-
-
Save mitchese/f3e05aca57848d79240b9b45bdb7d745 to your computer and use it in GitHub Desktop.
registers: | |
- name: L1 Voltage | |
unit_of_measurement: V | |
register: 0 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Voltage | |
unit_of_measurement: V | |
register: 2 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Voltage | |
unit_of_measurement: V | |
register: 4 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Current | |
unit_of_measurement: A | |
register: 6 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Current | |
unit_of_measurement: A | |
register: 8 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Current | |
unit_of_measurement: A | |
register: 10 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Power | |
unit_of_measurement: W | |
register: 12 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Power | |
unit_of_measurement: W | |
register: 14 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Power | |
unit_of_measurement: W | |
register: 16 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 VA | |
unit_of_measurement: VA | |
register: 18 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 VA | |
unit_of_measurement: VA | |
register: 20 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 VA | |
unit_of_measurement: VA | |
register: 22 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 VAr | |
unit_of_measurement: VAr | |
register: 24 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 VAr | |
unit_of_measurement: VAr | |
register: 26 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 VAr | |
unit_of_measurement: VAr | |
register: 28 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 PowerFactor | |
unit_of_measurement: '%' | |
register: 30 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 PowerFactor | |
unit_of_measurement: '%' | |
register: 32 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 PowerFactor | |
unit_of_measurement: '%' | |
register: 34 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Phase Angle | |
unit_of_measurement: ° | |
register: 36 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Phase Angle | |
unit_of_measurement: ° | |
register: 38 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Phase Angle | |
unit_of_measurement: ° | |
register: 40 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Average Volts | |
unit_of_measurement: V | |
register: 42 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Average Current | |
unit_of_measurement: A | |
register: 46 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Sum of Current | |
unit_of_measurement: A | |
register: 48 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total System Power | |
unit_of_measurement: W | |
register: 52 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total System VA | |
unit_of_measurement: VA | |
register: 56 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total System VAr | |
unit_of_measurement: VAr | |
register: 60 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total System Power Factor | |
register: 62 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total System Phase Angle | |
unit_of_measurement: ° | |
register: 66 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Supply Frequency | |
unit_of_measurement: Hz | |
register: 70 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Import Watt Hours | |
unit_of_measurement: kWh | |
register: 72 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Export Watt Hours | |
unit_of_measurement: kWh | |
register: 74 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Import VArh | |
unit_of_measurement: kVArh | |
register: 76 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Export VArh | |
unit_of_measurement: kVArh | |
register: 78 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: VAh since last reset | |
unit_of_measurement: kVAh | |
register: 80 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Ah since last reset | |
unit_of_measurement: Ah | |
register: 82 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total System Power Demand | |
unit_of_measurement: W | |
register: 84 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Maximum total system power demand | |
unit_of_measurement: VA | |
register: 86 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total system VA demand | |
unit_of_measurement: VA | |
register: 100 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Maximum total system VA demand | |
unit_of_measurement: VA | |
register: 102 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Neutral Current Demand | |
unit_of_measurement: A | |
register: 104 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Maximum Neutral Current Demand | |
unit_of_measurement: A | |
register: 106 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1-L2 Voltage | |
unit_of_measurement: V | |
register: 200 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2-L3 Voltage | |
unit_of_measurement: V | |
register: 202 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3-L1 Voltage | |
unit_of_measurement: V | |
register: 204 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Average L-L Voltage | |
unit_of_measurement: V | |
register: 206 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Neutral Current | |
unit_of_measurement: A | |
register: 224 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1-N Volts THD | |
unit_of_measurement: '%' | |
register: 234 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2-N Volts THD | |
unit_of_measurement: '%' | |
register: 236 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3-N Volts THD | |
unit_of_measurement: '%' | |
register: 238 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Current THD | |
unit_of_measurement: '%' | |
register: 240 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Current THD | |
unit_of_measurement: '%' | |
register: 242 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Current THD | |
unit_of_measurement: '%' | |
register: 244 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Average L-N Volts THD | |
unit_of_measurement: '%' | |
register: 248 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Average Line Current THD | |
unit_of_measurement: '%' | |
register: 250 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total System Power Factor | |
unit_of_measurement: ° | |
register: 254 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Current Demand | |
unit_of_measurement: A | |
register: 258 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Current Demand | |
unit_of_measurement: A | |
register: 260 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Current Demand | |
unit_of_measurement: A | |
register: 262 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Max Current demand | |
unit_of_measurement: A | |
register: 264 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Max Current demand | |
unit_of_measurement: A | |
register: 266 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Max Current demand | |
unit_of_measurement: A | |
register: 268 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1-L2 Volts THD | |
unit_of_measurement: '%' | |
register: 334 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2-L3 Volts THD | |
unit_of_measurement: '%' | |
register: 336 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3-L1 Volts THD | |
unit_of_measurement: '%' | |
register: 338 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Average L-N THD | |
unit_of_measurement: '%' | |
register: 340 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total kWh | |
unit_of_measurement: kWh | |
register: 342 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: Total kVArh | |
unit_of_measurement: kVArh | |
register: 344 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Import kWh | |
unit_of_measurement: kWh | |
register: 346 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Import kWh | |
unit_of_measurement: kWh | |
register: 348 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Import kWh | |
unit_of_measurement: kWh | |
register: 350 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Export kWh | |
unit_of_measurement: kWh | |
register: 352 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Export kWh | |
unit_of_measurement: kWh | |
register: 354 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Export kWh | |
unit_of_measurement: kWh | |
register: 356 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Total kWh | |
unit_of_measurement: kWh | |
register: 358 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Total kWh | |
unit_of_measurement: kWh | |
register: 360 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Total kWh | |
unit_of_measurement: kWh | |
register: 362 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Import kVArh | |
unit_of_measurement: kVArh | |
register: 364 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Import kVArh | |
unit_of_measurement: kVArh | |
register: 366 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Import kVArh | |
unit_of_measurement: kVArh | |
register: 368 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Export kVArh | |
unit_of_measurement: kVArh | |
register: 370 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Export kVArh | |
unit_of_measurement: kVArh | |
register: 372 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Export kVArh | |
unit_of_measurement: kVArh | |
register: 374 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L1 Total kVArh | |
unit_of_measurement: kVArh | |
register: 376 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L2 Total kVArh | |
unit_of_measurement: kVArh | |
register: 378 | |
data_type: float | |
precision: 2 | |
count: 2 | |
- name: L3 Total kVArh | |
unit_of_measurement: kVArh | |
register: 380 | |
data_type: float | |
precision: 2 | |
count: 2 |
The Wireless Eastron things seem to be (at least the ones I found), all LoRa. This should abstract all the RS485 stuff away, but I'm not sure, never used these yet.
The RS485 <--> TCP Gateway is physically wired to the power meter via two wires (RS485), and has ethernet coming out of it. From this point, everything is then TCP, so home assistant has nothing physically connected to the power meter; it just makes the calls over the network to the gateway.
I think what you're referring to with a Raspberry Pi via USB is replacing the RS485<-->TCP gateway with an RS485<-->UART, then hooking this to the Raspberry via USB. In this case, then raspberry pi would either have to have home assistant directly on it, or run some sort of software to provide the UART(/RS485/power meter) connection to the internet. This is then going in the direction of a DIY Gateway.
If you have specific products you're looking at, please post the links to help me understand what you're looking at.
Hello, sorry for the stupid question, but could you show me an exact excerpt from your config.yaml regarding the integration of the SDM630 modbus? I've been trying for weeks and get no results. my excerpt:
Modbus
modbus:
name: electricity meter
type: tcp
host: 192.xxx.xxx.xx
port: xxx
I outsourced the sensors using: sensor:! include sensor.yaml.
there it starts with:
- platform: modbus
scan_interval: 20
registers:
Unfortunately, I don't get any sensors displayed. What am I doing wrong? I would be very happy about your help.
ps. am a home assistant beginner
I don't have this meter anymore, but pulling from my git history, I have the configuration still. In the future you can use backticks (`) to surround individual lines, and 3 backticks (```) to surround larger code blocks, then it formats correctly. I can't tell if you have a mistake with the indentation (yaml is very sensitive to this).
Note I have multiple modbus endpoints, so I had to alias these with name: sdm630
in the modbus section, then reference which "hub" the particular register readout hub: sdm630
in each value. You won't have to do this if you only have one, however I recommend you do this for when you get the next modbus thing.
Have you tried a tcpdump to see if homeassistant is sending any requests? Maybe the modbus gateway is wired wrong to the meter or something, such that everything on the homeassistant side is correct, but the modbus side is not. TCPDump should show outgoing requests and responses from the gateway.
configuration.yaml:
sensor: !include_dir_merge_list sensors
modbus:
- type: tcp
host: 192.168.x.x
port: 502
name: sdm630
- type: tcp
host: 192.168.x.x
port: 502
name: stp8
- type: tcp
host: 192.168.x.x
port: 502
name: sb25
sensors/modbus_sdm630.yaml:
- platform: modbus
registers:
- name: L1 Voltage
hub: sdm630
unit_of_measurement: V
register: 0
data_type: float
precision: 2
count: 2
- name: L2 Voltage
hub: sdm630
unit_of_measurement: V
register: 2
data_type: float
precision: 2
count: 2
....etc.....
Hi the meter does not seem to be on amazon anymore, what would you recommend as an alternative, Im in Denmark 230V 3 fase
Hello Sean,
I came here from your site. First of all say thank you.
I just got an Efergy energy monitor system and it's really inaccurate (it shows reactive energy + active energy). After looking for several hours I found your solution like the best option.
I would like to use a RS485 Modbus to wireless made by Eastron, so I think it will work fine.
I am a new on Home Assistant and even newer with the Modbus... My question is: Once I made the TCP connection, how can I connect to the TCP Gateway/SDM630?
I see some people connect the SDM630 to a Raspberry Pi via USB. It would be possible to get data from that Rasperry Pi into Home Assistant?
Thank you again.