Smart Meter Interface Descriptors - stodev-com-br/Tasmota GitHub Wiki
- Hager EHZ363 (SML)
- Hager EHZ161 (OBIS)
- COMBO Meter (Water,Gas,SML)
- WOLF CSZ 11/300 Heater
- SDM530 (MODBUS)
- Janitza B23 (MODBUS)
- Hager EHZ363 (SML) with daily values
>D
>B
=>sensor53 r
>M 1
+1,3,s,0,9600,SML1,77070100010800ff@1000,Total consumption,KWh,Total_in,4
1,77070100020800ff@1000,Total Feed,KWh,Total_out,4
1,77070100100700ff@1,Current consumption,W,Power_curr,0
1,77070100000009ff@#,Meter Nr,,Meter_number,0
#
>D
>B
=>sensor53 r
>M 1
+1,3,o,0,9600,OBIS1,1-0:1.8.1*255(@1,Total consumption,KWh,Total_in,4
1,1-0:2.8.1*255(@1,Total Feed,KWh,Total_out,4
1,=d 2 10 @1,Current consumption,W,Power_curr,0
1,1-0:0.0.0*255(@#),Meter Nr,, Meter_number,0
#
>D
>B
=>sensor53 r
>M 3
+1,1,c,0,10,H20
+2,4,c,0,50,GAS
+3,3,s,0,9600,SML1,1-0:1.8.0*255(@10000,Water reading,cbm,Count,4
2,=h==================
2,1-0:1.8.0*255(@100,Gas reading,cbm,Count,3
3,77070100010800ff@1000,Total consumption,KWh,Total_in,3
3,=h==================
3,77070100100700ff@1,Current consumption,W,Power_curr,2
3,=h -------------------------------
3,=m 10+11+12 @100,Currents L1+L2+L3,A,Curr_summ,2
3,=m 13+14+15/#3 @100,Voltage L1+L2+L3/3,V,Volt_avg,2
3,=h==================
3,77070100240700ff@1,Consumption P1,W,Power_p1,2
3,77070100380700ff@1,Consumption P2,W,Power_p2,2
3,770701004c0700ff@1,Consumption P3,W,Power_p3,2
3,=h -------------------------------
3,770701001f0700ff@100,Current L1,A,Curr_p1,2
3,77070100330700ff@100,Current L2,A,Curr_p2,2
3,77070100470700ff@100,Current L3,A,Curr_p3,2
3,=h -------------------------------
3,77070100200700ff@100,Voltage L1,V,Volt_p1,2
3,77070100340700ff@100,Voltage L2,V,Volt_p2,2
3,77070100480700ff@100,Voltage L3,V,Volt_p3,2
3,=h==================
3,77070100000009ff@#,Service ID,,Meter_id,0
3,=h--------------------------------
#
>D
>B
=>sensor53 r
>M 1
+1,3,e,0,2400,EBUS1,xxxx0503xxxxxxxxxxxxxxxxss@1,Outside temperature,C,Outsidetemp,0
1,xxxx5014xxxxxxxxxxuu@1,Romm temperature,C,Roomtemp,0
1,xxxx0503xxxxxxxxxxxxxxuu@1,Warmwater,C,Warmwater,0
1,xxxx0503xxxxxxxxxxuu@1,Boiler,C,Boiler,0
1,03fe0503xxxxxxxxxxxxuu@1,Returns,C,Returns,0
1,03fe0503xxxxuu@1,Status,,Status,0
1,03fe0503xxxxxxuu@b3:1,Burner on,,Burner,0
1,xxxx5017xxxxxxuuuu@16,Solar collektor,C,Collector,1
1,xxxx5017xxxxxxxxxxuuuu@16,Solar storage,C,Solarstorage,1
1,xxxx5017xxuu@b0:1,Solar pump on,,Solarpump,0
#
>D
>B
=>sensor53 r
>M 1
+1,3,m,0,9600,MODBUS,1,1,01040000,01040002,01040004,01040006,01040008,0104000a,0104000c,0104000e,01040010
1,010404ffffffffxxxx@i0:1,Voltage P1,V,Voltage_P1,2
1,010404ffffffffxxxx@i1:1,Voltage P2,V,Voltage_P2,2
1,010404ffffffffxxxx@i2:1,Voltage P3,V,Voltage_P3,2
1,010404ffffffffxxxx@i3:1,Current P1,A,Current_P1,2
1,010404ffffffffxxxx@i4:1,Current P2,A,Current_P2,2
1,010404ffffffffxxxx@i5:1,Current P3,A,Current_P3,2
1,010404ffffffffxxxx@i6:1,active Power P1,W,Power_P1,2
1,010404ffffffffxxxx@i7:1,active Power P2,W,Power_P2,2
1,010404ffffffffxxxx@i8:1,actibe Power P3,W,Power_P3,2
#
>D
>B
=>sensor53 r
>M 1
+1,3,m,0,9600,Janiza,1,1,01034A38,01034A3A,01034A3C,01034A4C,01034A4E,01034A50,01034A72,01034A7A,01034A82
1,010304ffffffffxxxx@i0:1,Voltage L1-N,V,Voltage_L1-N,2 1,010304ffffffffxxxx@i1:1,Voltage L2-N,V,Voltage_L2-N,2 1,010304ffffffffxxxx@i2:1,Voltage L3-N,V,Voltage_L3-N,2 1,010304ffffffffxxxx@i3:1,Real power L1-N,W,Real_power_L1-N,2 1,010304ffffffffxxxx@i4:1,Real power L2-N,W,Real_power_L2-N,2 1,010304ffffffffxxxx@i5:1,Real power L3-N,W,Real_power_L3-N,2 1,010304ffffffffxxxx@i6:1,Real energy L3,Wh,Real_energy_L3,2 1,010304ffffffffxxxx@i7:1,Real energy L3-consumed,Wh,Real_energy_L3_consumed,2 1,010304ffffffffxxxx@i8:1,Real energy L3-delivered,Wh,Real_energy_L3_delivered,2 2,1-0:1.8.0*255(@100,Zählerstand,cbm,Count,3 #
>D
pin=0
pout=0
pi_d=0
po_d=0
hr=0
; permanent midnight values
p:pi_m=0
p:po_m=0
>B
=>sensor53 r
>T
; get total consumption and total feed
pin=SML#Total_in
pout=SML#Total_out
>S
; on midnight, save meter total values
hr=hours
if chg[hr]>0
and hr==0
then
pi_m=pin
po_m=pout
svars
endif; on teleperiod calculate current daily values from midnight
if upsecs%tper==0
then
pi_d=pin-pi_m
po_d=pout-po_m
endif
; show these values on WEB UI
>W
Tagesverbrauch: {m} %pi_d% kWh
Tageseinspeisung: {m} %po_d% kWh
; transmit these values with MQTT
>J
,"daily_consumption":%pi_d%,"daily_feed":%po_d%
; meter definition
>M 1
+1,3,s,0,9600,SML1,77070100010800ff@1000,Verbrauch,KWh,Total_in,4
1,77070100020800ff@1000,Einspeisung,KWh,Total_out,4
1,77070100100700ff@1,Aktueller Verbrauch,W,Power_curr,0
1,77070100000009ff@#,Zähler Nr,,Meter_number,0
#