Tables of Alarms
Pre-Alarms
By default, pre-alarms are active and are medium priority.
|
Label |
Code |
Setting range |
Factory setting |
||||
|---|---|---|---|---|---|---|---|
|
Thresholds (pickup or drop-out) |
Time delay |
Thresholds |
Time delay |
||||
|
Pickup |
Drop-out |
Pickup |
Drop-out |
||||
|
Pre-alarm Ir (PAL Ir) |
1013 |
40–100% Ir |
1 s |
90% Ir |
85% Ir |
1 s |
1 s |
|
Pre-alarm Ig (PAL Ig) |
1014 |
40–100% Ig |
1 s |
90% Ig |
85% Ig |
1 s |
1 s |
|
Pre-alarm IΔn (PAL IΔn) |
1015 |
50–80% IΔn |
1 s |
80% IΔn |
75% IΔn |
1 s |
1 s |
User-Defined Alarms (MicroLogic A)
|
Label |
Code |
Setting range |
Factory setting |
|||
|---|---|---|---|---|---|---|
|
Thresholds (pickup or drop-out) |
Time delay |
Thresholds |
Time delay |
|||
|
Pickup |
Drop-out |
|||||
|
Over Current inst I1 |
1 |
0.2–10 In |
1–3000 s |
In |
40 s |
10 s |
|
Over Current inst I2 |
2 |
0.2–10 In |
1–3000 s |
In |
40 s |
10 s |
|
Over Current inst I3 |
3 |
0.2–10 In |
1–3000 s |
In |
40 s |
10 s |
|
Over Current inst IN |
4 |
0.2–10 In |
1–3000 s |
In |
40 s |
10 s |
|
Ground-fault
alarm |
5 |
10–100% Ig |
1–3000 s |
40% Ig |
40 s |
10 s |
|
Under Current inst I1 |
6 |
0.2–10 In |
1–3000 s |
0.2 In |
40 s |
10 s |
|
Under Current inst I2 |
7 |
0.2–10 In |
1–3000 s |
0.2 In |
40 s |
10 s |
|
Under Current inst I3 |
8 |
0.2–10 In |
1–3000 s |
0.2 In |
40 s |
10 s |
|
Over Current Iavg |
55 |
0.2–10 In |
1–3000 s |
In |
60 s |
15 s |
|
Over I MAX ( 1, 2, 3) |
56 |
0.2–10 In |
1–3000 s |
In |
60 s |
15 s |
|
Under Current IN |
57 |
0.2–10 In |
1–3000 s |
0.2 In |
40 s |
10 s |
|
Under Current Iavg |
60 |
0.2–10 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Under I MIN ( 1, 2, 3) |
65 |
0.2–10 In |
1–3000 s |
0.2 In |
60 s |
15 s |
User-Defined Alarms (MicroLogic E)
By default:
-
User-defined alarms are not active.
-
Alarms 1 to 144 are medium priority.
-
Alarms 145 to 150 are low priority.
|
Label |
Code |
Setting range |
Factory setting |
|||
|---|---|---|---|---|---|---|
|
Thresholds (pickup or drop-out) |
Time delay |
Thresholds |
Time delay |
|||
|
Pickup |
Drop-out |
|||||
|
Over Current inst I1 |
1 |
0.2–10 In |
1–3000 s |
In |
40 s |
10 s |
|
Over Current inst I2 |
2 |
0.2–10 In |
1–3000 s |
In |
40 s |
10 s |
|
Over Current inst I3 |
3 |
0.2–10 In |
1–3000 s |
In |
40 s |
10 s |
|
Over Current inst IN |
4 |
0.2–10 In |
1–3000 s |
In |
40 s |
10 s |
|
Ground-fault alarm |
5 |
10–100% Ig |
1–3000 s |
40% Ig |
40 s |
10 s |
|
Under Current inst I1 |
6 |
0.2–10 In |
1–3000 s |
0.2 In |
40 s |
10 s |
|
Under Current inst I2 |
7 |
0.2–10 In |
1–3000 s |
0.2 In |
40 s |
10 s |
|
Under Current inst I3 |
8 |
0.2–10 In |
1–3000 s |
0.2 In |
40 s |
10 s |
|
Over Iunbal phase 1 |
9 |
5–60% Iavg |
1–3000 s |
25% |
40 s |
10 s |
|
Over Iunbal phase 2 |
10 |
5–60% Iavg |
1–3000 s |
25% |
40 s |
10 s |
|
Over Iunbal phase 3 |
11 |
5–60% Iavg |
1–3000 s |
25% |
40 s |
10 s |
|
Over Voltage V1N |
12 |
100–1100 V |
1–3000 s |
300 V |
40 s |
10 s |
|
Over Voltage V2N |
13 |
100–1100 V |
1–3000 s |
300 V |
40 s |
10 s |
|
Over Voltage V3N |
14 |
100–1100 V |
1–3000 s |
300 V |
40 s |
10 s |
|
Under Voltage V1N |
15 |
100–1100 V |
1–3000 s |
180 V |
40 s |
10 s |
|
Under Voltage V2N |
16 |
100–1100 V |
1–3000 s |
180 V |
40 s |
10 s |
|
Under Voltage V3N |
17 |
100–1100 V |
1–3000 s |
180 V |
40 s |
10 s |
|
Over Vunbal V1N |
18 |
2%–30% Vavg |
1–3000 s |
10% |
40 s |
10 s |
|
Over Vunbal V2N |
19 |
2%–30% Vavg |
1–3000 s |
10% |
40 s |
10 s |
|
Over Vunbal V3N |
20 |
2%–30% Vavg |
1–3000 s |
10% |
40 s |
10 s |
|
Over total KVA |
21 |
1–1000 kVA |
1–3000 s |
100 kVA |
40 s |
10 s |
|
Over direct KW |
22 |
1–1000 kW |
1–3000 s |
100 kW |
40 s |
10 s |
|
Reverse power KW |
23 |
1–1000 kW |
1–3000 s |
100 kW |
40 s |
10 s |
|
Over direct kVAR |
24 |
1–1000 kVAR |
1–3000 s |
100 kVAR |
40 s |
10 s |
|
Reverse power kVAR |
25 |
1–1000 kVAR |
1–3000 s |
100 kVAR |
40 s |
10 s |
|
Under total KVA |
26 |
1–1000 kVA |
1–3000 s |
100 kVA |
40 s |
10 s |
|
Under direct KW |
27 |
1–1000 kW |
1–3000 s |
100 kW |
40 s |
10 s |
|
Under direct kVAR |
29 |
1–1000 kVAR |
1–3000 s |
100 kVAR |
40 s |
10 s |
|
Leading PF (IEEE) (1) |
31 |
0–0.99 |
1–3000 s |
0.80 |
40 s |
10 s |
|
Lead or Lag PF (IEC) (1) |
33 |
0–0.99 |
1–3000 s |
0.80 |
40 s |
10 s |
|
Lagging PF (IEEE) (1) |
34 |
-0.99–0 |
1–3000 s |
-0.80 |
40 s |
10 s |
|
Over THD Current I1 |
35 |
0–500% |
1–3000 s |
15% |
40 s |
10 s |
|
Over THD Current I2 |
36 |
0–500% |
1–3000 s |
15% |
40 s |
10 s |
|
Over THD Current I3 |
37 |
0–500% |
1–3000 s |
15% |
40 s |
10 s |
|
Over THD V1N |
38 |
0–500% |
1–3000 s |
5% |
40 s |
10 s |
|
Over THD V2N |
39 |
0–500% |
1–3000 s |
5% |
40 s |
10 s |
|
Over THD V3N |
40 |
0–500% |
1–3000 s |
5% |
40 s |
10 s |
|
Over THD V12 |
41 |
0–500% |
1–3000 s |
5% |
40 s |
10 s |
|
Over THD V23 |
42 |
0–500% |
1–3000 s |
5% |
40 s |
10 s |
|
Over THD V31 |
43 |
0–500% |
1–3000 s |
5% |
40 s |
10 s |
|
Earth-leakage current |
54 |
50–80% IΔn |
1–3000 s |
80% IΔn |
40 s |
10 s |
|
Over Current Iavg |
55 |
0.2–10 In |
1–3000 s |
In |
60 s |
15 s |
|
Over I MAX ( 1, 2, 3) |
56 |
0.2–10 In |
1–3000 s |
In |
60 s |
15 s |
|
Under Current IN |
57 |
0.2–10 In |
1–3000 s |
0.2 In |
40 s |
10 s |
|
Under Current Iavg |
60 |
0.2–10 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Over I1 Demand |
61 |
0.2–10.5 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Over I2 Demand |
62 |
0.2–10.5 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Over I3 Demand |
63 |
0.2–10.5 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Over IN Demand |
64 |
0.2–10.5 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Under I MIN ( 1, 2, 3) |
65 |
0.2–10 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Under I1 Demand |
66 |
0.2–10.5 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Under I2 Demand |
67 |
0.2–10.5 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Under I3 Demand |
68 |
0.2–10.5 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Under IN Demand |
69 |
0.2–10.5 In |
1–3000 s |
0.2 In |
60 s |
15 s |
|
Over Iunbal MAX |
70 |
5–60% Iavg |
1–3000 s |
25% |
40 s |
10 s |
|
Over Voltage V12 |
71 |
100–1100 V |
1–3000 s |
500 V |
40 s |
10 s |
|
Over Voltage V23 |
72 |
100–1100 V |
1–3000 s |
500 V |
40 s |
10 s |
|
Over Voltage V31 |
73 |
100–1100 V |
1–3000 s |
500 V |
40 s |
10 s |
|
Over Volt Vavg L-N |
75 |
100–1100 V |
1–3000 s |
300 V |
5 s |
2 s |
|
Under Voltage V12 |
76 |
100–1100 V |
1–3000 s |
320 V |
40 s |
10 s |
|
Under Voltage V23 |
77 |
100–1100 V |
1–3000 s |
320 V |
40 s |
10 s |
|
Under Voltage V31 |
78 |
100–1100 V |
1–3000 s |
320 V |
40 s |
10 s |
|
Over V MAX L-L |
79 |
100–1100 V |
1–3000 s |
300 V |
5 s |
2 s |
|
Under Voltage Vavg L-N |
80 |
100–1100 V |
1–3000 s |
180 V |
5 s |
2 s |
|
Under V MIN L-L |
81 |
100–1100 V |
1–3000 s |
180 V |
5 s |
2 |
|
Over Vunbal MAX L-L |
82 |
2%–30% Vavg |
1–3000 s |
10% |
40 s |
10 s |
|
Over Vunbal V12 |
86 |
2%–30% Vavg |
1–3000 s |
10% |
40 s |
10 s |
|
Over Vunbal V23 |
87 |
2%–30% Vavg |
1–3000 s |
10% |
40 s |
10 s |
|
Over Vunbal V31 |
88 |
2%–30% Vavg |
1–3000 s |
10% |
40 s |
10 s |
|
Over Vunbal MAX L-L |
89 |
2%–30% Vavg |
1–3000 s |
10% |
40 s |
10 s |
|
Phase sequence |
90 |
0.1 |
– |
0 |
– |
– |
|
Under Frequency |
92 |
45–65 Hz |
1–3000 s |
45 Hz |
5 s |
2 s |
|
Over Frequency |
93 |
45–65 Hz |
1–3000 s |
65 Hz |
5 s |
2 s |
|
Over KW Power dmd |
99 |
1–1000 kW |
1–3000 s |
100 kW |
40 s |
10 s |
|
Leading cos ϕ (IEEE) (1) |
121 |
0–0.99 |
1–3000 s |
0.80 |
40 s |
10 s |
|
Lead/Lag cos ϕ (IEC) (1) |
123 |
0–0.99 |
1–3000 s |
0.80 |
40 s |
10 s |
|
Lagging cos ϕ (IEEE) (1) |
124 |
-0.99–0 |
1–3000 s |
-0.80 |
40 s |
10 s |
|
Over T° image motor |
125 |
0.2–10.5 In |
1–3000 s |
In |
60 s |
15 s |
|
Under T° image motor |
126 |
0.2–10.5 In |
1–3000 s |
In |
60 s |
15 s |
|
Over I1 Peak Demand |
141 |
0.2–10.5 In |
1–3000 s |
In |
60 s |
15 s |
|
Over I2 Peak Demand |
142 |
0.2–10.5 In |
1–3000 s |
In |
60 s |
15 s |
|
Over I3 Peak Demand |
143 |
0.2–10.5 In |
1–3000 s |
In |
60 s |
15 s |
|
Over IN Peak Demand |
144 |
0.2–10.5 In |
1–3000 s |
In |
60 s |
15 s |
|
Lead |
145 |
0.0 |
1–3000 s |
0 |
40 s |
10 s |
|
Lag |
146 |
1.1 |
1–3000 s |
1 |
40 s |
10 s |
|
Quadrant 1 |
147 |
1.1 |
1–3000 s |
1 |
40 s |
10 s |
|
Quadrant 2 |
148 |
2.2 |
1–3000 s |
2 |
40 s |
10 s |
|
Quadrant 3 |
149 |
3.3 |
1–3000 s |
3 |
40 s |
10 s |
|
Quadrant 4 |
150 |
4.4 |
1–3000 s |
4 |
40 s |
10 s |
|
(1) The type of alarms associated with monitoring the cos ϕ and PF indicators must always be consistent with the sign convention (IEEE or IEC) for the PF indicator. |
||||||
Alarms on a Trip Event
|
Label |
Code |
SDx output |
Priority |
|---|---|---|---|
|
Long-time prot Ir |
16384 |
Yes |
High |
|
Short-time prot Isd |
16385 |
Yes |
High |
|
Instant prot Ii |
16386 |
Yes |
High |
|
Ground-fault Ig |
16387 |
Yes |
High |
|
Earth-leakage IΔn |
16388 |
Yes |
High |
|
Integ instant prot |
16390 |
No |
High |
|
Trip unit fail (Stop) |
16391 |
Yes |
High |
|
Instant vigi (external module) prot |
16392 |
No |
High |
|
Reflex tripping |
16393 |
No |
High |
|
Phase unbalance |
16640 |
Yes |
High |
|
Jam motor prot |
16641 |
Yes |
High |
|
Under load mtr prot |
16642 |
Yes |
High |
|
Long start mtr prot |
16643 |
Yes |
High |
|
Trip indicator SD |
1905 |
@updated
No |
Medium |
Alarms on a Failure Event
|
Label |
Code |
SDx output |
Priority |
|---|---|---|---|
|
BSCM failure (Stop) |
1912 |
Yes |
High |
|
BSCM failure (Err) |
1914 |
Yes |
Medium |
Alarms on a Maintenance Event
|
Label |
Code |
SDx output |
Priority |
|---|---|---|---|
|
OF operation overrun |
1916 |
Yes |
Medium |
|
Close command overrun |
1919 |
Yes |
Medium |
|
Wear on contacts |
256 |
Yes |
Medium |