Eaton PMINT Installation Und Betrieb Seite 6

04/10 AWB1230-1621
Effective April 2010
Table 7. Cyclic Data Exchange Monitoring Format 0
Byte Bit(s) Description
0 1–0 Position of circuit breaker:
00 = disconnected
01 = operational
10 = test
11 = not present
3–2 State of circuit breaker:
00 = Init
01 = OFF
10 = ON
11 = Tripped
4 Ready to switch on
5 Undervoltage release
6 Spring loaded
7 Overload warning
1 8 Setpoint activated
9 Warning
10 Write protection activated
11 Input 0
14–12 Release reason:
000 = no release
001 = L(ongtime) release
010 = I(nstantaneous) release
011 = S(horttime) release
100 = earth fault
101 = extended protection
110 = over-current in N-wire
111 = no device information
15 Load rejection
Table 8. Cyclic Data Exchange Monitoring Format 1
Byte(s) Data Type Description
0 Unsigned8 State 0 (byte 0 of monitoring Format 0, Table 7)
1 Unsigned8 State 1 (byte 1 of monitoring Format 0, Table 7)
3–2 Unsigned16 I (Phase A current)
L1
5–4 Unsigned16 I (Phase B current)
L2
7–6 Unsigned16 I (Phase C current)
L3
9–8 Unsigned16 I (maximum value of I
L max
6
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Implementation
(see Circuit breaker position switch,
Section 4)
00 if switch 1 AND switch 2 both OFF
01 if switch 1 AND switch 2 both ON
10 if either switch 1 OR switch 2 ON,
but not both
00 = communications with trip unit not
yet established
01 = Primary status: open
10 = Primary status: closed, alarm, pickup
11 = Primary status: tripped
1 = (not implemented)
1 = Primary status: tripped, cause: 12
1 = (not implemented)
1 = Primary status: alarm, cause: 61, OR
Primary status: pickup
1 = Primary status: alarm, cause: 11, 12,
15, 16, 17, 18, 26, 27, 28
1 = Primary status: alarm, cause: all
except 61
1 if Digitrip 1150 trip unit AND remote
enabled, see Section 5
0 = (not implemented)
000 = Primary status: NOT tripped
001 = Primary status: tripped, causes:
7, 10, 61 (with I < all other currents)
n
010 = Primary status: tripped, causes:
3, 5, 6, 53, 66, 76
011 = Primary status: tripped, causes: 62
100 = Primary status: tripped, causes:
4, 8, 84, 85, 112
101 = Primary status: tripped, causes: all
other remaining
110 = Primary status: tripped, causes:
9, 80, 61 (with I > all other currents)
n
111 = communications with trip unit not
yet established
1 = Primary status: alarm, cause: 26
Resolution
Amps
Amps
Amps
, I , I ) Amps
L1 L2 L3
PMINT—PROFIBUS DP translator
Table 9. Cyclic Data Exchange Monitoring Format 2
Byte(s) Data Type Description
0 Unsigned8 State 0 (byte 0 of monitoring Format 0, Table 7)
1 Unsigned8 State 1 (byte 1 of monitoring Format 0, Table 7)
3–2 Unsigned16 I (Phase A current)
L1
5–4 Unsigned16 I (Phase B current)
L2
7–6 Unsigned16 I (Phase C current)
L3
9–8 Unsigned16 I (maximum value of I
L max
11–10 Unsigned16 I (neutral current)
N
13–12 Unsigned16 V (average line-to-line voltage)
LL avg
15–14 Integer16 cos phi (average of apparent power factor)
avg
17–16 Unsigned16 Energy
Table 10. Cyclic Data Exchange Monitoring Format 3
Byte(s) Data Type Description
0 Unsigned8 State 0 (byte 0 of monitoring Format 0, Table 7)
1 Unsigned8 State 1 (byte 1 of monitoring Format 0, Table 7)
3–2 Unsigned16 I (Phase A current)
L1
5–4 Unsigned16 I (Phase B current)
L2
7–6 Unsigned16 I (Phase C current)
L3
9–8 Unsigned16 I (maximum value of I
L max
11–10 Unsigned16 I (neutral current)
N
13–12 Unsigned16 V (V
L1-L2 AB
15–14 Unsigned16 V (V
L2-L3 BC
17–16 Unsigned16 V (V
L3-L1 CA
19–18 Unsigned16 V (V
L1-N AN
21–20 Unsigned16 V (V
L2-N BN
23–22 Unsigned16 V (V
L3-N CN
25–24 Integer16 cos phi
avg
27–26 Unsigned16 Energy
29–28 Unsigned16 S (total apparent power)
total
module—installation and use
, I , I )
L1 L2 L3
, I , I )
L1 L2 L3
line-to-line voltage)
line-to-line voltage)
line-to-line voltage)
line-to-neutral voltage)
line-to-neutral voltage)
line-to-neutral voltage)
(average of apparent power factor)
Resolution
Amps
Amps
Amps
Amps
Amps
Volts
0–1000
MWh
Resolution
Amps
Amps
Amps
Amps
Amps
Volts
Volts
Volts
Volts
Volts
Volts
0–1000
MWh
kVA