wechselrichter zum tesent eingebunden
This commit is contained in:
Nils Reiners
31
SG_ready_schalten.py
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31
SG_ready_schalten.py
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@@ -0,0 +1,31 @@
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from pymodbus.client import ModbusTcpClient
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def write_coils(ip):
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# IP und Port der Wärmepumpe
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port = 502
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client = ModbusTcpClient(ip, port=port)
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if not client.connect():
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print("Verbindung zur Wärmepumpe fehlgeschlagen.")
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return
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try:
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# Coil 300 = Kommunikation über Bus aktivieren (1)
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response_300 = client.write_coil(300, True)
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# Coil 301 = SG Ready Stufe 1 aktivieren (1)
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response_301 = client.write_coil(301, False)
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# Coil 302 = SG Ready Stufe 2 deaktivieren (0)
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response_302 = client.write_coil(302, False)
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# Optional: Rückmeldungen prüfen
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for addr, resp in zip([300, 301, 302], [response_300, response_301, response_302]):
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if resp.isError():
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print(f"Fehler beim Schreiben von Coil {addr}: {resp}")
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else:
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print(f"Coil {addr} erfolgreich geschrieben.")
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finally:
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client.close()
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# Testaufruf mit IP-Adresse deiner Wärmepumpe
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write_coils("10.0.0.10") # <-- IP-Adresse hier anpassen
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Binary file not shown.
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,nils,nils-ThinkPad-P52,26.05.2025 20:45,file:///home/nils/.config/libreoffice/4;
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@@ -18,7 +18,7 @@ class DataBaseCsv:
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writer.writerow(data)
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return
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# If file exists → read existing header and data
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# If file exists → read existing header and modbus_registers
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with open(self.filename, mode='r', newline='') as csv_file:
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reader = csv.DictReader(csv_file)
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existing_fields = reader.fieldnames
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@@ -39,7 +39,7 @@ class DataBaseCsv:
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for row in existing_data:
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writer.writerow({field: row.get(field, '') for field in all_fields})
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# Write new data row
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# Write new modbus_registers row
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writer.writerow({field: data.get(field, '') for field in all_fields})
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# Replace original file with updated temporary file
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@@ -26,7 +26,7 @@ class HeatPump:
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def get_registers(self):
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# Excel-Datei mit den Input-Registerinformationen
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excel_path = "data/heat_pump_registers.xlsx"
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excel_path = "modbus_registers/heat_pump_registers.xlsx"
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xls = pd.ExcelFile(excel_path)
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df_input_registers = xls.parse('04 Input Register')
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@@ -43,7 +43,7 @@ class HeatPump:
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for _, row in df_clean.iterrows()
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}
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def get_data(self):
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def get_state(self):
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data = {}
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data['Zeit'] = time.strftime('%Y-%m-%d %H:%M:%S')
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for address, info in self.registers.items():
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13
main.py
13
main.py
@@ -5,7 +5,7 @@ from data_base_influx import DataBaseInflux
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from heat_pump import HeatPump
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from shelly_pro_3m import ShellyPro3m
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interval = 10
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interval_seconds = 10
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db = DataBaseInflux(
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url="http://localhost:8086",
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@@ -16,11 +16,16 @@ db = DataBaseInflux(
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hp = HeatPump(device_name='hp_master', ip_address='10.0.0.10')
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shelly = ShellyPro3m(device_name='wohnung_2_6', ip_address='192.168.1.121')
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wr = SolarEdgeWechselrichter(device_name='wr_master', ip_address='192.168.1.112')
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controller = SgReadyController(hp, wr)
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while True:
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now = datetime.now()
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if now.second % interval == 0 and now.microsecond < 100_000:
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db.store_data(hp.device_name, hp.get_data())
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db.store_data(shelly.device_name, shelly.get_data())
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if now.second % interval_seconds == 0 and now.microsecond < 100_000:
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db.store_data(hp.device_name, hp.get_state())
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db.store_data(shelly.device_name, shelly.get_state())
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db.store_data(wr.device_name, wr.get_state())
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controller.perform_action()
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time.sleep(0.1)
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@@ -18,9 +18,9 @@ class ShellyPro3m:
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self.client = ModbusTcpClient(self.ip, port=port)
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try:
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if not self.client.connect():
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print("Verbindung zur Wärmepumpe fehlgeschlagen.")
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print("Verbindung zum Shelly-Logger fehlgeschlagen.")
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exit(1)
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print("Verbindung zur Wärmepumpe erfolgreich.")
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print("Verbindung zum Shelly-Logger erfolgreich.")
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except KeyboardInterrupt:
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print("Beendet durch Benutzer (Ctrl+C).")
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finally:
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@@ -28,7 +28,7 @@ class ShellyPro3m:
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def get_registers(self):
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# Excel-Datei mit den Input-Registerinformationen
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excel_path = "data/shelly_pro_3m_registers.xlsx"
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excel_path = "modbus_registers/shelly_pro_3m_registers.xlsx"
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xls = pd.ExcelFile(excel_path)
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df_input_registers = xls.parse()
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@@ -45,7 +45,7 @@ class ShellyPro3m:
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for _, row in df_clean.iterrows()
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}
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def get_data(self):
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def get_state(self):
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data = {}
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data['Zeit'] = time.strftime('%Y-%m-%d %H:%M:%S')
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for address, info in self.registers.items():
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110
test_wr.py
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110
test_wr.py
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from pymodbus.client import ModbusTcpClient
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import struct
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import sys
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from typing import Optional
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# === Verbindungseinstellungen ===
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MODBUS_IP = "192.168.1.107"
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MODBUS_PORT = 502 # SetApp: 1502; LCD-Menü: 502 -> ggf. anpassen
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UNIT_ID = 1 # Default laut Doku: 1
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client = ModbusTcpClient(MODBUS_IP, port=MODBUS_PORT)
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if not client.connect():
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print("Verbindung fehlgeschlagen.")
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sys.exit(1)
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def read_regs(addr: int, count: int):
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"""Hilfsfunktion: liest 'count' Holding-Register ab base-0 'addr'."""
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rr = client.read_holding_registers(address=addr, count=count)
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if rr.isError():
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return None
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return rr.registers
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def read_string(addr: int, words: int) -> Optional[str]:
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"""
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SunSpec-Strings: ASCII, Big-Endian, 2 Bytes pro Register, 0x00 gepadded.
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"""
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regs = read_regs(addr, words)
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if regs is None:
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return None
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b = b"".join(struct.pack(">H", r) for r in regs)
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# SunSpec Strings sind meist mit \x00 und Spaces gepadded:
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s = b.decode("ascii", errors="ignore").rstrip("\x00 ").strip()
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return s or None
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def to_int16(u16: int) -> int:
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"""unsigned 16 -> signed 16"""
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return struct.unpack(">h", struct.pack(">H", u16))[0]
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def apply_sf(raw: int, sf: int) -> float:
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return raw * (10 ** sf)
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def read_scaled(value_addr: int, sf_addr: int) -> Optional[float]:
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regs = read_regs(value_addr, 1)
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sf = read_regs(sf_addr, 1)
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if regs is None or sf is None:
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return None
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raw = to_int16(regs[0])
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sff = to_int16(sf[0])
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return apply_sf(raw, sff)
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def read_u32_with_sf(value_addr: int, sf_addr: int) -> Optional[float]:
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"""
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Liest 32-bit Zähler (acc32, Big-Endian, 2 Register) + SF.
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"""
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regs = read_regs(value_addr, 2)
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sf = read_regs(sf_addr, 1)
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if regs is None or sf is None:
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return None
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# Big-Endian zusammenbauen:
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u32 = (regs[0] << 16) | regs[1]
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sff = to_int16(sf[0])
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return apply_sf(u32, sff)
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# ==== Common Block (base-0) ====
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manufacturer = read_string(40004, 16) # C_Manufacturer
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model = read_string(40020, 16) # C_Model
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version = read_string(40044, 8) # C_Version
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serial = read_string(40052, 16) # C_SerialNumber
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print(f"Hersteller: {manufacturer}")
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print(f"Modell: {model}")
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print(f"Version: {version}")
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print(f"Seriennummer: {serial}")
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# ==== Inverter Block (base-0) ====
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# AC Power + Scale Factor
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ac_power = read_scaled(40083, 40084) # I_AC_Power, I_AC_Power_SF
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if ac_power is not None:
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print(f"AC Power: {ac_power} W")
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else:
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print("Fehler beim Lesen von AC Power")
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# AC Spannung L-N Durchschnitt (falls 1ph/3ph mit N verfügbar) + SF
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ac_voltage = read_scaled(40079, 40082) # I_AC_VoltageAN, I_AC_Voltage_SF
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if ac_voltage is not None:
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print(f"AC Spannung: {ac_voltage} V")
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# AC Frequenz + SF
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ac_freq = read_scaled(40085, 40086) # I_AC_Frequency, _SF
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if ac_freq is not None:
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print(f"Frequenz: {ac_freq} Hz")
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# DC Power + SF
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dc_power = read_scaled(40100, 40101) # I_DC_Power, _SF
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if dc_power is not None:
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print(f"DC Power: {dc_power} W")
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# Lifetime Energy (AC_Energy_WH, acc32) + SF
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lifetime_wh = read_u32_with_sf(40093, 40095) # I_AC_Energy_WH, _SF
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if lifetime_wh is not None:
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print(f"Lifetime Energy: {lifetime_wh} Wh")
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# Status
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status_regs = read_regs(40107, 2) # I_Status, I_Status_Vendor
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if status_regs:
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i_status = status_regs[0]
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i_status_vendor = status_regs[1]
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print(f"Status: {i_status} (Vendor: {i_status_vendor})")
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client.close()
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