A Node Red module that allows conversion and aggregation of MQTT data generated by Ecoflow devices. Via the ecoflow-cmd node, very limited control over the PowerStream micro inverter is supported.

The aggregation currently concentrates on main core vital values for the system PowerStream in combination with a power station. There are plans to expand this project, but for now, there is nothing more. Contributions are welcome.

In the editor for the node, you need to configure your device type. The following devices are currently supported:

• Ecoflow PowerStream micro inverter from binary MQTT messages to user-readable JSON (ecoflow-in) as well as generation of MQTT out message to control certain settings of the device (ecoflow-cmd).
• Ecoflow Delta 2 Max power station (aggregation only, as data is transmitted already in JSON format). Only supported by ecoflow-in.

The ecoflow-in node receives MQTT messages and provides user-readable and aggregated JSON messages.

In the editor of the node, you can configure the "Output message types". This defines the types of messages generated by this node from the binary (buffer) input messages received via MQTT. The following types exist:

• Aggregated only: Only the aggregated information as JSON is generated (see below)
• Translated only: Only the binary message translation to JSON is generated, this contains the binary data translated to human-readable JSON.
• Both: Both types of messages listed above are generated by this plugin.

As the input data consists of different values that are updated by different messages in different intervals, it comes in handy to have an aggregated messages that combines the current values of all relevant variables. Additionaly, there is an associated timeout for each input variable that resets it back to zero if it is not updated anymore (e.g. the sending device looses network connection or has no power).

This section describes the generated aggregated information by the node. The aggregated messages have a topic to which "/aggregated" is appended as suffix.

• batInputVolt: The charging state of the connected battery, in volts.
• batSoc: The charging state of the connected battery, in percent. Note: this value is updated very rarely, so it can take a few minutes until it becomes available.
• batInputWatts: The power (in watts) coming from the battery to the inverter to be fed into the household network (positive value) or going from the inverter to charge the battery (negative value).
• invOutputWatts: The watts fed into the household network by the inverter.
• pv1InputWatts: The watts generated by the solar module plugged into PV1 input.
• pv2InputWatts: The watts generated by the solar module plugged into PV2 input.
• pv1OpVolt: The voltage generated by the solar module plugged into PV1 input.
• pv2OpVolt: The voltage generated by the solar module plugged into PV2 input.
• pvInputWatts: The watts generated by the solar module plugged into PV1+PV2 input.

• bms_emsStatus_f32LcdShowSoc: The overall charging state of the battery (average, if you have multiple batteries).
• bms_bmsStatus_f32ShowSoc: The charging state of the power station internal battery.
• bms_bmsStatus_vol: The charging state of the power station internal battery, in volts.
• bms_kitInfo_watts0: the power going out (positive value) or coming in (negative value) from the first battery connector (external battery, micro inverter, etc.)
• bms_kitInfo_watts1: the power going out (positive value) or coming in (negative value) from the second battery connector (external battery, micro inverter, etc.)
• mppt_inWatts: the power coming in from the PV solar panel in plug 1.
• mppt_pv2InWatts: the power coming in from the PV solar panel in plug 2.
• mppt_pvInputWatts: the combined power coming in from all PV solar panels attached directly to the power station.
• inv_inputWatts: the power station internal inverter, input power.
• inv_outputWatts: the power station internal inverter, output power.

Use a regular MQTT input for Node Red. Forward that input to the ecoflow-powerstream function defined by this plugin.

Use this bash script to get your login details. It will spit out protocol, host, port, username and password (and a lot more information you don't need right now). Alternatively, you can use this web site.

Add a new server, configure as follows:

Tab "Connection":

• Server: host from bash script output, e.g. mqtt-e.ecoflow.com
• Port: port from bash script output, e.g. 8884
• Connect automatically: yes
• TLS: yes
• Protocol: MQTT V3.1.1
• Client-ID: output from bash script
• Keep-Alive: 60
• Clean session: yes

Tab "Security":

• User name from bash script output
• Password from bash script output

Back in the "mqtt in" node, set:

• Action: Subscribe to single topic
• Topic: "/app/device/property/" + PowerStream serial number
• QoS: 0
• Output: binary buffer

The ecoflow-cmd node allows you to send commands to the device to change settings. Currently, only the Ecoflow PowerStream micro inverter is supported.

Configure your node in the editor as follows:

• Device type: Set to "PowerStream 600/800 micro inverter"
• User ID: Set to the "Numerical User-ID" provided by the bash script (see "Get login details" above). The ID is formed of around 19 digits.

On the input side of the ecoflow-cmd node, you need to generate a message that defines which value to set. See "Message format" below.

On the output side, you need the messages generated by the ecoflow-cmd node to an MQTT output. Configure the mqtt out node as follows:

• Server: the Ecoflow MQTT server (same as for the ecoflow-in node, see above).
• Topic: (leave the Topic empty)
• QoS: 1
• Retain: false

The input message to the ecoflow-cmd node needs to be a JSON message. This JSON needs to have exactly the following properties:

• deviceSn: the serial number of the device you want to control.
• command: the command ID (see below) defining the message type you want to generate.
• value: the numerical value argument to the command.

The following commands exist:

• getLatestQuotas: Get the latest quotas (value is not relevant).
• setAcWatts: Set the egress power in watts to be fed into the household.
• setPrioritizePowerStorage: Set to 1 to send all PV power to the battery, and only when the battery is full, the superfluous power is fed into the household. Set to 0 to prioritize the egress into the household: As long as there is power in PV and/or the battery, it is fed into the household network up to the limit configured by setAcWatts, the superfluous power is used to charge the battery.
• ping: Send a Ping command.