412576780000/00/02-2018
Commissioning
Probus prole number 10
Byte index Value type Value format Scaling
1 1 Effective power L1 Float 1
2 5 Effective power L2 Float 1
3 9 Effective power L3 Float 1
4 13 Effective power sum L1..L3 Float 1
5 17 Effective current L1 Float 1
6 21 Effective current L2 Float 1
7 25 Effective current L3 Float 1
8 29 Effective current L4 Float 1
9 33 Effective current sum L1..L3 Float 1
10 37 Effective energy sum L1..L3 Float 1
11 41 Cos phi (math.) L1 Float 1
12 45 Cos phi (math.) L2 Float 1
13 49 Cos phi (math.) L3 Float 1
14 53 Cos phi (math.) sum L1..L3 Float 1
15 57
Reactive power fundamental oscilla-
tion harmonic L1
Float 1
16 61
Reactive power fundamental oscilla-
tion harmonic L2
Float 1
17 65
Reactive power fundamental oscilla-
tion harmonic L3
Float 1
18 69
Reactive power fundamental oscilla-
tion harmonic sum L1..L3
Float 1
19 73 Apparent power L1 Float 1
20 77 Apparent power L2 Float 1
21 81 Apparent power L3 Float 1
22 85 Apparent power sum L1..L3 Float 1
Probus prole number 11
Byte index Value type Value format Scaling
1 1 Effective voltage L1 Float 1
2 5 Effective voltage L2 Float 1
3 9 Effective voltage L3 Float 1
4 13 Effective current L1 Float 1
5 17 Effective current L2 Float 1
6 21 Effective current L3 Float 1
7 25 Effective current L4 Float 1
8 29 Effective power L1 Float 1
9 33 Effective power L2 Float 1
10 37 Effective power L3 Float 1
11 41 Effective power sum L1..L3 Float 1
12 45 Counter status digital input 1
Integer (4 Byte)
1
13 49 Counter status digital input 2
Integer (4 Byte)
1
14 53 Counter status digital input 3
Integer (4 Byte)
1
15 57 Counter status digital input 4
Integer (4 Byte)
1
16 61 Status digital output 1
Integer (2 Byte)
1
17 63 Status digital output 2
Integer (2 Byte)
1
18 65 Status digital output 3
Integer (2 Byte)
1
19 67 Status digital output 4
Integer (2 Byte)
1
20 69 Status digital output 5
Integer (2 Byte)
1
21 71 Status digital output 6
Integer (2 Byte)
1
Measured values in integer format do not respect the
transformer ratio. Measured values in oating point
format contain the transformer ratio:
value in the Energy Meter 610-PB display =
transformer ratio x value PLC x solution
Factory pre-congured proles
Probus prole number 8
Byte index Value type Value format Scaling
1 1 Effective voltage L1 Float 1
2 5 Effective voltage L2 Float 1
3 9 Effective voltage L3 Float 1
4 13 Effective voltage L1-L2 Float 1
5 17 Effective voltage L2-L3 Float 1
6 21 Effective voltage L3-L1 Float 1
7 25 Effective current L1 Float 1
8 29 Effective current L2 Float 1
9 33 Effective current L3 Float 1
10 37 Effective current L4 Float 1
11 41 Effective current sum L1..L3 Float 1
12 45 Effective power L1 Float 1
13 49 Effective power L2 Float 1
14 53 Effective power L3 Float 1
15 57 Cos phi (math.) L1 Float 1
16 61 Cos phi (math.) L2 Float 1
17 65 Cos phi (math.) L3 Float 1
18 69 Frequency Float 1
19 73 Effective power sum L1..L3 Float 1
20 77
Reactive power fundamental oscilla-
tion harmonic sum L1..L3
Float 1
21 81 THD voltage L1 Float 1
22 85 THD voltage L2 Float 1
23 89 THD voltage L3 Float 1
24 93 THD current L1 Float 1
25 97 THD current L2 Float 1
26 101 THD current L3 Float 1
27 105 THD current L4 Float 1
Probus prole number 9
Byte index Value type Value format Scaling
1 1 Effective energy sum L1..L3 Float 1
2 5 Effective energy sum L1..L3 drawn Float 1
3 9
Effective energy sum L1..L3
delivered
Float 1
4 13 Reactive energy sum L1..L3 Float 1
5 17 Ind. reactive energy sum L1..L3 Float 1
6 21 Cap. reactive energy sum L1..L3 Float 1
7 25 Apparent energy sum L1..L3 Float 1
8 29 Effective energy L1 Float 1
9 33 Effective energy L2 Float 1
10 37 Effective energy L3 Float 1
11 41 Inductive reactive energy L1 Float 1
12 45 Inductive reactive energy L2 Float 1
13 49 Inductive reactive energy L3 Float 1
The conguration/programming is implemented via the
ecoExplorer go software. A connection between the
Energy Meter 610-PB and the PC via an interface is
required for the use of the ecoExplorer go software.
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