Subject to modifi cation without notice. Edition 11-02-2011.
Holding Registers
Address
n° Register
T
ype
Description
V
alue
100 2 I
Primary VT
from 1 to 400000 V
102 1 I
Secondary VT
from 1 to 999 V
103 1 I
Primary CT
(Not used if version 70A)
from 1 to 10000 A
104 1 I
Secondary CT
(Current full scale if version
70A)
1 or 5 A
(14 or 70 if version 70A with external CT. In this version,
registers 103 and 104 point to the same parameter.)
105 1 B Insertion mode
Bit 7 = Enables Export
Bit 0-3 = Insertion modality:
0x00 // 0 = 1P, 0x01 // 1 = 2P
0x02 // 2 = 3P_4W, 0x03 // 3 = 3P_3W_2CT
106 1 I
Integration Time for Power
from 1 to 60 min
107 1 I
Integration Time for Current
from 1 to 60 min
109 1 B Life Timer 2 (partial)
Bit 0-1 = Command input selection (0-4, 0=disables external
command)
Bit 4 = Command from alarm channel (0=command from
digital input, 1=command from alarm)
Bit 7 = inverts command polarity (0= counts if command is
active, 1=counts if command is not active)
110 1 B Energy Counters set 1 (totals)
Bit 0-1 = Command input selection
Bit 4 = Command from alarm channel
Bit 7 = inverts command polarity
111 1 B Energy Counters set 2
(partials)
Bit 0-1 = Command input selection
Bit 4 = Command from alarm channel
Bit 7 = inverts command polarity
128 1 I
Total counters set symbol
2 ASCII characters from 0x30 to 0x39 and from 0x41 to
0x5A
129 1 I
Partial counters set symbol
2 ASCII characters from 0x30 to 0x39 and from 0x41 to
0x5A
135 1 I
Pulse output 1 measure
selection
Bit 0-2 = Power index (0=Pimp, 1=QindImp, 2=QcapImp,
3=Simp, 4=Pexp, 5=QindExp, 6=QcapExp, 7=Sexp
Bit 7 = Value to secondary CT/VT
e.g.: 0x00, 0x01, 0x02...=primary; 0x80, 0x81, 0x82…
=secondary
136 1 I
Pulse length output 1
from 50 to 1000 ms
137 2 I
Pulse weight output 1
in Wh/100, from 1 to 100000000
139 1 I
Pulse output 2 measure
selection
Bit 0-2 = Power Index
Bit 7 = Secondary
140 1 I
Pulse length output 2
from 50 to 1000 ms
141 2 I
Pulse weight output 2
in Wh/100, from 1 to 100000000
155 1 B Confi guration DO1
Bit 0-1 = Mode (0=modbus command, 1=alarm, 2=pulses)
Bit 7 = Normally closed
156 1 B Confi guration DO 1
Bit 0-1 = Mode (0=modbus command, 1=alarm, 2=pulses)
Bit 7 = Normally closed
159 1 I
Measure selection alarm 1
IR address to which connect the alarm. From 200 to 390
160 1 I
Alarm 1 Mode
Bit 0-3 = Alarm Mode
0 = Normal
1 = 1/3 (takes the measure from the next two addr. from
the one programmed)
2 = 3/3 (takes the measure from the next two addr. from
the one programmed)
3 = Imbalance (takes the measure from the next two addr.
from the one programmed)
4 = Variation (delta) compared to the average value in
fl oating window.
Bit 4 = Direction (polarity):
0 = Min (negative if derived)
1 = Max (positive if derived)
Bit 8-11 = Pilotage mode output
0 = Normal
1 = Short pulse (100mS) - No effect on IR/HR (as mode 0)
2 = Long pulse (500mS) - No effect on IR/HR (as mode 0)
3 = Hold
Bit 12-14 = Output logic selection
Bit 12 = Output port operator
0 out = A or B
1 out = A and B
Bit 13 = Operator port A (0=OR, 1=AND)
Bit 14 = Operator port B (0=OR, 1=AND)
161 1 I
Logic combination alarm 1
Bit 0-3 = Alarm channels input port A
Bit 4-7 = Digital inputs - input port A
Bit 8-11 = Alarm channels input port B
Bit 12-15 = Digital inputs - input port B
162 1 I
Integration time alarm 1
If Mode=Variation: Amplitude of the integration interval for
average calculation (from 1 to 99 sec)
163 1 I
Alarm 1 hysteresis
0-99 %
164 1 I
Alarm 1 delay
0-99 s (bit 0-7=activation delay, bit 8-15=disactivation
delay?)
165 2 F Alarm 1 threshold
In percentage if Mode=Imbalance or Mode=Variation.
Is automatically rounded to the number of digits editable
keyboard.
167 1 I
Measure selection alarm 2
168 1 I
Mode alarm 2
169 1 I
Logic combination alarm 2
170 1 I
Integration time alarm 2
171 1 I
Alarm 2 hysteresis
172 1 I
Alarm 2 delay
173 2 F Alarm 2 threshold
215 1 I
Serial transmission delay
da 10 a 1000 ms
216 1 B Serial port: swap fl ags
Top Byte always equal to Bottom Byte.
0x01 Swap bytes
0x02 Swap word
0x04 Swap dwords
0x08 Swap words in fl oats
0x10 Swap bytes in fl oats
0x80 BCD Mode (not yet!)
217 1 I
Serial port: comm. speed
0=2400, 1=4800, 2=9600, 3=19200, 4=38400
221 1 B Output command
Bit 0 = Output 1, Bit 1 = Output 2
Bit 2 = Output 3, Bit 3 = Output 4
223 1 B Combined Alarm Status
Bit 0 = Channel 1, Bit 1 = Channel 2
Bit 2 = Channel 3, Bit 3 = Channel 4
226 1 I
Instrument Reset
The writting of the word “0xDEAD” causes the reboot
INPUT REGISTERS
Address
n° Registri
T
ype *
Description
Symbol
Unit
220 2 F Phase to Neutral Voltage, RMS Amplitude
U1N
[V]
232 2 F Phase Current, RMS Amplitude
I1
[A]
240 2 F Phase Active Power (+/-)
P1
[W]
284 2 F Internal Temperature, °C
T
[°C]
286 2 F Internal Temperature, °F
T
[°F]
288 2 F Phase to Neutral Voltage, RMS Amplitude, MIN
U1N MIN
[A]
294 2 F Phase to Neutral Voltage, RMS Amplitude, MAX
U1N MAX
[A]
312 2 F Phase Current, RMS Amplitude, MAX
I1 MAX
[A]
320 2 F Phase Active Power, Import, MAX
P1+ MAX
[A]
326 2 F Phase Active Power, Export, MAX
P1- MAX
[A]
332 2 F Phase Current, RMS Amplitude, AVG
I1 AVG
[A]
338 2 F Phase Current, RMS Amplitude, MD
I1 MD
[A]
344 2 F Total imported active power, AVG
P+ AVG
[W]
352 2 F Total exported active power, AVG
P- AVG
[W]
360 2 F Total imported active power, MD
P+ MD
[W]
368 2 F Total exported active power, MD
P- MD
[W]
376 2 F External Pulse Counter, With Weight, Total counter or Tariff T1
CNT1 S
384 2 F External Pulse Counter, With Weight, Partial Counter or Tariff T2
CNT1 P
392 2 I
External Pulse Counter, Total counter or Tariff T1
CNT1 S
[-]
400 2 I
Lifetimer, Total counter
TIME S
[s]
402 2 I
External Pulse Counter, Partial Counter or Tariff T2
CNT1 P
[-]
410 2 I
Lifetimer, Partial Counter or Conditional Counter
TIME P
[s]
428 2 I
Total imported active energy, Partial Counter or Tariff T2
Ea P +
[kWh/10]
436 2 I
Total exported active energy, Partial Counter or Tariff T2
Ea P -
[kWh/10]
492 1 B Digital Inputs Status
DI
[-]
494 1 B Alarms Status (simple)
ALS
[-]
495 1 B Alarms Status (combined)
ALC
[-]
528 4 I
Total imported active energy, Partial Counter or Tariff T2
Ea P +
[Wh/10]
544 4 I
Total exported active energy, Partial Counter or Tariff T2
Ea P -
[Wh/10]
230 1 B Reset counters set 1 (totals)
Bit 0 = Ea, Bit 1 = Er ind, Bit 2 = Er cap, Bit 3 = Es (imp)
Bit 4 = Ea, Bit 5 = Er ind, Bit 6 = Er cap, Bit 7 = Es (exp)
231 1 B Reset counters set 2 (partials)
Bit 0 = Ea, Bit 1 = Er ind, Bit 2 = Er cap, Bit 3 = Es (imp)
Bit 4 = Ea, Bit 5 = Er ind, Bit 6 = Er cap, Bit 7 = Es (exp)
232 1 B Reset counters phase 1
Bit 0 = Ea, Bit 1 = Er ind, Bit 2 = Er cap, Bit 3 = Es (imp)
Bit 4 = Ea, Bit 5 = Er ind, Bit 6 = Er cap, Bit 7 = Es (exp)
233 1 B Reset counters phase 2
Bit 0 = Ea, Bit 1 = Er ind, Bit 2 = Er cap, Bit 3 = Es (imp)
Bit 4 = Ea, Bit 5 = Er ind, Bit 6 = Er cap, Bit 7 = Es (exp)
234 1 B Reset counters phase 3
Bit 0 = Ea, Bit 1 = Er ind, Bit 2 = Er cap, Bit 3 = Es (imp)
Bit 4 = Ea, Bit 5 = Er ind, Bit 6 = Er cap, Bit 7 = Es (exp)
235 1 B Reset AVG powers
Bit 0 = P, Bit 1 = Q ind, Bit 2 = Q cap, Bit 3 = S (imp)
Bit 4 = P, Bit 5 = Q ind, Bit 6 = Q cap, Bit 7 = S (exp)
236 1 B Reset MD powers
Bit 0 = P, Bit 1 = Q ind, Bit 2 = Q cap, Bit 3 = S (imp)
Bit 4 = P, Bit 5 = Q ind, Bit 6 = Q cap, Bit 7 = S (exp)
237 1 B Reset AVG currents
Bit 0 = I1, Bit 1 = I2, Bit 2 = I3
238 1 B Reset MD currents
Bit 0 = I1, Bit 1 = I2, Bit 2 = I3
239 1 B Reset min/max Us
Bit 0 = max U1, Bit 1 = max U2, Bit 2 = max U3, Bit 3 = x
Bit 4 = min U1, Bit 5 = min U2, Bit 6 = min U3
240 1 B Reset min/max Ud
Bit 0 = max U1, Bit 1 = max U2, Bit 2 = max U3, Bit 3 = x
Bit 4 = min U1, Bit 5 = min U2, Bit 6 = min U3
241 1 B Reset min/max I
Bit 0 = max I1, Bit 1 = max I2, Bit 2 = max I3, Bit 3 = max In
242 1 B Reset min/max Pimp
Bit 0 = max P1, Bit 1 = max P2, Bit 2 = max P3
243 1 B Reset min/max Pexp
Bit 0 = max P1, Bit 1 = max P2, Bit 2 = max P3
*
F
Float IEEE754
I
Integer
B
Bitmapped
