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From gru, 2 Years ago, written in YAML, viewed 77 times.

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substitutions:
  devicename: sofarsolar-logger
  friendly_name: SofarSolar
  hostname: "esp8266-sofar"
  comment: "SofarSolar modbus interface"
  icon: "mdi:solar-power-variant-outline"
  restore_mode: "restore_default_off"
 
wifi:
  ssid: ""
  password: ""
  fast_connect: true
  reboot_timeout: 120s
  power_save_mode: none
 
  ap:
    ssid: "Fallback-AP-${devicename}"
    password: ""
    ap_timeout: 300s
 
api:
  password: "TbkEdpMbUuwCNxfU6CK3KHo392"
 
ota:
  password: "TbkEdpMbUuwCNxfU6CK3KHo392"
  safe_mode: False
  
captive_portal: 
 
mdns:
  disabled: True
 
web_server:
  port: 80
  ota: false
 
esphome:
  name: $devicename
  platform: ESP8266
  board: esp01_1m
  board_flash_mode: dout
  comment: SofarSolar Logger (Modbus/RS485)
 
logger:
    level: INFO
    baud_rate: 0
    
status_led:
  pin:
    number: GPIO2
    inverted: true
 
external_components:
  - source:
      type: git
      url: https://github.com/ssieb/custom_components
    components: [ heapmon ]
 
uart:
  id: mod_bus
  tx_pin: 1
  rx_pin: 3
  baud_rate: 9600
  stop_bits: 1
 
modbus:
  id: mod_bus_sofar
 
modbus_controller:
  - id: sofarsolar
    address: 0x01
    modbus_id: mod_bus_sofar
    update_interval: 5s
 
text_sensor:  
 
  - platform: template
    name: "ESP-Sofar Uptime (human readable)"
    id: uptime_human
    icon: "mdi:clock-start"
    update_interval: 5s
    
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Status
    id: inverter_status
    register_type: holding
    icon: "mdi:information-outline"
    address: 0x0000
    response_size: 2
    lambda: |-
      auto z = "Unknown";
      char d = data[item->offset+1];
      if (d == 0) z = "Wait";
      else if (d == 1) z = "Check";
      else if (d == 2) z = "Normal";
      else if (d == 3) z = "Fault";
      else if (d == 4) z = "Permanent";
      return {z};
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Fault Message
    id: inverter_fault_message
    register_type: holding
    icon: "mdi:alert-outline"
    address: 0x0001
    response_size: 10
    lambda: |-
      std::string z = "";
      int idx = item->offset;
      //byte[0]
      if ((data[idx] & 0x1) != 0) z += "GridOVP,";
      if ((data[idx] & 0x2) != 0) z += "GridUVP,";
      if ((data[idx] & 0x4) != 0) z += "GridOFP,";
      if ((data[idx] & 0x8) != 0) z += "GridUFP,";
      if ((data[idx] & 0x10) != 0) z += "PVUVP,";
      if ((data[idx] & 0x20) != 0) z += "GridLVRT,";
      if ((data[idx] & 0x40) != 0) z += "reserve-ID7,";
      if ((data[idx] & 0x80) != 0) z += "reserve-ID8,";
      //byte[1]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "PVOVP,";
      if ((data[idx] & 0x2) != 0) z += "IpvUnbalance,";
      if ((data[idx] & 0x4) != 0) z += "PvConfigSetWrong,";
      if ((data[idx] & 0x8) != 0) z += "GFCIFault,";
      if ((data[idx] & 0x10) != 0) z += "PhaseSequenceFault,";
      if ((data[idx] & 0x20) != 0) z += "HwBoostOCP,";
      if ((data[idx] & 0x40) != 0) z += "HwAcOCP,";
      if ((data[idx] & 0x80) != 0) z += "AcRmsOCP,";
      //byte[2]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "HwADFaultIGrid,";
      if ((data[idx] & 0x2) != 0) z += "HwADFaultDCI,";
      if ((data[idx] & 0x4) != 0) z += "HwADFaultVGrid,";
      if ((data[idx] & 0x8) != 0) z += "GFCIDeviceFault,";
      if ((data[idx] & 0x10) != 0) z += "MChip_Fault,";
      if ((data[idx] & 0x20) != 0) z += "HwAuxPowerFault,";
      if ((data[idx] & 0x40) != 0) z += "BusVoltZeroFault,";
      if ((data[idx] & 0x80) != 0) z += "IacRmsUnbalance,";
      //byte[3]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "BusUVP,";
      if ((data[idx] & 0x2) != 0) z += "BusOVP,";
      if ((data[idx] & 0x4) != 0) z += "VbusUnbalance,";
      if ((data[idx] & 0x8) != 0) z += "DciOCP,";
      if ((data[idx] & 0x10) != 0) z += "SwOCPInstant,";
      if ((data[idx] & 0x20) != 0) z += "SwBOCPInstant,";
      if ((data[idx] & 0x40) != 0) z += "reserved-ID31,";
      if ((data[idx] & 0x80) != 0) z += "reserved-ID32,";
      //byte[4]
      idx++;
      if (data[idx] != 0) z += "reserved-ID33~40,";
      //byte[5]
      idx++;
      if (data[idx] != 0) z += "reserved-ID41~48,";
      //byte[6]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "ConsistentFault_VGrid,";
      if ((data[idx] & 0x2) != 0) z += "ConsistentFault_FGrid,";
      if ((data[idx] & 0x4) != 0) z += "ConsistentFault_DCI,";
      if ((data[idx] & 0x8) != 0) z += "ConsistentFault_GFCI,";
      if ((data[idx] & 0x10) != 0) z += "SpiCommLose,";
      if ((data[idx] & 0x20) != 0) z += "SciCommLose,";
      if ((data[idx] & 0x40) != 0) z += "RelayTestFail,";
      if ((data[idx] & 0x80) != 0) z += "PvIsoFault,";
      //byte[7]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "OverTempFault_Inv,";
      if ((data[idx] & 0x2) != 0) z += "OverTempFault_Boost,";
      if ((data[idx] & 0x4) != 0) z += "OverTempFault_Env,";
      if ((data[idx] & 0x8) != 0) z += "PEConnectFault,";
      if ((data[idx] & 0x10) != 0) z += "reserved-ID61,";
      if ((data[idx] & 0x20) != 0) z += "reserved-ID62,";
      if ((data[idx] & 0x40) != 0) z += "reserved-ID63,";
      if ((data[idx] & 0x80) != 0) z += "reserved-ID64,";
      //byte[8]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "unrecoverHwAcOCP,";
      if ((data[idx] & 0x2) != 0) z += "unrecoverBusOVP,";
      if ((data[idx] & 0x4) != 0) z += "unrecoverIacRmsUnbalance,";
      if ((data[idx] & 0x8) != 0) z += "unrecoverIpvUnbalance,";
      if ((data[idx] & 0x10) != 0) z += "unrecoverVbusUnbalance,";
      if ((data[idx] & 0x20) != 0) z += "unrecoverOCPInstant,";
      if ((data[idx] & 0x40) != 0) z += "unrecoverPvConfigSetWrong,";
      if ((data[idx] & 0x80) != 0) z += "reserved-ID72,";
      //byte[9]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "reserved-ID73,";
      if ((data[idx] & 0x2) != 0) z += "unrecoverIPVInstant,";
      if ((data[idx] & 0x4) != 0) z += "unrecoverWRITEEEPROM,";
      if ((data[idx] & 0x8) != 0) z += "unrecoverREADEEPROM,";
      if ((data[idx] & 0x10) != 0) z += "unrecoverRelayFail,";
      if ((data[idx] & 0x20) != 0) z += "reserved-ID78,";
      if ((data[idx] & 0x40) != 0) z += "reserved-ID79,";
      if ((data[idx] & 0x80) != 0) z += "reserved-ID80,";
      if(z.length() > 0){
        z.pop_back();
      }
      return {z};
 
sensor:
  - platform: wifi_signal
    id: inverter_wifi_signal
    name: "ESP-Sofar WiFi Signal"
    update_interval: 60s
    icon: "mdi:wifi"
 
  - platform: uptime
    id: inverter_uptime
    name: "ESP-Sofar Uptime"
    filters:
      - lambda: return x / 60.0;
    unit_of_measurement: minutes
    icon: "mdi:clock-start"
 
  - platform: heapmon  
    id: heapspace  
    name: "ESP-Sofar Heapsize"
    icon: "mdi:memory"
    update_interval: 5s
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC1 Voltage
    id: inverter_dc_v1
    register_type: holding
    address: 0x0006
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC1 Current
    id: inverter_dc_c1
    register_type: holding
    address: 0x0007
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC2 Voltage
    id: inverter_dc_v2
    register_type: holding
    address: 0x0008
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC2 Current
    id: inverter_dc_c2
    register_type: holding
    address: 0x0009
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC1 Power
    id: inverter_dc_power1
    register_type: holding
    address: 0x000a
    unit_of_measurement: "W"
    state_class: "measurement"
    device_class: "power"
    icon: "mdi:solar-power"
    value_type: U_WORD
    filters:
      - multiply: 10
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC2 Power
    id: inverter_dc_power2
    register_type: holding
    address: 0x000b
    unit_of_measurement: "W"
    state_class: "measurement"
    device_class: "power"
    icon: "mdi:solar-power"
    value_type: U_WORD
    filters:
      - multiply: 10
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} AC Power
    id: inverter_ac_power
    register_type: holding
    address: 0x000c
    unit_of_measurement: "W"
    state_class: "measurement"
    device_class: "power"
    icon: "mdi:solar-power-variant-outline"
    value_type: U_WORD
    filters:
      - multiply: 10
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} AC Reactive Power
    id: inverter_ac_reactive_power
    register_type: holding
    address: 0x000d
    unit_of_measurement: "kVar"
    state_class: "measurement"
    #device_class: "reactive_power"
    icon: "mdi:math-cos"
    value_type: S_WORD
    filters:
      - multiply: 10
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} AC Freq
    id: inverter_ac_freq
    register_type: holding
    address: 0x000e
    unit_of_measurement: "Hz"
    state_class: "measurement"
    #device_class: "frequency"
    icon: "mdi:current-ac"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L1 Voltage
    id: inverter_ac_v1
    register_type: holding
    address: 0x000f
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L1 Current
    id: inverter_ac_c1
    register_type: holding
    address: 0x0010
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L2 Voltage
    id: inverter_ac_v2
    register_type: holding
    address: 0x0011
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L2 Current
    id: inverter_ac_c2
    register_type: holding
    address: 0x0012
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L3 Voltage
    id: inverter_ac_v3
    register_type: holding
    address: 0x0013
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L3 Current
    id: inverter_ac_c3
    register_type: holding
    address: 0x0014
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Energy total
    id: inverter_energy_total
    register_type: holding
    address: 0x0015
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: "energy"
    state_class: "total_increasing"
    icon: "mdi:solar-power-variant-outline"
    value_type: U_DWORD
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Energy generation time total
    id: inverter_energy_generation_time_total
    register_type: holding
    address: 0x0017
    unit_of_measurement: "h"
    icon: "mdi:timeline-clock"
    value_type: U_DWORD
 
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Energy today
    id: inverter_energy_today
    register_type: holding
    address: 0x0019
    unit_of_measurement: "kWh"
    state_class: "measurement"
    device_class: "energy"
    icon: "mdi:solar-power-variant-outline"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Energy generation time today
    id: inverter_energy_generation_time_today
    register_type: holding
    address: 0x001A
    unit_of_measurement: "min"
    icon: "mdi:timeline-clock"
    value_type: U_WORD
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Temprature module
    id: inverter_temp_module
    register_type: holding
    address: 0x001B
    unit_of_measurement: "°C"
    state_class: "measurement"
    device_class: "temperature"
    icon: "mdi:temperature-celsius"
    value_type: U_WORD
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Temprature inverter
    id: inverter_temp_inverter
    register_type: holding
    address: 0x001C
    unit_of_measurement: "°C"
    state_class: "measurement"
    device_class: "temperature"
    icon: "mdi:temperature-celsius"
    value_type: U_WORD
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Bus voltage
    id: inverter_bus_voltage
    register_type: holding
    address: 0x001D
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} PV1+ isolation resistance
    id: inverter_dc_isolation_resistance1
    register_type: holding
    address: 0x0024
    unit_of_measurement: "Ohm"
    state_class: "measurement"
    icon: "mdi:omega"
    value_type: U_WORD
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} PV2+ isolation resistance
    id: inverter_dc_isolation_resistance2
    register_type: holding
    address: 0x0025
    unit_of_measurement: "Ohm"
    state_class: "measurement"
    icon: "mdi:omega"
    value_type: U_WORD
 
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} PV- isolation resistance
    id: inverter_cathode_to_ground_impedance
    register_type: holding
    address: 0x0026
    unit_of_measurement: "Ohm"
    state_class: "measurement"
    icon: "mdi:omega"
    value_type: U_WORD
 
  - platform: template
    name: ${friendly_name} AC Current (total)    
    lambda: |-
      return (id(inverter_ac_c1).state + id(inverter_ac_c2).state + id(inverter_ac_c3).state);
    unit_of_measurement: A
    accuracy_decimals: 2
    icon: "mdi:alpha-a-circle"
    device_class: "current"
    state_class: "measurement"
    update_interval: 5s
 
  - platform: template
    name: ${friendly_name} DC Current (total)  
    lambda: |-
      return (id(inverter_dc_c1).state + id(inverter_dc_c2).state);
    unit_of_measurement: A
    accuracy_decimals: 1
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle-outline"
    update_interval: 5s
 
  - platform: template
    name: ${friendly_name} DC Power (total)  
    lambda: |-
      return (id(inverter_dc_power2).state + id(inverter_dc_power1).state);
    unit_of_measurement: W
    state_class: "measurement"
    device_class: "power"
    accuracy_decimals: 0
    icon: "mdi:alpha-a-circle-outline"
    update_interval: 5s
 
  - platform: uptime
    name: ${friendly_name} Uptime
    id: uptime_sensor
    update_interval: 5s
    icon: "mdi:clock-start"
    internal: true
    on_raw_value:
      then:
        - text_sensor.template.publish:
            id: uptime_human
            state: !lambda |-
              int seconds = round(id(uptime_sensor).raw_state);
              seconds = seconds % (24 * 3600);
              int hours = seconds / 3600;
              seconds = seconds % 3600;
              int minutes = seconds /  60;
              seconds = seconds % 60;
              return (
                (hours ? to_string(hours) + "h " : "") +
                (minutes ? to_string(minutes) + "m " : "") +
                (to_string(seconds) + "s")
              ).c_str();
 
  - platform: template
    unit_of_measurement: "%"
    name: "ESP-Sofar WiFi Signal (human readable)"
    accuracy_decimals: 0
    update_interval: 30s
    device_class: "signal_strength"
    icon: "mdi:wifi"
    lambda: return (-0.0134 * (id(inverter_wifi_signal).state * id(inverter_wifi_signal).state ) ) + (-0.2228 * id(inverter_wifi_signal).state) + 100.2;
 
switch:
  - platform: restart
    name: "ESP-Sofar Restart"
 
binary_sensor:
  - platform: status
    name: "ESP-Sofar Status"

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Re: Untitled	Chartreuse Dolphin	yaml	1 Year ago.

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substitutions:
  devicename: sofarsolar-logger
  friendly_name: SofarSolar
  hostname: "esp8266-sofar"
  comment: "SofarSolar modbus interface"
  icon: "mdi:solar-power-variant-outline"
  restore_mode: "restore_default_off"

wifi:
  ssid: ""
  password: ""
  fast_connect: true
  reboot_timeout: 120s
  power_save_mode: none

ap:
    ssid: "Fallback-AP-${devicename}"
    password: ""
    ap_timeout: 300s

api:
  password: "TbkEdpMbUuwCNxfU6CK3KHo392"

ota:
  password: "TbkEdpMbUuwCNxfU6CK3KHo392"
  safe_mode: False
  
captive_portal:

mdns:
  disabled: True

web_server:
  port: 80
  ota: false

esphome:
  name: $devicename
  platform: ESP8266
  board: esp01_1m
  board_flash_mode: dout
  comment: SofarSolar Logger (Modbus/RS485)

logger:
    level: INFO
    baud_rate: 0
    
status_led:
  pin:
    number: GPIO2
    inverted: true

external_components:
  - source:
      type: git
      url: https://github.com/ssieb/custom_components
    components: [ heapmon ]

uart:
  id: mod_bus
  tx_pin: 1
  rx_pin: 3
  baud_rate: 9600
  stop_bits: 1

modbus:
  id: mod_bus_sofar

modbus_controller:
  - id: sofarsolar
    address: 0x01
    modbus_id: mod_bus_sofar
    update_interval: 5s

text_sensor:

- platform: template
    name: "ESP-Sofar Uptime (human readable)"
    id: uptime_human
    icon: "mdi:clock-start"
    update_interval: 5s
    
  - platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Status
    id: inverter_status
    register_type: holding
    icon: "mdi:information-outline"
    address: 0x0000
    response_size: 2
    lambda: |-
      auto z = "Unknown";
      char d = data[item->offset+1];
      if (d == 0) z = "Wait";
      else if (d == 1) z = "Check";
      else if (d == 2) z = "Normal";
      else if (d == 3) z = "Fault";
      else if (d == 4) z = "Permanent";
      return {z};

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Fault Message
    id: inverter_fault_message
    register_type: holding
    icon: "mdi:alert-outline"
    address: 0x0001
    response_size: 10
    lambda: |-
      std::string z = "";
      int idx = item->offset;
      //byte[0]
      if ((data[idx] & 0x1) != 0) z += "GridOVP,";
      if ((data[idx] & 0x2) != 0) z += "GridUVP,";
      if ((data[idx] & 0x4) != 0) z += "GridOFP,";
      if ((data[idx] & 0x8) != 0) z += "GridUFP,";
      if ((data[idx] & 0x10) != 0) z += "PVUVP,";
      if ((data[idx] & 0x20) != 0) z += "GridLVRT,";
      if ((data[idx] & 0x40) != 0) z += "reserve-ID7,";
      if ((data[idx] & 0x80) != 0) z += "reserve-ID8,";
      //byte[1]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "PVOVP,";
      if ((data[idx] & 0x2) != 0) z += "IpvUnbalance,";
      if ((data[idx] & 0x4) != 0) z += "PvConfigSetWrong,";
      if ((data[idx] & 0x8) != 0) z += "GFCIFault,";
      if ((data[idx] & 0x10) != 0) z += "PhaseSequenceFault,";
      if ((data[idx] & 0x20) != 0) z += "HwBoostOCP,";
      if ((data[idx] & 0x40) != 0) z += "HwAcOCP,";
      if ((data[idx] & 0x80) != 0) z += "AcRmsOCP,";
      //byte[2]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "HwADFaultIGrid,";
      if ((data[idx] & 0x2) != 0) z += "HwADFaultDCI,";
      if ((data[idx] & 0x4) != 0) z += "HwADFaultVGrid,";
      if ((data[idx] & 0x8) != 0) z += "GFCIDeviceFault,";
      if ((data[idx] & 0x10) != 0) z += "MChip_Fault,";
      if ((data[idx] & 0x20) != 0) z += "HwAuxPowerFault,";
      if ((data[idx] & 0x40) != 0) z += "BusVoltZeroFault,";
      if ((data[idx] & 0x80) != 0) z += "IacRmsUnbalance,";
      //byte[3]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "BusUVP,";
      if ((data[idx] & 0x2) != 0) z += "BusOVP,";
      if ((data[idx] & 0x4) != 0) z += "VbusUnbalance,";
      if ((data[idx] & 0x8) != 0) z += "DciOCP,";
      if ((data[idx] & 0x10) != 0) z += "SwOCPInstant,";
      if ((data[idx] & 0x20) != 0) z += "SwBOCPInstant,";
      if ((data[idx] & 0x40) != 0) z += "reserved-ID31,";
      if ((data[idx] & 0x80) != 0) z += "reserved-ID32,";
      //byte[4]
      idx++;
      if (data[idx] != 0) z += "reserved-ID33~40,";
      //byte[5]
      idx++;
      if (data[idx] != 0) z += "reserved-ID41~48,";
      //byte[6]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "ConsistentFault_VGrid,";
      if ((data[idx] & 0x2) != 0) z += "ConsistentFault_FGrid,";
      if ((data[idx] & 0x4) != 0) z += "ConsistentFault_DCI,";
      if ((data[idx] & 0x8) != 0) z += "ConsistentFault_GFCI,";
      if ((data[idx] & 0x10) != 0) z += "SpiCommLose,";
      if ((data[idx] & 0x20) != 0) z += "SciCommLose,";
      if ((data[idx] & 0x40) != 0) z += "RelayTestFail,";
      if ((data[idx] & 0x80) != 0) z += "PvIsoFault,";
      //byte[7]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "OverTempFault_Inv,";
      if ((data[idx] & 0x2) != 0) z += "OverTempFault_Boost,";
      if ((data[idx] & 0x4) != 0) z += "OverTempFault_Env,";
      if ((data[idx] & 0x8) != 0) z += "PEConnectFault,";
      if ((data[idx] & 0x10) != 0) z += "reserved-ID61,";
      if ((data[idx] & 0x20) != 0) z += "reserved-ID62,";
      if ((data[idx] & 0x40) != 0) z += "reserved-ID63,";
      if ((data[idx] & 0x80) != 0) z += "reserved-ID64,";
      //byte[8]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "unrecoverHwAcOCP,";
      if ((data[idx] & 0x2) != 0) z += "unrecoverBusOVP,";
      if ((data[idx] & 0x4) != 0) z += "unrecoverIacRmsUnbalance,";
      if ((data[idx] & 0x8) != 0) z += "unrecoverIpvUnbalance,";
      if ((data[idx] & 0x10) != 0) z += "unrecoverVbusUnbalance,";
      if ((data[idx] & 0x20) != 0) z += "unrecoverOCPInstant,";
      if ((data[idx] & 0x40) != 0) z += "unrecoverPvConfigSetWrong,";
      if ((data[idx] & 0x80) != 0) z += "reserved-ID72,";
      //byte[9]
      idx++;
      if ((data[idx] & 0x1) != 0) z += "reserved-ID73,";
      if ((data[idx] & 0x2) != 0) z += "unrecoverIPVInstant,";
      if ((data[idx] & 0x4) != 0) z += "unrecoverWRITEEEPROM,";
      if ((data[idx] & 0x8) != 0) z += "unrecoverREADEEPROM,";
      if ((data[idx] & 0x10) != 0) z += "unrecoverRelayFail,";
      if ((data[idx] & 0x20) != 0) z += "reserved-ID78,";
      if ((data[idx] & 0x40) != 0) z += "reserved-ID79,";
      if ((data[idx] & 0x80) != 0) z += "reserved-ID80,";
      if(z.length() > 0){
        z.pop_back();
      }
      return {z};

sensor:
  - platform: wifi_signal
    id: inverter_wifi_signal
    name: "ESP-Sofar WiFi Signal"
    update_interval: 60s
    icon: "mdi:wifi"

- platform: uptime
    id: inverter_uptime
    name: "ESP-Sofar Uptime"
    filters:
      - lambda: return x / 60.0;
    unit_of_measurement: minutes
    icon: "mdi:clock-start"

- platform: heapmon  
    id: heapspace  
    name: "ESP-Sofar Heapsize"
    icon: "mdi:memory"
    update_interval: 5s

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC1 Voltage
    id: inverter_dc_v1
    register_type: holding
    address: 0x0006
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC1 Current
    id: inverter_dc_c1
    register_type: holding
    address: 0x0007
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC2 Voltage
    id: inverter_dc_v2
    register_type: holding
    address: 0x0008
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC2 Current
    id: inverter_dc_c2
    register_type: holding
    address: 0x0009
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC1 Power
    id: inverter_dc_power1
    register_type: holding
    address: 0x000a
    unit_of_measurement: "W"
    state_class: "measurement"
    device_class: "power"
    icon: "mdi:solar-power"
    value_type: U_WORD
    filters:
      - multiply: 10

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} DC2 Power
    id: inverter_dc_power2
    register_type: holding
    address: 0x000b
    unit_of_measurement: "W"
    state_class: "measurement"
    device_class: "power"
    icon: "mdi:solar-power"
    value_type: U_WORD
    filters:
      - multiply: 10

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} AC Power
    id: inverter_ac_power
    register_type: holding
    address: 0x000c
    unit_of_measurement: "W"
    state_class: "measurement"
    device_class: "power"
    icon: "mdi:solar-power-variant-outline"
    value_type: U_WORD
    filters:
      - multiply: 10

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} AC Reactive Power
    id: inverter_ac_reactive_power
    register_type: holding
    address: 0x000d
    unit_of_measurement: "kVar"
    state_class: "measurement"
    #device_class: "reactive_power"
    icon: "mdi:math-cos"
    value_type: S_WORD
    filters:
      - multiply: 10

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} AC Freq
    id: inverter_ac_freq
    register_type: holding
    address: 0x000e
    unit_of_measurement: "Hz"
    state_class: "measurement"
    #device_class: "frequency"
    icon: "mdi:current-ac"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L1 Voltage
    id: inverter_ac_v1
    register_type: holding
    address: 0x000f
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L1 Current
    id: inverter_ac_c1
    register_type: holding
    address: 0x0010
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L2 Voltage
    id: inverter_ac_v2
    register_type: holding
    address: 0x0011
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L2 Current
    id: inverter_ac_c2
    register_type: holding
    address: 0x0012
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L3 Voltage
    id: inverter_ac_v3
    register_type: holding
    address: 0x0013
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} L3 Current
    id: inverter_ac_c3
    register_type: holding
    address: 0x0014
    unit_of_measurement: "A"
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Energy total
    id: inverter_energy_total
    register_type: holding
    address: 0x0015
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: "energy"
    state_class: "total_increasing"
    icon: "mdi:solar-power-variant-outline"
    value_type: U_DWORD

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Energy generation time total
    id: inverter_energy_generation_time_total
    register_type: holding
    address: 0x0017
    unit_of_measurement: "h"
    icon: "mdi:timeline-clock"
    value_type: U_DWORD

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Energy today
    id: inverter_energy_today
    register_type: holding
    address: 0x0019
    unit_of_measurement: "kWh"
    state_class: "measurement"
    device_class: "energy"
    icon: "mdi:solar-power-variant-outline"
    value_type: U_WORD
    accuracy_decimals: 2
    filters:
      - multiply: 0.01

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Energy generation time today
    id: inverter_energy_generation_time_today
    register_type: holding
    address: 0x001A
    unit_of_measurement: "min"
    icon: "mdi:timeline-clock"
    value_type: U_WORD

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Temprature module
    id: inverter_temp_module
    register_type: holding
    address: 0x001B
    unit_of_measurement: "°C"
    state_class: "measurement"
    device_class: "temperature"
    icon: "mdi:temperature-celsius"
    value_type: U_WORD

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Temprature inverter
    id: inverter_temp_inverter
    register_type: holding
    address: 0x001C
    unit_of_measurement: "°C"
    state_class: "measurement"
    device_class: "temperature"
    icon: "mdi:temperature-celsius"
    value_type: U_WORD

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} Bus voltage
    id: inverter_bus_voltage
    register_type: holding
    address: 0x001D
    unit_of_measurement: "V"
    state_class: "measurement"
    device_class: "voltage"
    icon: "mdi:alpha-v-circle-outline"
    value_type: U_WORD
    accuracy_decimals: 1
    filters:
      - multiply: 0.1

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} PV1+ isolation resistance
    id: inverter_dc_isolation_resistance1
    register_type: holding
    address: 0x0024
    unit_of_measurement: "Ohm"
    state_class: "measurement"
    icon: "mdi:omega"
    value_type: U_WORD

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} PV2+ isolation resistance
    id: inverter_dc_isolation_resistance2
    register_type: holding
    address: 0x0025
    unit_of_measurement: "Ohm"
    state_class: "measurement"
    icon: "mdi:omega"
    value_type: U_WORD

- platform: modbus_controller
    modbus_controller_id: sofarsolar
    name: ${friendly_name} PV- isolation resistance
    id: inverter_cathode_to_ground_impedance
    register_type: holding
    address: 0x0026
    unit_of_measurement: "Ohm"
    state_class: "measurement"
    icon: "mdi:omega"
    value_type: U_WORD

- platform: template
    name: ${friendly_name} AC Current (total)    
    lambda: |-
      return (id(inverter_ac_c1).state + id(inverter_ac_c2).state + id(inverter_ac_c3).state);
    unit_of_measurement: A
    accuracy_decimals: 2
    icon: "mdi:alpha-a-circle"
    device_class: "current"
    state_class: "measurement"
    update_interval: 5s

- platform: template
    name: ${friendly_name} DC Current (total)  
    lambda: |-
      return (id(inverter_dc_c1).state + id(inverter_dc_c2).state);
    unit_of_measurement: A
    accuracy_decimals: 1
    state_class: "measurement"
    device_class: "current"
    icon: "mdi:alpha-a-circle-outline"
    update_interval: 5s

- platform: template
    name: ${friendly_name} DC Power (total)  
    lambda: |-
      return (id(inverter_dc_power2).state + id(inverter_dc_power1).state);
    unit_of_measurement: W
    state_class: "measurement"
    device_class: "power"
    accuracy_decimals: 0
    icon: "mdi:alpha-a-circle-outline"
    update_interval: 5s

- platform: uptime
    name: ${friendly_name} Uptime
    id: uptime_sensor
    update_interval: 5s
    icon: "mdi:clock-start"
    internal: true
    on_raw_value:
      then:
        - text_sensor.template.publish:
            id: uptime_human
            state: !lambda |-
              int seconds = round(id(uptime_sensor).raw_state);
              seconds = seconds % (24 * 3600);
              int hours = seconds / 3600;
              seconds = seconds % 3600;
              int minutes = seconds /  60;
              seconds = seconds % 60;
              return (
                (hours ? to_string(hours) + "h " : "") +
                (minutes ? to_string(minutes) + "m " : "") +
                (to_string(seconds) + "s")
              ).c_str();

- platform: template
    unit_of_measurement: "%"
    name: "ESP-Sofar WiFi Signal (human readable)"
    accuracy_decimals: 0
    update_interval: 30s
    device_class: "signal_strength"
    icon: "mdi:wifi"
    lambda: return (-0.0134 * (id(inverter_wifi_signal).state * id(inverter_wifi_signal).state ) ) + (-0.2228 * id(inverter_wifi_signal).state) + 100.2;

switch:
  - platform: restart
    name: "ESP-Sofar Restart"

binary_sensor:
  - platform: status
    name: "ESP-Sofar Status"

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