Electrex ATTO D4 Инструкции по установке - Страница 3

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156 1 B Confi gurazione DO 2
159 1 I
Selezione grandezza allarme 1 Indirizzo del IR cui collegare l'allarme. Da 200 a 390 (o 490)
160 1 I
Modo allarme 1
161 1 I
Combinazione logica allarme 1 Bit 0-3 = Canali allarme ingresso porta A
162 1 I
Tempo integrazione allarme 1
163 1 I
Isteresi allarme 1
164 1 I
Ritardo allarme 1
165 2 F Soglia allarme 1
167 1 I
Selezione grandezza allarme 2
168 1 I
Modo allarme 2
169 1 I
Combinazione logica allarme 2
170 1 I
Tempo integrazione allarme 2
171 1 I
Isteresi allarme 2
172 1 I
Ritardo allarme 2
173 2 F Soglia allarme 2
215 1 I
Ritardo di trasmissione seriale da 10 a 1000 ms
216 1 B Porta seriale: fl ags di swap
217 1 I
Porta seriale: velocità
221 1 B Comando uscite
223 1 B Combined Alarm Status
226 1 I
Reset strumento
230 1 B Reset contatori set 1 (totali)
231 1 B Reset contatori set 2 (parziali) Bit 0 = Ea, Bit 1 = Er ind, Bit 2 = Er cap, Bit 3 = Es (imp)
232 1 B Reset contatori fase 1
233 1 B Reset contatori fase 2
234 1 B Reset contatori fase 3
235 1 B Azzeramento AVG potenze
236 1 B Azzeramento MD Potenze
237 1 B Azzeramento AVG correnti
238 1 B Azzeramento MD Correnti
239 1 B Azzeramento min/max Us
240 1 B Azzeramento min/max Ud
241 1 B Azzeramento min/max I
242 1 B Azzeramento min/max Pimp
243 1 B Azzeramento min/max Pexp
*
F
Float IEEE754
I
Integer
B
Bitmapped
Bit 0-1 = Modo (0=comando modbus, 1=allarme, 2=impulsi)
Bit 7 = Normalmente chiuso
Bit 0-3 = Modalità allarme
0 = Normale
1 = 1/3 (prende le misure ai due addr successivi a quello
programmato)
2 = 3/3 (prende le misure ai due addr successivi a quello
programmato)
3 = Sbilanciamento (prende le misure ai due addr
successivi a quello programmato)
4 = Variazione (delta) rispetto a valore medio su fi nestra
mobile
Bit 4 = Direzione (polarità):
0 = Min (neg se derivata)
1 = Max (pos se derivata)
Bit 8-11 = Modalità pilotaggio uscita
0 = Normale
1 = Impulso short (100mS) - Non ha eff etto su IR/HR
(come modo 0)
2 = Impulso long (500mS) - Non ha eff etto su IR/HR (come
modo 0)
3 = Hold
Bit 12-14 = Selezione della logica d'uscita
Bit 12 = Operatore porta uscita
0 out = A or B
1 out = A and B
Bit 13 = Operatore porta A (0=OR, 1=AND)
Bit 14 = Operatore porta B (0=OR, 1=AND)
Bit 4-7 = Ingressi digitali ingresso porta A
Bit 8-11 = Canali allarme ingresso porta B
Bit 12-15 = Ingressi digitali ingresso porta B
Se Modo=Variazione: Ampiezza intervallo di integrazione
per il calcolo della media (da 1 a 99 sec)
0-99 %
0-99 s (bit 0-7=ritardo attivazione, bit 8-15=ritardo
disattivazione?)
In percentuale se Modo=Sbilanciamento o
Modo=Variazione.
Viene automaticamente arrotondato al numero di cifre
editabili da tastiera.
Byte alto sempre uguale a byte basso.
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!)
0=2400, 1=4800, 2=9600, 3=19200, 4=38400
Bit 0 = Uscita 1, Bit 1 = Uscita 2
Bit 2 = Uscita 3, Bit 3 = Uscita 4
Bit 0 = Canale 1, Bit 1 = Canale 2
Bit 2 = Canale 3, Bit 3 = Canale 4
La scrittura della word "0xDEAD" provoca il riavvio
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)
Bit 8 = CNT1, Bit 9 = CNT2, Bit 10 = CNT3, Bit 11 = CNT4
Bit 4 = Ea, Bit 5 = Er ind, Bit 6 = Er cap, Bit 7 = Es (exp)
Bit 8 = CNT1, Bit 9 = CNT2, Bit 10 = CNT3, Bit 11 = CNT4
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)
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)
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)
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)
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)
Bit 0 = I1, Bit 1 = I2, Bit 2 = I3
Bit 0 = I1, Bit 1 = I2, Bit 2 = I3
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
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
Bit 0 = max I1, Bit 1 = max I2, Bit 2 = max I3, Bit 3 = max In
Bit 0 = max P1, Bit 1 = max P2, Bit 2 = max P3
Bit 0 = max P1, Bit 1 = max P2, Bit 2 = max P3
Note n.1
3PH-3W-2CT
2 phases 3 wires, triangle
3PH-4W
3 phases 4 wires, Star
2PH-2W
2 phases 2 wires, biphase
1PH-2W
1 phase 2 wires, monophase
Note n.2
POWERS
Integration time of the average value (AVG) and peak value (MD) for power (from 1
to 60 minutes)
CURRENTS
Integration time of the average value (AVG) and peak value (MD) for current (from 1
to 60 minutes)
Note n.3
Normal
Classic Alarm with reference to a fi xed threshold or to maximum and minimum delay
and applicable hysteresis. "AVG" parameter is not used.
1-OF-3
Consider also the 2 following registers of the selected one in "MEAS" . Works on a fi xed
max or min threshold with delay and applicable hysteresis. If one of the three register
exceed the threshold the alarm goes on. "AVG" parameter is not used.
3-OF-3
Consider also the 2 following registers of the selected one in "MEAS". Works on a fi xed
max or min threshold with delay and applicable hysteresis. When all the three register
exceed the threshold the alarm goes on. "AVG" parameter is not used.
DERIV
"THRE" parameter becomes a % value, "AVG" parameter is used. The instant value
applied to the alarm on "MEAS" is compared with its value mediated obtained on the
basis of the time set on "AVG". When the instantaneous value combined alarm diff ers
in more (setting "Max") or less (setting "MIN") from the average value (" AVG ") of the
percentage set on "THRE" the alarm goes on. With delay and applicable hysteresis.
UNBAL
Consider also the 2 following registers of the selected one in "MEAS".
parameter becomes a % value. Alarm goes on when one of the three register is
diff erent from the percentage set on "THRE" comply with the higher value of the three
read register if "MAX" is set on "TYPE", or comply with the lower value of the three
register if "MIN" is set on "TYPE"
With delay and applicable hysteresis.
Note n.4
MAX
Alarm setting in excess compared with the established conditions.
With the exception of "UNBAL".
MIN
Alarm setting in decrease compared with the established conditions.
With the exception of "UNBAL"
Note n.5
MEAS
indicates which register (and thus measure) the alarm is related.
See table n.1 input register.
THRE
Alarm threshold in absolute value, with the exception made for "DERIV" and "UNBAL"
in which the value inserted becomes a percentage.
Note n.6
AVG
Parameter to be used only in "DERIV" mode. Is the duration of the reference (in
seconds) used to create a reference value for the istantaneous readings.
Note n.7
NORMAL
Physical output of the alarm excited during the duration of the alarm. It restores
automatically
HOLD
Output remains excited until manual reset made via Modbus
PULSE-L
Output generate a 500ms impulse when the alarm goes on.
PULSE-S
Output generate a 100ms impulse when the alarm goes on.
Note n.8
PULSE
Enables exit function as impulsive
ALARM
Enables exit function as alarm
REMOTE
Enables function output via protocol Modbus
NO
Normally open
NC
Normally closed
Note n.9
P-IMP
Imported Active Power (Energy)
QL-IMP
Imported Reactive Inductive Power (Energy)
QC-IMP
Imported Reactive Capacitive Power (Energy)
S-IMP
Imported Apparent Power (Energy)
P-EXP
Exported Active Power (Energy)
QL-EXP
Exported Reactive Inductive Power (Energy)
QC-EXP
Exported Reactive Capacitive Power (Energy)
S-EXP
Exported Apparent Power (Energy)
Note n.10
YES
Referred to CT primary
NO
Referred to CT secondary
Note n.11
ALLARME 1
Alarm related to the physical output: DIGITAL OUT 1 (DO1, terminal 8)
ALLARME 2
Alarm related to the physical output: DIGITAL OUT 2 (DO2, terminal 9)
ALLARME 3
Only MODBUS alarm
ALLARME 4
Only MODBUS alarm
ALARM SET UP EXAMPLE
To ensure that the exit "DIGITAL OUT 1" remain excited for the alarm duration (latching)
when average active power (MEAS 344) exceeds the value of 100 kW, hysteresis, 5%
and latency of 5 seconds set the parameters such as table:
MODE (note n.2)
TYPE (note n.3)
ALARM 1 / A
MEAS (note n.4)
THRE (note n.4)
HYST
DELAY
ALARM 1 / B
AVG (note n.5)
OUT (note n.6)
MODE
DIGITAL OUT 1
POLARITY
To ensure that the exit "DIGITAL OUT 2" remain excited for the alarm duration (latching)
when average active power (MEAS 344) goes down the value of 90 kW, hysteresis, 5%
and latency of 5 seconds set the parameters such as table:
MODE (note n.2)
TYPE (note n.3)
ALARM 2 / A
MEAS (note n.4)
THRE (note n.4)
HYST
DELAY
ALARM 2 / B
AVG (note n.5)
OUT (note n.6)
MODE
DIGITAL OUT 2
POLARITY
Normal, 1-OF-3, 3-OF-3, DERIV, UNBAL
MAX, MIN
Controlled measure. See table n.1 for register
selection
Threshold value
1...100 (%)
1...99 (seconds)
1...99 (seconds)
Normal, Hold, Pulse-L, Pulse-S
PULSE, ALARM, REMOTE
NO, NC
Normal, 1-OF-3, 3-OF-3, DERIV, UNBAL
MAX, MIN
Controlled measure. See table n.1 for register
selection
Threshold value
1...100 (%)
1...99 (seconds)
1...99 (seconds)
Normal, Hold, Pulse-L, Pulse-S
PULSE, ALARM, REMOTE
NO, NC
"THRE"
NORMAL
MAX
344
100000
5
5
1
NORMAL
ALARM
NO
NORMAL
MIN
344
90000
5
5
1
NORMAL
ALARM
NO