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A smart home interface for Sofar solar and battery inverters.

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Sofar2mqtt

A smart home interface for Sofar solar and battery inverters.

Supported models:

ME3000SP - Full support
HYD-xx00-ES - Full support

Sofar2MQTT

Sofar2mqtt is a remote control interface for Sofar solar and battery inverters. It allows remote control of the inverter and reports the invertor status, power usage, battery state etc for integration with smart home systems such as Home Assistant and Node-Red.
For read only mode, it will send status messages without the inverter needing to be in passive mode.
It's designed to run on an ESP8266 microcontroller with a TTL to RS485 module such as MAX485 or MAX3485.
Designed to work with TTL modules with or without the DR and RE flow control pins. If your TTL module does not have these pins then just ignore the wire from D5.

Subscribe your MQTT client to:

Sofar2mqtt/state

Which provides:

running_state
grid_voltage
grid_current
grid_freq
systemIO_power (AC side of inverter)
battery_power (DC side of inverter)
battery_voltage
battery_current
batterySOC
battery_temp
battery_cycles
grid_power
consumption
solarPV
today_generation
today_exported
today_purchase
today_consumption
inverter_temp
inverterHS_temp
solarPVAmps

With the inverter in Passive Mode, send MQTT messages to:

Sofar2mqtt/set/standby - send value "true"
Sofar2mqtt/set/auto - send value "true" or "battery_save"
Sofar2mqtt/set/charge - send values in the range 0-3000 (watts)
Sofar2mqtt/set/discharge - send values in the range 0-3000 (watts)

battery_save is a hybrid auto mode that will charge from excess solar but not discharge.

(c)Colin McGerty 2021 [email protected] Major version 2.0 rewrite by Adam Hill sidepipeukatgmaildotcom Thanks to Rich Platts for hybrid model code and testing.
calcCRC by [email protected] and [email protected]

How To Build

Parts List:

  1. ESP8266 Microcontroller
  2. MAX485 or MAX3485 TTL to RS485 board*
  3. Wemos 64x48 OLED Screen (optional)
  4. A small project board
  5. A few wires and a little solder

*The MAX3485 (which is red, not blue like the MAX485 shown here) is preferred as it is much more stable because it uses 3.3v logic, just like the ESP8366. The MAX485 uses 5v logic but is somewhat tolerant of 3.3v and is generally cheaper and more widely available. I use a MAX485 but many people have reported problems with this and if you can find a MAX3485 then you should use that. MAX3485 boards do not have DR and RE flow control pins, so just skip the wire from pin D5 in the wiring diagram below.

Parts

Cut the project board to a convenient size.

Board

Wire the components according to this circuit diagram.

Wiring Diagram

I tend to keep the wires on top of the board, poke them through and solder underneath. Your approach may be better and your soldering will almost certainly be better than mine!

Wiring

Make sure you connect the DR and RE pins together. The red arrow below shows where a single wire from D5 connects to both DR and RE. (If you are using a TTL board without the DR and RE pins, ignore this step.)

Short these pins

Use long pinned mounts on your ESP8266 if you are stacking the optional OLED on top. Trim the legs so they fit comfortably into the sockets on the circuit board below.
I don't recommend soldering the ESP8266 permanently to your circuit board.

Chips

Here's how it looks when completed.

Finished

Flashing

Edit the file Sofar2mqtt.ino and remove the // at the start of the second OR third line as appropriate for your inverter model (ME3000SP or a Hybrid HYD model).

Add your wifi network name and password and your mqtt server details in the section below. If you need more than one Sofar2mqtt on your network, make sure you give them unique device names.

You'll need the libraries for the ESP8266. Follow this guide if you haven't completed that step before.

Add a few more libraries using the Manage Libraries menu:

  1. PubSubClient
  2. Adafruit GFX
  3. Adafruit SSD1306 Wemos Mini OLED

(Even if you are not using the OLED screen, you should install the Adafruit libraries or it will not compile.)

...and upload.

Run it on the desktop, not connected to your invertor, to test that wifi and mqtt are connected and see some messages in the serial monitor. The OLED screen should show "Online" to indicate a connection to WiFi and MQTT. It will alternate between "RS485 Error" and "CRC-FAULT" to indicate that the inverter is not connected.

Connect to Inverter

Connect the Sofar2mqtt unit to a 5v micro USB power supply. Now connect wires A and B to the two wire RS485 input of your inverter, which is marked as 485s on the image of the ME3000SP below.

ME3000SP Data Connections

Troubleshooting

Nothing on the OLED screen? Make sure you solder all the pins on the OLED and ESP8266, not just those with wires attached.
No communication with the inverter? Make sure the slave IDs match. Sofar2mqtt assumes slave ID 1 by default. You can change this around line 93 or in the inverter user interface. But they must be the same.

Here's what the various things on the OLED screen tell you:

Line 1 is the device name, nothing else.
Line 2 will display "Connecting" during start up and lines 3 and 4 will show WIFI and MQTT getting connected.
Line 2 also has a dot that slowly flashes, once every few seconds. This is when a heartbeat message is being sent to the inverter.
If a message is read from the inverter that fails the CRC checksum, line 3 will display "CRC-FAULT". This could be caused by a loose or bad RS485 wire or by unsupported features. A few of these is normal, a lot could indicate a problem.
If no response is received to a heartbeat message, lines 3 and 4 show "RS485 ERROR". This could be caused by disconnected or reversed RS485 wires.
During start-up, line 4 shows the Sofar2mqtt software version. Check that you have the latest version at https://github.com/cmcgerty/Sofar2MQTT
In normal operation, line 2 shows "Online" which indicates that both WIFI and MQTT are still connected.
In normal operation, line 3 shows the inverter run state, Standby, Charging, Discharging etc.
In normal operation, line 4 shows the power in Watts in or out of the batteries when charging or discharging.

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