Scripte für den bitShake SmartMeterReader.
Ist dein Zähler nicht dabei oder funktioniert etwas nicht. Schreib uns einfach: script@bitshake.de
Apator 12EC3 / 12EC3g
>D
scnt=0
res=0
>B
=>sensor53 r
>F
scnt+=1
switch scnt
case 3
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
case 20
res=sml(1 1 "063035300D0A")
case 23
res=sml(1 0 9600)
case 60
scnt=0
ends
>M 1
+1,5,o,0,9600,12EC3,4
1,1.8.0*00(@1,Verbrauch,kWh,E_in,2
1,1.8.1*00(@1), Verbrauch HT,kWh,E_inHT,2
1,1.8.2*00(@1), Verbrauch NT,kWh,E_inNT,2
1,2.8.0*00(@1,Einspeisung,kWh,E_out,2
#
-----------------
Apator APOX+
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,APOX,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
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
#
------------------
Apator Lepus
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,LEPUS,4
1,77070100010800ff@1000,Verbrauch,Kwh,E_in,3
1,77070100020800ff@1000,Einspeisung,Kwh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,power,0
#
-------------
Apator Norax 3D
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,Norax,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,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-L2/U-L2,deg,phase_angle_p2,1
1,7707010051071aff@1,Phaseangle I-L3/U-L3,deg,phase_angle_p3,1
1,770701000e0700ff@1,Frequency,Hz,frequency,0
#
------------------
Apator Picus
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,PICUS,4
1,77070100010800ff@1000,Verbrauch,Kwh,E_in,3
1,77070100020800ff@1000,Einspeisung,Kwh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,power,0
#
------------------
Baylan BM xx
>D
scnt=0
res=0
>B
=>sensor53 r
>F
scnt+=1
switch scnt
case 3
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
case 20
res=sml(1 1 "063035300D0A")
case 23
res=sml(1 0 9600)
case 60
scnt=0
ends
>M 1
+1,5,o,0,9600,baylan,4
1,1.8.0(@1,Verbrauch,kWh,E_in,3
1,2.8.0(@1,Einspeisung,kWh,E_out,3
#
-------------------
Digimeto GS303
(Einstellungen im Zähler: SSt auf dSS bzw. dSS auf ON)
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,GS303,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,7707010060320101@#,Service ID,,Meter_id,0
#
-------------
DZG DWZE12
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,DWZE12,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,77070100600100ff@#,Meter Id,,MeterId,0
#
-----------------
DZG DWS7410
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,DWS7410,4
1,=so2,1
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,7707010060320101@#,SID,,meter_id,0
#
-------------
DZG DWS7412
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,DWS7412,4
;1,=so2,1
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
;1,77070100100700ff@1,akt. Leistung,W,Power,0
1,77070100240700ff@1,akt. Leistung,W,Power,0
1,7707010060320101@#,Service ID,,meter_id,0
#
-------------
DZG DWS7420
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,DWS7420,4
;1,=so2,1
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,7707010060320101@#,SID,,meter_id,0
#
--------------
DZG DWS76
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,DWS7612,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,77070100600100ff@#,Zählernummer,,meter_number,0
#
-------------
DZG DWSB12
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,DWSB12,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,77070100600100ff@#,Zählernummer,,meter_number,0
#
-------------
DZG DWSB20
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,DWSB20,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,77070100600100ff@#,Zählernummer,,meter_number,0
#
-------------
DZG DWSE20
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,DWSE20,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,770701000f0700ff@1,akt. Leistung,W,Power,0
1,77070100000009FF@#,Zählernummer,,meter_number,0
#
-----------------
EasyMeter M60
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,M60,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,77070100240700ff@1,Watt_L1,W,power_L1,0
1,77070100380700ff@1,Watt_L2,W,power_L2,0
1,770701004c0700ff@1,Watt_L3,W,power_L3,0
#
-----------------
EasyMeter Q3A
>D
count=0
>B
->sensor53 r
>BS
spinm(4 1)
spin(4 1)
>S
count +=1
switch count
case 1
spin(4 1)
case 60
spin(4 0)
count=0
ends
>M 1
+1,5,s,0,9600,Q3A
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700ff@1,Leistung_L1,W,Watt_L1,0
1,77070100380700ff@1,Leistung_L2,W,Watt_L2,0
1,770701004c0700ff@1,Leistung_L3,W,Watt_L3,0
1,=h--
1,77070100200700ff@1,Spannung_L1,V,Volt_L1,1
1,77070100340700ff@1,Spannung_L2,V,Volt_L2,1
1,77070100480700ff@1,Spannung_L3,V,Volt_L3,1
#
------------
EasyMeter Q3B
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,Q3B,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100010801ff@1000,Verbrauch HT,kWh,E_inHT,3
1,77070100010802ff@1000,Verbrauch NT,kWh,E_inNT,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100010700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100150700FF@1,Leistung_L1,W,Watt_L1,0
1,77070100290700FF@1,Leistung_L2,W,Watt_L2,0
1,770701003D0700FF@1,Leistung_L3,W,Watt_L3,0
#
---------
EasyMeter Q3C
(nur an der Schnittstelle oben auf dem Zähler)
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,Q3C,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100010801ff@1000,Verbrauch HT,kWh,E_inHT,3
1,77070100010802ff@1000,Verbrauch NT,kWh,E_inNT,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100150700FF@1,Leistung_L1,W,Watt_L1,0
1,77070100290700FF@1,Leistung_L2,W,Watt_L2,0
1,770701003D0700FF@1,Leistung_L3,W,Watt_L3,0
#
---------
EasyMeter Q3D
>D
>B
=>sensor53 r
>M 1
+1,5,o,0,9600,Q3D,4
1,1-0:1.7.0*255(@1,akt. Leistung,W,Power,0
1,1-0:1.8.0*255(@1,Verbrauch,kWh,E_in,3
1,1-0:2.8.0*255(@1,Einspeisung,kWh,E_out,3
1,1-0:21.7.0*255(@1,Leistung_L1,W,Watt_L1,0
1,1-0:41.7.0*255(@1,Leistung_L2,W,Watt_L2,0
1,1-0:61.7.0*255(@1,Leistung_L3,W,Watt_L3,0
1,0-0:96.1.255*255(@#),Seriennummer,,serial,0
#
-----------
EasyMeter Q1A
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,Q1A,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700ff@1,Leistung_L1,W,Watt_L1,0
1,77070100380700ff@1,Leistung_L2,W,Watt_L2,0
1,770701004c0700ff@1,Leistung_L3,W,Watt_L3,0
1,=h--
1,77070100200700ff@1,Spannung_L1,V,Volt_L1,1
1,77070100340700ff@1,Spannung_L2,V,Volt_L2,1
1,77070100480700ff@1,Spannung_L3,V,Volt_L3,1
#
-----------
EasyMeter Q3M
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,Q3M,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700ff@1,Leistung_L1,W,Watt_L1,0
1,77070100380700ff@1,Leistung_L2,W,Watt_L2,0
1,770701004c0700ff@1,Leistung_L3,W,Watt_L3,0
1,=h--
1,77070100200700ff@1,Spannung_L1,V,Volt_L1,1
1,77070100340700ff@1,Spannung_L2,V,Volt_L2,1
1,77070100480700ff@1,Spannung_L3,V,Volt_L3,1
#
---------------
eBZ DD3 *** ODZ1
>D
>B
=>sensor53 r
>M 1
+1,5,o,0,9600,eBZ,4
1,1-0:1.8.0*255(@1,Verbrauch,kWh,E_in,3
1,1-0:2.8.0*255(@1,Einspeisung,kWh,E_out,3
1,1-0:16.7.0*255(@1,akt. Leistung,W,Power,0
1,1-0:36.7.0*255(@1,Leistung L1,W,36_7_0,0
1,1-0:56.7.0*255(@1,Leistung L2,W,56_7_0,0
1,1-0:76.7.0*255(@1,Leistung L3,W,76_7_0,0
1,1-0:32.7.0*255(@1,Spannung L1,V,32_7_0,1
1,1-0:52.7.0*255(@1,Spannung L2,V,52_7_0,1
1,1-0:72.7.0*255(@1,Spannung L3,V,72_7_0,1
1,1-0:96.1.0*255(@#),Identifikation,,96_1_0,0
#
---------------
eBZ DD3 *** SMZ1
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,eBZ,4
1,77070100010800ff@1000,Verb.o.PIN,kWh,E_inoP,3
1,77070100020800ff@1000,Einsp.o.PIN,kWh,E_outoP,3
1,=h--------------
1,77070100010800ff@100000000,Verbrauch,kWh,E_in,3
1,77070100020800ff@100000000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700FF@1,Leistung L1,W,36_7_0,0
1,77070100380700FF@1,Leistung L2,W,56_7_0,0
1,770701004C0700FF@1,Leistung L3,W,76_7_0,0
1,77070100200700FF@1,Spannung L1,V,32_7_0,1
1,77070100340700FF@1,Spannung L2,V,52_7_0,1
1,77070100480700FF@1,Spannung L3,V,72_7_0,1
#
--------------
eBZ MD3
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,eBZ,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700ff@1,Power L1,W,P_L1,0
1,77070100380700ff@1,Power L2,W,P_L2,0
1,770701004C0700ff@1,Power L3,W,P_L3,0
#
--------
EFR SGM-C2/C4/C8
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,SGM,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100010801ff@1000,VerbrauchHT,kWh,E_inHT,3
1,77070100010802ff@1000,Verbrauch NT,kWh,E_inNT,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100020801ff@1000,EinspeisungHT,kWh,E_outHT,3
1,77070100020802ff@1000,EinspeisungNT,kWh,E_outNT,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h—
1,77070100240700FF@1,Leistung L1,W,PL1,0
1,77070100380700FF@1,Leistung L2,W,PL2,0
1,770701004C0700FF@1,Leistung L3,W,PL3,0
1,77070100200700ff@1,Voltage L1,V,Voltage,1
1,77070100340700ff@1,Voltage L2,V,Voltage_L2,1
1,77070100480700ff@1,Voltage L3,V,Voltage_L3,1
1,770701001f0700ff@1,Current L1,A,Current,2
1,77070100330700ff@1,Current L2,A,Current_L2,2
1,77070100470700ff@1,Current L3,A,Current_L3,2
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
1,77070100600100ff@#,Server-ID,,ID,0
#
--------
EFR SGM-D4
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,SGM,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Server-ID,,ID,0
#
--------
EFR SGM-DD
(Einstellungen im Zähler: SSt auf dSS)
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,SGM,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Server-ID,,ID,0
#
-----------
Elster / Honeywell AS1440
>D
scnt=0
res=0
>B
=>sensor53 r
>F
scnt+=1
switch scnt
case 3
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
case 20
res=sml(1 1 "063035300D0A")
case 23
res=sml(1 0 9600)
case 60
scnt=0
ends
>M 1
+1,5,o,0,9600,AS1440,4
1,1.7.0(@0.001,Power In,W,power_in,0
1,1.8.1(@1,Total In,kWh,Total_in,3
1,2.7.0(@0.001,Power Out,W,power_out,0
1,2.8.1(@1,Total Out,kWh,Total_out,3
1,=h--
1,1-1:1.8.1(@1,Total In HT,kWh,E_inHT,3
1,1-1:1.8.2(@1,Total In NT,kWh,E_inNT,3
1,1-1:2.8.1(@1,Total Out HT,kWh,E_outHT,3
1,1-1:2.8.2(@1,Total Out NT,kWh,E_outNT,3
#
--------------
Elster / Honeywell AS2020
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,AS2020,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Server-ID,,Wert,0
#
-----------
Elster / Honeywell AS3500
>D
scnt=0
res=0
>B
=>sensor53 r
>F
scnt+=1
switch scnt
case 3
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
case 20
res=sml(1 1 "063035300D0A")
case 23
res=sml(1 0 9600)
case 60
scnt=0
ends
>M 1
+1,5,o,0,9600,AS3500,4
1,1-1:1.8.0(@1,Verbrauch,kWh,E_in,3
1,1-1:1.7.0(@0.001,akt. Leistung,W,Power,3
1,1-1:21.7.0(@0.001,Leistung L1,W,Power_L1,3
1,1-1:41.7.0(@0.001,Leistung L2,W,Power_L2,3
1,1-1:61.7.0(@0.001,Leistung L3,W,Power_L3,3
1,1-1:0.0.0(@1,SN,1,SN,0
#
----------
Elster T510
>D
res=0
scnt=0
>B
->sensor53 r
>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
+1,5,o,0,9600,T510,4
1,0.0.0(@1,Zählernummer,,Meter_number,0
1,1.8.0(@1,Zählerstand,kWh,Total_in,3
1,21.7.0(@0.001,Leistung Phase 1,W,Power_L1,0
1,41.7.0(@0.001,Leistung Phase 2,W,Power_L2,0
1,61.7.0(@0.001,Leistung Phase 3,W,Power_L3,0
1,=m 4+5+6 @1,Leistung,W,Power_total,0
1,31.7.0(@1,Strom Phase 1,A,Current_L1,2
1,51.7.0(@1,Strom Phase 2,A,Current_L2,2
1,71.7.0(@1,Strom Phase 3,A,Current_L3,2
#
-----------------------
EMH eBZD
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,eBZD,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
#
--------------
EMH ED300L
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,ED300L,4
1,=so1,00010800,63,5,63,5,000f0700
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
#
--------------
EMH ED300S
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,ED300S,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
#
------------
EMH eHZ
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,eHZ,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,770701000f0700ff@1,akt. Leistung2,W,Power2,0
#
-----------
EMH mMe4.0
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,EMH,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
#
--------
EMH LZQJ-XC
>D
res=0
scnt=0
>B
=>sensor53 r
>F
scnt+=1
switch scnt
case 3
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
case 3000
scnt=0
ends
>M 1
+1,5,o,0,300,EMH,4
1,0.0.0(@1,Zähler-Nr.,,0_0_0,0
1,0.0.9(@#),Zähler-ID,,0_0_9,0
1,0.9.1(@1),Uhrzeit,,0_9_1,0
1,0.9.2(@1),Datum,,0_9_1,0
1,1.6.1(@1,MaxBezugT1,kW,1_6_1,3
1,1.6.2(@1,MaxBezugT2,kW,1_6_2,3
1,1.8.0(@1,WirkEnBezug,kWh,1_8_0,3
1,1.8.1(@1,WirkEnBezugNT,kWh,1_8_1,3
1,1.8.2(@1,WirkEnBezugHT,kWh,1_8_2,3
1,2.6.1(@1,MaxEinspT1,kW,2_6_1,3
1,2.6.2(@1,MaxEinspT2,kW,2_6_2,3
1,2.8.0(@1,WirkEnEinsp,kWh,2_8_0,3
1,2.8.1(@1,WirkEnEinspNT,kWh,2_8_1,3
1,2.8.2(@1,WirkEnEinspHT,kWh,2_8_2,3
1,3.8.0(@1,BlindEnBezug,kvarh,3_8_0,3
1,3.8.1(@1,BlindEnBezugT1,kvarh,3_8_1,3
1,3.8.2(@1,BlindEnBezugT2,kvarh,3_8_2,3
1,4.8.0(@1,BlindEnEinsp,kvarh,4_8_0,3
1,4.8.1(@1,BlindEnEinspT1,kvarh,4_8_1,3
1,4.8.2(@1,BlindEnEinspT2,kvarh,4_8_2,3
#
--------------
Engelmann SensoStar E
>D
wkup=1
>B
>S
if ((upsecs==1) or (upsecs%2700==0)) {
print wakeup start
;set serial protocol
sml(-1 1 "2400:8N1")
;send 0x55 for 2,2 seconds with 8N1 (53x), 2400 baud (wakeup sequence)
for wkup 1 53 1
sml(1 1 "55555555555555555555")
next
print wakeup end
wkup=1
print wait for the meter
delay(350)
;switch serial protocol
sml(-1 1 "2400:8E1")
print init MBus (1040004016); scan for device 00
sml(1 1 "1040004016")
delay(350)
print request current data (107BFE7916)
sml(1 1 "107BFE7916")
}
>M 1
+1,5,rE1,0,2400,WAERME,4
1,=so3,32
1,0478u32s@1,Zählernummer,,Zählernummer,0
1,0406u32s@1000,Energie,MWh,Energie,3
1,0413u32s@1000,Volumen,m³,Volumen,3
1,042bu32s@1,Leistung,W,Leistung,0
1,142bu32s@1,Max. Leistung,W,Max. Leistung,0
1,043bu32s@1000,Volumenstrom,m³/h,Volumenstrom,3
1,143bu32s@1000,Max. Volumenstrom,m³/h,Max. Volumenstrom,3
1,025buuUU@1,Vorlauftemperatur,°C,Vorlauftemperatur,0
1,025fuuUU@1,Rücklauftemperatur,°C,Rücklauftemperatur,0
1,0261ssSS@100,Temperaturdifferenz,°C,Temperaturdifferenz,2
1,0223uuUU@1,Betriebsdauer,Tage,Betriebsdauer,0
1,4406u32s@1000,Stichtag Energie,MWh,Letzter Stichtag Energie,3
1,4413u32s@1000,Stichtag Volumen,m³,Letzter Stichtag Volumen,3
#
--------------
Hager EHZ161
>D
>B
->sensor53 r
>M 1
+1,5,o,0,9600,EHZ161,4
1,1-0:0.0.0*255(@#),Meter Number,,meter_number,0
1,1-0:1.8.0*255(@1,Verbrauch,kWh,Pin,4
1,1-0:2.8.0*255(@1,Einspeisung,kWh,Pout,4
1,1-0:32.7.0*255(@1,Volt_L1,V,volt_l1,2
1,1-0:52.7.0*255(@1,Volt_L2,V,volt_l2,2
1,1-0:72.7.0*255(@1,Volt_L3,V,volt_l3,2
1,1-0:31.7.0*255(@1,Ampere_L1,A,curr_L1,2
1,1-0:51.7.0*255(@1,Ampere_L2,A,curr_L2,2
1,1-0:71.7.0*255(@1,Ampere_L3,A,curr_L3,2
1,1-0:21.7.0*255(@1,Watt_L1,W,watt_l1,0
1,1-0:41.7.0*255(@1,Watt_L2,W,watt_l2,0
1,1-0:61.7.0*255(@1,Watt_L3,W,watt_l3,0
#
--------------
Hager EHZ361
>D
>B
->sensor53 r
>M 1
+1,5,o,0,9600,EHZ361,4
1,1-0:0.0.0*255(@#),Meter Number,,meter_number,0
1,1-0:1.8.0*255(@1,Verbrauch,kWh,Pin,4
1,1-0:2.8.0*255(@1,Einspeisung,kWh,Pout,4
1,1-0:2.8.1*255(@1,Einspeisung HT,kWh,PoutHT,4
1,1-0:32.7.0*255(@1,Volt_L1,V,volt_l1,2
1,1-0:52.7.0*255(@1,Volt_L2,V,volt_l2,2
1,1-0:72.7.0*255(@1,Volt_L3,V,volt_l3,2
1,1-0:31.7.0*255(@1,Ampere_L1,A,curr_L1,2
1,1-0:51.7.0*255(@1,Ampere_L2,A,curr_L2,2
1,1-0:71.7.0*255(@1,Ampere_L3,A,curr_L3,2
1,1-0:21.7.0*255(@1,Watt_L1,W,watt_l1,0
1,1-0:41.7.0*255(@1,Watt_L2,W,watt_l2,0
1,1-0:61.7.0*255(@1,Watt_L3,W,watt_l3,0
#
-------
Hager EHZ363
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,EHZ363,4
1,=so1,00010800,65,5,65,5,000f0700
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,770701000f0700ff@1,akt. Leistung2,W,Power2,0
1,=h--
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-L2/U-L2,deg,phase_angle_p2,1
1,7707010051071aff@1,Phaseangle I-L3/U-L3,deg,phase_angle_p3,1
1,770701000e0700ff@1,Frequency,Hz,frequency,0
#
-------
Hausheld HBZ100
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,HBZ,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Zählernummer,,Wert,0
#
-----------
Holley DTZ541
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,DTZ,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
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
1,77070100600100ff@#,Server ID,,server_id,0
#
---------------
Holley EHZ541
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,EHZ,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
;1,=so1,00010800,65,11,65,11,00100700
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Server ID,,server_id,0
#
--------------
Iskra AM550
>D
res=0
scnt=0
>B
=>sensor53 r
>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 80
scnt=0
ends
>M 1
+1,5,o,0,9600,Zähler,4
1,1-0:1.8.0(@1,Bezug,kWh,1-8-0,2
1,1-0:2.8.0(@1,Einspeisung,kWh,2-8-0,2
#
----------------
Iskra MT 171
>D
res=0
scnt=0
>B
=>sensor53 r
>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 80
scnt=0
ends
>M 1
+1,5,o,0,9600,MT171,4
1,1-0:1.8.0*255(@1,Bezug,kWh,1-8-0,2
#
----------------
Iskra MT 174
>D
>B
->sensor53 r
>M 1
+1,5,o,0,300,MT174,4,100,2F3F210D0A
1,1-0:1.8.0*255(@1,Total Consumed,kWh,Total_in,3
1,1-0:2.8.0*255(@1,Total Delivered,kWh,Total_out,3
1,1-0:0.0.0*255(@#),Meter Number,,Meter_number,0
#
-----------
Iskra MT 175
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,MT175,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700ff@1,L1,W,L1,0
1,77070100380700ff@1,L2,W,L2,0
1,770701004C0700ff@1,L3,W,L3,0
1,77070100600100ff@#,Server ID,,server_id,0
#
-----------
Iskra MT 176
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,MT176,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700ff@1,L1,W,L1,0
1,77070100380700ff@1,L2,W,L2,0
1,770701004C0700ff@1,L3,W,L3,0
1,77070100600100ff@#,Server ID,,server_id,0
#
-----------
Iskra MT 382
>D
res=0
scnt=0
>B
=>sensor53 r
>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 80
scnt=0
ends
>M 1
+1,5,o,0,9600,MT382,4
1,1-0:1.8.0(@1,Bezug,kWh,1-8-0,2
1,1-0:2.8.0(@1,Einspeisung,kWh,2-8-0,2
1,1-0:1.7.0(@0.001,akt. Leistung,W,Power,3
#
------------------
Iskra MT 631
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,MT631,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h—
1,77070100600100ff@#,Server ID,,server_id,0
#
--------------
Iskra MT 681
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,MT681,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
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
1,77070100600100ff@#,Server ID,,server_id,0
#
--------------
Iskra MT 691
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,MT691,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Server ID,,server_id,0
#
-------------------
Itron ACE3000 Typ260
>D
>B
=>sensor53 r
>M 1
+1,5,o,0,300,ACE3000,4,150,2F3F210D0A
1,1.8.0(@1,Total_in,KWh,Total_inZ1,2
1,2.8.0(@1,Total_out,KWh,Total_exZ1,2
#
-------------------
Itron ACE6000 DC4xx
>D
res=0
scnt=0
>B
=>sensor53 r
>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 80
scnt=0
ends
>M 1
+1,5,o,0,9600,ACE6000,4
1,1-0:1.8.0(@1,Bezug,kWh,1-8-0,2
1,1-0:1.8.1(@1,Bezug HT,kWh,1-8-1,2
1,1-0:2.8.0(@1,Einspeisung,kWh,2-8-0,2
#
-------------------
Itron eHZ / 3.HZ
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,Itron,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Zählernummer,,Wert,0
#
-------------------
Itron HZ1
>D
>B
=>sensor53 r
>M 1
+1,5,o,0,9600,HZ1,4
1,1-0:1.7.0*255(@1,akt. Leistung,W,Power,0
1,1-0:1.8.0*255(@1,Verbrauch,kWh,E_in,3
1,1-0:2.8.0*255(@1,Einspeisung,kWh,E_out,3
1,=h--
1,1-0:21.7.0*255(@1,Leistung_L1,W,Watt_L1,0
1,1-0:41.7.0*255(@1,Leistung_L2,W,Watt_L2,0
1,1-0:61.7.0*255(@1,Leistung_L3,W,Watt_L3,0
1,1-0:32.7.0*255(@1,Spannung L1,V,voltage_l1,1
1,1-0:52.7.0*255(@1,Spannung L2,V,voltage_l2,1
1,1-0:72.7.0*255(@1,Spannung L3,V,voltage_l3,1
1,1-0:31.7.0*255(@1,Strom L1,A, amperage_l1,1
1,1-0:51.7.0*255(@1,Strom L2,A, amperage_l2,1
1,1-0:71.7.0*255(@1,Strom L3,A, amperage_l3,1
#
---------
KAIFA MB310
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,KAIFA,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Server-ID,,Meter_Number,0
#
---------------
Kamstrup Multical 4xx / 6xx / 8xx
>D
>B
=>sensor53 r
>M 1
;Abfrage nur 1mal pro Stunde, um Batterie im Zähler nicht leer zu machen.
;Zum Test kann der Wert 36000 angepasst werden auf z.B. 100 (Abfrage 1x pro 10 Sekunde)
+1,5,kN2,0,1200,KSMC403,4,36000,3F1007003C005600570059004A0044007B
1,3F10003Ckstr@i0:1000,Wärmemenge,MWh,HeatEnergyE1,3
1,3F10x08xx0056kstr@i0:100,Vorlauftemp.,°C,PreTemp,2
1,3F10x15xx0057kstr@i0:100,Rücklauftemp.,°C,AftTemp,2
1,3F10x22xx0059kstr@i0:100,Temp.diff.,°C,DifTemp,2
1,3F10x29xx004Akstr@i0:1,Fließgeschw.,l/h,Flow,0
1,3F10x36xx0044kstr@i0:100,Volumenstrom,m³,Volume,2
1,3F10x45xx007Bkstr@#,max. Fluss am,,MaxFlowDate,0
#
---------------
Kamstrup Multical 21
>D
>B
=>sensor53 r
>M 1
;Abfrage nur 1mal pro Stunde, um Batterie im Zähler nicht leer zu machen.
;Zum Test kann der Wert 36000 angepasst werden auf z.B. 100 (Abfrage 1x pro 10 Sekunde)
+1,5,kN2,0,1200,KSMC21,4, 36000,3F10020044004A
1,3F100044kstr@i0:1000,Zählerstand,m³,Zählerstand,19
1,3F10x8xx004Akstr@i0:1,Fließgeschw.,l/h,Flow,0
#
---------------
Kamstrup 382
>D
>B
=>sensor53 r
>M 1
+1,5,o,0,300,Kamstruk,4,50,2F3F210D0A
1,1.8.0(@1,Total In,kWh,Total_in,3
#
---------------
Landis + Gyr E220
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,E220,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Server-ID,,Meter_Number,0
#
---------------
Landis + Gyr E230
>D
scnt=0
res=0
>B
->sensor53 r
>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
+1,5,o,0,9600,E230,4
1,1.8.0(@1,Total Consumed,kWh,Total_in,3
1,2.8.0(@1,Total Delivered,kWh,Total_out,3
1,16.7.0(@1,Current power,kW,Power_in,2
1,C.1.0(@1,Server-ID,,Meter_number,0
#
------------
Landis + Gyr E320
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,E320,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100600100ff@#,Server-ID,,Meter_Number,0
#
-------------------
Landis + Gyr E350
>D
scnt=0
res=0
>B
->sensor53 r
>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
+1,5,o,0,9600,E350,4
1,1.8.0(@1,Total Consumed,kWh,Total_in,3
1,2.8.0(@1,Total Delivered,kWh,Total_out,3
1,16.7(@1,Current power,kW,Power_in,2
1,C.1.0(@1,Server-ID,,Meter_number,0
#
-------------------
Landis + Gyr E650
>D
res=0
scnt=0
>F
scnt+=1
switch scnt
case 6
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
case 18
res=sml(1 1 "063034300D0A")
res=sml(1 0 4800)
case 200
scnt=0
ends
>M 1
+1,5,o,0,4800,E650,4
1,1-1:1.8.0(@1,Verbrauch,kWh,1-8-0,3
1,1-1:1.8.1(@1,Verbrauch NT,kWh,1-8-1,3
1,1-1:1.8.2(@1,Verbrauch HT,kWh,1-8-2,3
1,1-1:2.8.0@1,Einspeisung,kWh,2-8-0,3
1,1-1:2.8.1(@1,Einspeisung HT,kWh,2-8-1,3
1,1-1:2.8.2(@1,Einspeisung NT,kWh,2-8-2,3
1,1-1:1.5.0(@1,power_IN,kW,1-5-0,3
1,1-1:2.5.0(@1,power_OUT,kW,2-5-0,3
1,1-1:21.5.0(@1,power_L1,kW,21-5-0,3
1,1-1:41.5.0(@1,power_L2,kW,41-5-0,3
1,1-1:61.5.0(@1,power_L3,kW,61-5-0,3
1,1-1:32.7.0(@1,voltage_L1,V,32-7-0,2
1,1-1:52.7.0(@1,voltage_L2,V,52-7-0,2
1,1-1:72.7.0(@1,voltage_L3,V,72-7-0,2
1,1-1:31.7.0(@1,current_L1,A,31-7-0,3
1,1-1:51.7.0(@1,current_L2,A,51-7-0,3
1,1-1:71.7.0(@1,current_L1,A,71-7-0,3
1,1-1:91.7.0(@1,current_N,A,91-7-0,3
#
---------------
Landis + Gyr ZMB120
>D
scnt=0
res=0
>B
=>sensor53 r
>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
+1,5,o,0,9600,ZMB120,4
1,1.8.0(@1,HT+NT Zählerstand,kWh,Total_in,3
1,1.8.1(@1,HT,kWh,HT_Total_in,3
1,1.8.2(@1,NT,kWh,NT_Total_in,3
1,=h===================
1,36.7.0(@1,Power_L1,kW,kW_L1,2
1,56.7.0(@1,Power_L2,kW,kW_L2,2
1,76.7.0(@1,Power_L3,kW,kW_L3,2
1,16.7.0(@1,Σ_L1+L2+L3,kW,kW_L1+L2+L3,2
1,=h===================
1,31.7.0(@1,Strom_L1,A,I_L1,2
1,51.7.0(@1,Strom_L2,A,I_L2,2
1,71.7.0(@1,Strom_L3,A,I_L3,2
1,=h===================
1,0.0.1(@1,Zählernummer,,Meter_number,0
1,0.9.1(@#),Zeitstempel,Uhr,time-stamp,0
#
---------------
Landis + Gyr ZMD120
>D
scnt=0
res=0
>B
=>sensor53 r
>F
scnt+=1
switch scnt
case 6
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
case 18
res=sml(1 1 "063034300D0A")
case 20
res=sml(1 0 4800)
case 50
scnt=0
ends
>M 1
+1,5,o,0,4800,ZMD120,4
1,1.8.1(@1,Verbrauch HT,kWh,EinHT,3
1,1.8.2(@1,Verbrauch NT,kWh,EinNT,3
1,=h===================
1,2.8.1(@1,Einspeisung HT,kWh,EoutHZ,3
1,2.8.2(@1,Einspeisung NT,kWh,EoutNT,3
#
------------
Landis+Gyr T550
>D
scnt=0
res=0
>B
->sensor53 r
>F
scnt=scnt+1
switch scnt
;start after 1.6 seconds (16 x 100ms)
case 16
;set transfer speed to 300 baud
res=sml(1 0 300)
;trigger meter by sending 40 times 'NUL'
res=sml(1 1 "0000000000000000000000000000000000000000")
res=sml(1 1 "0000000000000000000000000000000000000000")
;followed by '/?! CR LF'
res=sml(1 1 "2F3F210D0A")
case 24
res=sml(1 1 "063033300D0A")
;set transfer speed to 2400 baud
res=sml(1 0 2400)
;restart sequence after 10 minutes (6000 x 100 ms)
case 6000
scnt=0
ends
>M 1
+1,5,o,0,2400,T550,4
1,=so2,0
1,6.8(@1,Zählerstand,MWh,mwh_count,3
1,6.6(@1,Max. Heizleistung,kWh,kwh_max_heatperf,1
1,6.26(@1,Durchlauf,m³,m3_throughput,2
1,6.33(@1,Max. Durchlauf per h,m³h,m3h_max_throughput,3
1,9.4(@1,Max. Temp. V-/R-Lauf,°C,c_max_temp_fb,1
#
-------------
Latronic L20 / L30
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,L20,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
#
-------------
Logarex LK13BD
>D
res=0
scnt=0
>B
=>sensor53 r
>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 200
scnt=0
ends
>M 1
+1,5,o,0,9600,LK13BD,4
1,1.8.0(@1,Zaehlerstand,KWh,Total_in,3
#
-------------
Logarex LK13BE803xxx
>D
>B
=>sensor53 r
>M 1
+1,5,o,0,9600,LK13BE,4
1,1-0:1.8.0*255(@1,Gesamtverbrauch,kWh,total,3
1,1-0:1.8.0*96(@1,Verbrauch 1 Tag,kWh,total_1d,3
1,1-0:1.8.0*97(@1,Verbrauch 7 Tage,kWh,total_7d,3
1,1-0:1.8.0*98(@1,Verbrauch 30 Tage,kWh,total_30d,3
1,1-0:1.8.0*99(@1,Verbrauch 365 Tage,kWh,total_365d,3
1,1-0:16.7.0*255(@1,Verbrauch aktuell,W,current,0
1,1-0:2.8.0*255(@1,Gesamteinspeisung,kWh,total_out,3
1,1-0:32.7.0*255(@1,Spannung L1,V,voltage_l1,1
1,1-0:52.7.0*255(@1,Spannung L2,V,voltage_l2,1
1,1-0:72.7.0*255(@1,Spannung L3,V,voltage_l3,1
1,1-0:31.7.0*255(@1,Strom L1,A, amperage_l1,1
1,1-0:51.7.0*255(@1,Strom L2,A, amperage_l2,1
1,1-0:71.7.0*255(@1,Strom L3,A, amperage_l3,1
1,1-0:81.7.1*255(@1,UL2 zu UL1,deg,angle_ul2_ul1,0
1,1-0:81.7.2*255(@1,UL3 zu UL1,deg,angle_ul3_ul1,0
1,1-0:81.7.4*255(@1,IL1 zu UL1,deg,angle_il1_ul1,0
1,1-0:81.7.15*255(@1,IL2 zu UL2,deg,angle_il2_ul2,0
1,1-0:81.7.26*255(@1,IL3 zu UL3,deg,angle_il2_ul3,0
1,1-0:14.7.0*255(@1,Frequenz,Hz,frequency,1
#
---------------
Logarex LK13BE
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,LK13BE,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700ff@1,Power L1,W,Power_L1_curr,0
1,77070100380700ff@1,Power L2,W,Power_L2_curr,0
1,770701004C0700ff@1,Power L3,W,Power_L3_curr,0
1,77070100200700ff@1,Voltage L1,V,Volt_L1_curr,1
1,77070100340700ff@1,Voltage L2,V,Volt_L2_curr,1
1,77070100480700ff@1,Voltage L3,V,Volt_L3_curr,1
1,770701001f0700ff@1,Amperage L1,A,curr_L1,2
1,77070100330700ff@1,Amperage L2,A,curr_L1,2
1,77070100470700ff@1,Amperage L3,A,curr_L1,2
1,770701000e0700ff@1,Frequency,Hz,HZ,2
1,77070100510704ff@1,Phaseangle I-L1/U-L1,deg,phase_angle_p1,1
1,7707010051070fff@1,Phaseangle I-L2/I-L2,deg,phase_angle_p2,1
1,7707010051071aff@1,Phaseangle I-L3/I-L3,deg,phase_angle_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
#
-------------
Logarex LK13BO
>D
res=0
scnt=0
>B
=>sensor53 r
>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 200
scnt=0
ends
>M 1
+1,5,o,0,9600,LK13BO,4
1,1.8.0(@1,Verbrauch,KWh,Total_in,3
1,1.8.1(@1,Verbrauch HT,KWh,Total_inHT,3
1,1.8.2(@1,Verbrauch NT,KWh,Total_inNT,3
#
--------------
Metcom MCS301
>D
scnt=0
res=0
>B
=>sensor53 r
>F
scnt+=1
switch scnt
case 3
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
case 20
res=sml(1 1 "063035300D0A")
case 23
res=sml(1 0 9600)
case 200
scnt=0
ends
>M 1
+1,5,o,0,9600,Metcom,4
1,1.7.0(@1,Power In,W,power_in,0
1,2.7.0(@1,Power Out,W,power_out,0
1,1.8.0(@1,Total In,kWh,Total_in,3
1,2.8.1(@1,Total Out,kWh,Total_out,3
#
---------------
PAFAL 20EC3gr
>D
>B
->sensor53 r
>M 1
+1,5,o,0,300,PAFAL,4,30,2F3F210D0A,063030300D0A
1,1.8.0*00(@1),Gesamtverbrauch,kWh,E_in,2
1,1.8.1*00(@1),Gesamtverbrauch_HT,kWh,E_in-HT,2
1,1.8.2*00(@1),Gesamtverbrauch_NT,kWh,E_in-NT,2
1,2.8.0*00(@1),Einspeisung,kWh,Total_OUT,2
#
-------------
Siemens TD-3511
>D
res=0
scnt=0
>F
scnt+=1
switch scnt
case 6
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
res=sml(1 1 "063036300D0A")
res=sml(1 0 19200)
case 50
scnt=0
Ends
>B
->sensor53 r
>M 1
+1,5,o,0,19200,Siemens,4
1,1.8.0(@1,Verbrauch,kWh,E_in,3
1,2.8.0(@1,Einspeisung,kWh,E_out,3
1,1.7.0(@1,Wirkleistung_P+,kW,Pp,3
1,2.7.0(@1,Wirkleistung_P-,kW,Pm,3
1,3.7.0(@1,Blindleistung_Q+,kvar,Q+,3
1,4.7.0(@1,Blindleistung_Q-,kvar,Q-,3
1,32.7(@1,Spannung_L1,V,V_L1,2
1,52.7(@1,Spannung_L2,V,V_L2,2
1,72.7(@1,Spannung_L3,V,V_L3,2
1,31.7(@1,Strom_L1,A,I_L1,2
1,51.7(@1,Strom_L2,A,I_L2,2
1,71.7(@1,Strom_L3,A,I_L3,2
1,91.7(@1,Strom_N,A,I_N,2
1,14.7(@1,Frequenz,Hz,HZ,2
1,0.0.0(@#),Meter Number,,Meter_number,0
#
-------------
Sagemcom Smarty BZ-Plus
(Einstellungen im Zähler: SSt auf dSS)
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,Smarty,4
1,77070100010800ff@1000,Verbrauch,Kwh,E_in,3
1,77070100020800ff@1000,Einspeisung,Kwh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,power,0
1,77070100100700FF@1,aktuelle Wirkleistung,W,aktuelle_wirkleistung,0
1,770701001F0700FF@1,Strom L1,A,strom_l1,2
1,77070100200700FF@1,Spannung L1,V,spannung_l1,1
1,77070100240700FF@1,Wirkleistung L1,W,wirkleistung_l1,0
1,77070100330700FF@1,Strom L2,A,strom_l2,2
1,77070100340700FF@1,Spannung L2,V,spannung_l2,1
1,77070100380700FF@1,Wirkleistung L2,W,wirkleistung_l2,0
1,77070100470700FF@1,Strom L3,A,strom_l3,2
1,77070100480700FF@1,Spannung L3,V,spannung_l3,1
1,770701004C0700FF@1,Wirkleistung L3,W,wirkleistung_l3,0
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
1,77070100600100ff@#,Server-ID,,ID,0
#
---------
ZPA GH302
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,SML,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700ff@1,Consumption P1,W,Power_p1,0
1,77070100380700ff@1,Consumption P2,W,Power_p2,0
1,770701004c0700ff@1,Consumption P3,W,Power_p3,0
1,770701001f0700ff@1,Current L1,A,Curr_p1,2
1,77070100330700ff@1,Current L2,A,Curr_p2,2
1,77070100470700ff@1,Current L3,A,Curr_p3,2
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
1,77070100510701ff@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
#
---------
ZPA GH305
>D
>B
->sensor53 r
>M 1
+1,5,s,0,9600,SML,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,=h--
1,77070100240700ff@1,Consumption P1,W,Power_p1,0
1,77070100380700ff@1,Consumption P2,W,Power_p2,0
1,770701004c0700ff@1,Consumption P3,W,Power_p3,0
1,770701001f0700ff@1,Current L1,A,Curr_p1,2
1,77070100330700ff@1,Current L2,A,Curr_p2,2
1,77070100470700ff@1,Current L3,A,Curr_p3,2
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
1,77070100510701ff@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
#
-------------------
ZPA GS303
(Einstellungen im Zähler: SSt auf dSS bzw. dSS auf ON)
>D
>B
=>sensor53 r
>M 1
+1,5,s,0,9600,GS303,4
1,77070100010800ff@1000,Verbrauch,kWh,E_in,3
1,77070100020800ff@1000,Einspeisung,kWh,E_out,3
1,77070100100700ff@1,akt. Leistung,W,Power,0
1,7707010060320101@#,Service ID,,Meter_id,0
#
-------------------
ZPA ZE311
>D
scnt=0
res=0
>B
=>sensor53 r
>F
scnt+=1
switch scnt
case 3
res=sml(1 0 300)
res=sml(1 1 "2F3F210D0A")
case 20
res=sml(1 1 "063035300D0A")
case 23
res=sml(1 0 9600)
case 200
scnt=0
ends
>M 1
+1,5,o,0,9600,ZPA311,4
1,1.8.0(@1,Total In,kWh,Total_in,3
1,2.8.0(@1,Total Out,kWh,Total_out,3
#
Impressum:
bitShake GmbH
Anger 14
08132 Mülsen
script@bitshake.de