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 ![GitHub actions](https://img.shields.io/github/actions/workflow/status/dalathegreat/BYD-Battery-Emulator-For-Gen24/compile-all-batteries.yml?color=0E810E)
 ![Static Badge](https://img.shields.io/badge/made-with_love-blue?color=%23008000)
 
-This software enables EV battery packs to be used for stationary storage in combination with solar inverters. It achieves this by converting EV battery CAN data into Modbus RTU registers, that emulate a BYD 11kWh HVM battery. This makes it extremely easy to use EV batteries in a true plug'n'play fashion.
+This software enables EV battery packs to be used for stationary storage. It achieves this by converting the EV battery CAN data into a brand battery format that solar inverters can understand. This makes it extremely cheap and easy to use large EV batteries in a true plug'n'play fashion!
 
 ![alt text](https://github.com/dalathegreat/BYD-Battery-Emulator-For-Gen24/blob/main/Images/Fronius.png)
 
@@ -14,7 +14,7 @@ This code fits on the LilyGo ESP32 T-CAN485 devboard , see https://github.com/Xi
 
 You will also need a complete EV battery. [See the battery compability list on which are supported.](https://github.com/dalathegreat/BYD-Battery-Emulator-For-Gen24/wiki#supported-batteries-list)
 
-Finally, you will need a [compatible hybrid solar inverter](https://github.com/dalathegreat/BYD-Battery-Emulator-For-Gen24/wiki#supported-inverters-list) that accepts the BYD battery communication standard, for example the Fronius Gen24
+Finally, you will need a [compatible hybrid solar inverter](https://github.com/dalathegreat/BYD-Battery-Emulator-For-Gen24/wiki#supported-inverters-list), for example the "Fronius Gen24" or "GoodWe ET"
 
 ## Installation basics 🪛
 1. Connect one end of the LilyGo RS485 to the Gen24 Modbus