Kampmann ProtecTor 20 68 Series, Installation And Operating Manual

Page: 35 / 52

35
ProtecTor 2.55
A new dimension in door screening
Installation and operating manual
8.3.5 Cable laying with ProtecTor EC (*00, *0R), control by building automation system
(BAS)
Da
te
i-P
fa
d:
Bla
tt
-N
r.:
1
Pro
je
kt
-N
r.:
Au
ftra
g:
Be
ze
ichn
un
g:
Be
ar
bei
ter
:
Er
st
ell
da
tu
m:
Pro
je
kt
:
He
in
z T
im
m
re
ck
15
.09.
20
20
Änd
er
ung
:
I:\E
LP
M
\K
AT
AL
O
G\0
00
-a
b 11_
2015\
255
-20
20_
05\
VP
_D
DC
-2.
55_
202
1-
02
-2
6.
vs
d
1
von
Pr
ot
ec
To
r E
C
m
it E
nd
ziffe
r x
8
Pr
ot
ec
Tor
Lu
fts
ch
le
ie
r mi
t E
C-
Ve
nt
ila
to
r,
m
it o
de
r
ohn
e R
ep.
-S
cha
lte
r, A
ns
te
ue
ru
ng
übe
r G
A
2.
55
Pr
otec
To
r
26
.02
.20
21
Ge
bä
ude
aut
om
at
io
n (
GA
)
AA
1
G
ND
AA
1
0-
10V
Dre hzahl Ger ät 1
Inne nwide rst and G erä t be acht en!
1
2
1
2
PE
AA
1
G
ND
AA
1
0-
10V
Dre hzahl Ger ät 1
Inne nwide rst and G erä t be acht en!
1
2
PE
AA
2
G
ND
AA
2
0-
10V
Dre hzahl Ger ät 2
Inne nwide rst and G erä t be acht en!
1
2
1
2
PE
AA
2
G
ND
AA
2
0-
10V
Dre hzahl Ger ät 2
Inne nwide rst and G erä t be acht en!
1
2
PE
D
I1
D
I1
Mot ors töru ng G erä t 1
Kon takt g eöf fne t = S töru ng
1
2
23
0V
PE
3
D
I1
D
I1
Mot ors töru ng G erä t 1
Kon takt g eöf fne t = S töru ng
1
2
23
0V
PE
3
D
I2
D
I2
Mot ors töru ng G erä t 2
Kon takt g eöf fne t = S töru ng
1
2
23
0V
PE
3
D
I2
D
I2
Mot ors töru ng G erä t 2
Kon takt g eöf fne t = S töru ng
1
2
23
0V
PE
3
Ge
bä
ude
aut
om
at
io
n (
GA
)
AA
1
G
ND
AA
1
0-
10V
Dre hzahl Ger ät 1
Inne nwide rst and G erä t be acht en!
1
2
PE
AA
2
G
ND
AA
2
0-
10V
Dre hzahl Ger ät 2
Inne nwide rst and G erä t be acht en!
1
2
PE
D
I1
D
I1
Mot ors töru ng G erä t 1
Kon takt g eöf fne t = S töru ng
1
2
23
0V
PE
3
D
I2
D
I2
Mot ors töru ng G erä t 2
Kon takt g eöf fne t = S töru ng
1
2
23
0V
PE
3
2*2*
33
55
Pr
ot
ec
Tor
EC
z. B
o
hn
e
Rep
.-S
cha
lte
r
3 x
40
0 V
0-
10
VD
C
W1
E1
GND
14
13 14
13
1
2
1 2
E1
GND
14
13
1
2
E1
GND
1
2
W3
PE
12
11
1
2
W2
250 V
12
11
1
2
W2
250 V
E1
GND
1
2
W3
PE
12
11
1
2
W2
250 V
L3
L1
L2
Xn
N
PE
L3
L1
L2
Xn
N
PE
L3
L1
L2
2
3
4
X1
N
PE
1
5
L3
L1
L2
2
3
4
X1
N
PE
1
5
Pr
ot
ec
Tor
EC
z. B
o
hn
e
Rep
.-S
cha
lte
r
3 x
40
0 V
0-
10
VD
C
W1
E1
GND
14
13
1
2
E1
GND
1
2
W3
PE
12
11
1
2
W2
250 V
L3
L1
L2
Xn
N
PE
L3
L1
L2
2
3
4
X1
N
PE
1
5
2*
3
5
Pr
ot
ec
Tor
EC
z. B
o
hn
e
Rep
.-S
cha
lte
r
3 x
40
0 V
0-
10
VD
C
W1
E1
GND
14
13
1
2
E1
GND
1
2
W3
PE
12
11
1
2
W2
250 V
L3
L1
L2
Xn
N
PE
L3
L1
L2
2
3
4
X1
N
PE
1
5
W4 W4 W4 W4
Pr
ot
ec
Tor
EC
z.
B
m
it
Rep
.-S
cha
lte
r
3 x
40
0 V
0-
10
VD
C
E1
GND
W7 W7 W7 W7
L3
L1
L2
Xn
N
PE
L3
L1
L2
Xn
N
PE
E1
GND
1
2
PE
X1
E1
GND
1
2
PE
X1
11
250 V
13
14
3
4
1
2
1 2
11
250 V
13
14
3
4
1
2
L3
L1
L2
2
3
4
X0
N
PE
1
5
L3
L1
L2
2
3
4
X0
N
PE
1
5
11
250 V
13
14
3
4
1
2
L3
L1
L2
2
3
4
X0
N
PE
1
5
W6
33
W6
3
W8
2*2*
W8
2*
W5
55
W5
5
Pr
ot
ec
Tor
EC
z.
B
m
it
Rep
.-S
cha
lte
r
3 x
40
0 V
0-
10
VD
C
E1
GND
W7
L3
L1
L2
Xn
N
PE
E1
GND
1
2
PE
X1
11
250 V
13
14
3
4
1
2
L3
L1
L2
2
3
4
X0
N
PE
1
5
W6
3
W8
2*
W5
5
Net
z
3 x
4
00 V
A
bs
iche
ru
ng
ba
use
its
m
ax.
1
6
A
Net
z
3 x
4
00 V
A
bs
iche
ru
ng
ba
use
its
m
ax.
1
6
A
Net
z
3 x
4
00 V
A
bs
iche
ru
ng
ba
use
its
m
ax.
1
6
A
Net
z
3 x
4
00 V
A
bs
iche
ru
ng
ba
use
its
m
ax.
1
6
A
Net
z
3 x
4
00 V
A
bs
iche
ru
ng
ba
use
its
m
ax.
1
6
A
Net
z
3 x
4
00 V
A
bs
iche
ru
ng
ba
use
its
m
ax.
1
6
A