ESPHome-1P-Sunsynk-Deye-Master-Slave.yaml

substitutions:
  settings_skipped_updates: "30"
  devicename: inverter
  device_description: "Inverter RS485 Logger"
  friendly_name: "SunSynk"

esphome:
  name: $devicename
  comment: '${device_description}'
  
esp32:
  board: esp32dev
  framework:
    type: arduino

# Enable webserver
web_server:
  port: 80
  auth:
    username: !secret web_server_username
    password: !secret web_server_password
  version: 2
  log: false
  ota: false

# Enable logging
logger:
  #baud_rate: 0

# Enable Home Assistant API
api:
  encryption:
    key: !secret api_encryption_key

ota:
  password: !secret ota_password_sunsynk
  platform: esphome

wifi:
  ssid: !secret wifi_ssid
  password: !secret wifi_password

  # Enable fallback hotspot (captive portal) in case wifi connection fails
  ap:
    ssid: '${devicename}'
    password: !secret fallback_password

  fast_connect: true
  power_save_mode: none

captive_portal:

# Enable time component to reset energy at midnight
# https://esphome.io/components/time.html#home-assistant-time-source
time:
  - platform: homeassistant
    id: homeassistant_time
     
uart:
  id: mod_bus
  tx_pin: GPIO17
  rx_pin: GPIO16
  baud_rate: 9600
  stop_bits: 1
 
modbus:
  id: inverter_modbus
  flow_control_pin: GPIO4

 
modbus_controller:
  - id: primary_inverter
    address: 0x01
    modbus_id: inverter_modbus
    setup_priority: -10
    update_interval: "15s"
    command_throttle: "50ms"
  - id: slave_inverter
    address: 0x02
    modbus_id: inverter_modbus
    setup_priority: -10
    update_interval: "15s"
    command_throttle: "50ms"

############################################### BINARY SENSORS ########################################
binary_sensor:           
  - platform: modbus_controller            # 194 Grid Connected Status
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid Connected Status"
    id: inverter_esphome_grid_connected_status
    register_type: holding
    address: 194

  - platform: modbus_controller            # 194 Slave Grid Connected Status
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid Connected Status"
    id: slave_inverter_esphome_grid_connected_status
    register_type: holding
    address: 194

  - platform: modbus_controller           # 280 Gen Peak Shaving Status
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Gen Peak Shaving Status"
    id: inverter_esphome_gen_peak_shaving_status
    register_type: holding
    address: 280
    bitmask: 0x10

  - platform: modbus_controller           # 280 Slave Gen Peak Shaving Status
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Gen Peak Shaving Status"
    id: slave_inverter_esphome_gen_peak_shaving_status
    register_type: holding
    address: 280
    bitmask: 0x10

  - platform: modbus_controller           # 280 Grid Peak Shaving Status
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid Peak Shaving Status"
    id: inverter_esphome_grid_peak_shaving_status
    register_type: holding
    address: 280
    bitmask: 0x100

  - platform: modbus_controller           # 280 Slave Grid Peak Shaving Status
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid Peak Shaving Status"
    id: slave_inverter_esphome_grid_peak_shaving_status
    register_type: holding
    address: 280
    bitmask: 0x100

#                                               SENSORS                                               #
#######################################################################################################

############################################### BATTERY ###############################################
sensor:
  - platform: modbus_controller            # 182 Battery Temperature
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery Temperature"
    id: inverter_esphome_battery_temperature
    register_type: holding
    address: 182
    unit_of_measurement: "°C"
    accuracy_decimals: 1
    device_class: temperature
    state_class: measurement
    value_type: U_WORD 
    filters:
      - offset: -1000
      - multiply: 0.1

  - platform: modbus_controller            # 182 Slave Battery Temperature
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery Temperature"
    id: slave_inverter_esphome_battery_temperature
    register_type: holding
    address: 182
    unit_of_measurement: "°C"
    accuracy_decimals: 1
    device_class: temperature
    state_class: measurement
    value_type: U_WORD 
    filters:
      - offset: -1000
      - multiply: 0.1     

  - platform: modbus_controller            # 183 Battery Voltage
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery Voltage"
    id: inverter_esphome_battery_voltage
    register_type: holding
    address: 183
    unit_of_measurement: "V"
    accuracy_decimals: 1
    device_class: voltage
    state_class: measurement
    filters:
      - multiply: 0.01
    value_type: U_WORD

  - platform: modbus_controller            # 183 Slave Battery Voltage
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery Voltage"
    id: slave_inverter_esphome_battery_voltage
    register_type: holding
    address: 183
    unit_of_measurement: "V"
    accuracy_decimals: 1
    device_class: voltage
    state_class: measurement
    filters:
      - multiply: 0.01
    value_type: U_WORD   

  - platform: modbus_controller            # 184 Battery SOC
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery SOC"
    id: inverter_esphome_battery_soc
    register_type: holding
    address: 184
    unit_of_measurement: "%"
    accuracy_decimals: 0
    device_class: battery
    value_type: U_WORD

  - platform: modbus_controller            # 184 Slave Battery SOC
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery SOC"
    id: slave_inverter_esphome_battery_soc
    register_type: holding
    address: 184
    unit_of_measurement: "%"
    accuracy_decimals: 0
    device_class: battery
    value_type: U_WORD   

  - platform: modbus_controller            # 190 Battery Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery Power"
    id: inverter_esphome_battery_power
    register_type: holding
    address: 190
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    value_type: S_WORD

  - platform: modbus_controller            # 190 Slave Battery Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery Power"
    id: slave_inverter_esphome_battery_power
    register_type: holding
    address: 190
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    value_type: S_WORD

  - platform: template                   # Total Sum of Power-Master and Power-Slave to get total Battery Power
    name: "${friendly_name} Total Battery Power"
    unit_of_measurement: "W"
    id: total_inverter_esphome_battery_power
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_battery_power).state + id(slave_inverter_esphome_battery_power).state);
    update_interval: 5s
   
  - platform: modbus_controller            # 191 Battery Current
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery Current"
    id: inverter_esphome_battery_current
    register_type: holding
    address: 191
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    value_type: S_WORD
    filters:
      - multiply: 0.01

  - platform: modbus_controller            # 191 Slave Battery Current
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery Current"
    id: slave_inverter_esphome_battery_current
    register_type: holding
    address: 191
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    value_type: S_WORD
    filters:
      - multiply: 0.01     

  - platform: template                   # Total Sum of Current-Master and Current-Slave to get total battery current
    name: "${friendly_name} Total Battery Current"
    unit_of_measurement: "A"
    id: total_inverter_esphome_battery_Current
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_battery_current).state + id(slave_inverter_esphome_battery_current).state);
    update_interval: 5s

  - platform: modbus_controller            # 314 Battery Charge Limit Current
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery Charge Limit Current"
    id: inverter_esphome_battery_charge_limit_current
    register_type: holding
    address: 314
    unit_of_measurement: "A"
    accuracy_decimals: 0
    device_class: current
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 314 Slave Battery Charge Limit Current
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery Charge Limit Current"
    id: slave_inverter_esphome_battery_charge_limit_current
    register_type: holding
    address: 314
    unit_of_measurement: "A"
    accuracy_decimals: 0
    device_class: current
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 315 Battery Discharge Limit Current
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery Discharge Limit Current"
    id: inverter_esphome_battery_discharge_limit_current
    register_type: holding
    address: 315
    unit_of_measurement: "A"
    accuracy_decimals: 0
    device_class: current
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 315 Slave Battery Discharge Limit Current
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery Discharge Limit Current"
    id: slave_inverter_esphome_battery_discharge_limit_current
    register_type: holding
    address: 315
    unit_of_measurement: "A"
    accuracy_decimals: 0
    device_class: current
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 201 Battery Equalization voltage
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery Equalization voltage"
    id: inverter_esphome_battery_equalisation_voltage
    register_type: holding
    address: 201
    unit_of_measurement: "V"
    accuracy_decimals: 2
    device_class: battery
    value_type: S_WORD
    filters:
      - multiply: 0.01

  - platform: modbus_controller            # 201 Slave Battery Equalization voltage
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery Equalization voltage"
    id: slave_inverter_esphome_battery_equalisation_voltage
    register_type: holding
    address: 201
    unit_of_measurement: "V"
    accuracy_decimals: 2
    device_class: battery
    value_type: S_WORD
    filters:
      - multiply: 0.01

  - platform: modbus_controller            # 202 Battery Absorption voltage
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery Absorption voltage"
    id: inverter_esphome_battery_absorbtion_voltage
    register_type: holding
    address: 202
    unit_of_measurement: "V"
    accuracy_decimals: 2
    device_class: battery
    value_type: S_WORD
    filters:
      - multiply: 0.01

  - platform: modbus_controller            # 202 Slave Battery Absorption voltage
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery Absorption voltage"
    id: slave_inverter_esphome_battery_absorbtion_voltage
    register_type: holding
    address: 202
    unit_of_measurement: "V"
    accuracy_decimals: 2
    device_class: battery
    value_type: S_WORD
    filters:
      - multiply: 0.01

  - platform: modbus_controller            # 203 Battery Float voltage
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Battery Float voltage"
    id: inverter_esphome_battery_float_voltage
    register_type: holding
    address: 203
    unit_of_measurement: "V"
    accuracy_decimals: 2
    device_class: battery
    value_type: S_WORD
    filters:
      - multiply: 0.01      

  - platform: modbus_controller            # 203 Slave Battery Float voltage
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Battery Float voltage"
    id: slave_inverter_esphome_battery_float_voltage
    register_type: holding
    address: 203
    unit_of_measurement: "V"
    accuracy_decimals: 2
    device_class: battery
    value_type: S_WORD
    filters:
      - multiply: 0.01     

############################################### INVERTER ##############################################

  - platform: modbus_controller            # 175 Inverter Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Inverter Power"
    id: inverter_esphome_inverter_power
    register_type: holding
    address: 175
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    value_type: S_WORD

  - platform: modbus_controller            # 175 Slave Inverter Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Inverter Power"
    id: slave_inverter_esphome_inverter_power
    register_type: holding
    address: 175
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    value_type: S_WORD

  - platform: template                   # Total Sum of Power-Master and Power-Slave to get total Inverter Power
    name: "${friendly_name} Total Inverter Power"
    unit_of_measurement: "W"
    id: total_inverter_esphome_inverter_power
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_inverter_power).state + id(slave_inverter_esphome_inverter_power).state);
    update_interval: 5s

  - platform: modbus_controller            # 154 Inverter Voltage
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Inverter Voltage"
    id: inverter_esphome_inverter_voltage
    register_type: holding
    address: 154
    unit_of_measurement: "V"
    accuracy_decimals: 1
    device_class: voltage
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD 

  - platform: modbus_controller            # 154 Slave Inverter Voltage
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Inverter Voltage"
    id: slave_inverter_esphome_inverter_voltage
    register_type: holding
    address: 154
    unit_of_measurement: "V"
    accuracy_decimals: 1
    device_class: voltage
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD 


  - platform: modbus_controller            # 164 Inverter Current
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Inverter Current"
    id: inverter_esphome_inverter_current
    register_type: holding
    address: 164
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    value_type: S_WORD
    filters:
      - multiply: 0.01

  - platform: modbus_controller            # 164 Slave Inverter Current
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Inverter Current"
    id: slave_inverter_esphome_inverter_current
    register_type: holding
    address: 164
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    value_type: S_WORD
    filters:
      - multiply: 0.01

  - platform: template                   # Total Sum of Current-Master and Current-Slave to get total Inverter current
    name: "${friendly_name} Total Inverter Current"
    unit_of_measurement: "A"
    id: total_inverter_esphome_inverter_Current
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_inverter_current).state + id(slave_inverter_esphome_inverter_current).state);
    update_interval: 5s

  - platform: modbus_controller            # 193 Inverter Frequency
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Inverter Frequency"
    id: inverter_esphome_inverter_frequency
    register_type: holding
    address: 193
    unit_of_measurement: "Hz"
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
    value_type: U_WORD
    state_class: measurement

  - platform: modbus_controller            # 193 Slave Inverter Frequency
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Inverter Frequency"
    id: slave_inverter_esphome_inverter_frequency
    register_type: holding
    address: 193
    unit_of_measurement: "Hz"
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
    value_type: U_WORD
    state_class: measurement

  - platform: template                     # Inverter Rated Power
    name: "${friendly_name} Rated Power"
    id: inverter_esphome_rated_power
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    lambda: |-
      uint16_t low =  id(reg_16_raw).state;
      uint16_t high =  id(reg_17_raw).state;
      return ( high << 16 | low);
    filters:
      - multiply: 0.1

  - platform: template                     # Slave Inverter Rated Power
    name: "${friendly_name} Salve Rated Power"
    id: slave_inverter_esphome_rated_power
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    lambda: |-
      uint16_t low =  id(reg_16_raw).state;
      uint16_t high =  id(reg_17_raw).state;
      return ( high << 16 | low);
    filters:
      - multiply: 0.1

############################################### GRID ##################################################

  - platform: modbus_controller             # 079 Grid Frequency
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid Frequency"
    id: inverter_esphome_grid_frequency
    register_type: holding
    address: 79
    unit_of_measurement: "Hz"
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
    value_type: U_WORD
    state_class: measurement

  - platform: modbus_controller             # 079 Slave Grid Frequency
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid Frequency"
    id: slave_inverter_esphome_grid_frequency
    register_type: holding
    address: 79
    unit_of_measurement: "Hz"
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
    value_type: U_WORD
    state_class: measurement

  - platform: modbus_controller             # 169 Grid Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid Power"
    id: inverter_esphome_grid_power_169
    register_type: holding
    address: 169
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller             # 169 Slave Grid Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid Power"
    id: slave_inverter_esphome_grid_power_169
    register_type: holding
    address: 169
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller             # 167 Grid LD Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid LD Power 167"
    id: inverter_esphome_grid_power_167
    register_type: holding
    address: 167
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller             # 167 Slave Grid LD Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid LD Power 167"
    id: slave_inverter_esphome_grid_power_167
    register_type: holding
    address: 167
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller             # 168 Grid L2 Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid L2 Power 168"
    id: inverter_esphome_grid_power_168
    register_type: holding
    address: 168
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller             # 168 Slave Grid L2 Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid L2 Power 168"
    id: slave_inverter_esphome_grid_power_168
    register_type: holding
    address: 168
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller             # 150 Grid Voltage
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid Voltage"
    id: inverter_esphome_grid_voltage
    register_type: holding
    address: 150
    unit_of_measurement: "V"
    accuracy_decimals: 1
    device_class: voltage
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD 

  - platform: modbus_controller             # 150 Slave Grid Voltage
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid Voltage"
    id: slave_inverter_esphome_grid_voltage
    register_type: holding
    address: 150
    unit_of_measurement: "V"
    accuracy_decimals: 1
    device_class: voltage
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD 

  - platform: modbus_controller             # 160 Grid Current
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid Current"
    id: inverter_esphome_grid_current
    register_type: holding
    address: 160
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    value_type: S_WORD
    filters:
      - multiply: 0.01

  - platform: modbus_controller             # 160 Slave Grid Current
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid Current"
    id: slave_inverter_esphome_grid_current
    register_type: holding
    address: 160
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    value_type: S_WORD
    filters:
      - multiply: 0.01

  - platform: modbus_controller             # 172 Grid CT Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid CT Power"
    id: inverter_esphome_grid_ct_power
    register_type: holding
    address: 172
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller             # 172 Slave Grid CT Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid CT Power"
    id: slave_inverter_esphome_grid_ct_power
    register_type: holding
    address: 172
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD


############################################### LOAD ################################################

  - platform: modbus_controller            # 178 Load Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Load Power"
    id: inverter_esphome_load_power
    register_type: holding
    address: 178
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 178 Slave Load Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Load Power"
    id: slave_inverter_esphome_load_power
    register_type: holding
    address: 178
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 176 Load L1 Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Load L1 Power"
    id: inverter_esphome_load_l1_power
    register_type: holding
    address: 176
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 176 Slave Load L1 Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Load L1 Power"
    id: slave_inverter_esphome_load_l1_power
    register_type: holding
    address: 176
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 177 Load L2 Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Load L2 Power"
    id: inverter_esphome_load_l2_power
    register_type: holding
    address: 177
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 177 Slave Load L2 Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Load L2 Power"
    id: Slave_inverter_esphome_load_l2_power
    register_type: holding
    address: 177
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 192 Load Frequency
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Load Frequency"
    id: inverter_esphome_load_frequency
    register_type: holding
    address: 192
    unit_of_measurement: "Hz"
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
    value_type: U_WORD
    state_class: measurement

  - platform: modbus_controller            # 192 Slave Load Frequency
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Load Frequency"
    id: slave_inverter_esphome_load_frequency
    register_type: holding
    address: 192
    unit_of_measurement: "Hz"
    accuracy_decimals: 2
    filters:
      - multiply: 0.01
    value_type: U_WORD
    state_class: measurement

############################################### SOLAR PV1 #############################################

  - platform: modbus_controller            # 186 PV1 Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} PV1 Power"
    id: inverter_esphome_pv1_power
    register_type: holding
    address: 186
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: U_WORD

  - platform: modbus_controller            # 186 Slave PV1 Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave PV1 Power"
    id: slave_inverter_esphome_pv1_power
    register_type: holding
    address: 186
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: U_WORD

  - platform: modbus_controller            # 109 PV1 Voltage
    modbus_controller_id: primary_inverter
    name: "${friendly_name} PV1 Voltage"
    id: inverter_esphome_pv1_voltage
    register_type: holding
    address: 109
    unit_of_measurement: "V"
    device_class: voltage
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD

  - platform: modbus_controller            # 109 Slave PV1 Voltage
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave PV1 Voltage"
    id: slave_inverter_esphome_pv1_voltage
    register_type: holding
    address: 109
    unit_of_measurement: "V"
    device_class: voltage
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD

  - platform: modbus_controller            # 110 PV1 Current
    modbus_controller_id: primary_inverter
    name: "${friendly_name} PV1 Current"
    id: inverter_esphome_pv1_current
    register_type: holding
    address: 110
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD

  - platform: modbus_controller            # 110 Slave PV1 Current
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave PV1 Current"
    id: slave_inverter_esphome_pv1_current
    register_type: holding
    address: 110
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD

############################################### SOLAR PV2 #############################################

  - platform: modbus_controller            # 187 PV2 Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} PV2 Power"
    id: inverter_esphome_pv2_power
    register_type: holding
    address: 187
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: U_WORD

  - platform: modbus_controller            # 187 Slave PV2 Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave PV2 Power"
    id: slave_inverter_esphome_pv2_power
    register_type: holding
    address: 187
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: U_WORD

  - platform: modbus_controller            # 111 PV2 Voltage
    modbus_controller_id: primary_inverter
    name: "${friendly_name} PV2 Voltage"
    id: inverter_esphome_pv2_voltage
    register_type: holding
    address: 111
    unit_of_measurement: "V"
    filters:
      - multiply: 0.1
    device_class: voltage
    state_class: measurement
    value_type: U_WORD

  - platform: modbus_controller            # 111 Slave PV2 Voltage
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave PV2 Voltage"
    id: slave_inverter_esphome_pv2_voltage
    register_type: holding
    address: 111
    unit_of_measurement: "V"
    filters:
      - multiply: 0.1
    device_class: voltage
    state_class: measurement
    value_type: U_WORD


  - platform: modbus_controller            # 112 PV2 Current
    modbus_controller_id: primary_inverter
    name: "${friendly_name} PV2 Current"
    id: inverter_esphome_pv2_current
    register_type: holding
    address: 112
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD

  - platform: modbus_controller            # 112 Slave PV2 Current
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave PV2 Current"
    id: slave_inverter_esphome_pv2_current
    register_type: holding
    address: 112
    unit_of_measurement: "A"
    accuracy_decimals: 1
    device_class: current
    state_class: measurement
    filters:
      - multiply: 0.1
    value_type: U_WORD


#################################################### SOLAR PV3 #############################################
#### Uncomment this if you have a third MPPT single phase
    
  #- platform: modbus_controller            # 188 PV3 Power
  #  modbus_controller_id: inverter
  #  name: "${friendly_name} PV3 Power"
  #  id: inverter_esphome_pv3_power
  #  register_type: holding
  #  address: 188
  #  unit_of_measurement: "W"
  #  accuracy_decimals: 0
  #  device_class: power
  #  state_class: measurement
  #  value_type: U_WORD

  #- platform: modbus_controller            # 113 PV3 Voltage
  #  modbus_controller_id: inverter
  #  name: "${friendly_name} PV3 Voltage"
  #  id: inverter_esphome_pv3_voltage
  #  register_type: holding
  #  address: 113
  #  unit_of_measurement: "V"
  #  accuracy_decimals: 1
  #  filters:
  #    - multiply: 0.1
  #  device_class: voltage
  #  state_class: measurement
  #  value_type: U_WORD

  #- platform: modbus_controller            # 114 PV3 Current
  #  modbus_controller_id: inverter
  #  name: "${friendly_name} PV3 Current"
  #  id: inverter_esphome_pv3_current
  #  register_type: holding
  #  address: 114
  #  unit_of_measurement: "A"
  #  accuracy_decimals: 1
  #  device_class: current
  #  state_class: measurement
  #  filters:
  #    - multiply: 0.1
  #  value_type: U_WORD

############################################### SOLAR TOTAL ###########################################

  - platform: template                   # Sum of PV1 and PV2 to get total PV Power
    name: "${friendly_name} Solar Power"
    unit_of_measurement: "W"
    id: inverter_esphome_pv_total
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_pv1_power).state + id(inverter_esphome_pv2_power).state);
    update_interval: 3s

  - platform: template                   # Slave Sum of PV1 and PV2 to get total PV Power
    name: "${friendly_name} Slave Solar Power"
    unit_of_measurement: "W"
    id: slave_inverter_esphome_pv_total
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(slave_inverter_esphome_pv1_power).state + id(slave_inverter_esphome_pv2_power).state);
    update_interval: 3s

  - platform: template                   # Total Sum of PV-Master and PV-Slave to get total PV Power
    name: "${friendly_name} Total Solar Power"
    unit_of_measurement: "W"
    id: total_inverter_esphome_pv_total
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_pv_total).state + id(slave_inverter_esphome_pv_total).state);
    update_interval: 5s

############################################### OUTPUTS ###############################################

  - platform: modbus_controller            # 166 Aux Power
    modbus_controller_id: primary_inverter
    name: "${friendly_name} AUX Power"
    id: inverter_esphome_aux_power
    register_type: holding
    address: 166
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD

  - platform: modbus_controller            # 166 Slave Aux Power
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave AUX Power"
    id: slave_inverter_esphome_aux_power
    register_type: holding
    address: 166
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    value_type: S_WORD


  - platform: template                   # Essential Power based on register 175 + 167 - 166
    name: "${friendly_name} Essential Power"
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_inverter_power).state + id(inverter_esphome_grid_power_167).state - id(inverter_esphome_aux_power).state);
    update_interval: 5s

  - platform: template                   # Slave Essential Power based on register 175 + 167 - 166
    name: "${friendly_name} Slave Essential Power"
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(slave_inverter_esphome_inverter_power).state + id(slave_inverter_esphome_grid_power_167).state - id(slave_inverter_esphome_aux_power).state);
    update_interval: 5s

  - platform: template                   # Essential Power1 based on register 175 + 169 - 166
    name: "${friendly_name} Essential Power 1"
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_inverter_power).state + id(inverter_esphome_grid_power_169).state - id(inverter_esphome_aux_power).state);
    update_interval: 5s

  - platform: template                   # Slave Essential Power1 based on register 175 + 169 - 166
    name: "${friendly_name} Slave Essential Power 1"
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(slave_inverter_esphome_inverter_power).state + id(slave_inverter_esphome_grid_power_169).state - id(slave_inverter_esphome_aux_power).state);
    update_interval: 5s

  - platform: template                   # Nonessential Power 172 - 167
    name: "${friendly_name} Nonessential Power"
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_grid_ct_power).state - id(inverter_esphome_grid_power_167).state);
    update_interval: 5s

  - platform: template                   # Slave Nonessential Power 172 - 167
    name: "${friendly_name} Slave Nonessential Power"
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(slave_inverter_esphome_grid_ct_power).state - id(slave_inverter_esphome_grid_power_167).state);
    update_interval: 5s

  - platform: template                   # Nonessential Power1 172 - 169
    name: "${friendly_name} Nonessential Power 1"
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_grid_ct_power).state - id(inverter_esphome_grid_power_169).state);
    update_interval: 5s

  - platform: template                   # Slave Nonessential Power1 172 - 169
    name: "${friendly_name} Slave Nonessential Power 1"
    unit_of_measurement: "W"
    accuracy_decimals: 0
    device_class: power
    state_class: measurement
    lambda: |-
      return (id(slave_inverter_esphome_grid_ct_power).state - id(slave_inverter_esphome_grid_power_169).state);
    update_interval: 5s

############################################### ENERGY ################################################

  - platform: modbus_controller            # 070 Day Battery Charge
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Day Battery Charge"
    id: inverter_esphome_day_battery_charge
    register_type: holding
    address: 70
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: modbus_controller            # 070 Slave Day Battery Charge
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Day Battery Charge"
    id: slave_inverter_esphome_day_battery_charge
    register_type: holding
    address: 70
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: template                   # Total Sum of Master and Slave to get total day Battery Charge
    name: "${friendly_name} Total Day Battery Charge"
    unit_of_measurement: "KWh"
    id: total_inverter_esphome_day_battery_charge
    accuracy_decimals: 1
    device_class: energy
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_day_battery_charge).state + id(slave_inverter_esphome_day_battery_charge).state);
    update_interval: 5s

  - platform: modbus_controller            # 071 Day Battery Discharge
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Day Battery Discharge"
    id: inverter_esphome_day_battery_discharge
    register_type: holding
    address: 71
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: modbus_controller            # 071 Slave Day Battery Discharge
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Day Battery Discharge"
    id: slave_inverter_esphome_day_battery_discharge
    register_type: holding
    address: 71
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: template                   # Total Sum of Master and Slave to get total day Battery Discharge
    name: "${friendly_name} Total Day Battery Discharge"
    unit_of_measurement: "KWh"
    id: total_inverter_esphome_day_battery_discharge
    accuracy_decimals: 1
    device_class: energy
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_day_battery_discharge).state + id(slave_inverter_esphome_day_battery_discharge).state);
    update_interval: 5s

  - platform: modbus_controller            # 072 Total Battery Charge
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Total Battery Charge"
    id: inverter_esphome_total_battery_charge
    register_type: holding
    address: 72
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_DWORD_R
    filters:
     - multiply: 0.1

  - platform: modbus_controller            # 072 Slave Total Battery Charge
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Total Battery Charge"
    id: slave_inverter_esphome_total_battery_charge
    register_type: holding
    address: 72
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_DWORD_R
    filters:
     - multiply: 0.1

  - platform: modbus_controller            # 074 Total Battery Discharge
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Total Battery Discharge"
    id: inverter_esphome_total_battery_discharge
    register_type: holding
    address: 74
    unit_of_measurement: "kWh"
    accuracy_decimals: 0
    device_class: energy
    state_class: total_increasing
    value_type: U_DWORD_R
    filters:
     - multiply: 0.1

  - platform: modbus_controller            # 074 Slave Total Battery Discharge
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Total Battery Discharge"
    id: slave_inverter_esphome_total_battery_discharge
    register_type: holding
    address: 74
    unit_of_measurement: "kWh"
    accuracy_decimals: 0
    device_class: energy
    state_class: total_increasing
    value_type: U_DWORD_R
    filters:
     - multiply: 0.1


  - platform: modbus_controller            # 076 Day Grid Import
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Day Grid Import"
    id: inverter_esphome_day_grid_import
    register_type: holding
    address: 76
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: modbus_controller            # 076 Slave Day Grid Import
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Day Grid Import"
    id: slave_inverter_esphome_day_grid_import
    register_type: holding
    address: 76
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: modbus_controller            # 077 Day Grid Export
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Day Grid Export"
    id: inverter_esphome_day_grid_export
    register_type: holding
    address: 77
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: modbus_controller            # 077 Slave Day Grid Export
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Day Grid Export"
    id: slave_inverter_esphome_day_grid_export
    register_type: holding
    address: 77
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1


  - platform: modbus_controller            # 078 Total Grid Import
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Total Grid Import"
    id: inverter_esphome_total_grid_import
    register_type: holding
    address: 78
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: modbus_controller            # 078 Slave Total Grid Import
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Total Grid Import"
    id: slave_inverter_esphome_total_grid_import
    register_type: holding
    address: 78
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: modbus_controller            # 081 Total Grid Export
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Total Grid Export"
    id: inverter_esphome_total_grid_export
    register_type: holding
    address: 81
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: modbus_controller            # 081 Slave Total Grid Export
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Total Grid Export"
    id: slave_inverter_esphome_total_grid_export
    register_type: holding
    address: 81
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    value_type: U_WORD
    filters:
      - multiply: 0.1


  - platform: modbus_controller            # 084 Day Load Energy
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Day Load Energy"
    id: inverter_esphome_day_load_energy
    register_type: holding
    address: 84
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    filters:
      - multiply: 0.1
    value_type: U_WORD

  - platform: modbus_controller            # 084 Slave Day Load Energy
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Day Load Energy"
    id: slave_inverter_esphome_day_load_energy
    register_type: holding
    address: 84
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    filters:
      - multiply: 0.1
    value_type: U_WORD

  - platform: template                   # Total Sum of Master and Slave to get total day Day Load Energy
    name: "${friendly_name} Total Day Load Energy"
    unit_of_measurement: "KWh"
    id: total_inverter_esphome_day_load_energy
    accuracy_decimals: 2
    device_class: energy
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_day_load_energy).state + id(slave_inverter_esphome_day_load_energy).state);
    update_interval: 5s

  - platform: modbus_controller            # 085 Total Load Energy
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Total Load Energy"
    id: inverter_esphome_total_load_energy
    register_type: holding
    address: 85
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    value_type: U_DWORD_R
    filters:
      - multiply: 0.1

  - platform: modbus_controller            # 085 Slave Total Load Energy
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Total Load Energy"
    id: slave_inverter_esphome_total_load_energy
    register_type: holding
    address: 85
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    value_type: U_DWORD_R
    filters:
      - multiply: 0.1


  - platform: modbus_controller            # 096 Total PV Energy
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Total PV Energy"
    id: inverter_esphome_total_pv_energy
    register_type: holding
    address: 96
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    filters:
      - multiply: 0.1
    value_type: U_DWORD_R  

  - platform: modbus_controller            # 096 Slave Total PV Energy
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Total PV Energy"
    id: slave_inverter_esphome_total_pv_energy
    register_type: holding
    address: 96
    unit_of_measurement: "kWh"
    accuracy_decimals: 2
    device_class: energy
    state_class: total_increasing
    filters:
      - multiply: 0.1
    value_type: U_DWORD_R  

  - platform: modbus_controller            # 108 Day PV Energy
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Day PV Energy"
    id: inverter_esphome_day_pv_energy
    register_type: holding
    address: 108
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    filters:
      - multiply: 0.1
    value_type: U_WORD

  - platform: modbus_controller            # 108 Slave Day PV Energy
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Day PV Energy"
    id: slave_inverter_esphome_day_pv_energy
    register_type: holding
    address: 108
    unit_of_measurement: "kWh"
    accuracy_decimals: 1
    device_class: energy
    state_class: total_increasing
    filters:
      - multiply: 0.1
    value_type: U_WORD

  - platform: template                   # Total Sum of Master and Slave to get total day Day PV Energy
    name: "${friendly_name} Total Day PV Energy"
    unit_of_measurement: "KWh"
    id: total_inverter_esphome_day_pv_energy
    accuracy_decimals: 1
    device_class: energy
    state_class: measurement
    lambda: |-
      return (id(inverter_esphome_day_pv_energy).state + id(slave_inverter_esphome_day_pv_energy).state);
    update_interval: 5s

############################################### TEMPERATURE ################################################

  - platform: modbus_controller            # 090 DC Transformer Temperature
    modbus_controller_id: primary_inverter
    name: "${friendly_name} DC Transformer Temperature"
    id: inverter_esphome_dc_transformer_temperature
    register_type: holding
    address: 090
    unit_of_measurement: "°C"
    accuracy_decimals: 1
    device_class: temperature
    state_class: measurement
    value_type: S_WORD
    filters:
      - offset: -1000
      - multiply:  0.1

  - platform: modbus_controller            # 090 Slave DC Transformer Temperature
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave DC Transformer Temperature"
    id: slave_inverter_esphome_dc_transformer_temperature
    register_type: holding
    address: 090
    unit_of_measurement: "°C"
    accuracy_decimals: 1
    device_class: temperature
    state_class: measurement
    value_type: S_WORD
    filters:
      - offset: -1000
      - multiply:  0.1


  - platform: modbus_controller            # 091 Radiator Temperature
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Radiator Temperature"
    id: inverter_esphome_radiator_temperature
    register_type: holding
    address: 091
    unit_of_measurement: "°C"
    accuracy_decimals: 1
    device_class: temperature
    state_class: measurement
    value_type: S_WORD
    filters:
      - offset: -1000
      - multiply:  0.1

  - platform: modbus_controller            # 091 Slave Radiator Temperature
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Radiator Temperature"
    id: slave_inverter_esphome_radiator_temperature
    register_type: holding
    address: 091
    unit_of_measurement: "°C"
    accuracy_decimals: 1
    device_class: temperature
    state_class: measurement
    value_type: S_WORD
    filters:
      - offset: -1000
      - multiply:  0.1

################################################ READ SETTINGS #############################################

  - platform: modbus_controller          # 250 Prog1 Time
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog1 Time"
    id: inverter_esphome_system_mode_time1
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 250
    icon: "mdi:clock"

  - platform: modbus_controller          # 250 Slave Prog1 Time
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog1 Time"
    id: slave_inverter_esphome_system_mode_time1
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 250
    icon: "mdi:clock"

  - platform: modbus_controller          # 251 Prog2 Time
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog2 Time"
    id: inverter_esphome_system_mode_time2
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 251   
    icon: "mdi:clock"

  - platform: modbus_controller          # 251 Slave Prog2 Time
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog2 Time"
    id: slave_inverter_esphome_system_mode_time2
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 251   
    icon: "mdi:clock"

  - platform: modbus_controller          # 252 Prog3 Time
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog3 Time"
    id: inverter_esphome_system_mode_time3
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 252   
    icon: "mdi:clock"

  - platform: modbus_controller          # 252 Slave Prog3 Time
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog3 Time"
    id: slave_inverter_esphome_system_mode_time3
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 252   
    icon: "mdi:clock"

  - platform: modbus_controller          # 253 Prog4 Time
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog4 Time"
    id: inverter_esphome_system_mode_time4
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 253   
    icon: "mdi:clock"

  - platform: modbus_controller          # 253 Slave Prog4 Time
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog4 Time"
    id: slave_inverter_esphome_system_mode_time4
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 253   
    icon: "mdi:clock"

  - platform: modbus_controller          # 254 Prog5 Time
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog5 Time"
    id: inverter_esphome_system_mode_time5
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 254   
    icon: "mdi:clock"

  - platform: modbus_controller          # 254 Slave Prog5 Time
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog5 Time"
    id: slave_inverter_esphome_system_mode_time5
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 254   
    icon: "mdi:clock"

  - platform: modbus_controller          # 255 Prog6 Time
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog6 Time"
    id: inverter_esphome_system_mode_time6
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 255   
    icon: "mdi:clock"

  - platform: modbus_controller          # 255 Slave Prog6 Time
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog6 Time"
    id: slave_inverter_esphome_system_mode_time6
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    address: 255   
    icon: "mdi:clock"

  - platform: modbus_controller        # 280 Grid Peak Shaving raw register value
    modbus_controller_id: primary_inverter
    id: grid_peak_shaving_raw
    register_type: holding
    address: 280
    value_type: U_WORD

  - platform: modbus_controller        # 280 Slave Grid Peak Shaving raw register value
    modbus_controller_id: slave_inverter
    id: slave_grid_peak_shaving_raw
    register_type: holding
    address: 280
    value_type: U_WORD
   
################################################ SAVE RAW REGISTERS ########################################

  - platform: modbus_controller            # 274 raw register value
    modbus_controller_id: primary_inverter
    id: reg_274_raw
    register_type: holding
    address: 274
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 274 slave raw register value
    modbus_controller_id: slave_inverter
    id: slave_reg_274_raw
    register_type: holding
    address: 274
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 275 raw register value
    modbus_controller_id: primary_inverter
    id: reg_275_raw
    register_type: holding
    address: 275
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 275 Slave raw register value
    modbus_controller_id: slave_inverter
    id: slave_reg_275_raw
    register_type: holding
    address: 275
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 276 raw register value
    modbus_controller_id: primary_inverter
    id: reg_276_raw
    register_type: holding
    address: 276
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 276 Slave raw register value
    modbus_controller_id: slave_inverter
    id: slave_reg_276_raw
    register_type: holding
    address: 276
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 277 raw register value
    modbus_controller_id: primary_inverter
    id: reg_277_raw
    register_type: holding
    address: 277
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 277 Slave raw register value
    modbus_controller_id: slave_inverter
    id: slave_reg_277_raw
    register_type: holding
    address: 277
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 278 raw register value
    modbus_controller_id: primary_inverter
    id: reg_278_raw
    register_type: holding
    address: 278
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 278 Slave raw register value
    modbus_controller_id: slave_inverter
    id: slave_reg_278_raw
    register_type: holding
    address: 278
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 279 raw register value
    modbus_controller_id: primary_inverter
    id: reg_279_raw
    register_type: holding
    address: 279
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 279 Slave raw register value
    modbus_controller_id: slave_inverter
    id: slave_reg_279_raw
    register_type: holding
    address: 279
    value_type: U_WORD
    internal: true

  - platform: modbus_controller            # 16 raw register value
    modbus_controller_id: primary_inverter
    id: reg_16_raw
    register_type: holding
    address: 16
    value_type: U_WORD
    internal: true
    skip_updates: ${settings_skipped_updates}

  - platform: modbus_controller            # 16 Slave raw register value
    modbus_controller_id: slave_inverter
    id: slave_reg_16_raw
    register_type: holding
    address: 16
    value_type: U_WORD
    internal: true
    skip_updates: ${settings_skipped_updates}

  - platform: modbus_controller            # 17 raw register value
    modbus_controller_id: primary_inverter
    id: reg_17_raw
    register_type: holding
    address: 17
    value_type: U_WORD
    internal: true
    skip_updates: ${settings_skipped_updates}

  - platform: modbus_controller            # 17 Slave raw register value
    modbus_controller_id: primary_inverter
    id: slave_reg_17_raw
    register_type: holding
    address: 17
    value_type: U_WORD
    internal: true
    skip_updates: ${settings_skipped_updates}

################################################ WRITE SETTINGS ############################################

switch:
  - platform: modbus_controller            # 232 Toggle Grid Charge
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Toggle Grid Charge"
    id: inverter_esphome_toggle_grid_charge
    register_type: holding
    address: 232
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller            # 232 Slave Toggle Grid Charge
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Toggle Grid Charge"
    id: slave_inverter_esphome_toggle_grid_charge
    register_type: holding
    address: 232
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller            # 231 Toggle Generator Charge
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Toggle Generator Charge"
    id: inverter_esphome_toggle_generator_charge
    register_type: holding
    address: 231
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller            # 231 Slave Toggle Generator Charge
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Toggle Generator Charge"
    id: slave_inverter_esphome_toggle_generator_charge
    register_type: holding
    address: 231
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller            # 326 Toggle Force Generator
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Toggle Force Generator"
    id: inverter_esphome_toggle_force_generator
    register_type: holding
    address: 326
    bitmask: 8192 # 2^13 to target bit 13
    icon: "mdi:toggle-switch"

  - platform: modbus_controller            # 326 Slave Toggle Force Generator
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Toggle Force Generator"
    id: slave_inverter_esphome_toggle_force_generator
    register_type: holding
    address: 326
    bitmask: 8192 # 2^13 to target bit 13
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 247 Toggle Solar Sell
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Toggle Solar sell"
    id: inverter_esphome_toggle_solar_sell
    register_type: holding
    address: 247
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 247 Salve Toggle Solar Sell
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Toggle Solar sell"
    id: slave_inverter_esphome_toggle_solar_sell
    register_type: holding
    address: 247
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 248 Toggle System Timer
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Toggle System Timer" 
    id: inverter_esphome_toggle_Time_of_Use
    register_type: holding
    address: 248
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 248 Slave Toggle System Timer
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Toggle System Timer" 
    id: slave_inverter_esphome_toggle_Time_of_Use
    register_type: holding
    address: 248
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 243 Priority Load
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Toggle Priority Load" 
    id: inverter_esphome_toggle_priority_load
    register_type: holding
    address: 243
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 243 Slave Priority Load
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Toggle Priority Load" 
    id: slave_inverter_esphome_toggle_priority_load
    register_type: holding
    address: 243
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 274 Prog1 Charge
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog1 Grid Charge"
    id: inverter_esphome_toggle_grid_charge_time1
    register_type: holding
    address: 274
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 274 Slave Prog1 Grid Charge
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog1 Grid Charge"
    id: slave_inverter_esphome_toggle_grid_charge_time1
    register_type: holding
    address: 274
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 275 Prog2 Charge
    modbus_controller_id: primary_inverter
    use_write_multiple: true
    name: "${friendly_name} Prog2 Grid Charge"
    id: inverter_esphome_toggle_grid_charge_time2
    register_type: holding
    address: 275
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 275 Slave Prog2 Grid Charge
    modbus_controller_id: slave_inverter
    use_write_multiple: true
    name: "${friendly_name} Slave Prog2 Grid Charge"
    id: slave_inverter_esphome_toggle_grid_charge_time2
    register_type: holding
    address: 275
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 276 Prog3 Charge
    modbus_controller_id: primary_inverter
    use_write_multiple: true
    name: "${friendly_name} Prog3 Grid Charge"
    id: inverter_esphome_toggle_grid_charge_time3
    register_type: holding
    address: 276
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 276 Slave Prog3 Grid Charge
    modbus_controller_id: slave_inverter
    use_write_multiple: true
    name: "${friendly_name} Slave Prog3 Grid Charge"
    id: slave_inverter_esphome_toggle_grid_charge_time3
    register_type: holding
    address: 276
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 277 Prog4 Charge
    modbus_controller_id: primary_inverter
    use_write_multiple: true
    name: "${friendly_name} Prog4 Grid Charge"
    id: inverter_esphome_toggle_grid_charge_time4
    register_type: holding
    address: 277
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 277 Slave Prog4 Grid Charge
    modbus_controller_id: slave_inverter
    use_write_multiple: true
    name: "${friendly_name} Slave Prog4 Grid Charge"
    id: slave_inverter_esphome_toggle_grid_charge_time4
    register_type: holding
    address: 277
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 278 Prog5 Charge
    modbus_controller_id: primary_inverter
    use_write_multiple: true
    name: "${friendly_name} Prog5 Grid Charge"
    id: inverter_esphome_toggle_grid_charge_time5
    register_type: holding
    address: 278
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 278 Slave Prog5 Grid Charge
    modbus_controller_id: slave_inverter
    use_write_multiple: true
    name: "${friendly_name} Slave Prog5 Grid Charge"
    id: slave_inverter_esphome_toggle_grid_charge_time5
    register_type: holding
    address: 278
    bitmask: 1
    icon: "mdi:toggle-switch"


  - platform: modbus_controller          # 279 Prog6 Charge
    modbus_controller_id: primary_inverter
    use_write_multiple: true
    name: "${friendly_name} Prog6 Grid Charge"
    id: inverter_esphome_toggle_grid_charge_time6
    register_type: holding
    address: 279
    bitmask: 1
    icon: "mdi:toggle-switch"

  - platform: modbus_controller          # 279 Slave Prog6 Grid Charge
    modbus_controller_id: slave_inverter
    use_write_multiple: true
    name: "${friendly_name} Slave Prog6 Grid Charge"
    id: slave_inverter_esphome_toggle_grid_charge_time6
    register_type: holding
    address: 279
    bitmask: 1
    icon: "mdi:toggle-switch"

number:
  - platform: modbus_controller         # 268 Prog1 Capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_soc_time1
    name: "${friendly_name} Prog1 Capacity"
    unit_of_measurement: "%"
    address: 268
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 268 Slave Prog1 Capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_soc_time1
    name: "${friendly_name} Slave Prog1 Capacity"
    unit_of_measurement: "%"
    address: 268
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  
  
  - platform: modbus_controller         # 269 Prog2 Capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_soc_time2
    name: "${friendly_name} Prog2 Capacity"
    unit_of_measurement: "%"
    address: 269
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 269 Slave Prog2 Capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_soc_time2
    name: "${friendly_name} Slave Prog2 Capacity"
    unit_of_measurement: "%"
    address: 269
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  


  - platform: modbus_controller         # 270 Prog3 Capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_soc_time3
    name: "${friendly_name} Prog3 Capacity"
    unit_of_measurement: "%"
    address: 270
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 270 Slave Prog3 Capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_soc_time3
    name: "${friendly_name} Slave Prog3 Capacity"
    unit_of_measurement: "%"
    address: 270
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 271 Prog4 Capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_soc_time4
    name: "${friendly_name} Prog4 Capacity"
    unit_of_measurement: "%"
    address: 271
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 271 Slave Prog4 Capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_soc_time4
    name: "${friendly_name} Slave Prog4 Capacity"
    unit_of_measurement: "%"
    address: 271
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  


  - platform: modbus_controller         # 272 Prog5 Capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_soc_time5
    name: "${friendly_name} Prog5 Capacity"
    unit_of_measurement: "%"
    address: 272
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 272 Slave Prog5 Capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_soc_time5
    name: "${friendly_name} Slave Prog5 Capacity"
    unit_of_measurement: "%"
    address: 272
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 273 Prog6 Capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_soc_time6
    name: "${friendly_name} Prog6 Capacity"
    unit_of_measurement: "%"
    address: 273
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 273 Prog6 Capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_soc_time6
    name: "${friendly_name} Slave Prog6 Capacity"
    unit_of_measurement: "%"
    address: 273
    min_value: 0
    max_value: 100
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 256 Prog1 Power
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_power_time1
    name: "${friendly_name} Prog1 Power"
    unit_of_measurement: "W"
    address: 256
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 256 Slave Prog1 Power
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_power_time1
    name: "${friendly_name} Slave Prog1 Power"
    unit_of_measurement: "W"
    address: 256
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 257 Prog2 Power
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_power_time2
    name: "${friendly_name} Prog2 Power"
    unit_of_measurement: "W"
    address: 257
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 257 Slave Prog2 Power
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_power_time2
    name: "${friendly_name} Slave Prog2 Power"
    unit_of_measurement: "W"
    address: 257
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 258 Prog3 Power
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_power_time3
    name: "${friendly_name} Prog3 Power"
    unit_of_measurement: "W"
    address: 258
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 258 Slave Prog3 Power
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_power_time3
    name: "${friendly_name} Slave Prog3 Power"
    unit_of_measurement: "W"
    address: 258
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 259 Prog4 Power
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_power_time4
    name: "${friendly_name} Prog4 Power"
    unit_of_measurement: "W"
    address: 259
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 259 Slave Prog4 Power
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_power_time4
    name: "${friendly_name} Slave Prog4 Power"
    unit_of_measurement: "W"
    address: 259
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 260 Prog5 Power
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_power_time5
    name: "${friendly_name} Prog5 Power"
    unit_of_measurement: "W"
    address: 260
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 260 Slave Prog5 Power
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_power_time5
    name: "${friendly_name} Slave Prog5 Power"
    unit_of_measurement: "W"
    address: 260
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 261 Prog6 Power
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_set_power_time6
    name: "${friendly_name} Prog6 Power"
    unit_of_measurement: "W"
    address: 261
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller         # 261 Slave Prog6 Power
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_power_time6
    name: "${friendly_name} Slave Prog6 Power"
    unit_of_measurement: "W"
    address: 261
    min_value: 0
    max_value: 8000
    step: 100
    value_type: U_WORD  

  - platform: modbus_controller            # 262 Prog1 Voltage
    use_write_multiple: true
    modbus_controller_id: inverter
    id: inverter_esphome_set_voltage_time1
    name: "${friendly_name} Prog1 Voltage"
    unit_of_measurement: "V"
    address: 262
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;
      
  - platform: modbus_controller            # 262 Slave Prog1 Voltage
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_voltage_time1
    name: "${friendly_name} Slave Prog1 Voltage"
    unit_of_measurement: "V"
    address: 262
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller            # 263 Prog2 Voltage
    use_write_multiple: true
    modbus_controller_id: inverter
    id: inverter_esphome_set_voltage_time2
    name: "${friendly_name} Prog2 Voltage"
    unit_of_measurement: "V"
    address: 263
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;
      
  - platform: modbus_controller            # 263 Slave Prog2 Voltage
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_voltage_time2
    name: "${friendly_name} Slave Prog2 Voltage"
    unit_of_measurement: "V"
    address: 263
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller            # 264 Prog3 Voltage
    use_write_multiple: true
    modbus_controller_id: inverter
    id: inverter_esphome_set_voltage_time3
    name: "${friendly_name} Prog3 Voltage"
    unit_of_measurement: "V"
    address: 264
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller            # 264 Slave Prog3 Voltage
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_voltage_time3
    name: "${friendly_name} Slave Prog3 Voltage"
    unit_of_measurement: "V"
    address: 264
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller            # 265 Prog4 Voltage
    use_write_multiple: true
    modbus_controller_id: inverter
    id: inverter_esphome_set_voltage_time4
    name: "${friendly_name} Prog4 Voltage"
    unit_of_measurement: "V"
    address: 265
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller            # 265 Slave Prog4 Voltage
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_voltage_time4
    name: "${friendly_name} Slave Prog4 Voltage"
    unit_of_measurement: "V"
    address: 265
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller            # 266 Prog5 Voltage
    use_write_multiple: true
    modbus_controller_id: inverter
    id: inverter_esphome_set_voltage_time5
    name: "${friendly_name} Prog5 Voltage"
    unit_of_measurement: "V"
    address: 266
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller            # 266 Slave Prog5 Voltage
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_voltage_time5
    name: "${friendly_name} Slave Prog5 Voltage"
    unit_of_measurement: "V"
    address: 266
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller            # 267 Prog6 Voltage
    use_write_multiple: true
    modbus_controller_id: inverter
    id: inverter_esphome_set_voltage_time6
    name: "${friendly_name} Prog6 Voltage"
    unit_of_measurement: "V"
    address: 267
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller            # 267 Slave Prog6 Voltage
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_set_voltage_time6
    name: "${friendly_name} Slave Prog6 Voltage"
    unit_of_measurement: "V"
    address: 267
    min_value: 41
    max_value: 60
    step: 0.1
    value_type: U_WORD
    lambda: "return  x * 0.01; "
    write_lambda: |-
      return x * 100 ;

  - platform: modbus_controller         # 230 Grid Charge Battery current
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_grid_charge_bat_current
    name: "${friendly_name} Grid Charge Battery current"
    unit_of_measurement: "A"
    address: 230
    min_value: 0
    max_value: 185
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 230 Slave Grid Charge Battery current
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_grid_charge_bat_current
    name: "${friendly_name} Slave Grid Charge Battery current"
    unit_of_measurement: "A"
    address: 230
    min_value: 0
    max_value: 185
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 217 Battery shutdown capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_battery_shutdown_capacity
    name: "${friendly_name} Battery Shutdown Capacity"
    unit_of_measurement: "%"
    address: 217
    min_value: 0
    max_value: 100
    step: 1
    value_type: U_WORD  

  - platform: modbus_controller         # 217 Slave Battery shutdown capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_battery_shutdown_capacity
    name: "${friendly_name} Slave Battery Shutdown Capacity"
    unit_of_measurement: "%"
    address: 217
    min_value: 0
    max_value: 100
    step: 1
    value_type: U_WORD  

  - platform: modbus_controller         # 218 Battery Restart Capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_battery_restart_capacity
    name: "${friendly_name} Battery Restart Capacity"
    unit_of_measurement: "%"
    address: 218
    min_value: 0
    max_value: 100
    step: 1
    value_type: U_WORD  

  - platform: modbus_controller         # 218 Slave Battery Restart Capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_battery_restart_capacity
    name: "${friendly_name} Slave Battery Restart Capacity"
    unit_of_measurement: "%"
    address: 218
    min_value: 0
    max_value: 100
    step: 1
    value_type: U_WORD  

  - platform: modbus_controller         # 219 Battery Low Capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_battery_low_capacity
    name: "${friendly_name} Battery Low Capacity"
    unit_of_measurement: "%"
    address: 219
    min_value: 0
    max_value: 100
    step: 1
    value_type: U_WORD 

  - platform: modbus_controller         # 219 Slave Battery Low Capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_battery_low_capacity
    name: "${friendly_name} Slave Battery Low Capacity"
    unit_of_measurement: "%"
    address: 219
    min_value: 0
    max_value: 100
    step: 1
    value_type: U_WORD 

  - platform: modbus_controller         # 204 Battery Capacity
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_battery_capacity
    name: "${friendly_name} Battery Capacity"
    unit_of_measurement: "Ah"
    address: 204
    min_value: 0
    max_value: 2000
    value_type: U_WORD 

  - platform: modbus_controller         # 204 Slave Battery Capacity
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_battery_capacity
    name: "${friendly_name} Slave Battery Capacity"
    unit_of_measurement: "Ah"
    address: 204
    min_value: 0
    max_value: 2000
    value_type: U_WORD 

  - platform: modbus_controller         # 206 Grid Trickle Feed
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_grid_trickle_feed
    name: "${friendly_name} Grid Trickle Feed"
    unit_of_measurement: "W"
    address: 206
    min_value: 0
    max_value: 500
    value_type: U_WORD 
   
  - platform: modbus_controller         # 206 Slave Grid Trickle Feed
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_grid_trickle_feed
    name: "${friendly_name} Slave grid Trickle Feed"
    unit_of_measurement: "W"
    address: 206
    min_value: 0
    max_value: 500
    value_type: U_WORD 

  - platform: modbus_controller         # 210 Battery Max Charge current
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_bat_max_charge_current
    name: "${friendly_name} Battery Max Charge current"
    unit_of_measurement: "A"
    address: 210
    min_value: 0
    max_value: 185
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 210 Slave Battery Max Charge current
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_bat_max_charge_current
    name: "${friendly_name} Slave Battery Max Charge current"
    unit_of_measurement: "A"
    address: 210
    min_value: 0
    max_value: 185
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 211 Battery Max Discharge current
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_bat_max_discharge_current
    name: "${friendly_name} Battery Max Discharge current"
    unit_of_measurement: "A"
    address: 211
    min_value: 0
    max_value: 185
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller         # 211 Slave Battery Max Discharge current
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_bat_max_discharge_current
    name: "${friendly_name} Slave Battery Max Discharge current"
    unit_of_measurement: "A"
    address: 211
    min_value: 0
    max_value: 185
    step: 5
    value_type: U_WORD  

  - platform: modbus_controller            # 293 Grid Peak Shaving Power
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid Peak shaving power"
    id: inverter_grid_peak_shaving_power
    address: 293
    unit_of_measurement: "W"
    min_value: 0
    max_value: 8000
    step: 500
    value_type: U_WORD

  - platform: modbus_controller            # 293 Slave Grid Peak Shaving Power
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid Peak shaving power"
    id: slave_inverter_grid_peak_shaving_power
    address: 293
    unit_of_measurement: "W"
    min_value: 0
    max_value: 8000
    step: 500
    value_type: U_WORD

  - platform: modbus_controller            # 245 Max Sell Power
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Max Sell power"
    id: inverter_max_sell_power
    address: 245
    unit_of_measurement: "W"
    min_value: 0
    max_value: 8000
    step: 500
    value_type: U_WORD

  - platform: modbus_controller            # 245 Slave Max Sell Power
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Max Sell power"
    id: slave_inverter_max_sell_power
    address: 245
    unit_of_measurement: "W"
    min_value: 0
    max_value: 8000
    step: 500
    value_type: U_WORD

################################################ TEXT SENSORS ##################################################

text_sensor:
  - platform: modbus_controller            # 059 Overall State
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Overall State"
    id: inverter_esphome_overall_state
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    raw_encode: HEXBYTES
    address: 59
    lambda: |- 
      uint16_t value = modbus_controller::word_from_hex_str(x, 0);
      switch (value) {
        case 0: return std::string("standby");
        case 1: return std::string("selftest");
        case 2: return std::string("normal");
        case 3: return std::string("alarm");
        case 4: return std::string("fault");
        default: return std::string("unknown");
      }

  - platform: modbus_controller            # 059 Slave Overall State
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Overall State"
    id: slave_inverter_esphome_overall_state
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    raw_encode: HEXBYTES
    address: 59
    lambda: |- 
      uint16_t value = modbus_controller::word_from_hex_str(x, 0);
      switch (value) {
        case 0: return std::string("standby");
        case 1: return std::string("selftest");
        case 2: return std::string("normal");
        case 3: return std::string("alarm");
        case 4: return std::string("fault");
        default: return std::string("unknown");
      }

  - platform: template                     # Prog Time 1 Friendly Name
    name: "${friendly_name} Time Slot 1"
    id: inverter_esphome_time_slot_1
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time1).state) {
        minutes = static_cast<int>(id(inverter_esphome_system_mode_time1).state) % 100;
        hours = static_cast<int>(id(inverter_esphome_system_mode_time1).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Prog Time 2 Friendly Name
    name: "${friendly_name} Time Slot 2"
    id: inverter_esphome_time_slot_2
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time2).state) {
        minutes = static_cast<int>(id(inverter_esphome_system_mode_time2).state) % 100;
        hours = static_cast<int>(id(inverter_esphome_system_mode_time2).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Prog Time 3 Friendly Name
    name: "${friendly_name} Time Slot 3"
    id: inverter_esphome_time_slot_3
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time3).state) {
        minutes = static_cast<int>(id(inverter_esphome_system_mode_time3).state) % 100;
        hours = static_cast<int>(id(inverter_esphome_system_mode_time3).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Prog Time 4 Friendly Name
    name: "${friendly_name} Time Slot 4"
    id: inverter_esphome_time_slot_4
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time4).state) {
        minutes = static_cast<int>(id(inverter_esphome_system_mode_time4).state) % 100;
        hours = static_cast<int>(id(inverter_esphome_system_mode_time4).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Prog Time 5 Friendly Name
    name: "${friendly_name} Time Slot 5"
    id: inverter_esphome_time_slot_5
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time5).state) {
        minutes = static_cast<int>(id(inverter_esphome_system_mode_time5).state) % 100;
        hours = static_cast<int>(id(inverter_esphome_system_mode_time5).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Prog Time 6 Friendly Name
    name: "${friendly_name} Time Slot 6"
    id: inverter_esphome_time_slot_6
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time6).state) {
        minutes = static_cast<int>(id(inverter_esphome_system_mode_time6).state) % 100;
        hours = static_cast<int>(id(inverter_esphome_system_mode_time6).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Slave Prog Time 1 Friendly Name
    name: "${friendly_name} Slave Time Slot 1"
    id: slave_inverter_esphome_time_slot_1
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time1).state) {
        minutes = static_cast<int>(id(slave_inverter_esphome_system_mode_time1).state) % 100;
        hours = static_cast<int>(id(slave_inverter_esphome_system_mode_time1).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Slave Prog Time 2 Friendly Name
    name: "${friendly_name} Slave Time Slot 2"
    id: slave_inverter_esphome_time_slot_2
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time2).state) {
        minutes = static_cast<int>(id(slave_inverter_esphome_system_mode_time2).state) % 100;
        hours = static_cast<int>(id(slave_inverter_esphome_system_mode_time2).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Slave Prog Time 3 Friendly Name
    name: "${friendly_name} Slave Time Slot 3"
    id: slave_inverter_esphome_time_slot_3
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time3).state) {
        minutes = static_cast<int>(id(slave_inverter_esphome_system_mode_time3).state) % 100;
        hours = static_cast<int>(id(slave_inverter_esphome_system_mode_time3).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Slave Prog Time 4 Friendly Name
    name: "${friendly_name} Slave Time Slot 4"
    id: slave_inverter_esphome_time_slot_4
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time4).state) {
        minutes = static_cast<int>(id(slave_inverter_esphome_system_mode_time4).state) % 100;
        hours = static_cast<int>(id(slave_inverter_esphome_system_mode_time4).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Slave Prog Time 5 Friendly Name
    name: "${friendly_name} Slave Time Slot 5"
    id: slave_inverter_esphome_time_slot_5
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time5).state) {
        minutes = static_cast<int>(id(slave_inverter_esphome_system_mode_time5).state) % 100;
        hours = static_cast<int>(id(slave_inverter_esphome_system_mode_time5).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: template                     # Slave Prog Time 6 Friendly Name
    name: "${friendly_name} Slave Time Slot 6"
    id: slave_inverter_esphome_time_slot_6
    icon: "mdi:clock"
    lambda: |-
        int minutes, hours;
        if (id(inverter_esphome_system_mode_time6).state) {
        minutes = static_cast<int>(id(slave_inverter_esphome_system_mode_time6).state) % 100;
        hours = static_cast<int>(id(slave_inverter_esphome_system_mode_time6).state) / 100;
        } else {
          minutes = 0;
          hours = 0;
        }
        char formatted_time[6];
        snprintf(formatted_time, sizeof(formatted_time), "%02d:%02d", hours, minutes);
        return esphome::optional<std::string>(formatted_time);

  - platform: modbus_controller            # 003-007 Inverter HEX Serial Number
    modbus_controller_id: primary_inverter
    id: inverter_esphome_serial
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    raw_encode: HEXBYTES
    address: 003
    register_count: 5
    response_size: 10
    internal: true

  - platform: modbus_controller            # 003-007 Slave Inverter HEX Serial Number
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_serial
    register_type: holding
    skip_updates: ${settings_skipped_updates}
    raw_encode: HEXBYTES
    address: 003
    register_count: 5
    response_size: 10
    internal: true

  - platform: template                     # Inverter ASCII Serial Number
    name: "${friendly_name} Serial"
    id: inverter_esphome_ascii_serial
    icon: "mdi:text"
    lambda: |-
      std::string hexData = id(inverter_esphome_serial).state;

      // Convert hex-encoded string to ASCII
      std::string asciiData;
      for (size_t i = 0; i < hexData.length(); i += 2) {
        std::string byte = hexData.substr(i, 2);
        char chr = static_cast<char>(std::stoi(byte, nullptr, 16));
        asciiData.push_back(chr);
      }

      return asciiData;

  - platform: template                     # Slave Inverter ASCII Serial Number
    name: "${friendly_name} Slave Serial"
    id: slave_inverter_esphome_ascii_serial
    icon: "mdi:text"
    lambda: |-
      std::string hexData = id(slave_inverter_esphome_serial).state;

      // Convert hex-encoded string to ASCII
      std::string asciiData;
      for (size_t i = 0; i < hexData.length(); i += 2) {
        std::string byte = hexData.substr(i, 2);
        char chr = static_cast<char>(std::stoi(byte, nullptr, 16));
        asciiData.push_back(chr);
      }

      return asciiData;

################################################ SELECT SENSORS ################################################

select:
  - platform: modbus_controller                   #243 Select Energy Patern
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_select_energy_pattern
    name: "${friendly_name} Energy Pattern"
    address: 243
    value_type: U_WORD
    optionsmap:
      "Battery first": 0
      "Load first": 1   

  - platform: modbus_controller                   #243 Slave Select Energy Patern
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_select_energy_pattern
    name: "${friendly_name} Slave Energy Pattern"
    address: 243
    value_type: U_WORD
    optionsmap:
      "Battery first": 0
      "Load first": 1   
         
  - platform: modbus_controller                   #244 Select Work Mode
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_select_work_mode
    name: "${friendly_name} Work Mode"
    address: 244
    value_type: U_WORD
    optionsmap:
      "Selling First": 0
      "Zero Export + Limit to Load Only": 1
      "Limited to Home": 2    

  - platform: modbus_controller                   #244 Slave Select Work Mode
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_select_work_mode
    name: "${friendly_name} Slave Work Mode"
    address: 244
    value_type: U_WORD
    optionsmap:
      "Selling First": 0
      "Zero Export + Limit to Load Only": 1
      "Limited to Home": 2    

  - platform: modbus_controller                   #235 Select Generator Input
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    id: inverter_esphome_select_generator_input
    name: "${friendly_name} Generator Input"
    address: 235
    value_type: U_WORD
    optionsmap:
      "Disable": 0
      "Output": 1
      "Input": 2    

  - platform: modbus_controller                   #235 Slave Select Generator Input
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    id: slave_inverter_esphome_select_generator_input
    name: "${friendly_name} Generator Input"
    address: 235
    value_type: U_WORD
    optionsmap:
      "Disable": 0
      "Output": 1
      "Input": 2    

  - platform: modbus_controller                  #280 Select Grid Peak Shaving
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Grid Peak Shaving"
    id: inverter_esphome_select_grid_peak_shaving
    address: 280
    value_type: U_WORD
    optionsmap:
      "Disabled": 0
      "Enabled": 256
    lambda: |-
      // we are only interested in the 8th bit binary 0001 0000 0000 need to map the options 0, 256 in select 
      //ESP_LOGE("main","Modbus Number incoming value = %d",x);
      //ESP_LOGE("main","Modbus eval value = %d",(x & 0x0100));
      if ((x & 0x0100) == 0)
        return  std::string("Disabled");
      if ((x & 0x0100) == 256)
        return  std::string("Enabled");
      return {};
    write_lambda: |-
      //ESP_LOGE("main","Modbus write gets = %d",value);
      uint16_t unmodified =  id(grid_peak_shaving_raw).state;
      //ESP_LOGE("main","Modbus write unmodified = %d", unmodified);
      // optionsmap should only return 2 values... 0 , 256 so bitmask with complement 0x0100 to ensure we keep the original values in register. then appply or with the value that was chosen
      uint16_t modified = ((unmodified & ~0x0100) | value);
      //ESP_LOGE("main","Modbus write to write = %d", modified);
      return modified;

  - platform: modbus_controller                  #280 Slave Select Grid Peak Shaving
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Grid Peak Shaving"
    id: slave_inverter_esphome_select_grid_peak_shaving
    address: 280
    value_type: U_WORD
    optionsmap:
      "Disabled": 0
      "Enabled": 256
    lambda: |-
      // we are only interested in the 8th bit binary 0001 0000 0000 need to map the options 0, 256 in select 
      //ESP_LOGE("main","Modbus Number incoming value = %d",x);
      //ESP_LOGE("main","Modbus eval value = %d",(x & 0x0100));
      if ((x & 0x0100) == 0)
        return  std::string("Disabled");
      if ((x & 0x0100) == 256)
        return  std::string("Enabled");
      return {};
    write_lambda: |-
      //ESP_LOGE("main","Modbus write gets = %d",value);
      uint16_t unmodified =  id(grid_peak_shaving_raw).state;
      //ESP_LOGE("main","Modbus write unmodified = %d", unmodified);
      // optionsmap should only return 2 values... 0 , 256 so bitmask with complement 0x0100 to ensure we keep the original values in register. then appply or with the value that was chosen
      uint16_t modified = ((unmodified & ~0x0100) | value);
      //ESP_LOGE("main","Modbus write to write = %d", modified);
      return modified;

  - platform: modbus_controller            #274 Select Prog1 Charge Option
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog1 Charge Option"
    id: inverter_esphome_select_system_mode_charge_option_time_1
    address: 274
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_274_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #274 Slave Select Prog1 Charge Option
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog1 Charge Option"
    id: slave_inverter_esphome_select_system_mode_charge_option_time_1
    address: 274
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_274_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #275  Select Prog2 Charge Option
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog2 Charge Option"
    id: inverter_esphome_select_system_mode_charge_option_time_2
    address: 275
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_275_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #275 Slave Select Prog2 Charge Option
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog2 Charge Option"
    id: slave_inverter_esphome_select_system_mode_charge_option_time_2
    address: 275
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_275_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #276  Select Prog3 Charge Option
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog3 Charge Option"
    id: inverter_esphome_select_system_mode_charge_option_time_3
    address: 276
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_276_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #276 Slave Select Prog3 Charge Option
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Salve Prog3 Charge Option"
    id: slave_inverter_esphome_select_system_mode_charge_option_time_3
    address: 276
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_276_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #277  Select Prog4 Charge Option
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog4 Charge Option"
    id: inverter_esphome_select_system_mode_charge_option_time_4
    address: 277
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_277_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #277 Slave Select Prog4 Charge Option
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog4 Charge Option"
    id: slave_inverter_esphome_select_system_mode_charge_option_time_4
    address: 277
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_277_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #278  Select Prog5 Charge Option
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog5 Charge Option"
    id: inverter_esphome_select_system_mode_charge_option_time_5
    address: 278
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_278_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #278 Slave Select Prog5 Charge Option
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog5 Charge Option"
    id: slave_inverter_esphome_select_system_mode_charge_option_time_5
    address: 278
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_278_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #279  Select Prog6 Charge Option
    use_write_multiple: true
    modbus_controller_id: primary_inverter
    name: "${friendly_name} Prog6 Charge Option"
    id: inverter_esphome_select_system_mode_charge_option_time_6
    address: 279
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_279_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

  - platform: modbus_controller            #279 Slave Select Prog6 Charge Option
    use_write_multiple: true
    modbus_controller_id: slave_inverter
    name: "${friendly_name} Slave Prog6 Charge Option"
    id: slave_inverter_esphome_select_system_mode_charge_option_time_6
    address: 279
    value_type: U_WORD
    optionsmap:
      "No Grid or Gen": 0
      "Allow Grid": 1
      "Allow Gen": 2
      "Allow Grid & Gen": 3
    lambda: |-
      if ((x & 0x0003) == 0)
        return  std::string("No Grid or Gen");
      if ((x & 0x0003) == 1)
        return  std::string("Allow Grid");
      if ((x & 0x0003) == 2)
        return  std::string("Allow Gen");
      if ((x & 0x0003) == 3)
        return  std::string("Allow Grid & Gen");
      return {};
    write_lambda: |-
      uint16_t unmodified =  id(reg_279_raw).state;
      uint16_t modified = ((unmodified & ~0x0003) | value);
      return modified;

#Disabled as these are for Turbo Energy Inverters
  # - platform: modbus_controller            #274  Select Prog1 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: primary_inverter
  #   name: "${friendly_name} Prog1 Mode Option"
  #   id: inverter_esphome_select_system_mode_program_option_time_1
  #   address: 274
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_274_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #274 Slave Select Prog1 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: slave_inverter
  #   name: "${friendly_name} Slave Prog1 Mode Option"
  #   id: slave_inverter_esphome_select_system_mode_program_option_time_1
  #   address: 274
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_274_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #275  Select Prog2 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: primary_inverter
  #   name: "${friendly_name} Prog2 Mode Option"
  #   id: sumsynk_esphome_select_system_mode_program_option_time_2
  #   address: 275
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_275_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #275 slave Select Prog2 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: slave_inverter
  #   name: "${friendly_name} Slave Prog2 Mode Option"
  #   id: slave_sumsynk_esphome_select_system_mode_program_option_time_2
  #   address: 275
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_275_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #276  Select Prog3 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: primary_inverter
  #   name: "${friendly_name} Prog3 Mode Option"
  #   id: inverter_esphome_select_system_mode_program_option_time_3
  #   address: 276
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_276_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #276 Slave Select Prog3 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: slave_inverter
  #   name: "${friendly_name} Slave Prog3 Mode Option"
  #   id: slave_inverter_esphome_select_system_mode_program_option_time_3
  #   address: 276
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_276_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #277  Select Prog4 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: primary_inverter
  #   name: "${friendly_name} Prog4 Mode Option"
  #   id: inverter_esphome_select_system_mode_program_option_time_4
  #   address: 277
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_277_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #277 Slave Select Prog4 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: slave_inverter
  #   name: "${friendly_name} Slave Prog4 Mode Option"
  #   id: slave_inverter_esphome_select_system_mode_program_option_time_4
  #   address: 277
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_277_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #278  Select Prog5 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: primary_inverter
  #   name: "${friendly_name} Prog5 Mode Option"
  #   id: inverter_esphome_select_system_mode_program_option_time_5
  #   address: 278
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_278_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #278 Slave Select Prog5 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: slave_inverter
  #   name: "${friendly_name} Slave Prog5 Mode Option"
  #   id: slave_inverter_esphome_select_system_mode_program_option_time_5
  #   address: 278
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_278_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #279  Select Prog6 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: primary_inverter
  #   name: "${friendly_name} Prog6 Mode Option"
  #   id: inverter_esphome_select_system_mode_program_option_time_6
  #   address: 279
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_279_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;

  # - platform: modbus_controller            #279 Slave Select Prog6 Mode Option
  #   use_write_multiple: true
  #   modbus_controller_id: slave_inverter
  #   name: "${friendly_name} Slave Prog6 Mode Option"
  #   id: slave_inverter_esphome_select_system_mode_program_option_time_6
  #   address: 279
  #   value_type: U_WORD
  #   optionsmap:
  #     "None": 0
  #     "General": 4
  #     "Backup": 8
  #     "Charge": 16
  #   lambda: |-
  #     if ((x & 0x1C) == 0)
  #       return  std::string("None");
  #     if ((x & 0x1C) == 4)
  #       return  std::string("General");
  #     if ((x & 0x1C) == 8)
  #       return  std::string("Battery");
  #     if ((x & 0x1C) == 16)
  #       return  std::string("Charge");
  #     return {};
  #   write_lambda: |-
  #     uint16_t unmodified =  id(reg_279_raw).state;
  #     uint16_t modified = ((unmodified & ~0x1C) | value);
  #     return modified;