Digimeto GS303 (SML)
>D >B =>sensor53 r >M 1 +1,3,s,0,9600,strom_data 1,77070100010800ff@1000,Zählerstand,kWh,Total_in,3 1,77070100020800ff@1000,Einspeisung,kWh,Total_out,3 1,77070100100700ff@1,Grundverbrauch,W,Power,3 1,7707010060320101@#,Service ID,,Meter_id,0 #
EasyMeter Q3A / Apator APOX+ (SML)
>D >B =>sensor53 r >M 1 +1,3,s,0,9600,strom_data 1,77070100010801ff@1000,Tagestarif,kWh,Total_in_day,3 1,77070100010802ff@1000,Nachtartif,kWh,Total_in_night,3 1,77070100010800ff@1000,Zählerstand,kWh,Total_in,3 1,77070100020800ff@1000,Einspeisung,kWh,Total_out,3 1,=h-- 1,77070100240700ff@1,Leistung L1,W,Power_L1,3 1,77070100380700ff@1,Leistung L2,W,Power_L2,3 1,770701004c0700ff@1,Leistung L3,W,Power_L3,3 1,77070100100700ff@1,Grundverbrauch,W,Power,3 1,=h-- 1,77070100200700ff@1,Spannung L1,V,Volt_L1,3 1,77070100340700ff@1,Spannung L2,V,Volt_L2,3 1,77070100480700ff@1,Spannung L3,V,Volt_L3,3 #
<Apator Norax 3D/3D+ (SML)
>D >B ->sensor53 r >M 1 +1,3,s,1,9600,SML 1,77070100010800ff@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 1,77070100200700ff@1,Voltage L1,V,Volt_p1,1 1,77070100340700ff@1,Voltage L2,V,Volt_p2,1 1,77070100480700ff@1,Voltage L3,V,Volt_p3,1 1,770701001f0700ff@1,Amperage L1,A,Amperage_p1,1 1,77070100330700ff@1,Amperage L2,A,Amperage_p2,1 1,77070100470700ff@1,Amperage L3,A,Amperage_p3,1 1,77070100240700ff@1,Current consumption L1,W,Power_curr_p1,0 1,77070100380700ff@1,Current consumption L2,W,Power_curr_p2,0 1,770701004c0700ff@1,Current consumption L3,W,Power_curr_p3,0 1,770701000e0700ff@1,Frequency,Hz,frequency,0 #
EFR SGM-C2/C4/D4 (SML)
>D >B ->sensor53 r >M 1 +1,3,s,16,9600,strom_data 1,77070100010800ff@1000,Zählerstand,kWh,Total_in,3 1,77070100010801ff@1000,Tagestarif,kWh,Total_in_day,3 1,77070100010802ff@1000,Nachttarif,kWh,Total_in_night,3 1,77070100020800ff@1000,Einspeisung,kWh,Total_out,3 1,77070100100700ff@1,Grundverbrauch,W,Power,3 1,77070100200700ff@1,Spannung L1,V,Volt_L1,3 1,77070100340700ff@1,Spannung L2,V,Volt_L2,3 1,77070100480700ff@1,Spannung L3,V,Volt_L3,3 1,770701001f0700ff@1,Leistung L1,A,Power_L1,3 1,77070100330700ff@1,Leistung L2,A,Power_L2,3 1,77070100470700ff@1,Leistung L3,A,Power_L3,3 1,770701000e0700ff@1,Frequency,Hz,Freq,1 #
<DZG DWZE (SML)
>D >B =>sensor53 r >M 1 +1,3,s,16,9600,DWZE12 1,77070100010800ff@1000,Total Energy In,kWh,TotalIn,3 1,77070100020800ff@1000,Total Energy Out,kWh,TotalOut,3 1,77070100100700ff@1,Current Power,W,CurrPower,3 1,77070100600100ff@#,Meter Id,,MeterId,0 #
<DZG DWS
>D >B =>sensor53 r >M 1 +1,3,s,16,9600,DWS7410 1,77070100010800ff@1000,Energie,kWh,energy,4 1,77070100020800ff@1000,Lieferung,kWh,en_out,4 1,77070100100700ff@1,Leistung,W,power,2 1,7707010060320101@#,SID,,meter_id,0 #
<eBZ DD3/MD3 (SML)
>D >B =>sensor53 r >M 1 +1,3,s,0,9600,Smartmeter 1,77070100010800ff@100000000,Total consumption,kWh,Total_in,3 1,77070100020800ff@100000000,Total generation,kWh,Total_out,3 1,77070100100700ff@1,Power L1+L2+L3,W,P_L1_L2_L3,18 1,77070100240700ff@1,Power L1,W,P_L1,18 1,77070100380700ff@1,Power L2,W,P_L2,18 1,770701004C0700ff@1,Power L3,W,P_L3,18 #
<EasyMeter Q1A (SML)
>D >B =>sensor53 r >M 1 +1,3,s,16,9600,SML 1,77070100010800ff@1000,Zaehlerstand,kWh,Counter,6 1,77070100100700ff@1,Verbrauch,W,Power,1 #
<EMH eBZD (SML)
>D >B ->sensor53 r >M 1 +1,3,s,0,9600,Main 1,77070100100700ff@1,Power,W,power,0 1,77070100010800ff@1000,Total Consumed,kWh,counter_pos,3 1,77070100020800ff@1000,Total Feed,kWh,counter_neg,3 #
<EMH ED300L (SML)
>D >B ->sensor53 r >M 2 +1,13,s,0,9600,Haus +2,12,s,0,9600,Heizung 1,770701000F0700FF@1,Aktuell,W,Power_curr,0 1,77070100010800FF@1000,Zählerstand Verb.,kWh,Tariflos,2 1,77070100020800FF@1000,Zählerstand Einsp.,kWh,Tariflos,2 2,=h================== 2,770701000F0700FF@1,Aktuell,W,Power_curr,0 2,77070100010800FF@1000,Zählerstand Verb.,kWh,Tariflos,2 2,77070100020800FF@1000,Zählerstand Einsp.,kWh,Tariflos,2 #
<EMH ED300S (SML)
>D >B ->sensor53 r >M 1 +1,3,s,0,9600,Main 1,77070100100700ff@1,Power,W,power,0 1,77070100010800FF@1000,Counter,kWh,counter,3 #
<EMH eHZ Generation K (SML)
>D >B =>sensor53 r >M 1 +1,3,s,0,9600, 1,77070100010800ff@1000,Total consumption,kWh,total_in,2 1,77070100020800ff@1000,Total feed-in,kWh,total_out,2 1,77070100100700ff@1,Power,W,power_curr,0 #
<EMH eHZM (SML)
>D >B ->sensor53 r >M 1 +1,3,s,0,9600, 1,77070100600100FF@#,Zaehlernummer,,serialnr,16 1,77070100010800FF@1000,Pos Wirkenergie tariflos,kWh,pos_wirk_tariflos,1 1,77070100010801FF@1000,Pos Wirkenergie Tarif 1,kWh,pos_wirk_tarif_1,1 1,77070100010802FF@1000,Pos Wirkenergie Tarif 2,kWh,pos_wirk_tarif_2,1 1,77070100020800FF@1000,Neg Wirkenergie tariflos,kWh,neg_wirk_tariflos,1 1,77070100020801FF@1000,Neg Wirkenergie Tarif 1,kWh,neg_wirk_tarif_1,1 1,77070100020802FF@1000,Neg Wirkenergie Tarif 2,kWh,neg_wirk_tarif_2,1 1,77070100100700FF@1,Momentanwirkleistung,W,momentanwirkleistung,0 #
<EMH mMe4.0 (SML)
>D >B ->sensor53 r >M 1 +1,3,s,0,9600,Main,1,10 1,77070100010800FF@1000,Total Consumed,kWh,counter_pos,3 1,77070100020800FF@1000,Total Feed,kWh,counter_neg,3 1,77070100100700FF@1,Power,W,power,0 #
<Hager EHZ363 (SML)
>D >B ->sensor53 r >M 1 +1,3,s,0,9600,SML 1,77070100010800ff@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 1,77070100200700ff@1,Voltage L1,V,Volt_p1,1 1,77070100340700ff@1,Voltage L2,V,Volt_p2,1 1,77070100480700ff@1,Voltage L3,V,Volt_p3,1 1,770701001f0700ff@1,Amperage L1,A,Amperage_p1,1 1,77070100330700ff@1,Amperage L2,A,Amperage_p2,1 1,77070100470700ff@1,Amperage L3,A,Amperage_p3,1 1,77070100510704ff@1,Phaseangle I-L1/U-L1,deg,phase_angle_p1,1 1,7707010051070fff@1,Phaseangle I-L27I-L2,deg,phase_angle_p2,1 1,7707010051071aff@1,Phaseangle I-L3/I-L3,deg,phase_angle_p3,1 1,770701000e0700ff@1,Frequency,Hz,frequency,0 #
<Holley DTZ541 (SML)
>D >B ->sensor53 r >M 1 +1,3,s,16,9600,SML 1,77070100600100ff@#,Server ID,,server_id,0 1,77070100020800ff@1000,Export (Total),kWh,export_total_kwh,4 1,77070100010802ff@1000,Night (Total),kWh,total_night_kwh,4 1,77070100010801ff@1000,Day (Total),kwH,total_day_kwh,4 1,77070100100700ff@1,Consumption (Current),W,curr_w,0 1,77070100200700ff@1,Voltage L1,V,volt_p1,1 1,77070100340700ff@1,Voltage L2,V,volt_p2,1 1,77070100480700ff@1,Voltage L3,V,volt_p3,1 1,770701001f0700ff@1,Amperage L1,A,amp_p1,1 1,77070100330700ff@1,Amperage L2,A,amp_p2,1 1,77070100470700ff@1,Amperage L3,A,amp_p3,1 1,77070100510701ff@1,Phase angle U-L2/U-L1,deg,phase_angle_l2_l1,1 1,77070100510702ff@1,Phase angle U-L3/U-L1,deg,phase_angle_l3_l1,1 1,77070100510704ff@1,Phase angle I-L1/U-L1,deg,phase_angle_p1,1 1,7707010051070fff@1,Phase angle I-L2/U-L2,deg,phase_angle_p2,1 1,7707010051071aff@1,Phase angle I-L3/U-L3,deg,phase_angle_p3,1 1,770701000e0700ff@1,Frequency,Hz,freq,0 #
<Iskra MT 174 (OBIS)
>D >B ->sensor53 r >M 1 +1,3,o,0,300,STROM,1,100,2F3F210D0A 1,1-0:1.8.1*255(@1,Total Consumed,kWh,Total_in,3 1,1-0:2.8.1*255(@1,Total Delivered,kWh,Total_out,3 1,1-0:0.0.0*255(@#),Meter Number,,Meter_number,0 #
<Iskra MT 175 (SML)
>D >B ->sensor53 r >M 1 +1,3,s,16,9600,MT175 1,77070100010800ff@1000,E_in,kWh,E_in,1 1,77070100020800ff@1000,E_out,kWh,E_out,1 1,77070100100700ff@1,P,W,P,18 1,77070100240700ff@1,L1,W,L1,18 1,77070100380700ff@1,L2,W,L2,18 1,770701004C0700ff@1,L3,W,L3,18 1,77070100000009ff@#,Server_ID,,Server_ID,0 #
<Iskra MT 631 (SML)
>D >B =>sensor53 r >M 1 +1,3,s,0,9600,MT631 1,77070100010800ff@1000,Total Consumed,kWh,Total_in,2 1,77070100020800ff@1000,Total Delivered,kWh,Total_out,2 1,77070100100700ff@1,Current Consumption,W,Power_cur,0 #
<Iskra MT 681 (SML)
>D >B =>sensor53 r >M 1 +1,3,s,0,9600,MT681 1,77070100010800ff@1000,Total Consumed,kWh,Total_in,3 1,77070100100700ff@1,Current Consumption,W,Power_cur,0 1,77070100240700ff@1,Current Consumption P1,W,Power_p1,0 1,77070100380700ff@1,Current Consumption P2,W,Power_p2,0 1,770701004c0700ff@1,Current Consumption P3,W,Power_p3,0 1,77070100020800ff@1000,Total Delivered,kWh,Total_out,3 1,77070100000009ff@#,Service ID,,Meter_id,0 #
<Landis + Gyr E220 (SML)
>D >B =>sensor53 r ;Set teleperiod to 20sec tper=10 >M 1 +1,3,s,0,9600,Power 1,77070100600100ff@#,Server-ID,,Meter_Number,0 1,77070100010800ff@1000,Verbrauch,kWh,Total_in,4 1,77070100100700ff@1,Leistung-akt.,W,Power_curr,0 #
<Landis + Gyr E320 (SML)
>D >B =>sensor53 r >M 1 +1,3,s,20,9600,E320 1,77070100020800ff@1000,Total Delivered,kWh,Total_out,3 1,77070100010800ff@1000,Total Consumed,kWh,Total_in,3 1,77070100100700ff@1,Current power,W,Power_in,3 1,77070100600100ff@#,Server-ID,,Meter_Number,0 #
<Landis + Gyr E350 (OBIS)
>D scnt=0 res=0 >B ->sensor53 r tper=20 >F scnt+=1 switch scnt case 6 res=sml(1 0 300) res=sml(1 1 "2F3F210D0A") case 18 res=sml(1 1 "063035300D0A") case 20 res=sml(1 0 9600) case 50 scnt=0 ends >M 1 +1,3,o,0,9600,,1 ;1,C.1.0(@1,Server-ID,,Meter_number,0 1,=h=================== 1,1.8.0(@1,Total Consumed,kWh,Total_in,3 ;1,1.8.1(@1,Primary Consumed,kWh,P_Total_in,3 ;1,1.8.2(@1,Secondary Consumed,kWh,S_Total_in,3 1,=h=================== 1,16.7(@1,Current power,kW,Power_in,2 #
<Landis + Gyr ZMB120 T213CS (OBIS)
>D >B =>sensor53 r >M 1 +1,3,o,0,300,STROM,1,10,2F3F210D0A,063030300D0A 1,0(@1,Zählernummer,,Meter_number,0 1,=h=================== 1,8.0(@1,Total T1 & T2,kWh,Total,2 1,8.1(@1,T1 aktuell,kWh,Total_T1,2 1,8.2(@1,T2 aktuell,kWh,Total_T2,2 1,=h=================== 1,8.1.1(@1,T1 letzte Saison,kWh,Total_T1-1,2 1,8.2.1(@1,T2 letzte Saison,kWh,Total_T2-1,2 1,8.1.2(@1,T1 vorletzte Saison,kWh,Total_T1-2,2 1,8.2.2(@1,T2 vorletzte Saison,kWh,Total_T2-2,2 #
<Logarex LK13BE (OBIS)
>D >B =>sensor53 r >M 1 +1,3,o,0,9600,LK13BE,13,30,2F3F210D0A,063035310D0A 1,1-0:1.8.0*255(@1,Gesamtverbrauch,kWh,total,4 1,1-0:1.8.0*96(@1,Verbrauch 1 Tag,kWh,total_1d,4 1,1-0:1.8.0*97(@1,Verbrauch 7 Tage,kWh,total_7d,4 1,1-0:1.8.0*98(@1,Verbrauch 30 Tage,kWh,total_30d,4 1,1-0:1.8.0*99(@1,Verbrauch 365 Tage,kWh,total_365d,4 1,1-0:16.7.0*255(@1,Verbrauch aktuell,W,power,20 #
<ZPA GH302 (SML)
>D >B =>sensor53 r >M 1 +1,3,s,0,9600,Strom 1,77070100010800ff@1000,Bezug,kWh,Total_in,0 1,77070100020800ff@1000,Einspeisung,kWh,Total_out,0 #
<ZPA GH305 (SML)
>D >B ->sensor53 r >M 1 +1,3,s,0,9600,SML 1,77070100010800ff@1000,Total Verbrauch,kWh,Total_in,3 1,77070100020800ff@1000,Total Einspeisung,kWh,Total_out,3 1,=h================== 1,77070100100700ff@1,Actual load,W,Power_curr,0 1,=h================== 1,=m 9+10+11 @1,Currents L1+L2+L3,A,Curr_summ,3 1,=m 12+13+14/#3 @1,Voltage L1+L2+L3/3,V,Volt_avg,3 1,=h================== 1,77070100240700ff@1,Consumption P1,W,Power_p1,2 1,77070100380700ff@1,Consumption P2,W,Power_p2,2 1,770701004c0700ff@1,Consumption P3,W,Power_p3,2 1,=h ---- 1,770701001f0700ff@1,Current L1,A,Curr_p1,3 1,77070100330700ff@1,Current L2,A,Curr_p2,3 1,77070100470700ff@1,Current L3,A,Curr_p3,3 1,=h ---- 1,77070100200700ff@1,Voltage L1,V,Volt_p1,3 1,77070100340700ff@1,Voltage L2,V,Volt_p2,3 1,77070100480700ff@1,Voltage L3,V,Volt_p3,3 1,=h================== 1,77070100510701ff@1,Phaseangle L2-L1,deg,phase_angle_L2_L1,0 1,77070100510702ff@1,Phaseangle L3-L1,deg,phase_angle_L3_L1,0 1,77070100510704ff@1,Phaseangle I/U L1,deg,phase_angle_L1,1 1,7707010051070fff@1,Phaseangle I/U L2,deg,phase_angle_L2,1 1,7707010051071aff@1,Phaseangle I/U L3,deg,phase_angle_L3,1 1,770701000e0700ff@1,Frequency,Hz,Freq,1 ;1,=h=======UNBEKANNT=========== ;1,77070100000009FF@#,unbekannt1,,Power_Use_Sum,3 ;1,77070100000000FF@#,unbekannt2,,Power_Use_Sum,3 ;1,7707010060320101@#,unbekannt3,,Meter_id,0 ;1,77010b0a01445a47@#,unbekannt4,,Meter_id,0 ;1,77070100600100ff@#,unbekannt5,,Meter_id,0 1,=h #