OCPP-J 1.6 client for the ESP8266 and the ESP32 (more coming soon)
Reference usage: OpenEVSE
PlatformIO package: ArduinoOcpp
Website: www.arduino-ocpp.com
Full compatibility with the Arduino platform. Need a FreeRTOS version? Please contact me
You can build an OCPP Charge Point controller using the popular, Wi-Fi enabled microcontrollers ESP8266, ESP32 and comparable. This library allows your EVSE to communicate with an OCPP Central System and to participate in your Charging Network.
✔️ Works with SteVe and The Mobility House OCPP package
✔️ Passed compatibility tests with further commercial Central Systems
✔️ Integrated and tested in many charging stations
- handles the OCPP communication with the charging network
- implements the standard OCPP charging process
- provides an API for the integration of the hardware modules of your EVSE
- works with any TLS implementation and WebSocket library. E.g.
- Arduino networking stack: Links2004/arduinoWebSockets, or
- generic embedded systems: Mongoose Networking Library
For simple chargers, the necessary hardware and internet integration is usually far below 1000 LOCs.
Please take examples/ESP/main.cpp
as the starting point for your first project. It is a minimal example which shows how to establish an OCPP connection and how to start and stop charging sessions. This guide explains the concepts for a minimal integration.
-
To get the library running, you have to install all dependencies (see the list below). In case you use PlatformIO, you can just add
matth-x/ArduinoOcpp
to your project using the PIO library manager. -
In your project's
main
file, includeArduinoOcpp.h
. -
Before establishing an OCPP connection you have to ensure that your device has access to a Wi-Fi access point. All debug messages are printed on the standard serial (i.e.
Serial.print("debug msg")
). To redirect debug messages, please refer tosrc/ArduinoOcpp/Platform.h
. -
To connect to your OCPP Central System, call
OCPP_initialize(String OCPP_HOST, uint16_t OCPP_PORT, String OCPP_URL)
. You need to insert the address parameters according to the configuration of your central system. Internally, the library passes these parameters to the WebSocket object without further alteration.- To secure the connection with TLS, you have to configure the WebSocket. Please take
examples/ESP-TLS/main.cpp
as an example.
- To secure the connection with TLS, you have to configure the WebSocket. Please take
-
In your
setup()
function, you can add the configuration functions fromArduinoOcpp.h
to properly integrate your hardware. For example, the library needs access to the energy meter. All configuration functions are documented inArduinoOcpp.h
. -
Add
OCPP_loop()
to yourloop()
function.
Sending OCPP operations
There are a couple of OCPP operations you can initialize on your EVSE. For example, to send a Boot Notification
, use the function
void bootNotification(const char *chargePointModel, const char *chargePointVendor, OnReceiveConfListener onConf = nullptr, ...)`
In practice, it looks like this:
void setup() {
... //other code including the initialization of Wi-Fi and OCPP
bootNotification("My CP model name", "My company name", [] (JsonObject confMsg) {
//This callback is executed when the .conf() response from the central system arrives
Serial.print(F("BootNotification was answered. Central System clock: "));
Serial.println(confMsg["currentTime"].as<String>()); //"currentTime" is a field of the central system response
//Notify your hardare that the BootNotification.conf() has arrived. E.g.:
//evseIsBooted = true;
});
... //rest of setup() function; executed immediately as bootNotification() is non-blocking
}
The parameters chargePointModel
and chargePointVendor
are equivalent to the parameters in the Boot Notification
as defined by the OCPP specification. The last parameter OnReceiveConfListener onConf
is a callback function which the library executes when the central system has processed the operation and the ESP has received the .conf()
response. Here you can add your device-specific behavior, e.g. flash a confirmation LED or unlock the connectors. If you don't need it, the last parameter is optional.
Receiving OCPP operations
The library also reacts on CS-initiated operations. You can add your own behavior there too. For example, to flash a LED on receipt of a Set Charging Profile
request, use the following function.
setOnSetChargingProfileRequest([] (JsonObject payload) {
//...
});
You can also process the original payload from the CS using the payload
object.
To get started quickly with or without EVSE hardware, you can flash the sketch in examples/SECC
onto your ESP. That example mimics a full OCPP communications controller as it would look like in a real charging station. You can build a charger prototype based on that example or just view the internal state using the device monitor.
- bblanchon/ArduinoJSON (please upgrade to version
6.19.1
) - Links2004/arduinoWebSockets (please upgrade to version
2.3.6
)
In case you use PlatformIO, you can copy all dependencies from platformio.ini
into your own configuration file. Alternatively, you can install the full library with dependencies by adding matth-x/ArduinoOcpp
in the PIO library manager.
Operation name | supported | in progress | not supported |
---|---|---|---|
Core profile | |||
Authorize |
✔️ | ||
BootNotification |
✔️ | ||
ChangeAvailability |
✔️ | ||
ChangeConfiguration |
✔️ | ||
ClearCache |
✔️ | ||
DataTransfer |
✔️ | ||
GetConfiguration |
✔️ | ||
Heartbeat |
✔️ | ||
MeterValues |
✔️ | ||
RemoteStartTransaction |
✔️ | ||
RemoteStopTransaction |
✔️ | ||
Reset |
✔️ | ||
StartTransaction |
✔️ | ||
StatusNotification |
✔️ | ||
StopTransaction |
✔️ | ||
UnlockConnector |
✔️ | ||
Smart charging profile | |||
ClearChargingProfile |
✔️ | ||
GetCompositeSchedule |
✖️ | ||
SetChargingProfile |
✔️ | ||
Remote trigger profile | |||
TriggerMessage |
✔️ | ||
Firmware management | |||
GetDiagnostics |
✔️ | ||
DiagnosticsStatusNotification |
✔️ | ||
FirmwareStatusNotification |
✔️ | ||
UpdateFirmware |
✔️ |
- introduce proper offline behavior and package loss / fault detection
- handle fragmented input messages correctly
- add support for multiple power connectors
- add support for the ESP32
- reach full compliance to OCPP 1.6 Smart Charging Profile
- integrate Authorization Cache
- get ready for OCPP 2.0.1
I hope this guide can help you to successfully integrate an OCPP controller into your EVSE. If something needs clarification or if you have a question, please send me a message.
✉️ : matthias A⊤ arduino-ocpp DО⊤ com
If you want professional assistance for your EVSE project, you can contact me as well. I'm looking forward to hearing about your ideas!