Please. You can also use SBFSpot and save yourself a lot of work. If you need anything else just let us know.
Thanks a lot. I didn’t know SBFSpot addon, but looks like iteresting. I made MODBUS configuration in the configuration.yaml few monts ago, and now I want to add DC inputs. The attached document is a great help.
Is it working again for you? I still got some problems.
regards,
Chris
Which problems ?
Please define exactly. At everything works again.
Hi Bimbo009!
Looks great!
Would it be possible that you share the modbus.yaml and template.yaml as code?
I’m about to integrate my SMA inverter and you have some good metrics.
That would save me a lot of manual retyping.
Thx and regards
Webrat
sensors:
- name: "PV_Status"
unique_id: "PV_Status"
state_class: "measurement"
data_type: "int32"
unit_of_measurement: "status"
slave: 3
address: 30201
count: 2
- name: "PV_Gesamtertrag"
unique_id: "PV_Gesamtertrag"
device_class: "energy"
state_class: "total_increasing"
data_type: "int32"
unit_of_measurement: "kWh"
slave: 3
address: 30531
count: 2
- name: "PV_Leistung"
unique_id: "PV_Leistung"
state_class: measurement
device_class: power
data_type: "int32"
unit_of_measurement: "W"
slave: 3
address: 30775
count: 2
- name: "PV_Tagesertrag"
unique_id: "PV_Tagesertrag"
state_class: "total_increasing"
device_class: "energy"
data_type: "int64"
unit_of_measurement: "Wh"
slave: 3
address: 30517
count: 4
- name: "PV_Frequenz"
unique_id: "PV_Frequenz"
state_class: "measurement"
device_class: "frequency"
data_type: "uint32"
unit_of_measurement: "Hz"
slave: 3
address: 30803
count: 2
scale: 0.01
precision: 2
- name: "Power_L1"
unique_id: "Powe_L1"
state_class: "measurement"
device_class: "power"
unit_of_measurement: "W"
slave: 3
address: 30777
count: 2
data_type: "int32"
- name: "Power_L2"
unique_id: "Powe_L2"
state_class: "measurement"
device_class: "power"
unit_of_measurement: "W"
slave: 3
address: 30779
count: 2
data_type: "int32"
- name: "Power_L3"
unique_id: "Powe_L3"
state_class: "measurement"
device_class: "power"
unit_of_measurement: "W"
slave: 3
address: 30781
count: 2
data_type: "int32"
- name: "AMP_L1"
unique_id: "AMP_L1"
state_class: "measurement"
device_class: "current"
unit_of_measurement: "A"
slave: 3
address: 30797
count: 2
scale: 0.001
precision: 2
data_type: "int32"
- name: "AMP_L2"
unique_id: "AMP_L2"
state_class: "measurement"
device_class: "current"
unit_of_measurement: "A"
slave: 3
address: 30799
count: 2
data_type: "int32"
scale: 0.001
precision: 2
- name: "AMP_L3"
unique_id: "AMP_L3"
state_class: "measurement"
device_class: "current"
unit_of_measurement: "A"
slave: 3
address: 30801
count: 2
data_type: "int32"
scale: 0.001
precision: 2
- name: "Volt_L1"
unique_id: "Volt_L1"
state_class: "measurement"
device_class: "voltage"
unit_of_measurement: "V"
slave: 3
address: 30783
count: 2
data_type: "int32"
scale: 0.01
precision: 1
- name: "Volt_L2"
unique_id: "Volt_L2"
device_class: "voltage"
state_class: "measurement"
unit_of_measurement: "V"
slave: 3
address: 30785
count: 2
data_type: "int32"
scale: 0.01
precision: 1
- name: "Volt_L3"
unique_id: "Volt_L3"
device_class: "voltage"
state_class: "measurement"
unit_of_measurement: "V"
slave: 3
address: 30787
count: 2
data_type: "int32"
scale: 0.01
precision: 1
- sensor:
- name: "PV_Leistung_template"
unique_id: "PV_Leistung_template"
device_class: "power"
state_class: "measurement"
unit_of_measurement: "W"
state: >
{% if states('sensor.PV_Leistung') is not none %}
{% if states('sensor.PV_Leistung') | int < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.PV_Leistung') | int }}
{% endif %}
{% else %}
{% endif %}
- name: "pv_status_template"
unique_id: "pv_status_template"
state: >
{% if is_state('sensor.PV_Status', '35') %} Fault
{% elif is_state('sensor.PV_Status', '303') %} Off
{% elif is_state('sensor.PV_Status', '455') %} Warning
{% elif is_state('sensor.PV_Status', '307') %} OK
{% else %} Unknown Code
{% endif %}
- name: "pv_frequenz_template"
unique_id: "pv_frequenz_template"
device_class: "frequency"
state_class: "measurement"
unit_of_measurement: "Hz"
state: >
{% if states('sensor.pv_frequenz') is not none %}
{% if states('sensor.pv_frequenz') | float(default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.pv_frequenz') | float(default=0) }}
{% endif %}
{% endif %}
- name: "Power_L1_template"
unique_id: "Power_L1_template"
device_class: "power"
state_class: "measurement"
unit_of_measurement: "W"
state: >
{% if states('sensor.power_l1') is not none %}
{% if states('sensor.power_l1') | round(2,default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.power_l1') | float(default=0.0) }}
{% endif %}
{% else %}
{% endif %}
- name: "Power_L2_template"
unique_id: "Power_L2_template"
device_class: "power"
state_class: "measurement"
unit_of_measurement: "W"
state: >
{% if states('sensor.power_l2') is not none %}
{% if states('sensor.power_l2') | round(2,default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.power_l2') | float(default=0.0) }}
{% endif %}
{% else %}
{% endif %}
- name: "Power_L3_template"
unique_id: "Power_L3_template"
device_class: "power"
state_class: "measurement"
unit_of_measurement: "W"
state: >
{% if states('sensor.power_l3') is not none %}
{% if states('sensor.power_l3') | round(2,default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.power_l3') | float(default=0.0) }}
{% endif %}
{% else %}
{% endif %}
- name: "Volt_L1_template"
unique_id: "Volt_L1_template"
device_class: "voltage"
state_class: "measurement"
unit_of_measurement: "V"
state: >
{% if states('sensor.volt_l1') is not none %}
{% if states('sensor.volt_l1') | round(2,default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.volt_l1') | float(default=0.0) }}
{% endif %}
{% else %}
{% endif %}
- name: "Volt_L2_template"
unique_id: "Volt_L2_template"
device_class: "voltage"
state_class: "measurement"
unit_of_measurement: "V"
state: >
{% if states('sensor.volt_l2') is not none %}
{% if states('sensor.volt_l2') | round(2,default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.volt_l2') | float(default=0.0) }}
{% endif %}
{% endif %}
- name: "Volt_L3_template"
unique_id: "Volt_L3_template"
device_class: "voltage"
state_class: "measurement"
unit_of_measurement: "V"
state: >
{% if states('sensor.volt_l3') is not none %}
{% if states('sensor.volt_l3') | round(2,default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.volt_l3') | float(default=0.0) }}
{% endif %}
{% endif %}
- name: "AMP_L1_template"
unique_id: "AMP_L1_template"
device_class: "current"
state_class: "measurement"
unit_of_measurement: "A"
state: >
{% if states('sensor.amp_l1') is not none %}
{% if states('sensor.amp_l1') | round(2,default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.amp_l1') | float(default=0.0) }}
{% endif %}
{% endif %}
- name: "AMP_L2_template"
unique_id: "AMP_L2_template"
device_class: "current"
state_class: "measurement"
unit_of_measurement: "A"
state: >
{% if states('sensor.amp_l2') is not none %}
{% if states('sensor.amp_l2') | round(2,default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.amp_l2') | float(default=0.0) }}
{% endif %}
{% endif %}
- name: "AMP_L3_template"
unique_id: "AMP_L3_template"
device_class: "current"
state_class: "measurement"
unit_of_measurement: "A"
state: >
{% if states('sensor.amp_l3') is not none %}
{% if states('sensor.amp_l3') | round(2,default=0) < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.amp_l3') | float(default=0.0) }}
{% endif %}
{% endif %}
- name: "PV_Tagesertrag01_template"
unique_id: "PV_Tagesertrag01_template"
state: >
{% if states('sensor.PV_Tagesertrag') is not none %}
{% if states('sensor.PV_Tagesertrag') | int < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.PV_Tagesertrag') | int }}
{% endif %}
{% endif %}
unit_of_measurement: "Wh"
device_class: "energy"
state_class: "total"
- name: "PV_Leistung01_template"
unique_id: "PV_Leistung01_template"
state: >
{% if states('sensor.PV_Leistung') is not none %}
{% if states('sensor.PV_Leistung') | int < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.PV_Leistung') | int }}
{% endif %}
{% endif %}
unit_of_measurement: "W"
device_class: "power"
- name: "Gesamtertrag_template"
unique_id: "Gesamtertrag_template"
unit_of_measurement: "kWh"
state: >
{% if states('sensor.PV_Gesamtertrag') is not none %}
{% if states('sensor.PV_Gesamtertrag') | int < 0 %}
{{ 0 }}
{% else %}
{{ states('sensor.PV_Gesamtertrag') | int }}
{% endif %}
{% endif %}
device_class: "energy"
state_class: "total"
I was actually responding to @Crash123Crash123, because he has the same unit as I have (SMA Sunnyboy 3600TL-21 , but I tried it with your config now, tomorrow I will check the result.
@Crash123Crash123, Is yours fully working again? (and if so, can you post the config files )
thanks !
Yes, everything works as usual.
The config is already online, see above, except for the beginning with the IP and whatever else is included, but all sensors and template sensors that I use. I wrote the normal sensors so that I can use the conversion that has been available in ha since the last update so that I no longer need them with the Riemann helper and the correct symbols are also displayed immediately.
Yes it is working fine. It is a little bit mixed and not fine tuned, but working
sensor.yaml:
- platform: template
sensors:
modbus_sma_pv_power:
friendly_name: 'SMA_Power Output'
value_template: >-
{% if states('sensor.sma_power_ac')|float < 0 or states('sensor.sma_power_ac')|float > 10000 %}
0
{% else %}
{{ states('sensor.sma_power_ac') }}
{% endif %}
unit_of_measurement: "W"
icon_template: mdi:flash-circle
modbus_sma_pv_power_kw:
friendly_name: 'SMA_Power Output kW'
value_template: >-
{% if states('sensor.sma_power_ac')|float < 0 or states('sensor.sma_power_ac')|float > 10000 %}
0
{% else %}
{{ states('sensor.sma_power_ac')|float / 1000 }}
{% endif %}
unit_of_measurement: "kW"
icon_template: mdi:flash-circle
modbus_sma_pv_apparent_power:
friendly_name: 'SMA_Apparent Power'
value_template: >-
{% if states('sensor.sma_apparent_power')|float < 0 or states('sensor.sma_apparent_power')|float > 10000 %}
0
{% else %}
{{ states('sensor.sma_apparent_power') }}
{% endif %}
unit_of_measurement: "VA"
icon_template: mdi:flash-circle
modbus_sma_pv_reactive_power:
friendly_name: 'SMA_Reactive Power'
value_template: >-
{% if states('sensor.sma_reactive_power')|float < 0 or states('sensor.sma_reactive_power')|float > 10000 %}
0
{% else %}
{{ states('sensor.sma_reactive_power') }}
{% endif %}
unit_of_measurement: "VAr"
icon_template: mdi:flash-circle
modbus_sma_pv_residual:
friendly_name: 'SMA_Residual Current'
value_template: >-
{% if states('sensor.sma_residual_current')|float < 0 or states('sensor.sma_residual_current')|float > 10000 %}
0
{% else %}
{{ states('sensor.sma_residual_current') }}
{% endif %}
unit_of_measurement: "mA"
icon_template: mdi:flash-circle
modbus_sma_temperature:
friendly_name: 'SMA_Inverter Temp'
value_template: >-
{% if states('sensor.sma_temp')|float < 0 or states('sensor.sma_temp')|float > 100 %}
0
{% else %}
{{ states('sensor.sma_temp') }}
{% endif %}
unit_of_measurement: "°C"
modbus_grid_frequency:
friendly_name: 'SMA_Grid Frequency'
value_template: >-
{% if states('sensor.sma_grid_frequency')|float < 30 or states('sensor.sma_grid_frequency')|float > 100 %}
Not Measured
{% else %}
{{ states('sensor.sma_grid_frequency') }}
{% endif %}
unit_of_measurement: "Hz"
modbus_grid_voltage:
friendly_name: 'SMA_Grid Voltage'
value_template: >-
{% if states('sensor.sma_grid_voltage')|float < 180 or states('sensor.sma_grid_voltage')|float > 300 %}
Not Measured
{% else %}
{{ states('sensor.sma_grid_voltage') }}
{% endif %}
unit_of_measurement: "V"
modbus_inverter_status:
friendly_name: 'SMA_Inverter Status'
value_template: >-
{% if is_state('sensor.sma_status', '307' ) %}
OK
{% elif is_state('sensor.sma_status', '303' ) %}
Off
{% elif is_state('sensor.sma_status', '455' ) %}
Warning
{% elif is_state('sensor.sma_status', '35' ) %}
Fault
{% endif %}
modbus_grid_contactor:
friendly_name: 'SMA_Grid contactor'
value_template: >-
{% if is_state('sensor.sma_grid', '51' ) %}
Closed
{% else %}
Open
{% endif %}
configuration.yaml
modbus:
- name: SMA
type: tcp
host: 192.168.188.59
port: 502
sensors:
- name: SMA_Power_AC
state_class: measurement
unit_of_measurement: W
slave: 3
address: 30775
count: 2
data_type: uint32
scan_interval: 10
- name: SMA1_PV_Daily_Yield
unit_of_measurement: kWh
state_class: measurement
slave: 3
address: 30517
scan_interval: 60
scale: 0.001
precision: 3
count: 4
data_type: int64
- name: SMA1_PV_Total_Production
unit_of_measurement: MWh
state_class: measurement
slave: 3
address: 30513
scan_interval: 3600
scale: 0.000001
precision: 3
count: 4
data_type: int64
- name: SMA_Grid Voltage
unit_of_measurement: V
slave: 3
address: 30783
scan_interval: 120
count: 2
scale: 0.01
precision: 2
data_type: int32
- name: SMA_Grid frequency
unit_of_measurement: Hz
slave: 3
address: 30803
scan_interval: 120
count: 2
scale: 0.01
precision: 2
data_type: uint32
- name: SMA_temp
unit_of_measurement: °C
slave: 3
address: 30953
scan_interval: 60
count: 2
scale: 0.1
precision: 1
data_type: int32
- name: SMA_status
slave: 3
address: 30201
scan_interval: 10
count: 2
data_type: int32
- name: SMA_grid
slave: 3
address: 30217
scan_interval: 60
count: 2
data_type: uint32
- name: SMA1_Insulation
slave: 3
address: 30225
scan_interval: 120
count: 2
Then congratulations, it’s not that difficult if you follow the instructions.
However, if you use the right sensor right away, you don’t need to do so many conversions.
- name: "PV_Gesamtertrag"
unique_id: "PV_Gesamtertrag"
device_class: "energy"
state_class: "total_increasing"
data_type: "int32"
unit_of_measurement: "kWh"
slave: 3
address: 30531
count: 2
Got yours and Crash123 config working, but went for the SunSpec intergration, because is was less work. (the modbus solutions still have errors in the log). thanks for sharing the configs
You can also try SBFSpot, works with Lan too.
I have been tweaking a lot to get this right for my SB4000. Just figured out there is also a min_value: 0 option to get rid of the negative numbers without needing the template.
modbus:
- type: tcp
host: 192.168.2.7 # SMA SB4000-TL21
port: 502
name: "sma"
close_comm_on_error: true
delay: 5
timeout: 5
sensors:
- name: PV_Total
unique_id: fa400021001
unit_of_measurement: kWh
slave: 3
address: 30531
input_type: input
count: 2
data_type: int32
min_value: 0
device_class: energy
state_class: total_increasing
- name: PV_DC_Voltage_1
unique_id: fa400021002
unit_of_measurement: V
slave: 3
address: 30771
input_type: input
count: 2
scale: 0.01
precision: 2
data_type: int32
min_value: 0
device_class: voltage
state_class: measurement
- name: PV_DC_Current_1
unique_id: fa400021003
unit_of_measurement: A
slave: 3
address: 30769
input_type: input
count: 2
scale: 0.001
precision: 3
data_type: int32
min_value: 0
device_class: current
state_class: measurement
- name: PV_DC_Voltage_2
unique_id: fa400021004
unit_of_measurement: V
slave: 3
address: 30959
input_type: input
count: 2
scale: 0.01
precision: 2
data_type: int32
min_value: 0
device_class: voltage
state_class: measurement
- name: PV_DC_Current_2
unique_id: fa400021005
unit_of_measurement: A
slave: 3
address: 30957
input_type: input
count: 2
scale: 0.001
precision: 3
data_type: int32
min_value: 0
device_class: current
state_class: measurement
- name: PV_Actual
unique_id: fa400021006
unit_of_measurement: W
slave: 3
address: 30775
input_type: input
count: 2
data_type: int32
min_value: 0
device_class: power
state_class: measurement
- name: PV_Today
unique_id: fa400021007
unit_of_measurement: Wh
slave: 3
address: 30517
count: 4
data_type: int64
min_value: 0
device_class: energy
state_class: total_increasing
Hello,
I used the config @Bimbo009 provided, thank you.
I guess everything is working fine.
Now I wondered if I can get the current power consumption or power send to the grid values from the inverter as well.
I tried register 30865 and 30867 but I only recieve super high and wrong values.
I am using a Sunny Tripower 20000TL-30 and a Sunny Homemanager 2.0
The Sunny Home Manager 2.0 unfortunately doesn’t support modbus properly.
You can still get values (grid export, grid import) from it by decoding its multicast messages in Node-RED. More on this can be found here: Home Manager 2: "Direct Meter communication" (Version 2.4.14.R) - SMA - Anlagenüberwachung - Photovoltaikforum
My old SMA from 2013 did never work with modbus or any other integration then scrape, alas that did stop with the new multi scrape too, i would love to see it running again but I lack the skills, could anyone please?
My code used to be:
Webscrapping for SMA Inverter values
- name: pv_einheit
platform: scrape
resource: "https://www.sunnyportal.com/Templates/PublicPage.aspx?page=my page"
select: "#ctl00_ContentPlaceHolder1_PublicPagePlaceholder1_PageUserControl_ctl00_PublicPageLoadFixPage_energyYieldWidget_energyYieldUnit"
- name: pv_periode
platform: scrape
resource: "https://www.sunnyportal.com/Templates/PublicPage.aspx?page=my page"
select: "#ctl00_ContentPlaceHolder1_PublicPagePlaceholder1_PageUserControl_ctl00_PublicPageLoadFixPage_energyYieldWidget_energyYieldPeriodTitle"
- name: pv_wert
platform: scrape
resource: "https://www.sunnyportal.com/Templates/PublicPage.aspx?page=my page"
select: "#ctl00_ContentPlaceHolder1_PublicPagePlaceholder1_PageUserControl_ctl00_PublicPageLoadFixPage_energyYieldWidget_energyYieldValue"
value_template: '{% if is_state("sensor.pv_einheit", "Wh") %}{{ value | float / 1000 }}{% else %}{{ value | float }}{% endif %}'
unit_of_measurement: 'kW/h'
With our dynamic energy contract and negative energy prices in recent sunny weekends I figured out how to shut down my sunnyboy. Similar automation with writing 4000 to the same register to turn it back on.
Power off:
Power on: (4000W)
Hi Roumen
Did you need to setup the modbus in your configuration.yaml to set the registers as an installer profile? In the modbus list this is write level installer.
If so, how did you do this?
thanks