GE GDWT668V, Техническое обслуживание руководство, Страница: 12 / 41

– 12 –
N
o
rm
a
l C
y
c
le
P
W1
*
P
W2
P
W
3
P
W4
P
W
5
M
W*
*
P
R
1
P
R
2
F
R
D
ry
Cool
-
Dow
n
Fan
T
u
rb
DOE
[Vdc]
3.
1
-
5.
0
5
.0
-
-
T
u
rb
M
IN
[Vdc]
2.
1
-
5.
0
5
.0
-
-
T
u
rb
M
E
D
[Vdc]
2.
1
-
5.
0
5
.0
-
-
T
u
rb
M
A
X
[Vdc]
1.
0
-
0.
1
0
.1
-
-
T
ime
D
O
E
[mi
n
]
5
-
-
1
0
-
-
T
ime
M
IN
[mi
n
]
5
-
-
1
0
-
-
T
ime
M
E
D
[mi
n
]
5
-
-
1
0
-
-
T
ime
M
A
X
[mi
n
]
1
-
3
1
0
-
-
M
W
DOE Ci
rc
ul
at
e T
im
e
[m
in
]
-
-
3
0
-
M
W
DOE Heat
er
T
im
e
[m
in
]
-
-
2
8
-
M
W
M
IN Ci
rc
ul
at
e T
im
e
[m
in
]
-
-
3
0
-
M
W
M
IN Heat
er
T
im
e
[m
in
]
-
-
2
7
-
M
W
M
E
D Ci
rc
ul
at
e T
im
e
[m
in
]
-
-
3
0
-
MW
ME
D
H
e
a
te
r Ti
m
e
[m
in
]
-
-
2
7
-
M
W
M
A
X
Ci
rc
ul
at
e T
im
e
[m
in
]
-
-
3
0
-
M
W
M
A
X
Heat
er
T
im
e
[m
in
]
-
-
3
0
-
Pr
e-
Ri
nse 1 (
P
R 1)
[m
in
]
-
-
7
-
Pr
e-
Ri
nse 2 (
P
R 2)
[m
in
]
-
-
-
Fi
nal
Ri
nse (
F
R)
[m
in
]
-
-
-
6
Heat
er
On T
im
e
[m
in
]
0
-
0
10
-
y
**
0
-
5
D
ry T
im
e
(T
o
ta
l T
im
e
) w
/ H
D
[m
in
]
-
-
-
3
4
H
D
-
I
n
it
ia
l O
N
T
im
e
[m
in
[
-
-
-
4
HD -
Pul
s
e OFF T
im
e
[s
ec]
-
-
-
105
HD -
Pul
s
e ON T
im
e
[s
ec]
-
-
-
75
Dr
y
T
im
e
(
T
ot
al
T
im
e
) w
/o HD
[m
in
]
-
-
-
0
Cool
-D
ow
n T
im
e
[m
in
]
-
-
-
14
Fan T
im
e
w
/ Heat
ed Dr
y
[m
in]
-
-
-
48
W
/ Out
Heat
ed Dr
y
[m
in]
-
-
-
14
Pause t
im
e
(
c
ir
c t
o
dr
ai
n)
[s
ec]
0
-
1
5
0
-
1
5
0
-
1
5
F
ill T
im
e
(
lo
w
f
lo
w
w
a
te
r v
a
lv
e
)
[s
e
c
]
6
2
-
1
6
6
2
-
2
1
6
2
-
2
3
F
ill T
im
e
(
h
ig
h
f
lo
w
w
a
te
r v
a
lv
e
)
[s
e
c
]
4
6
-
1
3
4
6
-
1
5
4
6
-
1
7
Dr
ai
n T
im
e
[s
ec]
7
-
7
5
1
0
-
75
11
-
105
M
a
x
T
e
m
p
Li
m
it
[F]
-
-
-
158
-
158
-
-
158
M
in
T
e
mp
L
imi
t
[F
]
--
--
-
120
-
-
120
Ex
tend T
im
e
[m
in
]
0
-
0
0
-
5
0
-
5
T
o
ta
l Pr
im
it
iv
e
[m
in]
6.
15
-
4
.5
2
1
1.
20
-
3
1.
25
8.
22
-
8
.1
3
34.
00
14.
00
31.
6
0
1
3.
13
Shor
test
Cy
cl
e
[m
in]
67.
63
36.
6
0
Longest
Cy
cl
e
[m
in]
93.
82
A
R
T
(
M
ax)
[m
in
]
69.
82
A
R
T
(
M
ed)
[m
in]
69.
82
AH
-M
W
[m
in
]
N
A
HT
D
[m
in]
34.
00
CD
[m
in
]
14.
00
* I
F
on PW
1 t
he t
u
rb
id
it
y
i
s
gr
eat
er
t
h
an t
h
e DOE r
e
sponse t
he cy
cl
e w
ill s
k
ip
t
h
e
d
ra
in
p
o
rt
io
n
o
f P
W
1
, c
o
m
p
le
te
ly
s
k
ip
P
W
3
, P
W
4
,
and ski
p t
he f
ill in
to
M
W
…
e
ff
e
c
tiv
e
ly
m
e
rg
in
g
P
W
1
and M
W
ci
rc
* I
F
on PW
1 t
he t
u
rb
id
it
y
i
s
l
e
ss t
han t
he DOE r
e
sponse but
gr
eat
e
r t
han t
h
e M
IN r
e
sponse t
he cy
cl
e w
ill s
k
ip
P
W
3
, P
W
4
.
**
Ci
rc
ul
at
ion and Heat
er
ON t
im
e
s f
o
r M
a
in
W
a
sh ar
e det
er
m
ined by
t
h
e t
u
rb
v
a
lie
s i
n
PW
1
**
* D
e
te
rg
e
n
t/
R
in
s
e
A
id
r
e
la
y
w
ill b
e
a
c
ti
v
a
te
d
in
F
R
NOT
E
: *
**
*P
W
2
, PW
5,
PR2 i
n
te
nt
ional
ly
l
e
ft
bl
ank due t
o
separ
at
in
g t
h
e added heat
f
unct
ional
it
y
i
n
to
i
ts ow
n cy
cl
e def
in
it
ion
ta
bl
e.
See Nor
m
_Aut
o+
AH cy
cl
e t
abl
e.
**
*
Cycle Chart