solar String, Inverter and Powerwall Temperature graphs for Powerwall+ systems.
• Grafana at https://github.com/grafana/grafana
• Telegraf at https://github.com/influxdata/telegraf
• InfluxDB at https://github.com/influxdata/influxdb
• pyPowerwall at https://github.com/jasonacox/pypowerwall