Elektrisch verbindingsdiagram (indien met warmwaterbatterij)
33
RIRS 5500HE/HW EKO 3.0
www.salda.lt
1.
76
1.
00
31
B
.0
.1
.0
-L
-0
k
PV
-
su
pp
ly
a
ir
fa
n
EC
.
IV
-
ex
tra
ct
a
ir
fa
n
EC
.
TL
-
fr
es
h
ai
r t
em
pe
ra
tu
re
se
ns
or
.
TJ
-
su
pp
ly
a
ir
te
m
pe
ra
tu
re
s
en
so
r.
D
TJ
10
0
- e
xt
ra
ct
a
ir
hu
m
id
ity
+
te
m
pe
ra
tu
re
se
ns
or
.
TE
-
ex
ha
us
t a
ir
te
m
pe
ra
tu
re
se
ns
or
.
S1
-
ro
to
tio
n
se
ns
or
.
M
2
- o
ut
si
de
a
ir
da
m
pe
r a
ct
ua
to
r.
M
3
- e
xt
ra
ct
a
ir
da
m
pe
r a
ct
ua
to
r.
M
4
- w
at
er
h
ea
te
r c
irc
ul
at
or
y
pu
m
p.
M
5
- w
at
er
c
oo
le
r v
al
ve
a
ct
ua
to
r.
M
6
- w
at
er
h
ea
te
r v
al
ve
a
ct
ua
to
r.
P
- D
X
c
oo
le
r p
ro
te
ct
io
n,
d
iff
er
en
tia
l p
re
ss
ur
e
sw
itc
h.
P/
U
-
"T
ra
ns
sm
ite
r 1
"
su
pp
ly
a
ir
fa
n
pr
es
su
re
(0
-1
0
V
D
C
)
tra
ns
m
itt
er
.
P/
U
-
"T
ra
ns
sm
ite
r 2
"
ex
tra
ct
a
ir
fa
n
0-
10
V
p
re
ss
ur
e
or
C
O
2
tra
ns
m
itt
er
s.
FA
-
fir
e
al
ar
m
s
in
pu
t.
PS
1
- s
up
pl
y
ai
r f
ilt
er
p
re
ss
ur
e
re
la
y.
PS
2
- e
xt
ra
ct
a
ir
fil
te
r p
re
ss
ur
e
re
la
y.
R
1
- r
el
ay
.
R
G
1
- c
on
tro
lle
r P
R
V
-..
. V
2.
2,
F1
, F
2
- f
us
e
(s
iz
e
5x
20
),
Q
1
- m
ai
n
sw
itc
h.
Q
2
- a
ut
om
at
ic
c
irc
ui
t b
re
ak
er
.
K
-
co
nt
ac
to
r.
R
-
ro
to
r m
ot
or
,
C
-
ca
pa
ci
to
r.
K
E2
-
co
nt
ro
l b
ox
h
ea
te
r.
A
T2
-
au
to
m
at
ic
re
se
t t
he
rm
os
ta
t f
or
c
on
tro
l b
ox
he
at
er
.
T1
-
an
tif
ro
st
th
er
m
os
ta
t,
TV
-
an
tif
ro
st
s
en
so
r,
A4
A4
PU
MP
AC
.N
V1
CO
M
X3
7.2
X37
.1
CO
M
V2
X3
7.3
X37
.4
X4
X3
M
od
B
us
R
T
U
R
S
48
5_
2
RS
48
5_2
A1
A1
A2
A2
A3
A3
TE
T
E
X
52
X3
3.1
9
X3
3.2
0C
OM
T.W
AT
TJ
X3
3.2
2
X3
3.2
1
X3
5.3
X3
5.4
X3
5.5
L (
ope
n)
AC
.N
EX
T+
EX
T-
X1
0
N
L (
clo
se)
X8
L
N
RS
48
5_1
T.O
UT
CO
M
T
J
R
S
48
5_
1
R
em
ot
e
co
nt
ro
l
R
G
1
16
15
X
1
6.
6
T
L
LO
W
X32
.1
CO
M
X32
.4
HIG
H
X32
.2
TIM
ER
X32
.3
CO
M
X33
.1
MID
L
X33
.2
CH
IL
X33
.9
CO
M
X33
.10
AL
AR
MX
33
.11
CO
M
AN
TI.F
+24
CO
M
FA
N
X2
9
X25
N
L
B.0
.1
0
CO
M
G
M
5
2
4V
A
C
, 3
-p
os
iti
o
n
Y
2
Y
1
VA
L
VA
L-
VA
L+
X3
3.3
X3
3.4
X3
3.5
3
1
2
X
16
.1
Y
1
-
C
on
tr
o
l O
P
E
N
(
A
C
2
4
V
)
Y
2
-
C
on
tr
o
l C
LO
S
E
(
A
C
2
4
V
)
G
-
S
ys
te
m
p
ot
e
nt
ia
l A
C
2
4
V
X35
.2
X35
.1
X33
.13
X33
.14
X33
.18
X33
.12
X33
.17
X33
.25
X33
.26
X34
.1
X34
.2
X34
.3
X34
.4
X34
.5
X34
.6
X34
.7
X34
.8
X3
9.1
X3
9.2
X4
1.2
X4
1.1
A.0
.1
0
CO
M
X33
.1
6
X33
.1
5
X3
1
L
X
5
1
1
R
P
E
N
L
C
2
3
4
X
40
X24
N
5
6
B
K
B
U
B
N
7
W
1
W
2
W
3
8
9
3
2
X21
.1
1
C
O
M
S
1
C
+
24
V
D
C
HR
TA
X40
.1
X40
.2
X40
.3
X38
.2
X38
.1
X33
.24
X33
.23
CO
M
T.s
et
W
2
C
on
ta
ct
s
N
N
PE
PE
Q
1
X23
L3
L2
2 4 6
5
3
1
L1
P
E
N
PE N
3x
4
00
V
M
ai
n
S
w
itc
h
1
2
F
1,
2
A
L1
N
8
9
X21
.3
C
A
T
2
K
E
2
5
0w
M
3
N
(1
)L
(2
)L
(3
)
23
0
V
A
C
N
L c
ont
rol
X
4
6
N
/1
L/
2
P
E
/3
X
2
8.
3
11
12
M
2
S
pr
in
g
ba
ck
, O
N
/O
F
F
2
30
V
A
C
L c
ont
rol
N
X
45
N
/1
L/
2
9
10
O
N
/O
F
F
L s
up
ply
X
43
.2
X
37
X
43
.3
11
12
X
43
.5
1
5
N
(1
)
L(
2)
N/1
L/2
PE
/3
B
K
-
B
la
ck
-
Ju
od
a
B
N
-
B
ro
w
n
- R
ud
a
B
U
-
B
lu
e
- M
ė
ly
na
W
H
-
W
hi
te
-
B
al
ta
R
D
-
R
ed
-
R
au
do
na
G
N
-
G
re
en
-
Ž
al
ia
Y
E
- Y
el
lo
w
-
G
el
to
na
+
X
35
X
34
L2
L
1
L
1
L2
L3
N
P
E
X
32
X
33
P
E
N
+
L2
L
1
L
1
L2
L3
N
P
E
P
E
N
X
43
.1
1
2
3
4
5
6
7
8
X
42
.1
8
7
6
5
4
3
2
1
C
O
M
;K
L2
G
N
D
P
V
L1
L
2
L3
P
E
+
A
in
1U
N
C
;K
L2
C
O
M
;K
L2
G
N
D
IV
L1
L
2
L3
P
E
A
in
1U
N
C
;K
L2
5
6
Q
2
, B
10
3
4
1
2
X42
X1
2
5
6
K
3
4
1
2
10
T
A
22
21
20
W
1
P
F
A
BO
OS
T
ST
OP
-N
O
STA
RT
-N
C
Fan
fa
ll
1.2
W m
ax
1.2
W m
ax
Fan
ru
n
P
3
P
D
X
C
oo
lin
g
24
VD
C
24
VD
C
N
L
M
4
P
E
BO
OS
T
Y
0
2
0
-
24
V
D
C
,
2
1
-
in
tp
u
t,
0-
1
0V
D
C
,
2
2
-
G
N
D
,
Ju
m
p
er
1
f,
23
0
V
A
C
m
ax
. 1
A
24
V
D
C
, 0
-1
0V
D
C
M
6
G
17
-
2
4V
D
C
,
18
-
in
tp
u
t,
0
-1
0
V
D
C
,
19
-
G
N
D
,
X
16
.2
1
3
14
A
2
A
1
R
1
8
7
X
16
.3
4
5
6
1
0
9
X
16
.4
11
12
1
9
18
1
7
1
14
11
24
V
D
C
W
3
D
T
J
10
0
H
R
U
W
2
X
16
.1
0
4
5
6
7
2
1
P
S
1
2
1
P
S
2
2
3
X
16
.7
24
2
5
1A
2
1
F
2
4
2
6
X
1
6.
8
27
2
8
X
2
1.
2
X
28
.2
3
4
5
6
A
2
A
1
K
230
VA
C
13
1
4
X43
.4
1
2
X
2
8.
1
7
T
1
T
V
1
4
X
16
.9
29
30
N
Ju
m
p
er
