CHARACTERISTICS
53
NV021 - Manual - 08 - 2012
are
OR
(at least one voltage larger than threshold) or
And
(all three voltage must be larger than
threshold).
With inputs from sensors versions, the type of measurement of line-to-line voltages and phase volt-
ages may be select: the
Utype59Uavg
parameter in the
Set \ Profi le A(or B) \ Average overvoltage-
59Uavg \ Common confi gurations
menu may be set. The possible settings are
Uph-ph
(voltages) or
Uph-n
(phase voltages).
Breaker failure (BF)
The average overvoltage element can produce the Breaker Failure output if the
Uavg> BF
param-
eter is set to
ON.
The parameter is available inside the
Set \ Profi le A(or B) \ Average overvoltage - 59Uavg \
Uavg> Element \ Setpoints
menu.
Logical block (Block1)
If the
Uavg>BLK1
enabling parameter is set to
ON
and a binary input is designed for logical block
(Block1), the protection is blocked off whenever the given input is active.
The trip timer is held in reset condition, so the operate time counting starts when the input block goes
down. The enabling parameters are available inside the
Set \ Profi le A(or B) \ Average overvoltage
- 59Uavg \
Uavg> Element \ Setpoints
menus, while the
Block1
function must be assigned to the
selected binary input inside the
Set \ Inputs \ Binary input IN1(x)
menus (IN1 or INx matching)
.
All the parameters can be set separately for
Profi le A
and
Profi le B
.
all-F59Uavg.ai
General logic diagram of the average overvoltage elements - 59Uavg
U
Uavg> Element
Start Uavg>
Trip Uavg>
t
Uavg> def
Uavg>
def
Uavg> Enable
Block1
BLK1Uavg>
&
Uavg>BLK1
Start Uavg>
&
Uavg>BF
Trip Uavg> &
Uavg>BF
U
m
¥
AND
U
12
,
U
23
,
U
31
U
U
L1
OR
Common configuration
Logic59Uavg
all-F59Uavg.ai
General logic diagram of the average overvoltage elements - 59Uavg
U
Uavg> Element
Start Uavg>
Trip Uavg>
t
Uavg> def
Uavg>
def
Uavg> Enable
Block1
BLK1Uavg>
&
Uavg>BLK1
Start Uavg>
&
Uavg>BF
Trip Uavg> &
Uavg>BF
U
m
¥
AND
U
12
,
U
23
,
U
31
U
U
L1
OR
Common configuration
Logic59Uavg
RESET
t
Uavg>def
0
T
TRIP
P
ING
M
A
TRIX
(LED
+R
EL
A
Y
S
)
t
Uavg>def
Start Uavg>
Uavg>ST-K
Start Uavg>
Uavg>TR-K
Uavg>ST-L
Uavg>TR-L
Trip Uavg>
Trip Uavg>
Trip Uavg>
BF Enable (ON
≡
Enable)
Uavg>BF
towards BF logic
&
BLK1Uavg>
Uavg> BF
&
&
&
Enable (ON
≡
Enable)
Block1 input (ON
≡
Block)
Uavg>BLK1
Block1
Block1
Binary input INx
T
0
Logic
INx
t
ON
INx
t
ON
INx
t
OFF
T
0
n.o.
n.c.
INx
t
OFF
&
Logic59Uavg
≥1
&
U
23
U
31
&
State
U
m
≥
U
avg
>
def
U
avg
>
def
ON
≡
Enable Uavg> overvoltage element
Uavg> Enable
U
m
=
3000
i=1
¥
3000
1
(
U
i
)
2
U
m
=
3000
i=1
¥
3000
1
(
U
i
)
2
U
m
=
3000
i=1
¥
3000
1
(
U
i
)
2
U
12
,
U
L1
General logic diagram of the average overvoltage threshold - Uavg>
RESET
t
Uavg>def
0
T
TRIP
P
ING
M
A
TRIX
(LED
+R
EL
A
Y
S
)
t
Uavg>def
Start Uavg>
Uavg>ST-K
Start Uavg>
Uavg>TR-K
Uavg>ST-L
Uavg>TR-L
Trip Uavg>
Trip Uavg>
Trip Uavg>
BF Enable (ON
≡
Enable)
Uavg>BF
towards BF logic
&
BLK1Uavg>
Uavg> BF
&
&
&
Enable (ON
≡
Enable)
Block1 input (ON
≡
Block)
Uavg>BLK1
Block1
Block1
Binary input INx
T
0
Logic
INx
t
ON
INx
t
ON
INx
t
OFF
T
0
n.o.
n.c.
INx
t
OFF
&
Logic59Uavg
≥1
&
U
23
U
31
&
State
U
m
≥
U
avg
>
def
U
avg
>
def
ON
≡
Enable Uavg> overvoltage element
Uavg> Enable
U
m
=
3000
i=1
¥
3000
1
(
U
i
)
2
U
m
=
3000
i=1
¥
3000
1
(
U
i
)
2
U
m
=
3000
i=1
¥
3000
1
(
U
i
)
2
U
12
,
U
L1
General logic diagram of the average overvoltage threshold - Uavg>
