ND30-09D 66 User's manual
4427 R 0..65535 Active import energy, two younger bytes 0
4428 R 0..152 Active export energy, two older bytes 0
4429 R 0..65535 Active export energy, two younger bytes 0
4430 R 0..152 Reactive inductive energy, two older bytes 0
4431 R 0..65535 Reactive inductive energy, two younger bytes 0
4432 R 0..152 Reactive capacity energy, two older bytes 0
4433 R 0..65535 Reactive capacity energy, two younger bytes 0
4434 R 0..152 Apparent energy, two older bytes 0
4435 R 0..65535 Apparent energy
, two younger bytes 0
4436 R reserved
4437 R reserved
4438 R 0..2000 Resistance Pt100 x100 (T1) -
4439 R 0..2000 Resistance Pt100 x100 (T2) -
4440 R 0..1000 Files archive usage in
o
/
oo
0
4441 R 0..1000
Group 1 archive internal memory usage
in
o
/
oo
0
4442 R 0..1000
Group 2 archive internal memory usage
in
o
/
oo
0
4443 R 0..1000
Total archive internal memory usage
for the groups 1 and 2 in
o
/
oo
0
4444 R 0..1000
Percentage of the archive copying progress
to files archive for group 1 in
o
/
oo
0
4445 R 0..1000
Percentage of the archive copying progress
to files archive for group 2 in
o
/
oo
0
4446 R 0..1000
Total percentage of the archive copying
progress to files archive for group 1 and 2
in
o
/
oo
0
Energy is made available in hundreds of watt-hours (var-hours) in double 16-bit register,
and for this reason, you should divide them by 100 when calculating values of particular
energy from registers, e.g.:
Active import energy = (reg. value 4426 x 65536 + reg. value 4427) / 100 [kWh]
Active export energy = (reg. value 4428 x 65536 + reg. value 4429) / 100 [kWh]
Reactive inductive energy = (reg. value 4430 x 65536 + reg. value 4431) / 100 [kVarh]
Reactive capacity energy = (reg. value 4432 x 65536 + reg. value 4433) / 100 [kVarh]
Apparent energy = (reg. value 4434 x 65536 + reg. value 4435) / 100 [kVAh]
Status 1 Register of a device (address 4415, R):
Bit 15 – "1” – FRAM memory damage Bit 7 – "1” – phase sequence error
Bit 14 – "1” – no calibration of the input Bit 6 – "1” – reserved
Bit 13 – "1” – no calibration of the output Bit 5 – "1” – reserved
Bit 12 – "1” – PT100 calibration error Bit 4 – "1” – present analog output
Bit 11 – "1” – error in configuration
registers
Bit 3 – "1” – present PT100
Bit 10 – "1” – error in displayed pages
registers
Bit 2 – "1” – present Ethernet and
internal memory
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