Skip to content

Latest commit

 

History

History
334 lines (226 loc) · 13.9 KB

README-SPI.md

File metadata and controls

334 lines (226 loc) · 13.9 KB

lightning-detector-MQTT2HA-Daemon

Project Maintenance

GitHub Activity

License: GPL v3

GitHub Release

A simple Linux python script to monitor the AS3935 Lightning Detector attached to the Raspberry Pi on which it is running and report information from the detector via MQTT to your Home Assistant installation.

With this new sensor and a new Lovelace card (links below) you can monitor lightning presence in your local area.

When this script/daemon is run it will broadcast discovery topics via MQTT decribing this new sensor to home assistant. If you have MQTT Discovery enabled then this new sensor will appear as a new device in Home Assistant: (where the "Firmware: v...." will be the version number of this script that you've just set up.)

Discovered by Home Assistant

This script can be configured to be run in daemon mode continously in the background as a systemd service.

I2C or SPI

NOTE: if you are using an I2C version of the AS3935 sensor board, please refer to README.md instead of this page!


Hey, I will always appreciate your helping me out for a couple of ☕'s or 🍕 slices!

coffee

Features

  • Tested on Raspberry Pi's 3 & 4 with Buster - but really should work on any.
  • Tested with Home Assistant v0.111.0
  • Tested with Mosquitto broker v5.1
  • Data is published via MQTT
  • MQTT discovery messages are sent so the detector is automatically registered with Home Assistant (if MQTT discovery is enabled in your installation)
  • MQTT authentication support
  • Supports MQTT LWT so you can tell when the script is running (or if for some reason it has stopped running)
  • No special/root privileges are required by this mechanism
  • Linux daemon / systemd service, sd_notify messages generated

Lightning Detector Device

The AS3935 Lightning Detector monitored by this script is reported as:

Name Description
Manufacturer (Austria Micro Systems) ams AG
Model AS3935
Name (fqdn) e.g., "mypi.home"
sofware ver Script Version (e.g., v1.0.0)
mac addr mac: 00:00:00:00:00:00
IP addr eth0: 00.00.00.00 -OR- wlan0: 00.00.00.00

(The addreseses reported are those of the Raspberry Pi running this script.)

Readings

This Lightning Detector as a sensor provides the following readings:

Name Description
timestamp date/time of report
energy "energy" for this report *
distance distance to storm front
count # detections since last report

* (from the datasheet: If the received signal is classified as lightning, the energy is calculated. This value is just a pure number and has no physical meaning.)

Prerequisites

Detector Board

You'll need an inexpensive lightning detector sensor (based on the AS3925 integrated circuit.) I picked up my AS3925 integrated circuit on a small circuit board from Sparkfun, but a similar board also avail. from Amazon

A NOTE of Caution! Please watch your prices... you should be able to get one for under $30 USD*. People are trying to sell them at much higher prices. Shop around for your best price.

MQTT Broker and Home Assistant

An MQTT broker is needed as the counterpart for this daemon.

MQTT is huge help in connecting different parts of your smart home and setting up of a broker is quick and easy. In many cases you've already set one up when you installed Home Assistant.

You'll need to know the hostname (or IP address) of the machine where the MQTT broker is running as well as the port it is listening to. This is typically the default MQTT port (1883). You will add this information to the config.ini for this script, as described below.

Connecting the AS3935 to your Raspberry Pi

You'll need the AS3935 Lightning sensor to be connected via SPI to your RPi. Here's the pinout I use: (chose pins close together to make easy to wire up)

AS3935 Pin Module Pin Raspberry Pi Pin
4 (GND) GND 25 (Ground)
5 (VDD) 3V3 17 (3.3v)
8 (CS) /CS 24 (CE0)
10 (IRQ) INT 22 (GPIO 25)
11 (SCL) SCK 23 (SCLK)
12 (MISO) MISO 21 (MISO)
13 (MOSI) MOSI 19 (MOSI)

Make sure to change your config.ini:sensor_attached = SPI

(You can use a different GPIO pin for the IRQ, but remember to change your config.ini:intr_pin = 25 value to the GPIO # you choose.)

Installation

On a modern Linux system just a few steps are needed to get the daemon working. The following example shows the installation on Debian/Raspbian below the /opt directory:

sudo apt install git python3 python3-pip python3-pigpio pigpio

sudo git clone https://github.com/ironsheep/lightning-detector-MQTT2HA-Daemon /opt/ISP-lightning-mqtt-daemon

cd /opt/ISP-lightning-mqtt-daemon
sudo pip3 install -r requirements.txt

Configuration

To match personal needs, all operational details can be configured by modifying entries within the file config.ini. The file needs to be created first:

cp /opt/ISP-lightning-mqtt-daemon/config.{ini.dist,ini}
vim /ISP-lightning-mqtt-daemon/config.ini

Execution

When you are ready to test your adjustments to the config.ini file you can start an MQTT monitor tool to see what your newly adjusted script will do. (I use MQTTBox to monitor all my MQTT testing.)

Once you are ready to monitor, first start the PiGPIOd service

sudo systemctl start pigpiod.service

Then a first test run is as easy as:

python3 /opt/ISP-lightning-mqtt-daemon/ISP-lightning-mqtt-daemon.py

Using the command line argument --config, a directory where to read the config.ini file from can be specified, e.g.

python3 /opt/ISP-lightning-mqtt-daemon/ISP-lightning-mqtt-daemon.py --config /opt/ISP-lightning-mqtt-daemon

Antenna Fine Tuning

The AS3935 has a fine tuning adjustment setting for the 500KHz antenna. Our script has a special option we can use to determine the fine-tuning value our board needs. After running the script we then record the value in our config.ini.

Run the fine tuning option using:

python3 /opt/ISP-lightning-mqtt-daemon/ISP-lightning-mqtt-daemon.py --calc_tuning_cap

the output will look something like (yours will be different!):

* Please allow a long time for this function to stop. It should take a little over 3 minutes to check test the 16 values
For tuning 0x0: average frequency of 511695.239310 Hz (diff: +731.0)
For tuning 0x1: average frequency of 511706.015761 Hz (diff: +731.6)
For tuning 0x2: average frequency of 507383.793496 Hz (diff: +461.5)
For tuning 0x3: average frequency of 507158.814087 Hz (diff: +447.4)
For tuning 0x4: average frequency of 503960.562001 Hz (diff: +247.5)
For tuning 0x5: average frequency of 504470.100857 Hz (diff: +279.4)
For tuning 0x6: average frequency of 502103.026784 Hz (diff: +131.4)
For tuning 0x7: average frequency of 500849.485221 Hz (diff: +53.1)
For tuning 0x8: average frequency of 498205.778733 Hz (diff: +112.1)
For tuning 0x9: average frequency of 495721.390191 Hz (diff: +267.4)
For tuning 0xa: average frequency of 497672.497232 Hz (diff: +145.5)
For tuning 0xb: average frequency of 494356.500465 Hz (diff: +352.7)
For tuning 0xc: average frequency of 490485.394396 Hz (diff: +594.7)
For tuning 0xd: average frequency of 491429.095599 Hz (diff: +535.7)
For tuning 0xe: average frequency of 489151.314855 Hz (diff: +678.0)
For tuning 0xf: average frequency of 490377.098284 Hz (diff: +601.4)
- Your best tuning capacitor value is 0x7: which is off by +53.1

now you need to add the 0x7 from the last line (above) to the config.ini. Look for the [Sensor] section and in there add a line:

tuning_capacitor = 0x7

(If you have qeustions about this take a look at the config.ini.dist file as it shows where the new entry should be.)

Save the file, and do a quick test again to make sure the script is ok with your config change.

Now you are ready to enable the detector script.

Run as Daemon / Service

You probably want to execute this script continuously in the background.

This can be done by running it as a daemon via the Systemd service - on systemd managed systems (the recommended option)

NOTE: Daemon mode must be enabled in the configuration file (default).

By default the isp-lightning.service file indicates that the script should be run as user:group daemon:daemon. As this script requires access to SPI and gpio you'll want to add access to them for the daemon user as follows:

# list current groups
groups daemon
$ daemon : daemon

# add SPI, gpio if not present
sudo usermod daemon -a -G spi,gpio

# list current groups
groups daemon
$ daemon : daemon spi gpio
#                 ^^^^^^^^ now they are present

Now that the 'daemon' user is configured to allow access the hardware you can setup the script to be run as a system service as follows:

  sudo ln -s /opt/ISP-RPi-mqtt-daemon/isp-lightning.service /etc/systemd/system/isp-lightning.service

  sudo systemctl daemon-reload

  # configure services so they start on reboot
  sudo systemctl enable pigpiod.service
  sudo systemctl enable isp-lightning.service

  # start services now
  sudo systemctl start pigpiod.service
  sudo systemctl start isp-lightning.service

  # see if services are running (ensure no start errors)
  sudo systemctl status pigpiod.service
  sudo systemctl status isp-lightning.service

NOTE: we use a symbolic link 'ln -s' so that when you list the files in /etc/systemd/system the link will point back to where your project in installed. You'll see that many other packages installed on your system already do this.

Integration with MQTT and Home Assistant

Detection values will be published to the (configurable) MQTT broker topic "{base_topic}/{sensorName}/detect" (e.g. home/nodes/lightning01/detect).

An example:

{
  "last": "2020-06-19T17:26:22-06:00",
  "energy": 96098,
  "distance": 1,
  "count": 1
}

This data can then be subscribed to and processed by your home assistant installation.

Additionally, the detector settings along with script settings are written to: "{base_topic}/{sensorName}/settings" with the following fields:

{
  "settings": {
    "timestamp": "2020-07-10T12:52:07-06:00",
    "hardware": {
      "min_strikes": 5,
      "afe_inside": true,
      "disp_lco": false,
      "noise_floor": 1
    },
    "script": {
      "period_in_minutes": 5,
      "end_storm_minutes": 30,
      "number_of_rings": 5,
      "distance_units": "km"
    }
  }
}

Lastly, there are two additional topics published which are used to drive our new Lovelace card. These are:

  • "{base_topic}/{sensorName}/crings" - which posts the live status of current period, updated at each new strike

  • "{base_topic}/{sensorName}/prings" - which posts the status of the preceeding full period, updated at the end of a period

Lovelace Card for Home Assistant

Want to go further? There is a Lovelace Lightning Detector Card built specifically for visualizing this lightning data.

Credits

Thank you to "Hexalyse" for providing the starting logic for this effort. His project which i had tweeting (yes, in french) locally here in Colorado when i was first bringing up my hardware is LightningTweeter

Thank you to also Thomas Dietrich for providing a wonderful pattern for this project. His project, which I use and heartily recommend, is miflora-mqtt-deamon

Thank you to Eloi Codina for providing the I2C source for AS3935 I2C access AS3935 v0.1.4

Disclaimer and Legal


Raspberry Pi is registered trademark of Raspberry Pi (Trading) Ltd.

This project is a community project not for commercial use. The authors will not be held responsible in the event of device failure or failure to detect any potentially damaging lightning.

This project is in no way affiliated with, authorized, maintained, sponsored or endorsed by Raspberry Pi (Trading) Ltd. or any of its affiliates or subsidiaries.

This project is also in no way affiliated with, authorized, maintained, sponsored or endorsed by Austria Micro Systems - ams AG, makers of the AS3935 Lightning Sensor.


License

Copyright © 2020 Iron Sheep Productions, LLC. All rights reserved.
Licensed under the GPL 3 License.

Follow these links for more information: