#!/usr/bin/env python3 import statistics from pyfroniusreg import gen24_registers from pyfroniusreg.froniusreg import RegisterReadError from datetime import datetime from pymodbus.client.tcp import ModbusTcpClient fronius1 = ModbusTcpClient("172.19.107.211", port=502, timeout=10) fronius1.connect() current_time = datetime.now() soc_percent = gen24_registers.scaledChaState.get(fronius1) total_wh = gen24_registers.scaledWHRtg.get(fronius1) charge_data = [] discharge_data = [] print("Gathering 5 second average of battery power") while( (datetime.now() - current_time).seconds < 5): charge_data.append(gen24_registers.scaledmodule_3_DCW.get(fronius1)) discharge_data.append(gen24_registers.scaledmodule_4_DCW.get(fronius1)) avg_charge = statistics.mean(charge_data) avg_discharge = statistics.mean(discharge_data) print(" Charge: %.2f" % avg_charge) print("DisCharge: %.2f" % avg_discharge) print(" SoC: %.2f" % soc_percent) print("Total WH: %.2f" % total_wh) wh_remain = (soc_percent / 100.0) * total_wh h_estim = wh_remain - (avg_discharge - avg_charge) h_estpct = (h_estim / total_wh) * 100 print("WH remain: %.2f" % wh_remain) print("1h est WH: %.2f" % h_estim) print("1hr est %%: %.2f" % h_estpct) time_check = (current_time.hour == 5 or current_time.hour == 15) estimate_check = (h_estpct < 18.0) if (time_check and estimate_check): print("Full BEEEEEAAAAANS!") else: print("Nothing doing") # Logic of this is: # # If it's 05:00 and battery SoC will be < 18% at 06:00: charge at full beans for 1 hour # # if it's 15:00 and battery SoC will be < 25% at 16:00: charge at full beans for 1 hour