A couple of years ago I bought a coach and converted it into an RV. After the first season, I parked it and hooked up a battery charger to keep the batteries charged during winter. When the winter was over, I found out that the charger blew a fuse and my batteries were dead. I decided to add some monitoring. I bought a Victron BMV 702 battery monitor (which has both a display and a serial connection) and started fiddling around with it. Soon the project exploded. I hooked up a couple of DS18b20 temperature sensors, my Victron MPPT solar charge controller (wich has a serial connection as well) and a cheap GPS module I bought off eBay.
The result can be found here.
I put the code for the ESP32 on GitHub.
- ESP32 microcontroller (with built-in WiFi)
- USB connection for programming/debugging
- Power input (5V)
- 2 Optically isolated serial inputs (for Victron VE.bus)
- 1 Non-isolated serial input (for GPS receiver)
- “1-wire” I/O (for Dallas DS18B20 temperature sensors)
- 3 General purpose I/O’s
- 2 Onboard relays (dry contact outputs)
The software is written in C++ using the Arduino IDE.
Current software features :
- Reading and parsing of VE.bus messages from Victron BMV series battery monitors.
- Reading and parsing of VE.bus messages from Victron MPPT solar charge controllers.
- Reading various temperatures (inside, outside, hot water etc.) using up to 10 Dallas DS18B20 1Wire temperature sensors.
- Reading and parsing of NMEA data from a GPS receiver.
- GPS location upload supports both GeoHash and Lat/Lon.
- Reading a resistive tank level sensor.
- Measurements can be uploaded to a server using http(s) GET.
- Measurements can be written directly to Influxdb. Both http and https are supported.
- Switching on the 24V to 12V DC/DC converter to charge the 12V battery if the 24V battery voltage is above a certain level. Switching of if the voltage drops below a certain level. The DC/DC converter is switched by one of the two on-board relays. 24V battery voltage measurements are read from the Victron BMV battery monitor.
- Data upload is encrypted (HTTPS).
- Over-the-air software updates (OTA). New software images are automatically downloaded on a seperate partition of the flash memory and verified. If verification is successfull, the ESP32 automatically boots the new image. Both upgrades and downgrades are supported.
- Most settings (WiFi SSID and password, Influxdb hostname, username/password, what measurements to write etc) are configurable through the web interface.
- Settings are stored on a seperate partition of the SPI Flash File System (SPIFFS) and are therefore not lost after a software upgrade.
- Measurement collection runs in a seperate background task.
- All measurements can be downloaded directly from the web interface in JSON format.
- A portal is available for those who do not want to set up their own server for software updates etc. When using the portal for management, data can still be written to your own Influxdb instance.
- Add an extra temperature sensor to measure the temperature of the water heater. No extra I/O’s needed, extra sensors can be connected parallel to the existing ones since every DS18B20 sensor has a unique address.
- Make the resistive tank sensor configurable.
- Finish the portal.
The portal can be found at https://camperlogger.tarthorst.net/.