still not able to connect to slave
This commit is contained in:
Nils Reiners
84
main.py
84
main.py
@@ -26,57 +26,57 @@ db = DataBaseInflux(
|
||||
bucket="allmende_db"
|
||||
)
|
||||
|
||||
hp_master = HeatPump(device_name='hp_master', ip_address='10.0.0.10', port=502)
|
||||
hp_slave = HeatPump(device_name='hp_slave', ip_address='10.0.0.11', port=502)
|
||||
shelly = ShellyPro3m(device_name='wohnung_2_6', ip_address='192.168.1.121')
|
||||
# hp_master = HeatPump(device_name='hp_master', ip_address='10.0.0.10', port=502)
|
||||
# hp_slave = HeatPump(device_name='hp_slave', ip_address='10.0.0.11', port=502)
|
||||
# shelly = ShellyPro3m(device_name='wohnung_2_6', ip_address='192.168.1.121')
|
||||
wr_master = PvInverter(device_name='solaredge_master', ip_address='192.168.1.112', unit=1)
|
||||
wr_slave = PvInverter(device_name='solaredge_slave', ip_address='192.168.1.112', unit=3)
|
||||
meter = SolaredgeMeter(device_name='solaredge_meter', ip_address='192.168.1.112')
|
||||
|
||||
es.add_components(hp_master, hp_slave, shelly, wr_master, wr_slave, meter)
|
||||
controller = SgReadyController(es)
|
||||
|
||||
# FORECASTING
|
||||
latitude = 48.041
|
||||
longitude = 7.862
|
||||
TZ = "Europe/Berlin"
|
||||
HORIZON_DAYS = 2
|
||||
weather_forecaster = WeatherForecaster(latitude=latitude, longitude=longitude)
|
||||
site = Location(latitude=latitude, longitude=longitude, altitude=35, tz=TZ, name="Gundelfingen")
|
||||
|
||||
p_module = 435
|
||||
upper_roof_north = PvWattsSubarrayConfig(name="north", pdc0_w=(29+29+21)*p_module, tilt_deg=10, azimuth_deg=20, dc_loss=0.02, ac_loss=0.01)
|
||||
upper_roof_south = PvWattsSubarrayConfig(name="south", pdc0_w=(29+21+20)*p_module, tilt_deg=10, azimuth_deg=200, dc_loss=0.02, ac_loss=0.01)
|
||||
upper_roof_east = PvWattsSubarrayConfig(name="east", pdc0_w=7*p_module, tilt_deg=10, azimuth_deg=110, dc_loss=0.02, ac_loss=0.01)
|
||||
upper_roof_west = PvWattsSubarrayConfig(name="west", pdc0_w=7*p_module, tilt_deg=10, azimuth_deg=290, dc_loss=0.02, ac_loss=0.01)
|
||||
cfgs = [upper_roof_north, upper_roof_south, upper_roof_east, upper_roof_west]
|
||||
pv_plant = PvWattsPlant(site, cfgs)
|
||||
|
||||
now = datetime.now()
|
||||
next_forecast_at = (now + dt.timedelta(hours=1)).replace(minute=0, second=0, microsecond=0)
|
||||
es.add_components(wr_master, wr_slave)#hp_master, hp_slave, shelly, wr_master, wr_slave, meter)
|
||||
# controller = SgReadyController(es)
|
||||
#
|
||||
# # FORECASTING
|
||||
# latitude = 48.041
|
||||
# longitude = 7.862
|
||||
# TZ = "Europe/Berlin"
|
||||
# HORIZON_DAYS = 2
|
||||
# weather_forecaster = WeatherForecaster(latitude=latitude, longitude=longitude)
|
||||
# site = Location(latitude=latitude, longitude=longitude, altitude=35, tz=TZ, name="Gundelfingen")
|
||||
#
|
||||
# p_module = 435
|
||||
# upper_roof_north = PvWattsSubarrayConfig(name="north", pdc0_w=(29+29+21)*p_module, tilt_deg=10, azimuth_deg=20, dc_loss=0.02, ac_loss=0.01)
|
||||
# upper_roof_south = PvWattsSubarrayConfig(name="south", pdc0_w=(29+21+20)*p_module, tilt_deg=10, azimuth_deg=200, dc_loss=0.02, ac_loss=0.01)
|
||||
# upper_roof_east = PvWattsSubarrayConfig(name="east", pdc0_w=7*p_module, tilt_deg=10, azimuth_deg=110, dc_loss=0.02, ac_loss=0.01)
|
||||
# upper_roof_west = PvWattsSubarrayConfig(name="west", pdc0_w=7*p_module, tilt_deg=10, azimuth_deg=290, dc_loss=0.02, ac_loss=0.01)
|
||||
# cfgs = [upper_roof_north, upper_roof_south, upper_roof_east, upper_roof_west]
|
||||
# pv_plant = PvWattsPlant(site, cfgs)
|
||||
#
|
||||
# now = datetime.now()
|
||||
# next_forecast_at = (now + dt.timedelta(hours=1)).replace(minute=0, second=0, microsecond=0)
|
||||
while True:
|
||||
now = datetime.now()
|
||||
if now.second % interval_seconds == 0 and now.microsecond < 100_000:
|
||||
state = es.get_state_and_store_to_database(db)
|
||||
mode = controller.perform_action(heat_pump_name='hp_master', meter_name='solaredge_meter', state=state)
|
||||
# mode = controller.perform_action(heat_pump_name='hp_master', meter_name='solaredge_meter', state=state)
|
||||
#
|
||||
# if mode == 'mode1':
|
||||
# mode_as_binary = 0
|
||||
# else:
|
||||
# mode_as_binary = 1
|
||||
# db.store_data('sg_ready', {'mode': mode_as_binary})
|
||||
|
||||
if mode == 'mode1':
|
||||
mode_as_binary = 0
|
||||
else:
|
||||
mode_as_binary = 1
|
||||
db.store_data('sg_ready', {'mode': mode_as_binary})
|
||||
|
||||
if now >= next_forecast_at:
|
||||
# Start der Prognose: ab der kommenden vollen Stunde
|
||||
start_hour_local = (now + dt.timedelta(hours=1)).replace(minute=0, second=0, microsecond=0)
|
||||
weather = weather_forecaster.get_hourly_forecast(start_hour_local, HORIZON_DAYS)
|
||||
total = pv_plant.get_power(weather)
|
||||
db.store_forecasts('pv_forecast', total)
|
||||
|
||||
# Nächste geplante Ausführung definieren (immer volle Stunde)
|
||||
# Falls wir durch Delay mehrere Stunden verpasst haben, hole auf:
|
||||
while next_forecast_at <= now:
|
||||
next_forecast_at = (next_forecast_at + dt.timedelta(hours=1)).replace(minute=0, second=0, microsecond=0)
|
||||
# if now >= next_forecast_at:
|
||||
# # Start der Prognose: ab der kommenden vollen Stunde
|
||||
# start_hour_local = (now + dt.timedelta(hours=1)).replace(minute=0, second=0, microsecond=0)
|
||||
# weather = weather_forecaster.get_hourly_forecast(start_hour_local, HORIZON_DAYS)
|
||||
# total = pv_plant.get_power(weather)
|
||||
# db.store_forecasts('pv_forecast', total)
|
||||
#
|
||||
# # Nächste geplante Ausführung definieren (immer volle Stunde)
|
||||
# # Falls wir durch Delay mehrere Stunden verpasst haben, hole auf:
|
||||
# while next_forecast_at <= now:
|
||||
# next_forecast_at = (next_forecast_at + dt.timedelta(hours=1)).replace(minute=0, second=0, microsecond=0)
|
||||
|
||||
|
||||
time.sleep(0.1)
|
||||
|
||||
Reference in New Issue
Block a user