Commissioning
EL34xx 141Version: 1.5
Assignment of variable output values across all channels
Values (dec),
Entry in PDOs: PMX
Variant Value In Index
1-3 REAL
[0xF700:11, 0xF700:12,
0xF700:13]
Values (dec),
Entry in PDOs: PMX
Variant Value In
Index 4 ULINT
[0xF700:14]
Meaning Unit Description
1032 (= 1024 + 8) - In RMS A Calculated RMS value of the neutral current
1033 (= 1024 + 9)* - In peak A Highest peak value of the instantaneous cur-
rent in the last interval
1035 (= 1024 + 11)* - In RMS Minimum A Smallest effective value of the current in the
last interval
1036 (= 1024 + 12)* - In RMS Maximum A Largest effective value of the current in the last
interval
1041 (= 1024 + 17)* - Frequency Hz Frequency of the PDO value set via CoE (see
reference channel of frequency measurement)
1047 (= 1024 + 23) - Power Factor - Total power factor over all phases
1050 (= 1024 + 26) - Ptot W Total active power
1051 (= 1024 + 27) - Ptotavg W Average total active power during the last inter-
val
1052 (= 1024 + 28) - Ptotmin W Minimum total active power in the last interval
1053 (= 1024 + 29) - Ptotmax W Maximum total active power in the last interval
1056 (= 1024 + 32) - Stot VA Total apparent power
1057 (= 1024 + 33) - Stotavg VA Average total apparent power during the last in-
terval
1058 (= 1024 + 34) - Stotmin VA Minimum total apparent power in the last inter-
val
1059 (= 1024 + 35) - Stotmax VA Maximum total apparent power in the last inter-
val
1062 (= 1024 + 38) - Qtot Var Total reactive power
1063 (= 1024 + 39) - Qtotavg Var Average total reactive power during the last in-
terval
1064 (= 1024 + 40) - Qtotmin Var Minimum total reactive power in the last interval
1065 (= 1024 + 41) - Qtotmax Var Maximum total reactive power in the last inter-
val
- 1069 (= 1024 + 45) Eptot mWh Balanced total active energy
- 1070 (= 1024 + 46) EPtot pos mWh Related total active energy
- 1071 (= 1024 + 47) EPtot neg mWh Input total active energy
- 1072 (= 1024 + 48) Eptot_intervall mWh Balanced total active energy in last interval
- 1073 (= 1024 + 49) EPtot pos_intervall mWh Total active energy related in the last interval
- 1074 (= 1024 + 50) EPtot neg_intervall mWh Input total active energy the last interval
- 1075 (= 1024 + 51) EStot mWh Total apparent energy
- 1076 (= 1024 + 52) EStot pos mWh
- 1077 (= 1024 + 53) EStot neg mWh
- 1078 (= 1024 + 54) EStot_intervall mWh Total apparent energy in the last interval
- 1079 (= 1024 + 55) EStot pos_intervall mWh
- 1080 (= 1024 + 56) EStot neg_intervall mWh
- 1081 (= 1024 + 57) EQtot mWh Total reactive energy
- 1082 (= 1024 + 58) EQtot pos mWh
- 1083 (= 1024 + 59) EQtot neg mWh
- 1084 (= 1024 + 60) EQtot_intervall mWh Total reactive energy in the last interval
- 1085 (= 1024 + 61) EQtot pos_intervall mWh
- 1086 (= 1024 + 62) EQtot neg_intervall mWh
1094 (= 1024 + 70) - PhiL1L2 ° Phase shift angle between phase L1 and L2
1095 (= 1024 + 71) - PhiL1L3 ° Phase shift angle between phase L1 and L3
1096 (= 1024 + 72) - Unbalance - Ratio between negative and positive voltage
system
1104 (= 1024 + 80) - PQF - Power quality factor
1105 (= 1024 + 81) - PQF Avg - Average value of the power quality factor dur-
ing the last interval
1106 (= 1024 + 82) - PQF Min - Minimum power quality factor in the last interval
1107 (= 1024 + 83) - PQF Max - Maximum power quality factor in the last inter-
val
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