pred_bat: module: predbat class: PredBat # Sets the prefix for all created entities in HA - only change if you want to run more than once instance prefix: predbat # Timezone to work in timezone: Europe/Berlin # Currency, symbol for main currency second symbol for 1/100s e.g. $ c or £ p or e c currency_symbols: - 'Kr' - 'øre' # Number of threads to use in plan calculation # Can be auto for automatic, 0 for off or values 1-N for a fixed number threads: auto #ha_url: 'http://192.168.1.159:8123' #ha_key: 'xxxx' # XXX: This is a configuration template, delete this line once you edit your configuration template: True # Sets the maximum period of zero load before the gap is filled, default 30 minutes # To disable set it to 1440 load_filter_threshold: 30 # # Sensors, more than one can be specified and they will be summed up automatically # # For two inverters the load today would normally be the master load sensor only (to cover the entire house) # If you have three phase and one inverter per phase then you would need three load sensors # # For pv_today if you have multiple solar inverter inputs then you should include one entry for each inverter # load_today: - sensor.scb_home_consumption_total import_today: - sensor.scb_home_consumption_from_grid_total export_today: - sensor.scb_energy_to_grid_total pv_today: - sensor.scb_energy_yield_total # Load forecast can be used to add to the historical load data (heat-pump) # To link to Predheat # Data must be in the format of 'last_updated' timestamp and 'energy' for incrementing kWh #load_forecast: # - predheat.heat_energy$external # # Controls/status - must by 1 per inverter # num_inverters: 1 inverter_type: Kostal inverter: name: "Kostal" has_rest_api: false has_mqtt_api: false has_service_api: true output_charge_control: "power" has_charge_enable_time: false has_discharge_enable_time: false has_target_soc: false has_reserve_soc: true charge_time_format: "S" charge_time_entity_is_option: false soc_units: "%" num_load_entities: 1 has_ge_inverter_mode: false time_button_press: false clock_time_format: "%d-%m-%y %H:%M:%S" write_and_poll_sleep: 2 has_time_window: false support_charge_freeze: false support_discharge_freeze: true # Services to control charging/discharging charge_start_service: - service: input_boolean.turn_on entity_id: input_boolean.charge_start_service - service: input_boolean.turn_off entity_id: input_boolean.charge_freeze_service - service: input_boolean.turn_off entity_id: input_boolean.discharge_freeze_service charge_freeze_service: - service: input_boolean.turn_on entity_id: input_boolean.charge_freeze_service - service: input_boolean.turn_off entity_id: input_boolean.charge_start_service - service: input_boolean.turn_off entity_id: input_boolean.discharge_freeze_service charge_stop_service: - service: input_boolean.turn_off entity_id: input_boolean.charge_start_service - service: input_boolean.turn_off entity_id: input_boolean.charge_freeze_service discharge_freeze_service: - service: input_boolean.turn_on entity_id: input_boolean.discharge_freeze_service - service: input_boolean.turn_off entity_id: input_boolean.charge_start_service - service: input_boolean.turn_off entity_id: input_boolean.charge_freeze_service - service: input_boolean.turn_off entity_id: input_boolean.discharge_start_service discharge_start_service: - service: input_boolean.turn_on entity_id: input_boolean.discharge_start_service - service: input_boolean.turn_off entity_id: input_boolean.discharge_freeze_service discharge_stop_service: - service: input_boolean.turn_off entity_id: input_boolean.discharge_start_service - service: input_boolean.turn_off entity_id: input_boolean.discharge_freeze_service charge_rate: - input_number.predbat_charge_rate discharge_rate: - input_number.predbat_discharge_rate #battery_voltage: # - sensor.battery_external_battery_voltage #from Sunspec integration battery_power: - sensor.scb_battery_power pv_power: - sensor.scb_sum_power_of_all_pv_dc_inputs load_power: - sensor.scb_home_power grid_power: - sensor.scb_grid_power grid_power_invert: - true battery_min_soc: - 10 soc_percent: - sensor.scb_battery_soc reserve: - input_number.predbat_reserve charge_limit: - input_number.predbat_charge_limit soc_max: - 31 # kWh battery_rate_max: - 11940 # Watts # Inverter max AC limit (one per inverter). E.g for a 3.6kw inverter set to 3600 # If you have a second inverter for PV only please add the two values together inverter_limit: - 15000 # Export limit is a software limit set on your inverter that prevents exporting above a given level # When enabled Predbat will model this limit #export_limit: # - 3600 # - 3600 # Some inverters don't turn off when the rate is set to 0, still charge or discharge at around 200w # The value can be set here in watts to model this (doesn't change operation) #inverter_battery_rate_min: # - 200 inverter_limit_charge: - 11940 inverter_limit_discharge: - 11940 # Workaround to limit the maximum reserve setting, some inverters won't allow 100% to be set # Comment out if your inverter allows 100% #inverter_reserve_max : 98 # Some batteries tail off their charge rate at high soc% # enter the charging curve here as a % of the max charge rate for each soc percentage. # the default is 1.0 (full power) #battery_charge_power_curve: # 91 : 0.91 # 92 : 0.81 # 93 : 0.71 # 94 : 0.62 # 95 : 0.52 # 96 : 0.43 # 97 : 0.33 # 98 : 0.24 # 99 : 0.24 # 100 : 0.24 # Inverter clock skew in minutes, e.g. 1 means it's 1 minute fast and -1 is 1 minute slow # Separate start and end options are applied to the start and end time windows, mostly as you want to start late (not early) and finish early (not late) # Separate discharge skew for discharge windows only inverter_clock_skew_start: 0 inverter_clock_skew_end: 0 inverter_clock_skew_discharge_start: 0 inverter_clock_skew_discharge_end: 0 # Clock skew adjusts the Appdaemon time # This is the time that Predbat takes actions like starting discharge/charging # Only use this for workarounds if your inverter time is correct but Predbat is somehow wrong (AppDaemon issue) # 1 means add 1 minute to AppDaemon time, -1 takes it away clock_skew: 0 # Set these to match solcast sensor names # The regular expression (re:) makes the solcast bit optional # If these don't match find your own names in Home Assistant pv_forecast_today: sensor.solcast_pv_forecast_forecast_today pv_forecast_tomorrow: sensor.solcast_pv_forecast_forecast_tomorrow pv_forecast_d3: sensor.solcast_pv_forecast_forecast_day_3 pv_forecast_d4: sensor.solcast_pv_forecast_forecast_day_4 # Defines the number of cars modelled by the system, set to 0 for no car #num_cars: 1 # car_charging_energy defines an incrementing sensor which measures the charge added to your car # is used for car_charging_hold feature to filter out car charging from the previous load data # Automatically set to detect Wallbox and Zappi, if it doesn't match manually enter your sensor name # Also adjust car_charging_energy_scale if it's not in kwH to fix the units #car_charging_energy: # - sensor.evvc3efe773bc_active_energy_conn1 #car_charging_planned: #- binary_sensor.evcc_garage_connected #car_charging_planned_response: #- 'yes' #- 'on' #- 'true' #- 'connected' #car_charging_now_response: #- sensor.evcc_garage_charge_power #car_charging_limit: #- sensor.evcc_garage_effective_plan_soc #car_charging_soc: #- sensor.battery_level #car_charging_battery_size: #- 7.0 # Octopus saving session points to the saving session Sensor in the Octopus plugin, when enabled saving sessions will be at the assumed # Rate is read automatically from the add-in and converted to pence using the conversion rate below (default is 8) #octopus_saving_session: 're:(binary_sensor.octopus_energy([0-9a-z_]+|)_saving_session(s|))' #octopus_saving_session_octopoints_per_penny: 8 # Octopus free session points to the free session Sensor in the Octopus plugin # Note: You must enable this event sensor in the Octopus Integration in Home Assistant for it to work #octopus_free_session: 're:(event.octopus_energy_([0-9a-z_]+|)_octoplus_free_electricity_session_events)' # Energy rates # Please set one of these three, if multiple are set then Octopus is used first, second rates_import/rates_export and latest basic metric # Set import and export entity to point to the Octopus Energy plugin import and export sensors # automatically matches your meter number assuming you have only one (no need to edit the below) # Will be ignored if you don't have the sensor but will error if you do have one and it's incorrect # NOTE: To get detailed energy rates you need to go in and manually enable the following events in HA # event.octopus_energy_electricity_xxxxxxxx_previous_day_rates # event.octopus_energy_electricity_xxxxxxxx_current_day_rates # event.octopus_energy_electricity_xxxxxxxx_next_day_rates # and if you have export enable: # event.octopus_energy_electricity_xxxxxxxx_export_previous_day_rates # event.octopus_energy_electricity_xxxxxxxx_export_current_day_rates # event.octopus_energy_electricity_xxxxxxxx_export_next_day_rates # Predbat will automatically find the event. entities from the link below to the sensors metric_energidataservice_import: - sensor.energi_fyn_kostpris metric_energidataservice_export: - sensor.energi_data_service_export # Standing charge in pounds, can be set to a sensor or manually entered (e.g. 0.50 is 50p) # The default below will pick up the standing charge from the Octopus Plugin # The standing charge only impacts the cost graphs and doesn't change the way Predbat plans # If you don't want to show the standing charge then just delete this line or set to zero #metric_standing_charge: 're:(sensor.(octopus_energy_|)electricity_[0-9a-z]+_[0-9a-z]+_current_standing_charge)' # Or set your actual rates across time for import and export # If start/end is missing it's assumed to be a fixed rate # Gaps are filled with zero rate #rates_import: # - start: "00:30:00" # end: "04:30:00" # rate: 7.5 # - start: "04:30:00" # end: "00:30:00" # rate: 40.0 # #rates_export: # - rate: 4.2 # Can be used instead of the plugin to get import rates directly online # Overrides metric_octopus_import and rates_import # rates_import_octopus_url : "https://api.octopus.energy/v1/products/FLUX-IMPORT-23-02-14/electricity-tariffs/E-1R-FLUX-IMPORT-23-02-14-A/standard-unit-rates" # rates_import_octopus_url : "https://api.octopus.energy/v1/products/AGILE-FLEX-BB-23-02-08/electricity-tariffs/E-1R-AGILE-FLEX-BB-23-02-08-A/standard-unit-rates" # Overrides metric_octopus_export and rates_export # rates_export_octopus_url: "https://api.octopus.energy/v1/products/FLUX-EXPORT-BB-23-02-14/electricity-tariffs/E-1R-FLUX-EXPORT-BB-23-02-14-A/standard-unit-rates" # rates_export_octopus_url: "https://api.octopus.energy/v1/products/AGILE-OUTGOING-BB-23-02-28/electricity-tariffs/E-1R-AGILE-OUTGOING-BB-23-02-28-A/standard-unit-rates/" # rates_export_octopus_url: "https://api.octopus.energy/v1/products/OUTGOING-FIX-12M-BB-23-02-09/electricity-tariffs/E-1R-OUTGOING-FIX-12M-BB-23-02-09-A/standard-unit-rates/" # Import rates can be overridden with rate_import_override # Export rates can be overridden with rate_export_override # Use the same format as above, but a date can be included if it just applies for a set day (e.g. Octopus power ups) # This will override even the Octopus plugin rates if enabled # #rates_import_override: # - date: '2023-09-10' # start: '14:00:00' # end: '14:30:00' # rate: 112 # load_scaling: 0.8 # For pv estimate, leave blank for central estimate, or add 10 for 10% curve (worst case) or 90 or 90% curve (best case) # If you use 10 then disable pv_metric10_weight below # pv_estimate: 10 # Days previous is the number of days back to find historical load data # Recommended is 7 to capture day of the week but 1 can also be used # if you have more history you could use 7 and 14 (in a list) but the standard data in HA only lasts 10 days days_previous: - 7 # Days previous weight can be used to control the weighting of the previous load points, the values are multiplied by their # weights and then divided through by the total weight. E.g. if you used 1 and 0.5 then the first value would have 2/3rd of the weight and the second 1/3rd # Include one value for each days_previous value, each weighting on a separate line. # If any days_previous's that are not given a weighting they will assume a default weighting of 1. days_previous_weight: - 2 # Number of hours forward to forecast, best left as-is unless you have specific reason forecast_hours: 48 # Specify the devices that notifies are sent to, the default is 'notify' which goes to all #notify_devices: # - mobile_app_treforsiphone12_2 # Battery scaling makes the battery smaller (e.g. 0.9) or bigger than its reported # If you have an 80% DoD battery that falsely reports it's kwh then set it to 0.8 to report the real figures # One per inverter battery_scaling: - 0.9 # Can be used to scale import and export data, used for workarounds import_export_scaling: 1.0 # Export triggers: # For each trigger give a name, the minutes of export needed and the energy required in that time # Multiple triggers can be set at once so in total you could use too much energy if all run # Creates an entity called 'binary_sensor.predbat_export_trigger_' which will be turned On when the condition is valid # connect this to your automation to start whatever you want to trigger # #export_triggers: #- name: 'large' # minutes: 60 # energy: 1.0 #- name: 'small' # minutes: 15 # energy: 0.25 # If you have a sensor that gives the energy consumed by your solar diverter then add it here # this will make the predictions more accurate. It should be an incrementing sensor, it can reset at midnight or not # It's assumed to be in Kwh but scaling can be applied if need be #iboost_energy_today: #iboost_energy_scaling: 1.0 # Nordpool market energy rates #futurerate_url: 'https://dataportal-api.nordpoolgroup.com/api/DayAheadPrices?date=DATE&market=N2EX_DayAhead&deliveryArea=UK¤cy=GBP' #futurerate_adjust_import: True #futurerate_adjust_export: False #futurerate_peak_start: "16:00:00" #futurerate_peak_end: "19:00:00" #futurerate_peak_premium_import: 14 #futurerate_peak_premium_export: 6.5 # Watch list, a list of sensors to watch for changes and then update the plan if they change # This is useful for things like the Octopus Intelligent Slot sensor so that the plan update as soon as you plugin in # Only uncomment the items you actually have set up above in apps.yaml, of course you can add your own as well # Note those using +[] are lists that are appended to this list, whereas {} items are single items only #watch_list: # - '{octopus_intelligent_slot}' # - '{octopus_ready_time}' # - '{octopus_charge_limit}' # - '{octopus_saving_session}' # - '+[car_charging_planned]' # - '+[car_charging_soc]' # - '{car_charging_now}'