3.24.2 Time-Dependent Characteristics
The measuring systems for phase currents, residual current and negative-
sequence current operate independently of each other and can be set
separately. The user can select from a large number of characteristics (see table
below). The measured variable is the maximum phase current, the negative-
sequence current, or the residual current, depending on the measuring system.
The tripping characteristics available for selection are shown in the following
figures (Fig. 3-117, (p. 3-164) to Fig. 3-120, (p. 3-166)).
0
Definite Time
t = k
Per IEC 255–3
t = k ·
a
(
I
I
ref
)
b
- 1
1 Standard Inverse 0.14 0.02
2 Very Inverse 13.50 1.00
3 Extremely Inverse 80.00 2.00
4 Long Time Inverse 120.00 1.00
Per IEEE C37.112
t = k ·(
a
(
I
I
ref
)
b
- 1
+ c ) t
r
=
k · R
(
I
I
ref
)
2
- 1
Per ANSI
t = k ·(
a
(
I
I
ref
)
b
- 1
+ c ) t
r
=
k · R
(
I
I
ref
)
2
- 1
11 RI-Type Inverse
t = k ·
1
0.339 -
0.236
(
I
I
ref
)
12 RXIDG-Type Inverse
t = k ·(5.8 - 1.35·ln
I
I
ref
)
5 Moderately Inverse 0.0515 0.0200 0.1140 4.85
6 Very Inverse 2.0000 0.4910 21.6019.6100
7 Extremely Inverse 2.0000 0.1217 29.1028.2000
8 Normally Inverse 8.9341 2.0938 9.000.17966
9 Short Time Inverse 0.2663 1.2969 0.500.03393
10 Long Time Inverse 5.6143 1.0000 15.752.18592
R
No.
Tripping
Characteristic
Formula for the
Reset
Characteristic
Formula for theTripping
Characteristic
settable factor:
k = 0.05 ... 10.00
Characteristic
Constants
b ca
Once a ratio I/I
ref
greater than 20 is reached, the tripping time is bounded on the
lower end.
3 Operation
P634
P634/EN M/R-42-A // P634‑311‑653 3-163
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