#!/usr/bin/env python3 """ EnergyMeter: A Python module for interfacing with several energy meters. """ __author__ = 'Stan Janssen' __email__ = 'stanjanssen@finetuned.nl' __url__ = 'https://finetuned.nl/' __license__ = 'Apache License, Version 2.0' __version__ = '1.0.2' __status__ = 'Beta' import random import socket import struct import asyncio import time import minimalmodbus from collections import Iterable class ABBMeter: """Meter class that uses a minimalmodbus Instrument to query an ABB meter.""" def __init__(self, port, baudrate=38400, slaveaddress=1, type=None): """ Initialize the ABBMeter object. Arguments: * port: a serial port (string) * baudrate: the baudrate to use (integer) * slaveaddress: the address of the modbus device (integer) * Specification of the type. Used to limit the registers to a specific set. Returns: * An ABBMeter object """ minimalmodbus.BAUDRATE = baudrate minimalmodbus.TIMEOUT = 0.5 self.instrument = minimalmodbus.Instrument(port, slaveaddress) if type in ABBMeter.REGSETS: self.registers = [register for register in ABBMeter.REGS if register['name'] in ABBMeter.REGSETS[type]] else: self.registers = ABBMeter.REGS def read(self, regnames=None): """ Read one, many or all registers from the device Args: * registers (str or list). If None, read all. If string, read single register. If list, read all registers from list. Returns: * If single register, it returns a single value. If all or list, return a dict with the keys and values. Raises: * KeyError, TypeError, IOError """ if regnames is None: return self._batch_read(self.registers) if type(regnames) is list: registers = [register for register in self.registers if register['name'] in regnames] if len(registers) < len(regnames): regs_not_available = [regname for regname in regnames if regname not in \ [register['name'] for register in self.registers]] print("Warning: the following registers are not available on this device: " + ", ".join(regs_not_available)) print("The available registers are: %s" + ", ".join(register['name'] for register in self.registers)) if len(registers) == 0: return {} registers.sort(key=lambda reg: reg['start']) return self._batch_read(registers) elif type(regnames) is str: registers = [register for register in self.registers if register['name'] == regnames] if len(registers) == 0: return "Register not found on device." return self._read_single(registers[0]) else: raise TypeError def _read_single(self, register): """ Read a single register and return the value. """ if register['length'] is 1: return self.instrument.read_register(registeraddress=register['start'], numberOfDecimals=register['decimals'], signed=register['signed']) if register['length'] is 2: value = self.instrument.read_long(registeraddress=register['start'], signed=register['signed']) return value / 10 ** register['decimals'] if register['length'] is 4: value = self.instrument.read_registers(registeraddress=register['start'], numberOfRegisters=register['length']) return self._convert_value(values=value, signed=register['signed'], numberOfDecimals=register['decimals']) def _read_multiple(self, registers): """ Read multiple registers from the slave device and return their values as a dict. Arguments: * A list of registers (complete structs) Returns: * A dict containing all keys and values """ first_reg = min([register['start'] for register in registers]) num_regs = max([register['start'] + register['length'] for register in registers]) - first_reg values = self.instrument.read_registers(registeraddress=first_reg, numberOfRegisters=num_regs) return self._interpret_result(values, registers) def _batch_read(self, registers): """ Read multiple registers in batches, limiting each batch to at most 125 registers. Arguments: * A list of registers (complete structs) Returns: * A dict containing all keys and values """ # Count up to at most 128 registers: start_reg = registers[0]['start'] batch = [] results = {} for register in registers: if register['start'] + register['length'] - start_reg <= 125: batch.append(register) else: results.update(self._read_multiple(batch)) batch = [] batch.append(register) start_reg = register['start'] results.update(self._read_multiple(batch)) return results def _interpret_result(self, data, registers): """ Pull the returned string apart and package the data back to its intended form. Arguments: * data: list of register values returned from the device * registers: the original requested set of registers Returns: * A dict containing the register names and resulting values """ first_reg = min([register['start'] for register in registers]) results = {} for register in registers: regname = register['name'] start = register['start'] - first_reg end = start + register['length'] values = data[start:end] results[regname] = self._convert_value(values=values, signed=register['signed'], numberOfDecimals=register['decimals']) return results def _convert_value(self, values, signed=False, numberOfDecimals=0): """ Convert a list of returned integers to the intended value. Arguments: * bytestring: a list of integers that together represent the value * signed: whether the value is a signed value * decimals: number of decimals the return value should contain """ numberOfRegisters = len(values) formatcode_i = '>' formatcode_o = '>' if numberOfRegisters == 1: formatcode_i += "H" if signed: formatcode_o += "h" else: formatcode_o += "H" if numberOfRegisters == 2: formatcode_i += 'HH' if signed: formatcode_o += "l" else: formatcode_o += "L" if numberOfRegisters == 4: formatcode_i += "HHHH" if signed: formatcode_o += "q" else: formatcode_o += "Q" bytestring = struct.pack(formatcode_i, *values) value = struct.unpack(formatcode_o, bytestring)[0] if value in ABBMeter.NULLS: return None else: return float(value) / 10 ** numberOfDecimals # Register map of the ABB A and B series energy meters. REGS = [{'name': 'active_import', 'start': 20480, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'active_export', 'start': 20484, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'active_net', 'start': 20488, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'reactive_import', 'start': 20492, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'reactive_export', 'start': 20496, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'reactive_net', 'start': 20500, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'apparent_import', 'start': 20504, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'apparent_export', 'start': 20508, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'apparent_net', 'start': 20512, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'active_import_co2', 'start': 20516, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'active_import_currency', 'start': 20532, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'active_import_tariff_1', 'start': 20848, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_import_tariff_2', 'start': 20852, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_import_tariff_3', 'start': 20856, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_import_tariff_4', 'start': 20860, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_export_tariff_1', 'start': 20880, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_export_tariff_2', 'start': 20884, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_export_tariff_3', 'start': 20888, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_export_tariff_4', 'start': 20892, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_import_tariff_1', 'start': 20912, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_import_tariff_2', 'start': 20916, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_import_tariff_3', 'start': 20920, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_import_tariff_4', 'start': 20924, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_export_tariff_1', 'start': 20944, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_export_tariff_2', 'start': 20948, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_export_tariff_3', 'start': 20952, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_export_tariff_4', 'start': 20956, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_import_l1', 'start': 21600, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_import_l2', 'start': 21604, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_import_l3', 'start': 21608, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_export_l1', 'start': 21612, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_export_l2', 'start': 21616, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_export_l3', 'start': 21620, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'active_net_l1', 'start': 21624, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'active_net_l2', 'start': 21628, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'active_net_l3', 'start': 21632, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'reactive_import_l1', 'start': 21636, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_import_l2', 'start': 21640, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_import_l3', 'start': 21644, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_export_l1', 'start': 21648, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_export_l2', 'start': 21652, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_export_l3', 'start': 21656, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'reactive_net_l1', 'start': 21660, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'reactive_net_l2', 'start': 21664, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'reactive_net_l3', 'start': 21668, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'apparent_import_l1', 'start': 21672, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'apparent_import_l2', 'start': 21676, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'apparent_import_l3', 'start': 21680, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'apparent_export_l1', 'start': 21684, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'apparent_export_l2', 'start': 21688, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'apparent_export_l3', 'start': 21692, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'apparent_net_l1', 'start': 21696, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'apparent_net_l2', 'start': 21700, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'apparent_net_l3', 'start': 21704, 'length': 4, 'signed': True, 'decimals': 2}, {'name': 'resettable_active_import', 'start': 21804, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'resettable_active_export', 'start': 21808, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'resettable_reactive_import', 'start': 21812, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'resettable_reactive_export', 'start': 21816, 'length': 4, 'signed': False, 'decimals': 2}, {'name': 'voltage_l1_n', 'start': 23296, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_l2_n', 'start': 23298, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_l3_n', 'start': 23300, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_l1_l2', 'start': 23302, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_l3_l2', 'start': 23304, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_l1_l3', 'start': 23306, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_l1', 'start': 23308, 'length': 2, 'signed': False, 'decimals': 2}, {'name': 'current_l2', 'start': 23310, 'length': 2, 'signed': False, 'decimals': 2}, {'name': 'current_l3', 'start': 23312, 'length': 2, 'signed': False, 'decimals': 2}, {'name': 'current_n', 'start': 23314, 'length': 2, 'signed': False, 'decimals': 2}, {'name': 'active_power_total', 'start': 23316, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'active_power_l1', 'start': 23318, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'active_power_l2', 'start': 23320, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'active_power_l3', 'start': 23322, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'reactive_power_total', 'start': 23324, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'reactive_power_l1', 'start': 23326, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'reactive_power_l2', 'start': 23328, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'reactive_power_l3', 'start': 23330, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'apparent_power_total', 'start': 23332, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'apparent_power_l1', 'start': 23334, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'apparent_power_l2', 'start': 23336, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'apparent_power_l3', 'start': 23338, 'length': 2, 'signed': True, 'decimals': 2}, {'name': 'frequency', 'start': 23340, 'length': 1, 'signed': False, 'decimals': 2}, {'name': 'phase_angle_power_total', 'start': 23341, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'phase_angle_power_l1', 'start': 23342, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'phase_angle_power_l2', 'start': 23343, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'phase_angle_power_l3', 'start': 23344, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'phase_angle_voltage_l1', 'start': 23345, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'phase_angle_voltage_l2', 'start': 23346, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'phase_angle_voltage_l3', 'start': 23347, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'phase_angle_current_l1', 'start': 23351, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'phase_angle_current_l2', 'start': 23352, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'phase_angle_current_l3', 'start': 23353, 'length': 1, 'signed': True, 'decimals': 1}, {'name': 'power_factor_total', 'start': 23354, 'length': 1, 'signed': True, 'decimals': 3}, {'name': 'power_factor_l1', 'start': 23355, 'length': 1, 'signed': True, 'decimals': 3}, {'name': 'power_factor_l2', 'start': 23356, 'length': 1, 'signed': True, 'decimals': 3}, {'name': 'power_factor_l3', 'start': 23357, 'length': 1, 'signed': True, 'decimals': 3}, {'name': 'current_quadrant_total', 'start': 23358, 'length': 1, 'signed': False, 'decimals': 0}, {'name': 'current_quadrant_l1', 'start': 23359, 'length': 1, 'signed': False, 'decimals': 0}, {'name': 'current_quadrant_l2', 'start': 23360, 'length': 1, 'signed': False, 'decimals': 0}, {'name': 'current_quadrant_l3', 'start': 23361, 'length': 1, 'signed': False, 'decimals': 0}, {'name': 'voltage_harmonics_l1_n_thd', 'start': 23808, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_2nd', 'start': 23810, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_3rd', 'start': 23812, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_4th', 'start': 23814, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_5th', 'start': 23816, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_6th', 'start': 23818, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_7th', 'start': 23820, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_8th', 'start': 23822, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_9th', 'start': 23824, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_10th', 'start': 23826, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_11th', 'start': 23828, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_12th', 'start': 23830, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_13th', 'start': 23832, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_14th', 'start': 23834, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_15th', 'start': 23836, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_n_16th', 'start': 23838, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_thd', 'start': 23936, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_2nd', 'start': 23938, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_3rd', 'start': 23940, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_4th', 'start': 23942, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_5th', 'start': 23944, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_6th', 'start': 23946, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_7th', 'start': 23948, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_8th', 'start': 23950, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_9th', 'start': 23952, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_10th', 'start': 23954, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_11th', 'start': 23956, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_12th', 'start': 23958, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_13th', 'start': 23960, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_14th', 'start': 23962, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_15th', 'start': 23964, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l2_n_16th', 'start': 23966, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_thd', 'start': 24064, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_2nd', 'start': 24066, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_3rd', 'start': 24068, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_4th', 'start': 24070, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_5th', 'start': 24072, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_6th', 'start': 24074, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_7th', 'start': 24076, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_8th', 'start': 24078, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_9th', 'start': 24080, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_10th', 'start': 24082, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_11th', 'start': 24084, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_12th', 'start': 24086, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_13th', 'start': 24088, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_14th', 'start': 24090, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_15th', 'start': 24092, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_n_16th', 'start': 24094, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_thd', 'start': 24192, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_2nd', 'start': 24194, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_3rd', 'start': 24196, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_4th', 'start': 24198, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_5th', 'start': 24200, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_6th', 'start': 24202, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_7th', 'start': 24204, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_8th', 'start': 24206, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_9th', 'start': 24208, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_10th', 'start': 24210, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_11th', 'start': 24212, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_12th', 'start': 24214, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_13th', 'start': 24216, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_14th', 'start': 24218, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_15th', 'start': 24220, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l2_16th', 'start': 24222, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_thd', 'start': 24320, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_2nd', 'start': 24322, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_3rd', 'start': 24324, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_4th', 'start': 24326, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_5th', 'start': 24328, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_6th', 'start': 24330, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_7th', 'start': 24332, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_8th', 'start': 24334, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_9th', 'start': 24336, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_10th', 'start': 24338, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_11th', 'start': 24340, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_12th', 'start': 24342, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_13th', 'start': 24344, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_14th', 'start': 24346, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_15th', 'start': 24348, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l3_l2_16th', 'start': 24350, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_thd', 'start': 24448, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_2nd', 'start': 24450, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_3rd', 'start': 24452, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_4th', 'start': 24454, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_5th', 'start': 24456, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_6th', 'start': 24458, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_7th', 'start': 24460, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_8th', 'start': 24462, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_9th', 'start': 24464, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_10th', 'start': 24466, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_11th', 'start': 24468, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_12th', 'start': 24470, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_13th', 'start': 24472, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_14th', 'start': 24474, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_15th', 'start': 24476, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'voltage_harmonics_l1_l3_16th', 'start': 24478, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_thd', 'start': 24576, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_2nd', 'start': 24578, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_3rd', 'start': 24580, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_4th', 'start': 24582, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_5th', 'start': 24584, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_6th', 'start': 24586, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_7th', 'start': 24588, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_8th', 'start': 24590, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_9th', 'start': 24592, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_10th', 'start': 24594, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_11th', 'start': 24596, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_12th', 'start': 24598, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_13th', 'start': 24600, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_14th', 'start': 24602, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_15th', 'start': 24604, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l1_16th', 'start': 24606, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_thd', 'start': 24704, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_2nd', 'start': 24706, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_3rd', 'start': 24708, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_4th', 'start': 24710, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_5th', 'start': 24712, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_6th', 'start': 24714, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_7th', 'start': 24716, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_8th', 'start': 24718, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_9th', 'start': 24720, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_10th', 'start': 24722, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_11th', 'start': 24724, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_12th', 'start': 24726, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_13th', 'start': 24728, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_14th', 'start': 24730, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_15th', 'start': 24732, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l2_16th', 'start': 24734, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_thd', 'start': 24832, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_2nd', 'start': 24834, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_3rd', 'start': 24836, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_4th', 'start': 24838, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_5th', 'start': 24840, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_6th', 'start': 24842, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_7th', 'start': 24844, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_8th', 'start': 24846, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_9th', 'start': 24848, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_10th', 'start': 24850, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_11th', 'start': 24852, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_12th', 'start': 24854, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_13th', 'start': 24856, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_14th', 'start': 24858, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_15th', 'start': 24860, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_l3_16th', 'start': 24862, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_thd', 'start': 24960, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_2nd', 'start': 24962, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_3rd', 'start': 24964, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_4th', 'start': 24966, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_5th', 'start': 24968, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_6th', 'start': 24970, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_7th', 'start': 24972, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_8th', 'start': 24974, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_9th', 'start': 24976, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_10th', 'start': 24978, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_11th', 'start': 24980, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_12th', 'start': 24982, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_13th', 'start': 24984, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_14th', 'start': 24986, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_15th', 'start': 24988, 'length': 2, 'signed': False, 'decimals': 1}, {'name': 'current_harmonics_n_16th', 'start': 24990, 'length': 2, 'signed': False, 'decimals': 1}] REGSETS = { "A43": ["active_import", "active_export", "active_net", "reactive_import", "reactive_export", "reactive_net", "apparent_import", "apparent_export", "apparent_net", "active_import_co2", "active_import_currency", "active_import_l1", "active_import_l2", "active_import_l3", "active_export_l1", "active_export_l2", "active_export_l3", "active_net_l1", "active_net_l2", "active_net_l3", "reactive_import_l1", "reactive_import_l2", "reactive_import_l3", "reactive_export_l1", "reactive_export_l2", "reactive_export_l3", "reactive_net_l1", "reactive_net_l2", "reactive_net_l3", "apparent_import_l1", "apparent_import_l2", "apparent_import_l3", "apparent_export_l1", "apparent_export_l2", "apparent_export_l3", "apparent_net_l1", "apparent_net_l2", "apparent_net_l3", "voltage_l1_n", "voltage_l2_n", "voltage_l3_n", "voltage_l1_l2", "voltage_l3_l2", "voltage_l1_l3", "current_l1", "current_l2", "current_l3", "active_power_total", "active_power_l1", "active_power_l2", "active_power_l3", "reactive_power_total", "reactive_power_l1", "reactive_power_l2", "reactive_power_l3", "apparent_power_total", "apparent_power_l1", "apparent_power_l2", "apparent_power_l3", "frequency", "phase_angle_power_total", "power_factor_total", "power_factor_l1", "power_factor_l2", "power_factor_l3", "current_quadrant_total", "current_quadrant_l1", "current_quadrant_l2", "current_quadrant_l3"], "B23": ["active_import", "active_export", "active_net", "reactive_import", "reactive_export", "reactive_net", "apparent_import", "apparent_export", "apparent_net", "active_import_co2", "active_import_currency", "active_import_l1", "active_import_l2", "active_import_l3", "active_export_l1", "active_export_l2", "active_export_l3", "active_net_l1", "active_net_l2", "active_net_l3", "reactive_import_l1", "reactive_import_l2", "reactive_import_l3", "reactive_export_l1", "reactive_export_l2", "reactive_export_l3", "reactive_net_l1", "reactive_net_l2", "reactive_net_l3", "apparent_import_l1", "apparent_import_l2", "apparent_import_l3", "apparent_export_l1", "apparent_export_l2", "apparent_export_l3", "apparent_net_l1", "apparent_net_l2", "apparent_net_l3", "voltage_l1_n", "voltage_l2_n", "voltage_l3_n", "voltage_l1_l2", "voltage_l3_l2", "voltage_l1_l3", "current_l1", "current_l2", "current_l3", "active_power_total", "active_power_l1", "active_power_l2", "active_power_l3", "reactive_power_total", "reactive_power_l1", "reactive_power_l2", "reactive_power_l3", "apparent_power_total", "apparent_power_l1", "apparent_power_l2", "apparent_power_l3", "frequency", "phase_angle_power_total", "power_factor_total", "power_factor_l1", "power_factor_l2", "power_factor_l3", "current_quadrant_total", "current_quadrant_l1", "current_quadrant_l2", "current_quadrant_l3"], "B21": ["active_import", "active_export", "active_net", "reactive_import", "reactive_export", "reactive_net", "apparent_import", "apparent_export", "apparent_net", "active_import_co2", "active_import_currency", "voltage_l1_n", "current_l1", "active_power_total", "reactive_power_total", "apparent_power_total", "frequency", "phase_angle_power_total", "power_factor_total", "current_quadrant_total"] } NULLS = [pow(2, n) - 1 for n in (64, 63, 32, 31, 16, 15)] class ModbusTCPMeter: """ Implementation for a Modbus TCP Energy Meter. """ def __init__(self, port, tcp_port=502, slaveaddress=126, type=None, baudrate=None): self.port = port self.tcp_port = tcp_port self.device_id = slaveaddress def read(self, regnames=None): if regnames is None: registers = self.REGS return self._read_multiple(registers) if type(regnames) is str: registers = [register for register in self.REGS if register['name'] == regnames] return self._read_single(registers[0]) if type(regnames) is list: registers = [register for register in self.REGS if register['name'] in regnames] return self._read_multiple(registers) def _read_single(self, register): message = self._modbus_message(start_reg=register['start'], num_regs=register['length']) data = self._perform_request(message) return self._convert_value(data, signed=register['signed'], decimals=register['decimals']) def _read_multiple(self, registers): registers.sort(key=lambda reg: reg['start']) results = {} for reg_range in self._split_ranges(registers): first_reg = min([register['start'] for register in reg_range]) num_regs = max([register['start'] + register['length'] for register in reg_range]) - first_reg message = self._modbus_message(start_reg=first_reg, num_regs=num_regs) data = self._perform_request(message) results.update(self._interpret_result(data, reg_range)) return results def _split_ranges(self, registers): """ Generator that splits the registers list into continuous parts. """ reg_list = [] prev_end = registers[0]['start'] - 1 for r in registers: if r['start'] - prev_end > 1: yield reg_list reg_list = [] reg_list.append(r) prev_end = r['start'] + r['length'] yield reg_list def _modbus_message(self, start_reg, num_regs): transaction_id = random.randint(1, 2**16 - 1) return struct.pack(">HHHBBHH", transaction_id, self.PROTOCOL_CODE, 6, self.device_id, self.FUNCTION_CODE, start_reg - self.REG_OFFSET, num_regs) def _perform_request(self, message): if self.device is None: self._connect() self.device.send(message) data = bytes() expect_bytes = 9 + 2 * struct.unpack(">H", message[-2:])[0] attempt = 1 while len(data) is not expect_bytes: time.sleep(0.05) data += self.device.recv(2048) if attempt >= 10: return 2 * struct.unpack(">H", message[-2:])[0] * [0] attempt += 1 return data[9:] def _interpret_result(self, data, registers): """ Pull the returned string apart and package the data back to its intended form. Arguments: * data: list of register values returned from the device * registers: the original requested set of registers Returns: * A dict containing the register names and resulting values """ first_reg = min([register['start'] for register in registers]) results = {} for register in registers: regname = register['name'] start = (register['start'] - first_reg) * 2 end = start + register['length'] * 2 values = data[start:end] results[regname] = self._convert_value(values=values, signed=register['signed'], decimals=register['decimals'], isFloat=register['isFloat']) if regname == "power_factor_total" and results[regname] == 0: results[regname] = 1 # The SMA will send out a 0 when the power factor is 100% return results def _convert_value(self, values, signed=False, decimals=0, isFloat=False): """ Convert a list of returned integers to the intended value. Arguments: * bytestring: a list of integers that together represent the value * signed: whether the value is a signed value * decimals: number of decimals the return value should contain * isFloat: whether the valie is a float """ numberOfBytes = len(values) formatcode_o = '>' if isFloat: formatcode_o += 'f' elif numberOfBytes == 1: if signed: formatcode_o += "b" else: formatcode_o += "B" elif numberOfBytes == 2: if signed: formatcode_o += "h" else: formatcode_o += "H" elif numberOfBytes == 4: if signed: formatcode_o += "l" else: formatcode_o += "L" value = struct.unpack(formatcode_o, bytes(values))[0] if value in self.NULLS: return None else: return float(value) / 10 ** decimals def _connect(self): self.device = socket.create_connection(address=(self.port, self.tcp_port)) class SMAMeter(ModbusTCPMeter): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) REGS = [ {'name': 'current_ac', 'start': 40188, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'current_l1', 'start': 40189, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'current_l2', 'start': 40190, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'current_l3', 'start': 40191, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'voltage_l1_l2', 'start': 40193, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'voltage_l2_l3', 'start': 40194, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'voltage_l3_l1', 'start': 40195, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'voltage_l1_n', 'start': 40196, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'voltage_l2_n', 'start': 40197, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'voltage_l3_n', 'start': 40198, 'length': 1, 'signed': False, 'decimals': 1}, {'name': 'active_power_total', 'start': 40200, 'length': 1, 'signed': True, 'decimals': -1}, {'name': 'frequency', 'start': 40202, 'length': 1, 'signed': False, 'decimals': 2}, {'name': 'apparent_power_total', 'start': 40204, 'length': 1, 'signed': True, 'decimals': -1}, {'name': 'reactive_power_total', 'start': 40206, 'length': 1, 'signed': True, 'decimals': -1}, {'name': 'power_factor_total', 'start': 40208, 'length': 1, 'signed': True, 'decimals': 3}, {'name': 'active_export', 'start': 40210, 'length': 2, 'signed': False, 'decimals': 3}, {'name': 'dc_power', 'start': 40217, 'length': 1, 'signed': False, 'decimals': -1}, {'name': 'temperature_internal', 'start': 40219, 'length': 1, 'signed': False, 'decimals': 0}, {'name': 'temperature_other', 'start': 40222, 'length': 1, 'signed': False, 'decimals': 0}, {'name': 'operating_status', 'start': 40224, 'length': 1, 'signed': False, 'decimals': 0} ] REG_OFFSET = 1 PROTOCOL_CODE = 0 FUNCTION_CODE = 3 NULLS = [2**16 - 1, 2**15 - 1, 2**15, -2**15] class MulticubeMeter(ModbusTCPMeter): """ Implementation for a Multicube energy meter over Modbus TCP. """ def __init__(self, port, tcp_port=1502, slaveaddress=1, type=None, baudrate=None, auto_scale=True): super().__init__(port, tcp_port, slaveaddress, type, baudrate) self.device = socket.create_connection(address=(port, tcp_port)) self.device_id = slaveaddress self.REGS = [ {'name': 'energy_scale', 'start': 512, 'length': 2, 'decimals': 0, 'signed': True}, {'name': 'active_net', 'start': 514, 'length': 2, 'decimals': 0, 'signed': True}, {'name': 'apparent_net', 'start': 516, 'length': 2, 'decimals': 0, 'signed': True}, {'name': 'reactive_net', 'start': 518, 'length': 2, 'decimals': 0, 'signed': True}, {'name': 'active_power_total', 'start': 2816, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'apparent_power_total', 'start': 2817, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'reactive_power_total', 'start': 2818, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'power_factor_total', 'start': 2819, 'length': 1, 'decimals': 3, 'signed': True}, {'name': 'frequency', 'start': 2820, 'length': 1, 'decimals': 1, 'signed': True}, {'name': 'voltage_l1_n', 'start': 2821, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'current_l1', 'start': 2822, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'active_power_l1', 'start': 2823, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'voltage_l2_n', 'start': 2824, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'current_l2', 'start': 2825, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'active_power_l2', 'start': 2826, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'voltage_l3_n', 'start': 2827, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'current_l3', 'start': 2828, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'active_power_l3', 'start': 2829, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'power_factor_l1', 'start': 2830, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'power_factor_l2', 'start': 2831, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'power_factor_l3', 'start': 2832, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'voltage_l1_l2', 'start': 2833, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'voltage_l2_l3', 'start': 2834, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'voltage_l3_l1', 'start': 2835, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'current_n', 'start': 2836, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'amps_scale', 'start': 2837, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'phase_volts_scale', 'start': 2838, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'line_volts_scale', 'start': 2839, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'power_scale', 'start': 2840, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'apparent_power_l1', 'start': 3072, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'apparent_power_l2', 'start': 3073, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'apparent_power_l3', 'start': 3074, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'reactive_power_l1', 'start': 3075, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'reactive_power_l2', 'start': 3076, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'reactive_power_l3', 'start': 3077, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'peak_current_l1', 'start': 3078, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'peak_current_l2', 'start': 3079, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'peak_current_l3', 'start': 3080, 'length': 1, 'decimals': 0, 'signed': True}, {'name': 'current_l1_thd', 'start': 3081, 'length': 1, 'decimals': 3, 'signed': True}, {'name': 'current_l2_thd', 'start': 3082, 'length': 1, 'decimals': 3, 'signed': True}, {'name': 'current_l3_thd', 'start': 3083, 'length': 1, 'decimals': 3, 'signed': True} ] if auto_scale: self.set_scaling() def set_scaling(self): """ Call this function before reading anything to set up the correct scaling for this meter. """ decimals_mapping = {1: 2, 2: 1, 3: 0, 4: -1, 5: -2, 6: -3, 7: -4} a_registers = ['current_l1', 'current_l2', 'current_l3', 'current_n'] scale = int(self.read('amps_scale')) for r in self.REGS: if r['name'] in a_registers: r['decimals'] = decimals_mapping[scale] pv_registers = ['voltage_l1_n', 'voltage_l2_n', 'voltage_l3_n'] scale = int(self.read('phase_volts_scale')) for r in self.REGS: if r['name'] in pv_registers: r['decimals'] = decimals_mapping[scale] lv_registers = ['voltage_l1_l2', 'voltage_l2_l3', 'voltage_l3_l1'] scale = int(self.read('line_volts_scale')) for r in self.REGS: if r['name'] in lv_registers: r['decimals'] = decimals_mapping[scale] p_registers = ['active_power_total', 'reactive_power_total', 'apparent_power_total', 'active_power_l1', 'active_power_l2', 'active_power_l3', 'apparent_power_l1', 'apparent_power_l2', 'apparent_power_l3', 'reactive_power_l1', 'reactive_power_l2', 'reactive_power_l3'] scale = int(self.read('power_scale')) for r in self.REGS: if r['name'] in p_registers: r['decimals'] = decimals_mapping[scale] e_registers = ['active_net', 'apparent_net', 'reactive_net'] decimals_mapping = {3: 3, 4: 2, 5: 1, 6: 0, 7: -1} scale = int(self.read('energy_scale')) for r in self.REGS: if r['name'] in e_registers: r['decimals'] = decimals_mapping[scale] REG_OFFSET = 0 PROTOCOL_CODE = 0 FUNCTION_CODE = 3 NULLS = [2**16 - 1, 2**15 - 1, 2**15, -2**15] class AsyncModbusTCPMeter(ModbusTCPMeter): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.reader = self.writer = None async def _connect(self): self.reader, self.writer = await asyncio.open_connection(host=self.port, port=self.tcp_port) async def read(self, regnames=None): if regnames is None: registers = self.REGS return await self._read_multiple(registers) if isinstance(regnames, str): registers = [register for register in self.REGS if register['name'] == regnames] if len(registers) == 0: return "Register not found on device." return await self._read_single(registers[0]) if isinstance(regnames, Iterable): registers = [register for register in self.REGS if register['name'] in regnames] return await self._read_multiple(registers) async def _read_single(self, register): num_regs = register['length'] message = self._modbus_message(register['start'], num_regs) if self.writer is None: await self._connect() self.writer.write(message) await self.writer.drain() data = await self.reader.readexactly(9 + 2 * num_regs) return self._convert_value(data[9:], signed=register['signed'], decimals=register['decimals'], isFloat=register['isFloat']|False) async def _read_multiple(self, registers): registers.sort(key=lambda reg: reg['start']) results = {} for reg_range in self._split_ranges(registers): # Prepare the request first_reg = min([register['start'] for register in reg_range]) num_regs = max([register['start'] + register['length'] for register in reg_range]) - first_reg if self.writer is None: await self._connect() self.writer.write(self._modbus_message(first_reg, num_regs)) await self.writer.drain() # Receive the response data = await self.reader.readexactly(9 + 2 * num_regs) results.update(self._interpret_result(data[9:], reg_range)) return results class AsyncABBTCPMeter(AsyncModbusTCPMeter): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) if type in ABBMeter.REGSETS: self.registers = [register for register in ABBMeter.REGS if register['name'] in ABBMeter.REGSETS[type]] else: self.registers = ABBMeter.REGS REGS = ABBMeter.REGS REGSETS = ABBMeter.REGSETS NULLS = ABBMeter.NULLS PROTOCOL_CODE = 0 FUNCTION_CODE = 3 REG_OFFSET = 0