applianceassistant.com · 2016. 2. 14. · smi 7052 uc/14 fd 7402 and above..... 16 14 15 ¯ smi...
TRANSCRIPT
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SHx SERIES DISHWASHERSSHI 4302 UC/06, UC/11 & UC/12 ......................... 36 37 ¯ 40SHI 4306 UC/06, UC/11 & UC/12 ......................... 36 37 ¯ 40SHI 6802 UC/06, UC/11 & UC/12 ......................... 36 39 ¯ 40SHI 6805 UC/06, UC/11 & UC/12 ......................... 36 39 ¯ 40SHI 6806 UC/06, UC/11 & UC/12 ......................... 36 39 ¯ 40SHU 3002 UC/06 ....................................................... 33 34 35 ¯SHU 3006 UC/06 ....................................................... 33 34 35 ¯SHU 3012 UC/06 ....................................................... 33 34 35 ¯SHU 3016 UC/06 ....................................................... 33 34 35 ¯SHU 3032 UC/06, UC/11 & UC/12 ....................... 62 63 64 ¯SHU 3035 UC/12 ....................................................... 62 63 64 ¯SHU 3036 UC/06, UC/11 & UC/12 ....................... 62 63 64 ¯SHU 3132 UC/12 ....................................................... 62 63 64 ¯SHU 3135 UC/12 ....................................................... 62 63 64 ¯SHU 3136 UC/12 ....................................................... 62 63 64 ¯SHU 3302 UC/06, UC/11 & UC/12 ....................... 60 61 ¯ 67SHU 3305 UC/06, UC/11 & UC/12 ....................... 60 61 ¯ 67SHU 3306 UC/06, UC/11 & UC/12 ....................... 60 61 ¯ 67SHU 3307 UC/12 ........................................................ 60 61 ¯ 67SHU 3322 UC/06, UC/11 & UC/12 ....................... 60 61 ¯ 67SHU 3326 UC/06, UC/11 & UC/12 ....................... 60 61 ¯ 67SHU 3336 UC/06, UC/11 & UC/12 ....................... 60 61 ¯ 67SHU 4002 UC/06 ....................................................... 41 42 43 ¯SHU 4006 UC/06 ....................................................... 41 42 43 ¯SHU 4016 UC/06 ....................................................... 41 42 43 ¯SHU 4022 UC/06 ....................................................... 41 42 43 ¯SHU 4026 UC/06 ....................................................... 41 42 43 ¯SHU 4036 UC/06 ....................................................... 41 42 43 ¯SHU 4302 UC/06, UC/11 & UC/12 ....................... 36 37 ¯ 40SHU 4306 UC/06, UC/11 & UC/12 ....................... 36 37 ¯ 40SHU 4312 UC/06, UC/11 & UC/12 ....................... 36 37 ¯ 40SHU 4316 UC/06, UC/11 & UC/12 ....................... 36 37 ¯ 40SHU 4322 UC/12 ....................................................... 60 61 ¯ 67SHU 4326 UC/12 ....................................................... 60 61 ¯ 67SHU 5302 UC/06, UC/11 & UC/12 ....................... 36 38 ¯ 40SHU 5304 UC/06, UC/11 & UC/12 ....................... 36 38 ¯ 40SHU 5305 UC/06, UC/11 & UC/12 ....................... 36 38 ¯ 40SHU 5306 UC/06, UC/11 & UC/12 ....................... 36 38 ¯ 40SHU 5307 UC/12 ........................................................ 36 38 ¯ 40SHU 5312 UC/06, UC/11 & UC/12 ....................... 36 38 ¯ 40SHU 5314 UC/06, UC/11 & UC/12 ....................... 36 38 ¯ 40SHU 5315 UC/06, UC/11 & UC/12 ....................... 36 38 ¯ 40SHU 5316 UC/06, UC/11 & UC/12 ....................... 36 38 ¯ 40SHU 5317 UC/12 ........................................................ 36 38 ¯ 40SHU 6802 UC/06, UC/11 & UC/12 ....................... 36 39 ¯ 40SHU 6805 UC/06, UC/11 & UC/12 ....................... 36 39 ¯ 40SHU 6806 UC/06, UC/11 & UC/12 ....................... 36 39 ¯ 40
TABLE OF CONTENTSMODEL CIRCUIT WIRING TIMING TEST
DIAGRAM DIAGRAM DIAGRAM PROGRAM
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SHx SERIES DISHWASHERS (continued)SHU 8802 UC/12 ....................................................... 48 49 ¯ 66CSHU 8805 UC/12 ....................................................... 48 49 ¯ 66CSHU 8806 UC/12 ....................................................... 48 49 ¯ 66CSHU 8812 UC/12 ....................................................... 48 49 ¯ 66CSHU 8815 UC/12 ....................................................... 48 49 ¯ 66CSHU 8816 UC/12 ....................................................... 48 49 ¯ 66CSHU 9902 UC/06 ....................................................... 48 49 ¯ 65ASHU 9905 UC/06 ....................................................... 48 49 ¯ 65ASHU 9906 UC/06 ....................................................... 48 49 ¯ 65ASHU 9912 UC/06 & UC/11 ...................................... 48 49 ¯ 65BSHU 9912 UC/12 ....................................................... 48 49 ¯ 66ASHU 9915 UC/06 & UC/11 ...................................... 48 49 ¯ 65BSHU 9915 UC/12 ....................................................... 48 49 ¯ 66ASHU 9916 UC/06 & UC/11 ...................................... 48 49 ¯ 65BSHU 9916 UC/12 ....................................................... 48 49 ¯ 66ASHU 9922 UC/12 ....................................................... 48 49 ¯ 66BSHU 9925 UC/12 ....................................................... 48 49 ¯ 66BSHU 9926 UC/12 ....................................................... 48 49 ¯ 66BSHU 9952 UC/12 ....................................................... 68 69 ¯ 70SHU 9955 UC/12 ....................................................... 68 69 ¯ 70SHU 9956 UC/12 ....................................................... 68 69 ¯ 70SHV 4303 UC/06 & UC/11 ...................................... 48 49 ¯ 71ASHV 4303 UC/12 ........................................................ 48 49 ¯ 71BSHV 4803 UC/06 & UC/07 ....................................... 48 49 ¯ 71ASHV 4803 UC/12 ........................................................ 48 49 ¯ 71BSHV 6803 UC/12 ........................................................ 72 73 ¯ 74SMx SERIES DISHWASHERSSMI 7052 US/08, US/09 & UC/09 .......................... 10 12 15 ¯SMI 7052 UC/14 ......................................................... 10 13 15 ¯SMI 7052 UC/14 FD 7402 and above .................... 16 14 15 ¯SMI 7056 US/08, US/09 & UC/09 .......................... 10 12 15 ¯SMI 7056 UC/14 ......................................................... 10 13 15 ¯SMI 7056 UC/14 FD 7402 and above .................... 16 14 15 ¯SMU 2042 UC/09, UC/13 & UC/14 ....................... 01 02 03 ¯SMU 2046 UC/09, UC/13 & UC/14 ....................... 01 02 03 ¯SMU 3032 UC/14 ....................................................... 01 02 03 ¯SMU 3036 UC/14 ....................................................... 01 02 03 ¯SMU 4052 US/01 & US/09 ...................................... 04 06 08 ¯SMU 4052 US/08 ....................................................... 05 07 08 ¯SMU 4052 US/09 FD 7301 and above .................. 05 07 08 ¯SMU 4052 UC/09 & UC/14 ..................................... 05 07 08 ¯SMU 4056 US/01 & US/09 ...................................... 04 06 08 ¯SMU 4056 US/09 FD 7301 and above .................. 05 07 08 ¯SMU 4056 UC/09 & UC/14 ..................................... 05 07 08 ¯SMU 4092 UC/14 ....................................................... 17 18 19 ¯SMU 4096 UC/14 ....................................................... 17 18 19 ¯
TABLE OF CONTENTSMODEL CIRCUIT WIRING TIMING TEST
DIAGRAM DIAGRAM DIAGRAM PROGRAM
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TABLE OF CONTENTSMODEL CIRCUIT WIRING TIMING TEST
DIAGRAM DIAGRAM DIAGRAM PROGRAM
SMx SERIES DISHWASHERS (continued)SMU 7052 US/02, US/09 & UC/09 ........................ 09 11 15 ¯SMU 7052 UC/09 FD 7211 and above .................. 10 12 15 ¯SMU 7052 UC/14 FD 7406 and below .................. 10 13 15 ¯SMU 7052 UC/14 FD 7407 and above .................. 16 14 15 ¯SMU 7056 US/02, US/09 & UC/09 ........................ 09 11 15 ¯SMU 7056 UC/09 FD 7211 and above .................. 10 12 15 ¯SMU 7056 UC/14 FD 7406 and below .................. 10 13 15 ¯SMU 7056 UC/14 FD 7407 and above .................. 16 14 15 ¯GAS COOKTOPSNHT 712 EUC ............................................................. 32 ¯ ¯ ¯NHT 715 EUC ............................................................. 32 ¯ ¯ ¯NHT 716 EUC ............................................................. 32 ¯ ¯ ¯NHT 722 EUC .............................................................. 32 ¯ ¯ ¯NHT 725 EUC .............................................................. 32 ¯ ¯ ¯NHT 726 EUC .............................................................. 32 ¯ ¯ ¯NHT 912 EUC ............................................................. 32 ¯ ¯ ¯NHT 915 EUC ............................................................. 32 ¯ ¯ ¯NHT 916 EUC ............................................................. 32 ¯ ¯ ¯NHT 922 EUC ............................................................. 32 ¯ ¯ ¯NHT 925 EUC ............................................................. 32 ¯ ¯ ¯NHT 926 EUC ............................................................. 32 ¯ ¯ ¯ELECTRIC COOKTOPSNKT 712 EUC/01 & EUC/02 ................................... 21 20 ¯ ¯NKT 715 EUC/01 & EUC/02 ................................... 21 20 ¯ ¯NKT 716 EUC/01 & EUC/02 ................................... 21 20 ¯ ¯NKT 722 EUC/01 & EUC/02.................................... 55 54 ¯ ¯NKT 725 EUC/01 & EUC/02.................................... 55 54 ¯ ¯NKT 726 EUC/01 & EUC/02.................................... 55 54 ¯ ¯NKT 912 EUC/01 & EUC/02 ................................... 23 22 ¯ ¯NKT 915 EUC/01 & EUC/02 ................................... 23 22 ¯ ¯NKT 916 EUC/01 & EUC/02 ................................... 23 22 ¯ ¯NKT 922 EUC/01 & EUC/02 ................................... 57 56 ¯ ¯NKT 925 EUC/01 & EUC/02 ................................... 57 56 ¯ ¯NKT 926 EUC/01 & EUC/02 ................................... 57 56 ¯ ¯OVENSHBL 532 AUC .............................................................. 24 25 ¯ ¯HBL 535 AUC .............................................................. 24 25 ¯ ¯HBL 536 AUC .............................................................. 24 25 ¯ ¯HBL 542 AUC .............................................................. 26 27 ¯ ¯HBL 545 AUC .............................................................. 26 27 ¯ ¯HBL 546 AUC .............................................................. 26 27 ¯ ¯HBL 552 AUC .............................................................. 28 29A/B ¯ ¯HBL 555 AUC .............................................................. 28 29A/B ¯ ¯HBL 556 AUC .............................................................. 28 29A/B ¯ ¯HBL 562 AUC .............................................................. 30 31A/B ¯ ¯HBL 565 AUC .............................................................. 30 31A/B ¯ ¯HBL 566 AUC .............................................................. 30 31A/B ¯ ¯
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TABLE OF CONTENTSMODEL CIRCUIT WIRING TIMING TEST
DIAGRAM DIAGRAM DIAGRAM PROGRAM
OVENS (continued)HBL 632 AUC .............................................................. 50 ¯ ¯ ¯HBL 635 AUC .............................................................. 50 ¯ ¯ ¯HBL 636 AUC .............................................................. 50 ¯ ¯ ¯HBL/HBN 642 AUC .................................................. 51 ¯ ¯ ¯HBL/HBN 645 AUC .................................................. 51 ¯ ¯ ¯HBL/HBN 646 AUC .................................................. 51 ¯ ¯ ¯HBL/HBN 652 AUC .................................................. 52 ¯ ¯ ¯HBL/HBN 655 AUC .................................................. 52 ¯ ¯ ¯HBL/HBN 656 AUC .................................................. 52 ¯ ¯ ¯HBL/HBN 662 AUC .................................................. 53 ¯ ¯ ¯HBL/HBN 665 AUC .................................................. 53 ¯ ¯ ¯HBL/HBN 666 AUC .................................................. 53 ¯ ¯ ¯WASHERWFK 2401 UC/01 ....................................................... 44 45 ¯ ¯DRYERSWTA 3500 UC/04, UC/08 & UC/10 ....................... 46 47 ¯ ¯WTA 3500 UC/13 ......................................................... ¯ ¯ ¯ ¯WTL 5400 UC/04, UC/08 & UC/10........................ 46 47 ¯ ¯DOWNDRAFTSDHD 805 AUC ............................................................... ¯ 59 ¯ ¯DHD 865 AUC ............................................................... ¯ 58 ¯ ¯DHD 905 AUC ............................................................... ¯ 59 ¯ ¯DHD 965 AUC ............................................................... ¯ 58 ¯ ¯DHG 565 AUC............................................................... ¯ ¯ ¯ ¯
DIAGRAM #1
L1
a1e1
b2 u1
u2
u3
u8u4
u64a
4
3a3
b
b
b
b
a
aa
ba
3 4
h1
m3
m1
m2b1
f4161˚
F
s2
f6
185˚
F
185˚
F
r1 Hz f5
1 2
N
12
34
56
78
910
11
Sym
bol K
ey
SM
U 2
0/3
0
curr
ent p
ath
a1O
N/O
FF S
WIT
CH
2e1
DO
OR
SW
ITC
H4
f4TH
ER
MO
STA
T 16
1˚F
8f5
HIG
H L
IMIT
185
˚F
11f6
HIG
H L
IMIT
185
˚F
11m
1TI
ME
R M
OTO
R
9u–
TIM
ER
CO
NTA
CTS
–
Sym
bol K
ey
curr
ent p
ath
m2
CIR
CU
LATI
ON
MO
TOR
10m
3D
RA
IN M
OTO
R5
r1H
EAT
ING
ELE
ME
NT
11s2
WAT
ER
SO
LEN
OID
7h1
ON
/OFF
LA
MP
3
Sel
ecto
r Sw
itch
Con
tact
s
RIN
SE
& H
OLD
RE
GU
LAR
PO
TS &
PA
NS
b1 b1 +
b2
DIAGRAM #2c/u 1 737 203 495
1 739 910 909
WH
–1L–
N
BK–
1L–L
1
WH
RD
–e1
VT–
u2b
BU
RD
–e1
WH
–u8a
GN
–u4a
WH
VT–
u–m
1W
HV
T–f5
–3
3a3
4a4
b2 4
b2 3
b1 2
b1 1
On
– O
ff /
Sel
ecto
r Sw
itche
s –
a1 &
b
a1b
H1
BK–
m3
BK–
m2–
2B
N–m
2–3
Cap
acito
r – k
1G
YR
D–u
1bW
HG
N–f
5–3
BK–
k1
BN
–s2
GN
YE
–1L–
PE
3
Dra
in M
otor
– m
3B
N–m
3
BU
WH
–u3a
Wat
er S
olen
oid
– s2
Term
inal
Blo
ck –
1L
BK–
a1–4
a
WH
–a1–
3a
GN
YE
–PE
–1G
NY
E–m
3G
NY
E–r
1G
NY
E–P
E–2
L1 N
PE
3
BU
RD
–f6–
3G
NY
E–1
L–P
E3
GN
YE
–m2
RD
–f5–
1
Hea
ing
Ele
men
t – r1
BU
RD
–b2–
3B
UR
D–u
6
Doo
r Sw
itch
– e1 W
HR
D–a
1–4
Ther
mos
tats
– f4 W
H–f
6–2
YE
–u3b
161˚
F
Hig
h Li
mit
– f5
RD
–r1
WH
–u8a
WH
–f6–
2
WH
VT–
a1–3
WH
GN
–m3
185˚
F1
23
Hig
h Li
mit
– f6
GY
BK–
u6a
WH
–f5–
2W
H–f
4
BU
RD
–r1
185˚
F1
23
WH
GN
–u4b
BK–
k1
BN
–k1
GN
YE
–r1
Circ
ulat
ion
Mot
or –
m2
1
23
GN
–b1–
1
WH
–b1–
2W
H–f
5–2
GY
BK–
f6–1
GY
BK–
u6b
VT–
b2–4
WH
GN
–m2–
1G
YB
K–u6
a
BU
RD
–e1
BU
WH
–s2
WH
VT–
a1–3
YE
–f4
GY
RD
–m3
m1
Tim
er –
u
1b1a12a2
4b4a4
6b6a6
8b8a8
3b3a3
5b5a5
7b7a7
2b
Gro
und
– P
E
GN
YE
–1L–
PE
32
GN
YE
–1L–
PE
31
1M
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
SM
U 2
0/3
0
B DIAGRAM #3c/u 1 737 203 495
1 739 910 844
PR
E–W
AS
HP
RE
–RIN
SE
DR
YIN
GW
AS
H W
/ H
EAT
RIN
SE
W/
HE
AT
T I M E R C O N T A C T S W A T E R L E V E L
TIM
E IN
SE
CO
ND
STI
ME
R P
OS
ITIO
N
OP
ER
ATIO
N
WA
SH
/RIN
SE
161˚
F /1
61˚F
161˚
F /1
61˚F
1 2 3 4 5 6 7 8
WA
SH
STA
LL
Dra
in M
otor
Blo
ck E
cono
my
Wat
er S
olen
oid
161˚
F Th
erm
osta
tTi
mer
Sto
pC
ircul
atio
n M
otor
Hea
ting
Dry
ing
Tim
er M
otor
Rin
se &
Hol
d
PR
OG
RA
M
Reg
ular
Pot
s &
Pan
s
a b a b a b a b a b a b a b a b
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
4142
4344
4546
4748
4950
5152
5354
5556
5758
5960
55
55
55
606060606060
6060606060606060
606060606060606060606060
60
6060606060606060606060606060605OFFOFF
f455
555
3030
60f4
55
550
P
PStop
F+U
F+UF+UF+UH+U+RH+UH+UUUUUUUUU
UUU
UUUP
PF+U
F+U
P+UF+U
F+UH+UH+UU+KUUUUPHTTTTTTTTTTHP
P
UUUU
RIN
SE
STA
LL
161˚
161˚
161˚
161˚
TIM
ING
KE
Y (T
IME
FOR
SE
NS
OR
TO
BE
SAT
ISFI
ED
)
f4 =
161
˚F T
herm
osta
t
OP
ER
ATIO
N K
EY
DR
AIN
ING
P=
FILL
ING
F=
CIR
CU
LATI
ON
U=
DE
TER
GE
NT
DIS
PE
NS
ING
R=
RIN
SE
–AID
DIS
PE
NS
ING
K=
DR
YIN
GT
=H
EAT
ING
H=
SM
U 2
0/3
0
DIAGRAM #4c/u 1 737 203 495
1 739 910 843
b1
a1e1
b2 u1
f3 b3
u2u4
u3
u8u6
4a4
3a3
b
b
b
b
aa
aa
ba
4 2
h1
m3
m1
m2
f4161˚
F
s2
f6185˚
F
185˚
F
r1 f5
1 5
6 5
12
34
56
78
910
11
e6
125˚
F
L1
N Sym
bol K
ey
curr
ent p
ath
a1O
N/O
FF S
WIT
CH
2e1
DO
OR
SW
ITC
H4
f3TH
ER
MO
STA
T 12
5˚F
6e6
FLO
AT S
WIT
CH
7
f4TH
ER
MO
STA
T 16
1˚F
8f5
HIG
H L
IMIT
185
˚F11
f6H
IGH
LIM
IT 1
85˚F
11
Sym
bol K
ey
curr
ent p
ath
m1
TIM
ER
MO
TOR
6m
2C
IRC
ULA
TIO
N M
OTO
R10
m3
DR
AIN
MO
TOR
5r1
HE
ATIN
G E
LEM
EN
T11
s2W
ATE
R S
OLE
NO
ID7
h1O
N/O
FF L
AM
P3
u–TI
ME
R C
ON
TAC
TS–
Sel
ecto
r Sw
itch
Con
tact
s
RIN
SE
& H
OLD
RE
GU
LAR
b1E
CO
NO
MY
b1 +
b3
PO
TS &
PA
NS
b1 +
b2
SM
U 4
052/
405
6U
S/0
1 &
US
/09
up to
FD
721
2
DIAGRAM #5c/u 1 737 203 495
1 739 910 865
b4
b1
L1
a1e1
b2 u1
u2
u3 e6
u8u4
u64a
4
3a3
b
b
b
b
aa
aa
b 2a 2
a
4 2
h1
f3
125˚
F
m3
m1
m2
b3
f4161˚
F
s2
f6185˚
F
185˚
F
r1 Hz f5
1 5
6 5
N
12
34
56
78
910
11
Sym
bol K
ey
curr
ent p
ath
a1O
N/O
FF S
WIT
CH
2e1
DO
OR
SW
ITC
H4
f3TH
ER
MO
STA
T 12
5˚F
6e6
FLO
AT S
WIT
CH
7
f4TH
ER
MO
STA
T 16
1˚F
8
f5H
IGH
LIM
IT 1
85˚F
11
f6H
IGH
LIM
IT 1
85˚F
11
Sym
bol K
ey
curr
ent p
ath
m1
TIM
ER
MO
TOR
6m
2C
IRC
ULA
TIO
N M
OTO
R10
m3
DR
AIN
MO
TOR
5r1
HE
ATIN
G E
LEM
EN
T11
s2W
ATE
R S
OLE
NO
ID7
h1O
N/O
FF L
AM
P3
u–TI
ME
R C
ON
TAC
TS–
Sel
ecto
r Sw
itch
Con
tact
s
RIN
SE
& H
OLD
RE
GU
LAR
b1 +
b4
EC
ON
OM
Yb1
+ b
3
PO
TS &
PA
NS
b1 +
b2
+ b
4
SM
U 4
052
US
/08
& S
MU
405
2/4
056
US
/09
abov
e FD
73
01,
UC
/09
& U
C/1
4
DIAGRAM #6c/u 1 737 203 495
1 739 910 814
BK–
m3
BK–
m2–
2B
N–m
2–3
Cap
acito
r – k
1
GY
RD
–u1b
WH
GN
–f5
BK–
k1
BN
–s2
GN
YE
–1L–
PE
3
Dra
in M
otor
– m
3
Term
inal
Blo
ck –
1L
BK–
a1–4
a
WH
–a1–
3a
GN
YE
–PE
–1G
NY
E–m
3G
NY
E–r
1G
NY
E–P
E–2
L1 N
PE
3
GY
BK–
f6G
NY
E–1
L–P
E3
GN
YE
–m2
RD
–f5
Hea
ting
Ele
men
t – r1B
UR
D–b
2–4
BU
RD
–u6
Doo
r Sw
itch
– e1 W
HR
D–a
1–4
WH
GN
–u4b
BK–
k1
BN
–k1
GN
YE
–r1
Circ
ulat
ion
Mot
or –
m2
1
23
BN
–m3
BU
–e6–
2
Wat
er S
olen
oid
– s2
GN
–b1–
1
WH
–b3–
5W
H–f
4G
YB
K–f6
GY
BK–
u6b
VT–
b2–2
WH
GN
–m2–
1G
YB
K–u6
a
BU
RD
–e1
BU
WH
–e6–
1
WH
VT–
a1–3
YE
–f4
GY
RD
–m3
m1
Tim
er –
u
1b1a12a2
4b4a4
6b6a6
8b8a8
3b3a3
5b5a5
7b7a7
2b
BN
–f3
WH
–1L–
N
BK–
1L–L
1
WH
RD
–e1
WH
–u8a
BU
RD
–e1
VT–
u2b
GN
–u4a
WH
VT–
u–m
1W
HV
T–f5
3a3
4a4
b1 +
b3
5b3
6
b2 4
b4 3
b2 2
b1 1
On
– O
ff /
Sel
ecto
r Sw
itche
s –
a1 &
b
a1b
H1
RD
–f3
Ther
mos
tats
—f3
& f4
WH
–u8a
YE
–u3b
161˚
F
RD
–b3–
6
BN
–u1a
125˚
F
f3f4
Hig
h Li
mits
– f5
& f6
RD
–r1
WH
VT–
a1–3
WH
GN
–m3
185˚
F
185˚
Ff5 f6
GY
BK–
r1G
YB
K–u6
a
Floa
t Sw
itch
– e6
14 2
BU
WH
–u3a
BU
–s2
Gro
und
– P
E
GN
YE
–1L–
PE
32
GN
YE
–1L–
PE
31
1M
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
SM
U 4
052/
405
6U
S/0
1 &
US
/09
up to
FD
721
2
DIAGRAM #7c/u 1 737 203 495
1 739 910 866
BK–
m3
BK–
m2–
2B
N–m
2–3
Cap
acito
r – k
1
GY
RD
–u1b
WH
GN
–f5–
3B
K–k1
BN
–s2
GN
YE
–1L–
PE
3
Dra
in M
otor
– m
3
Term
inal
Blo
ck –
1L
BK–
a1–4
a
WH
–a1–
3a
GN
YE
–PE
–1G
NY
E–m
3G
NY
E–r
1G
NY
E–P
E–2
L1 N
PE
3
BU
RD
–f6–
3G
NY
E–1
L–P
E3
GN
YE
–m2
RD
–f5–
1
Hea
ting
Ele
men
t – r1
BU
RD
–b2–
4B
UR
D–u
6
Doo
r Sw
itch
– e1 W
HR
D–a
1–4
WH
GN
–u4b
BK–
k1
BN
–k1
GN
YE
–r1
Circ
ulat
ion
Mot
or –
m2
1
23
BN
–m3
BU
–e6–
2
Wat
er S
olen
oid
– s2
GN
–b1–
1
WH
–b3–
5W
H–f
5–2
GY
BK–
f6–1
GY
BK–
b4–2
VT–
b2–2
WH
GN
–m2–
1R
D–b
4–2a
BU
RD
–e1
BU
WH
–e6–
1
WH
VT–
a1–3
YE
–f4
GY
RD
–m3
m1
Tim
er –
u
1b1a12a2
4b4a4
6b6a6
8b8a8
3b3a3
5b5a5
7b7a7
2b
BN
–f3
Ther
mos
tats
– f3
& f4
WH
–f6–
2
YE
–u3b
161˚
F
RD
–b3–
6
BN
–u1a
125˚
F
f3f4
Floa
t Sw
itch
– e6
14 2
BU
WH
–u3a
BU
–s2
WH
–1L–
N
BK–
1L–L
1
WH
RD
–e1
WH
–u8a
BU
RD
–e1
VT–
u2b
GN
–u4a
WH
VT–
u–m
1W
HV
T–f5
–3
3a2a
23
4a4
b1 +
b3
5b3
6
b2 4
b4 3
b2 2
b1 1
On
– O
ff /
Sel
ecto
r Sw
itche
s –
a1 &
b
a1b
H1
RD
–f3
RD
–u6b
GY
BK–
u6a
b4
Hig
h Li
mit
– f5
RD
–r1
WH
–u8a
WH
–f6–
2
WH
VT–
a1–3
WH
GN
–m3
185˚
F1
23
Hig
h Li
mit
– f6
GY
BK–
u6a
WH
–f5–
2W
H–f
4
BU
RD
–r1
185˚
F1
23
Gro
und
– P
E
GN
YE
–1L–
PE
32
GN
YE
–1L–
PE
31
1M
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
SM
U 4
052
US
/08
& S
MU
405
2/4
056
US
/09
abov
e FD
73
01,
UC
/09
& U
C/1
4
BDIAGRAM #8c/u 1 737 203 495
1 739 910 844P
RE
–WA
SH
PR
E–R
INS
ED
RY
ING
WA
SH
W/
HE
ATR
INS
E W
/ H
EAT
T I M E R C O N T A C T S W A T E R L E V E L
TIM
E IN
SE
CO
ND
STI
ME
R P
OS
ITIO
N
OP
ER
ATIO
N
WA
SH
/RIN
SE
161˚
F /1
61˚F
125˚
F /1
61˚F
161˚
F /1
61˚F
1 2 3 4 5 6 7 8
WA
SH
STA
LL
125˚
F T
herm
osta
tD
rain
Mot
or
Blo
ck E
cono
my
Wat
er S
olen
oid
161˚
F T
herm
osta
tTi
mer
Sto
pC
ircul
atio
n M
otor
Hea
ting
Dry
ing
Tim
er M
otor
Rin
se &
Hol
d
Reg
ular
Eco
nom
y
Pot
s &
Pan
s
a b a b a b a b a b a b a b a b
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
4142
4344
4546
4748
4950
5152
5354
5556
5758
5960
55
55
55
606060606060
6060606060606060
606060606060606060606060
60
6060606060606060606060606060605OFFOFF
f455
555
3030
60f3/f4
55
550
P
PStop
F+U
F+UF+UF+UH+U+RH+UH+UUUUUUUUU
UUU
UUUP
PF+U
F+U
P+UF+U
F+UH+UH+UU+KUUUUPHTTTTTTTTTTHP
P
UUUU
RIN
SE
STA
LL
161˚
161˚
161˚
161˚
125˚
16
1˚
1
1U
nhea
ted
Dry
Cyc
le•
SM
U 4
000
U
S/0
9 FD
7312
& A
BO
VE
U
C/0
9+
PR
OG
RA
M
TIM
ING
KE
Y (T
IME
FOR
SE
NS
OR
TO
BE
SAT
ISFI
ED
)
f3 =
125
˚F T
herm
osta
tf4
= 1
61˚F
The
rmos
tat
OP
ER
ATIO
N K
EY
DR
AIN
ING
P=
FILL
ING
F=
CIR
CU
LATI
ON
U=
DE
TER
GE
NT
DIS
PE
NS
ING
R=
RIN
SE
–AID
DIS
PE
NS
ING
K=
DR
YIN
GT
=H
EAT
ING
H=
SM
U 4
052/
405
6 al
l
DIAGRAM #9c/u 1 737 203 490
1 739 910 821L1
a1e1
u3u2
u5u7
u1 105˚
F
uK4a
4
3a3
bb
aa
ba
bb
ba
aa
51
N1
23
45
67
89
1011
12
12–6
1314
14
f218
5˚F
f6f3
f4
125˚
F 16
1F
h1e3
r1
185˚
F
f5
m2
h4e6 s2
m1
m3
h3uK
1716
15121
1
2
2
3 3
4
4
5b/
5U
–12/
b/7
b/8
b/6
b3b2
a1b1
b2b3
b4b5
b6
Sym
bol K
ey
a1O
N/O
FF S
WIT
CH
2e1
DO
OR
SW
ITC
H4
e6FL
OAT
SW
ITC
H8
e3R
EE
D S
WIT
CH
4
f3TH
ER
MO
STA
T 12
5˚F
9f2
THE
RM
OS
TAT
105˚
F
13
f4TH
ER
MO
STA
T 16
1˚F
10f5
HIG
H L
IMIT
185
˚F
5f6
HIG
H L
IMIT
185
˚F
5
Sym
bol K
ey
h1O
N/O
FF L
AM
P3
h3R
INS
E A
ID L
AM
P4
h4C
LEA
N L
AM
P7
m1
TIM
ER
MO
TOR
11m
2C
IRC
ULA
TIO
N M
OTO
R6
m3
DR
AIN
MO
TOR
12r1
HE
ATIN
G E
LEM
EN
T5
s2W
ATE
R S
OLE
NO
ID8
ukR
AP
ID A
DVA
NC
E S
OLE
NO
ID14
curr
ent p
ath
curr
ent p
ath
u–TI
ME
R C
ON
TAC
TS–
Sel
ecto
r Sw
itch
Con
tact
s
EC
ON
OM
Yb3
QU
ICK
WA
SH
b2R
INS
E &
HO
LDb1
LIG
HT
CH
INA
b4
PO
TS &
PA
NS
b6R
EG
ULA
Rb5
CA
NC
EL
DR
AIN
b1 &
b2
SM
U 7
052/
705
6 U
S/0
2,U
S 0
9 &
VC
/09
up to
FD
721
0
DIAGRAM #10c/u 1 737 203 490
1 739 910 821L1
a1e1
u3u5
u2
2a
u7u1 10
5˚F
uK4a
4
3a3
bb
aa
ba
bb
ba
aa
51
N1
23
45
67
89
1011
12
12–6
1314
14
f218
5˚F
f6f3
f4
125˚
F16
1F
h1e3
r1
185˚
F
f5
m2
h4e6 s2
m1
m3
h3uK
1716
15121
1
2
2
3 3
4
4
5b/
512
/
b/7
8
b–6
b3b2
a1b1
b2b3
b4b5
b6
2b1
Sym
bol K
ey
a1O
N/O
FF S
WIT
CH
2e1
DO
OR
SW
ITC
H4
e6FL
OAT
SW
ITC
H8
e3R
EE
D S
WIT
CH
4
f3TH
ER
MO
STA
T 12
5˚ F
9f2
THE
RM
OS
TAT
105˚
F13
f4TH
ER
MO
STA
T 16
1˚ F
10f5
HIG
H L
IMIT
185
˚ F
5f6
HIG
H L
IMIT
185
˚ F5
Sym
bol K
ey
h1O
N/O
FF L
AM
P3
h3R
INS
E A
ID L
AM
P4
h4C
LEA
N L
AM
P7
m1
TIM
ER
MO
TOR
11m
2C
IRC
ULA
TIO
N M
OTO
R6
m3
DR
AIN
MO
TOR
12r1
HE
ATIN
G E
LEM
EN
T5
s2W
ATE
R S
OLE
NO
ID8
ukR
AP
ID A
DVA
NC
E S
OLE
NO
ID14
curr
ent p
ath
curr
ent p
ath
u–TI
ME
R C
ON
TAC
TS–
Sel
ecto
r Sw
itch
Con
tact
s
EC
ON
OM
Yb3
QU
ICK
WA
SH
b2R
INS
E &
HO
LDb1
LIG
HT
CH
INA
b4
PO
TS &
PA
NS
b6R
EG
ULA
Rb5
CA
NC
EL
DR
AIN
b1 &
b2
SM
I 705
2/70
56
US
/08,
US
/09,
UC
/09
& U
C/1
4an
d S
MU
705
2/70
56
UC
/09
abov
e FD
721
1 &
UC
/14
up to
FD
74
06
DIAGRAM #11c/u 1 737 203 490
1 739 910 822
BK–
m3
BK–
m2–
2B
N–m
2–3
Cap
acito
r – k
1
GY
BK–
f6G
NY
E–1
L–P
E3
GN
YE
–m2
RD
–f5
Hea
ting
Ele
men
t – r1
WH
VT–
b6W
HV
T–u2
Doo
r Sw
itch
– e1
WH
RD
–a1–
4W
HR
D–e
3
WH
GN
–u3b
BK–
k1
BN
–k1
GN
YE
–r1
Circ
ulat
ion
Mot
or –
m2
1
23
BN
–m3
BU
–e6–
2
Wat
er S
olen
oid
– s2
Ther
mos
tats
– f2
, f3
& f4
WH
–u8a
WH
–f4
YE
–u7b
161˚
F
WH
–f3
BN
–u5a
125˚
F
f3
WH
–b8
WH
–b7
GY–
u1a
105˚
F
f2f4
Hig
h Li
mits
– f5
& f6
RD
–r1
WH
VT–
a1–3
WH
GN
–m3
185˚
F
185˚
Ff5 f6
GY
BK–
r1G
YB
K–u2
a
Floa
t Sw
itch
– e6
14
2
BU
WH
–u5b
BU
–s2
WH
GN
–m2–
1
WH
–f3
GY
BK–
f6
GY
BK–
u2a
GY–
f2
GY
BK–
u2b
WH–b4WH–b3WH–b2WH–b1
BK–h3+h4W
GV
T–e1
BU
WH
–e6–
1
VT–
h4
YE
–f4
GY
RD
–m3
Tim
er –
u
1b1a12a2
4b4a4
6b6a6
8b8a8
3b3a3
5b5a5
7b7a7
2b
2 WH–b5
13
45
6U
–12
BN
–f3
Term
inal
Blo
ck –
1L
BK–
a1–4
a
WH
–a1–
3a
GN
YE
–PE
–1G
NY
E–m
3
GN
YE
–r1
GN
YE
–PE
–2
L1 N PE
3
WH
–f2
WH
–1L–
N
WH
GN
–f5
BK–
h3+
h4
WH
RD
–e1
BK–
1L–L
1
WH
–f2
WH
VT–
e1W
H–u
–12–
1W
H–u
–12–
2W
H–u
–12–
3W
H–u
–12–
4W
H–u
–12–
5
3a3
4a4
567 4 3 2 1
On
– O
ff /
Sel
ecto
r Sw
itche
s –
a1 &
b
a1
b/
H1
8
GY
RD
–u1b
WH
GN
–f5
BK–
k1B
N–s
2
GN
YE
–1L–
PE
3
Dra
in M
otor
– m
3
L1
BN
WH
–h3
Ree
d S
witc
h –
e3
WH
RD
–e1
N S
Cle
an/R
inse
Aid
Lam
ps –
h3/
h4
H3
Rin
se
H4
Cle
an
BN
WH
–e3
BK–
a1–3
BK–
u–L2
–6
VT–
u3a
Gro
und
– P
E
GN
YE
–1L–
PE
32
GN
YE
–1L–
PE
31
1M
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
SM
U 7
052/
705
6U
S/0
2, U
S/0
9&
UC
/09
up to
FD
721
0
DIAGRAM #12c/u 1 737 203 490
1 739 910 860
BK–
m3
BK–
m2–
2B
N–m
2–3
Mot
or C
apac
itor –
k1
GY
BK–
f6G
NY
E–1
L–P
E3
GN
YE
–m2
RD
–f5
Hea
ting
Ele
men
t – r1
WH
VT–
b6W
HV
T–u2
Doo
r Sw
itch
– e1
WH
RD
–a1–
4W
HR
D–e
3
WH
GN
–u3b
BK–
k1
BN
–k1
GN
YE
–r1
Circ
ulat
ion
Mot
or –
m2
1
23
BN
–m3
BU
–e6–
2
Wat
er S
olen
oid
– s2
Ther
mos
tats
– f2
, f3
& f4
WH
–u8a
WH
–f4
YE
–u7b
161˚
F
WH
–f3
BN
–u5a
125˚
F
f3
WH
–b8
WH
–b7
GY–
u1a
105˚
F
f2f4
Hig
h Li
mits
– f5
& f6
RD
–r1
WH
VT–
a1–3
WH
GN
–m3
185˚
F
185˚
Ff5 f6
GY
BK–
r1G
YB
K–u2
a
Floa
t Sw
itch
– e6
14
2
BU
WH
–u5b
BU
–s2
WH
GN
–m2–
1
WH
–f3
GY
BK–
f6
GY
BK–
u2a
GY–
f2
GY
BK–
u2b
WH–b4WH–b3WH–b2WH–b1
BK–h3+h4W
GV
T–e1
BU
WH
–e6–
1
VT–
h4
YE
–f4
GY
RD
–m3
Tim
er –
u
1b1a12a2
4b4a4
6b6a6
8b8a8
3b3a3
5b5a5
7b7a7
2b
2 WH–b5
13
45
6U
–12/
BN
–f3
Term
inal
Blo
ck –
1L
BK–
a1–4
a
WH
–a1–
3a
GN
YE
–PE
–1G
NY
E–m
3
GN
YE
–r1
GN
YE
–PE
–2
L1 N PE
3
WH
–f2
WH
–1L–
N
WH
GN
–f5
BK–
h3+
h4
WH
RD
–e1
BK–
1L–L
1
WH
–f2
WH
VT–
e1W
H–u
–12–
1W
H–u
–12–
2W
H–u
–12–
3W
H–u
–12–
4W
H–u
–12–
5
3a3
4a4
567 4 3 2 1
On/
Off
Sel
ecto
r Sw
itche
s –
a1 &
b
a1
b/
H1
8
GY
RD
–u1b
WH
GN
–f5
BK–
k1B
N–s
2
GN
YE
–1L–
PE
3
Dra
in M
otor
– m
3
L1
BN
WH
–h3
Ree
d S
witc
h –
e3
WH
RD
–e1
N S
Cle
an/R
inse
Aid
Lam
ps –
h3/
h4
h3 Rin
se
h4 Cle
an
BN
WH
–e3
BK–
a1–3
BK–
u–L2
–6
VT–
u3a
Gro
und
– P
E
GN
YE
–1L–
PE
32
GN
YE
–1L–
PE
31
1M
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
SM
I 705
2/70
56
US
/08,
US
/09
& U
C /
09
and
SM
U 7
052/
705
6U
C/0
9 ab
ove
7211
DIAGRAM #13c/u 1 737 203 490
1 739 910 933
BK–
m3
BK–
m2–
2B
N–m
2–3
Mot
or C
apac
itor –
k1
BU
RD
–f6–
3G
NY
E–1
L–P
E3
GN
YE
–m2
RD
–f5–
1
Hea
ting
Ele
men
t – r1
WH
VT–
b6W
HV
T–u2
Doo
r Sw
itch
– e1
WH
RD
–a1–
4W
HR
D–e
3
WH
GN
–u3b
BK–
k1
BN
–k1
GN
YE
–r1
Circ
ulat
ion
Mot
or –
m2
1
23
WH
–f5–
2W
H–f
6–2
YE
–u7b
161˚
F
WH
–f6–
2
BN
–u5a
125˚
F
f3
WH
–b8
WH
–b7
GY–
u1a
105˚
F
f2f4
Floa
t Sw
itch
– e6
14
2
BU
WH
–u5b
BU
–s2
WH
GN
–m2–
1
WH
–f5-
2
GY
BK–
f6–1
GY
BK–
u2a
GY–
f2
GY
BK–
u2b
WH–b4WH–b3WH–b2WH–b1
BK–h3+h4W
GV
T–e1
BU
WH
–e6–
1
VT–
b1–2
YE
–f4
GY
RD
–m3
Tim
er –
u
1b1a12a2
4b4a4
6b6a6
8b8a8
3b3a3
5b5a5
7b7a7
2b
2 WH–b5
13
45
6U
–12/
BN
–f3
Term
inal
Blo
ck –
1L
BK–
a1–4
a
WH
–a1–
3a
GN
YE
–PE
–1G
NY
E–m
3
GN
YE
–r1
GN
YE
–PE
–2
L1 N PE
3
GY
RD
–u1b
WH
GN
–f5–
3B
K–k1
BN
–s2
GN
YE
–1L–
PE
3
Dra
in M
otor
– m
3
L1
BN
WH
–h3
Ree
d S
witc
h –
e3
WH
RD
–e1
N S
h3 Rin
se
h4 Cle
an
BN
WH
–e3
BK–
a1–3
BK–
u–12
–6
VT–
b1–2
a
Hig
h Li
mit
– f5
RD
–r1
WH
–u7a
WH
–f3
WH
GN
–a1–
3W
HG
N–m
3
185˚
F
1
23
Hig
h Li
mit
– f6
GY
BK–
u2a
WH
–f4
WH
–f3
BU
RD
–r1
185˚
F
1
23
BN
–m3
BU
–e6–
2
Wat
er S
olen
oid
– s2
Full
WH
–f2
WH
–1L–
N
WH
GN
–f5–
3B
K–h3
+h4
WH
RD
–e1
BK–
1L–L
1
WH
–f2
WH
VT–
e1W
H–u
–12–
1W
H–u
–12–
2W
H–u
–12–
3W
H–u
–12–
4W
H–u
–12–
5
3a3
4a4
567 4 3 2 1
a1b1
h1
8
VT–
h4VT–
u3a
2a2
Gro
und
– P
E
GN
YE
–1L–
PE
32
GN
YE
–1L–
PE
31
1M
Ther
mos
tats
– f2
, f3
& f4
On/
Off
Sel
ecto
r Sw
itch
– a1 b/
Cle
an/R
inse
Aid
Lam
ps –
h3/
h4
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
SM
I 705
2/70
56
UC
/14
up to
FD
74
01an
d S
MU
705
2/70
56
UC
/14
up to
FD
74
06
DIAGRAM #14c/u 1 737 203 490
BK–
m3
BK–
m2–
2B
N–m
2–3
BU
RD
–f6–
3G
NY
E–1
L–P
E3
GN
YE
–m2
RD
–f5–
1
Hea
ting
Ele
men
t – r1
RD
–b8
WH
VT–
u2
Doo
r Sw
itch
– e1
WH
RD
–a1–
4
WH
GN
–u3b
BK–
k1
BN
–k1
GN
YE
–r1
Circ
ulat
ion
Mot
or –
m2
1
23
WH
–f5–
2W
H–f
6–2
YE
–u7b
161˚
F
WH
–f6–
2
BN
–u5a
125˚
F
f3
VT–
b2G
N–b
6
GY–
u1a
105˚
F
f2f4
Floa
t Sw
itch
– e6
14
2
BU
WH
–u5b
BU
–s2
WH
GN
–m2–
1
WH
–f5–
2
GY
BK–
f6–1
GY
BK–
u2a
GY–
f2
GY
BK–
u2b
BURD–b3YE–b7
WH–b5BNWH–b4BK–h3+h4
WH
VT–
e1W
HR
D–e
3
BU
WH
–e6–
1
VT–
b–2b
YE
–f4
GY
RD
–m3
Tim
er –
u
1b1a12a2
4b4a4
6b6a6
8b8a8
3b3a3
5b5a5
7b7a7
2b
2 VTBK–b1
13
45
6
BN
–f3
Term
inal
Blo
ck –
1L
BK–
a1–4
a
WH
–a1–
3a
GN
YE
–PE
–1G
NY
E–m
3
GN
YE
–r1
GN
YE
–PE
–2
L1 N PE
3
GY
RD
–u1b
WH
GN
–f5–
3B
K–k1
BN
–s2
GN
YE
–1L–
PE
3
Dra
in M
otor
– m
3
L1
BN
WH
–h3
Ree
d S
witc
h –
e3
WH
RD
–u2
N S
h3 Rin
se
h4 Cle
an
BN
WH
–e3
BK–
a1–3
BK–
u–L2
–6
VT–
b1–2
a
Hig
h Li
mit
– f5
RD
–r1
WH
–u7a
WH
–f3
WH
GN
–a1–
3W
HG
N–m
318
5˚F
1
23
Hig
h Li
mit
– f6
GY
BK–
u2a
WH
–f4
WH
–f3
BU
RD
–r1
185˚
F1
23
BN
–m3
BU
–e6–
2
Wat
er S
olen
oid
– s2
Full
RD
–e1
WH
–1L–
N
WH
GN
–f5–
3B
K–h3
+h4
WH
RD
–e1
BK–
1L–L
1
YE
–u–1
2–3
GN
–f2
WH
–u–1
2–4
BN
WH
–u–1
2–5
BU
RD
–u–1
2–2
VT–
f2V
TBK–
u–12
–1
3a3
4a4
567 4 3 2 1
a1b1
h1
8
VT–
h4VT–
u3a
2a2
Gro
und
– P
E
GN
YE
–1L–
PE
32
GN
YE
–1L–
PE
31
1M
Mot
or C
apac
itor –
k1
U–1
2/
Ther
mos
tats
– f2
, f3
& f4
On/
Off
Sel
ecto
r Sw
itch
– a1 b/
Cle
an/R
inse
Aid
Lam
ps –
h3/
h4
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
SM
I 705
2/70
56
UC
/14
abov
e FD
74
02an
d S
MU
705
2/70
56
UC
/14
abov
e FD
74
07
B DIAGRAM #15c/u 1 737 203 490
1 739 910 823P
RE
–WA
SH
PR
E–R
INS
ED
RY
ING
WA
SH
W/
HE
ATR
INS
E W
/ H
EAT
T I M E R C O N T A C T S
TIM
E IN
SE
CO
ND
STI
ME
R P
OS
ITIO
N
OP
ER
ATIO
N
WA
SH
/RIN
SE
125˚
F/16
1˚F
105˚
F/16
1˚F
161˚
F/16
1˚F
161˚
F/16
1˚F
161˚
F/16
1˚F
1 2 3 4 5 6 7 8 11
WA
SH
STA
LL
105˚
F Th
erm
osta
tD
rain
Mot
or
125˚
F Th
erm
osta
tW
ater
Sol
enoi
d
Hea
ting
Dry
ing
Tim
er M
otor
161˚
F Th
erm
osta
t
Rin
se &
Hol
d
Reg
ular
Qui
ck W
ash
Pot
s &
Pan
s
a b a b a b a b a b a b a b a b
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
4142
4344
4546
4748
4950
5152
5354
5556
5758
5960
OFFOFF
2.5
60
115
25303090120120
120120606030303030
6060606012060606060120f3f3 / f4
30
60606012060606060602.5
f352.5
3060
6060
f3 / f4f3 / f2
3030
6060
P
UU+P
P
PF+UU+HU+HU+HU+HUUUUUU+PPF+U
PF+UU
UPF+UU+H
PF+U
U
UU
U+HU+HU+HUU+HU+HU+HPTTTTTTHP
U
F+UF+UUU
RIN
SE
STA
LL
161˚
161˚
12 13 14 15 16 17 18 19
K
R
125˚
161˚
105˚
161˚
161˚
161˚
161˚
161˚
Eco
nom
y
Ligh
t Chi
na
Cle
an L
amp
Circ
ulat
ion
Mot
or
Reg
ular
Eco
nom
y–C
hina
Qui
ck W
ash
Rin
se &
Hol
dS
TAR
T
W A T E R L E V E L
PR
OG
RA
M
TIM
ING
KE
Y (T
IME
FOR
SE
NS
OR
TO
BE
SAT
ISFI
ED
)
f2 =
105
˚F T
herm
osta
tf3
= 1
25˚F
The
rmos
tat
f4 =
161
˚F T
herm
osta
t
OP
ER
ATIO
N K
EY
DR
AIN
ING
P=
FILL
ING
F=
CIR
CU
LATI
ON
U=
DE
TER
GE
NT
DIS
PE
NS
ING
R=
RIN
SE
–AID
DIS
PE
NS
ING
K=
DR
YIN
GT
=R
AP
ID A
DVA
NC
E••
•=
HE
ATIN
GH
=
SM
I/S
MU
705
2/70
56
all
DIAGRAM #16c/u 1 737 203 490
b1
L1a1
e1u3
u5u2
2a
u7u1 10
5˚F
uK4a
4
3a3
bb
aa
ba
bb
ba
aa
51
N1
23
45
67
89
1011
12
12–6
1314
14
f218
5˚F
f6f3
f4
125˚
F16
1F
h1e3
r1
185˚
F
f5
m2
h4e6 s2
m1
m3
h3uK
1716
15124
1
5
2
7 3
3
4
1b/
512
/
b/6
2
b–8
b3b2
a1b1
b2b3
b4b5
b6
2
Sym
bol K
ey
a1O
N/O
FF S
WIT
CH
2e1
DO
OR
SW
ITC
H4
e6FL
OAT
SW
ITC
H8
e3R
EE
D S
WIT
CH
4
f3TH
ER
MO
STA
T 12
5˚F
9f2
THE
RM
OS
TAT
105˚
F13
f4TH
ER
MO
STA
T 16
1˚F
10f5
HIG
H L
IMIT
185
˚F5
f6H
IGH
LIM
IT 1
85˚F
5
Sym
bol K
ey
h1O
N/O
FF L
AM
P3
h3R
INS
E A
ID L
AM
P4
h4C
LEA
N L
AM
P7
m1
TIM
ER
MO
TOR
11m
2C
IRC
ULA
TIO
N M
OTO
R6
m3
DR
AIN
MO
TOR
12r1
HE
ATIN
G E
LEM
EN
T5
s2W
ATE
R S
OLE
NO
ID8
ukR
AP
ID A
DVA
NC
E S
OLE
NO
ID14
curr
ent p
ath
curr
ent p
ath
u–TI
ME
R C
ON
TAC
TS–
Sel
ecto
r Sw
itch
Con
tact
s
EC
ON
OM
Yb3
QU
ICK
WA
SH
b2R
INS
E &
HO
LDb1
LIG
HT
CH
INA
b4
PO
TS &
PA
NS
b6R
EG
ULA
Rb5
CA
NC
EL
DR
AIN
b1 &
b2
SM
I 705
2/70
56
UC
/14
abov
e FD
74
02an
d S
MU
705
2/70
56
UC
/14
abov
e FD
74
07
DIAGRAM #17c/u 1 737 203 490
1 739 911 103
b1
L1a1
e1u3
u5u2
2a
u7u1
uK4a
4
3a3
bb
aa
ba
bb
ba
aa
51
N1
23
45
67
89
1011
12
12–6
1314
14
185˚
F
f6f3
f4
125˚
F16
1F
h1
r1
185˚
F
f5
m2
h4e6 s2
m1
m3
uK
1716
15124
1
5
2
7 3
3
4
1b/
512
/
b–8
b3a1
b1b3
b5b6
2
Sym
bol K
ey
curr
ent p
ath
a1O
N/O
FF S
WIT
CH
2e1
DO
OR
SW
ITC
H4
e6FL
OAT
SW
ITC
H8
f3TH
ER
MO
STA
T 12
5˚F
9f4
THE
RM
OS
TAT
161˚
F10
f5H
IGH
LIM
IT 1
85˚F
5f6
HIG
H L
IMIT
185
˚F
5
Sym
bol K
ey
curr
ent p
ath
h1O
N/O
FF L
AM
P3
h4C
LEA
N L
AM
P7
m1
TIM
ER
MO
TOR
11m
2C
IRC
ULA
TIO
N M
OTO
R6
m3
DR
AIN
MO
TOR
12r1
HE
ATIN
G E
LEM
EN
T5
s2W
ATE
R S
OLE
NO
ID8
ukR
AP
ID A
DVA
NC
E S
OLE
NO
ID14
Sel
ecto
r Sw
itch
Con
tact
s
EC
ON
OM
Yb3
RIN
SE
& H
OLD
b1
PO
TS &
PA
NS
b6R
EG
ULA
Rb5
CA
NC
EL
DR
AIN
b1 &
b3
u–TI
ME
R C
ON
TAC
TS–
SM
U 4
092
/40
96
DIAGRAM #18c/u 1 737 203 490
1 739 911 102
BK–
m3
BK–
m2–
2B
N–m
2–3
Cap
acito
r – k
1
BU
RD
–f6–
3G
NY
E–1
L–P
E3
GN
YE
–m2
RD
–f5–
1
Hea
ting
Ele
men
t – r1
RD
–b8
WH
VT–
u2
Doo
r Sw
itch
– e1
WH
RD
–a1–
4
WH
GN
–u3b
BK–
k1
BN
–k1
GN
YE
–r1
Circ
ulat
ion
Mot
or –
m2
1
23
WH
–f5–
2W
H–f
6–2
YE
–u7b
161˚
F
WH
–f6–
2
BN
–u5a
125˚
F
f3f4
Floa
t Sw
itch
– e6
14
2
BU
WH
–u5b
BU
–s2
WH
GN
–m2–
1
WH
–f5–
2
GY
BK–
f6–1
GY
BK–
u2a
GY–
b6
GY
BK–
u2b
BURD–b3YE–b7
WH–b5BNWH–b4
BK–a1–3
WH
VT–
e1
BU
WH
–e6–
1Y
E–f
4
GY
RD
–m3
Tim
er –
u
1b1a12a2
4b4a4
6b6a6
8b8a8
3b3a3
5b5a5
7b7a7
2b
2 VTBK–b1
13
45
6U
–12
BN
–f3
Term
inal
Blo
ck –
1L
BK–
a1–4
a
WH
–a1–
3a
GN
YE
–PE
–1G
NY
E–m
3
GN
YE
–r1
GN
YE
–PE
–2
L1 N PE
3
GY
RD
–u1b
WH
GN
–f5–
3B
K–k1
BN
–s2
GN
YE
–1L–
PE
3
Dra
in M
otor
– m
3
L1
BN
WH
–h3
Ree
d S
witc
h –
e3
WH
RD
–u2
N S
RD
–r1
WH
–u7a
WH
–f3
WH
GN
–a1–
3W
HG
N–m
318
5˚F
1
23G
YB
K–u2
a
WH
–f4
WH
–f3
BU
RD
–r1
185˚
F1
23
BN
–m3
BU
–e6–
2
Wat
er S
olen
oid
– s2
Full
RD
–e1
WH
–1L–
N
WH
GN
–f5–
3B
K–u–
12–6
WH
RD
–e1
BK–
1L–L
1
YE
–u–1
2–3
GN
–u1a
WH
–u–1
2–4
BN
WH
–u–1
2–5
BU
RD
–u–1
2–2
VTB
K–u–
12–1
3a3
4a4
567 4 3 2 1
a1
b
h1
8
Gro
und
– P
E
GN
YE
–1L–
PE
32
GN
YE
–1L–
PE
31
1M
Hig
h Li
mit
– f5
Hig
h Li
mit
– f6
Ther
mos
tats
– f3
& f4
On/
Off
Sel
ecto
r Sw
itche
s –
a1 &
b
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
SM
U 4
092
/40
96
B DIAGRAM #19c/u 1 737 203 490
PR
E–W
AS
HP
RE
–RIN
SE
DR
YIN
GW
AS
H W
/ H
EAT
RIN
SE
W/
HE
AT
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DIAGRAM #20143-62106-001
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DIAGRAM #21143-62105-002
P>
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T 71
DIAGRAM #22143-62106-001
>
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2.4
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T 91
DIAGRAM #23143-62105-002
P>
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3 14
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DIAGRAM #24
OFF
TIM
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1
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CS
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BA
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LFC
LEA
N
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BR
BR
W
SW
1
W/B
L
W/B
L
W/R
GY
13a
11a
10a9a8a6a 7a 12a
15a5a4a3a2a1a
1614 1513111098654321 7 12
R
W/R
GYO
NL
W/B
LW
/R
21
R
E3
E4
E6
N E5
F2
L
CV
F1 L1
E6
E5
HB
L 53
DIAGRAM #25
UM
DW
MLM
5N
TB
L2L1
43
21
132
132
SW2 12SW2 14
UEO
UEI
C1
OL1
CF
CFOL2
OL2
SW2 9
CFT
1 2 3 4 65
SW1 1
SW1
5
1
2
3C1
C1
C1
WTH
RB-CV
SW2 14A
SW
1 5A
ST2
ST3
C1C
1C
1C
2
C1
WOL1
ONL
78
TP
C2
LM
CS
W 1
LDT
12
LDT
14
GN
LDT
ST1
PTH
1121
31
1424
34
12
LDL
TP5
TP4
TP2
LDL
CSW2
PR
-N
SW2
10 SW1 4
A
SW
2 9
RB -J1
OL1
OL1
DR
M
C
12 3
CV
L1 F2 F1
RB
SW
1 1A
SW1 4
J1
11a
MS
W
CF
PR
E3
E6
E4
NE
5L
SW1
2A
LDL
ON
LW
TH
CS
W4 2 1
4a 2a 1a
8 7 6 5 4 3 2 1
8a 6a 5a 4a 3a 2a 1a
16 15 14 13 12 11 10 9
16a
15a
14a
13a
11a
10a 9a
SW
1
SW
2
C1
SW
2 16SW
2 11
SW
2 15TB
2
W/B
L
W/R
R
TB1
LEO
LEI
UE
IBE
UE
O
PTH
34
SW
2 13
SW2
10
C1
ST2DWM2
DWM1
LDT14
PTH34UM3
TP3UM2
LM
C
OL2
ST2
LEOLEI
TB2C
TB1BE
OL1CFT 3
ST3CF
CFT 1CF
PR
-L
RB
-F2
MS
W 1
UM
3
DR
M 2
C2 C3
C1
GN
W
BK
R
W
BK
W/BL
W/R
R
BL
GY
R
BR
BR
GN
W
GY B
R BL
BL
BL
BL
W/B
L
W/B
K
W W/R
W/R
W/Y
W/Y
BLG
Y
W/Y
W/R
C2
C2
BR
W C2
C2
C2 C
2
W/R
BL
BR
W/B
L
W
BL
BL
GYR
C3
C2
GN
W/BL
R
W
W/BL
R
BK
W/Y
W/B
K
W/B
L
W/R
BR
R
W/R
W
W
BR
W/R B
L
W/B
L
W GY
BL
GY
BR
BR
W/B
L
W/R R
W/R
BL G
Y
BK
BR
W/BK
W/BK
GY
BK
BR
R R
W/B
K
W/B
L
W/B
L
RR
ED
WW
HIT
E
BK
BLA
CK
BR
BR
OW
N
GY
GR
AY
GN
GR
EE
N
BL
BLU
E
W/B
KW
HIT
E/B
LAC
K
W/R
WH
ITE
/RE
D
W/Y
WH
ITE
/YE
LLO
W
W/B
LW
HIT
E/B
LUE
WIR
E C
OLO
R C
OD
E
SY
MB
OL
KE
Y
PR
:TIM
ER
SW
:PR
OG
RA
M S
ELE
CTO
R
CS
W:C
LEA
N S
WIT
CH
OL:
OV
EN
LA
MP
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TH
ER
MO
STA
T
CFT
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NG
FA
N T
HE
RM
OS
TAT
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LOC
KIN
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RM
OS
TAT
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:SE
LF C
LEA
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HE
RM
OS
TAT
ST:
HIG
H L
IMIT
TH
ER
MO
STA
T
BE
:BR
OIL
ELE
ME
NT
2000
W
UE
O:U
PP
ER
ELE
ME
NT,
OU
TER
RIN
G5
00W
UE
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PP
ER
ELE
ME
NT,
INN
ER
RIN
G5
00W
LEO
:LO
WE
R E
LEM
EN
T, O
UTE
R R
ING
600
WLE
I:LO
WE
R E
LEM
EN
T, IN
NE
R R
ING
1400
W
C:C
ATA
LYS
TC
F:C
OO
LIN
G F
AN
MO
TOR
ON
L:O
N IN
DIC
ATO
R
LDL:
DO
OR
LO
CK
ED
IND
ICAT
OR
MS
W:M
AN
UA
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WIT
CH
LM:D
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OTO
R
DR
M:D
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CH
UM
:UP
MIC
RO
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ITC
H
DW
M:D
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N M
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OS
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CH
RB
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LAY
BO
AR
D
TB:T
ER
MIN
AL
BLO
CK
TP:T
ES
T P
OIN
T
GN
W/Y
W W/R W/Y
JUM
PE
R C
ON
NE
CTE
DFO
R 2
08V
ON
LY
HB
L 53
DIAGRAM #26
Jum
per C
onne
cted
for 2
08V
Onl
y TB
W/R
W/BL
L1 L2 NG
N 1
4
1 2 3 4 5 6
Red
Bla
ck
Whi
te
16 A
WG
16 A
WG
16 A
WG
14 A
WG
18 18
1616
16
20
20
207 7a
20
2020
2020
20
16
16
16
1
1a
16
17a
18a
16a
15a
14a
44a
16
16
161616
16
16
18
18
18
18
18
18
18
18
16
16
20
20
20
2
2a
20
20
2020
20
20
2020
16
16
1616
16 1616
20
20
20
20
20
20
20
20
2020
1a1
20
16
18
20
20
20
20
16
20
20 20 20
20
20
20
20 20
20
20
20
20
20
20
20
20
123
SW
1
CFT
(14
0 f) B
R
BR
GY
CF
78
W11 12
14
W/R
W/R
W/Y
W/B
L
W/B
L
W/B
K
W/B
L
BL
BL
BL
BL
PTH
(89
0 f)
ST3
(205
f)
CS
W
CS
W
W
DR
M
RW
/R
W/R
W/B
K
W/Y
BK
W/B
L
W/B
L
BL
ST1
(572
f)24
DW
M
PR
R
MS
W
RB
LDT
(518
f)
TP1
TP2
TP3
TP4
TP5
TP6
GY UM
BL
LDL
LMS
T2(3
11 f)
BR
C
WTH
34
31
BE
RE
UE
IU
EO
LEI
LEO
OL
OL
SW
2
CS
W
BR
R
R
BK
W
BR
BR
W
SW
1
W/B
L
W/B
L
W/R
GY
13a
11a
12a
10a9a8a7a6a5a3a 4a2a1a
16 17 1814 1513111098654321 7 12R
W/R
W/B
K
W/Y
W/R
GY
GY
ON
L
W/B
LW
/R
21
R
E3
E4
E6
N E5
F2
L
CV
F1 L1
E5E6
WM
OFF
TIM
ER
MA
NU
AL
SW
1
SW
2
CS
W
BR
OIL
THE
RM
AL
BA
KE
SE
LFC
LEA
NC
ON
VTH
AW
CO
NV
BR
OIL
CO
NV
RO
AS
TC
ON
VB
AK
E
16151412 1311109876543211a 16
a
14a
15a
13a
11a
10a9a8a6a 7a5a3a 4a 12a2a 1a 2a 4a
1 2 4
MS
W1a
1
17 18 19 20
17a
18a
19a
20a
RR
ED
WW
HIT
E
BK
BLA
CK
BR
BR
OW
N
GY
GR
AY
GN
GR
EE
N
BL
BLU
E
W/B
KW
HIT
E/B
LAC
K
W/R
WH
ITE
/RE
D
W/Y
WH
ITE
/YE
LLO
W
W/B
LW
HIT
E/B
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WIR
E C
OLO
R C
OD
E
SY
MB
OL
KE
Y
PR
:TIM
ER
SW
:PR
OG
RA
M S
ELE
CTO
R
CS
W:C
LEA
N S
WIT
CH
OL:
OV
EN
LA
MP
WTH
:VA
RIA
BLE
TH
ER
MO
STA
T
LDT:
LOC
KIN
G D
OO
R T
HE
RM
OS
TAT
PTH
:SE
LF C
LEA
N T
HE
RM
OS
TAT
ST:
HIG
H L
IMIT
TH
ER
MO
STA
TR
E:R
ING
ELE
ME
NT
2500
W
BE
:BR
OIL
ELE
ME
NT
2000
W
UE
O:U
PP
ER
ELE
ME
NT,
OU
TER
RIN
G5
00W
UE
I:U
PP
ER
ELE
ME
NT,
INN
ER
RIN
G5
00W
LEO
:LO
WE
R E
LEM
EN
T, O
UTE
R R
ING
600
WLE
I:LO
WE
R E
LEM
EN
T, IN
NE
R R
ING
1400
W
C:C
ATA
LYS
TC
F:C
OO
LIN
G F
AN
MO
TOR
WM
:CO
NV.
FA
N M
OTO
R
ON
L:O
N IN
DIC
ATO
R
LDL:
DO
OR
LO
CK
ED
IND
ICAT
OR
MS
W:M
AN
UA
L S
WIT
CH
LM:D
OO
R L
OC
KIN
G M
OTO
R
DR
M:D
OO
R M
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OS
WIT
CH
UM
:UP
MIC
RO
SW
ITC
H
DW
M:D
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N M
ICR
OS
WIT
CH
RB
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LAY
BO
AR
D
TB:T
ER
MIN
AL
BLO
CK
TP:T
ES
T P
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T
CFT
:CO
OLI
NG
FA
N T
HE
RM
OS
TAT
HB
L 5
4
DIAGRAM #27
WM
RE
UM
DW
MLM
5N
TB
L2L1
43
21
132
132
132
SW2 13SW2 15
UEO
UEI
W/R
W/BL
R
W
GN
GN
GN
BL
W
BK
R
BK
OL1
CF
W
BL
C1
C1
CF
WM
0L2
SW1 8
CFT
GY
R
BL B
L
W/B
L
W/R
W
/R
W
W
W/Y
W/Y
W/R W/Y
1 2 3 4 65W
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W
BR
BR
W/B
K
SW1 6
SW1
7
1
2
3C1
C1
WTH
RB-CV
SW2 14A
SW
1 7A
ST2
ST3
C1
C1
C1
C1
C2
OL1
ONL
78
TP
C2
LM
CS
W 1
LDT
12
LDT
14
OL1 W
W/BK
OL2
C1
SW
1 10
SW2 11
C1
GN
BL LD
TS
T1P
TH
BR
2131
1424
34
12
LDL
TP5
TP4
W/R
BR
W/Y
GY
TP2
LDL
W
C2
C2
C2
C2
C2
C2
CSW2
PR
-N
W/R
BR
W/B
L
SW1
9
SW1 1
A
SW
1 8
RB-J1
W
BL OL1
WM
DR
M
C
BL
GY
R
C3
W/B
L
W/B
K
W/Y
BK
CV
L1 F2
F1R
B
SW
1 6A
SW1 1
J1 B
R
11a
MS
W
CF
GN
PR
E3
E6
E4
N E
5L
R
W
W/BL
R
R
SW
1 2A
LDL
ON
L
W/Y
W
W/R
W
BL
WTH
CS
W
W
/BL
W
GY
4 2 1
4a 2a 1a
W/BL
BL
BR
W
/R
UM
3 C
2
BL
DR
M2
MS
W1
BK
W/Y
10 9 8 7 6 5 4 3 2 1
10a 9a 8a 7a 6a 5a 3a 2a 1a
20 19 18 17 16 15 14 13 12 11
20a
19a
18a
17a
16a
15a
13a
14a
11a
SW
1
SW
2
GY
B
R
W/R
G
Y
W/B
K
BK
W/B
K
RB
-F2
PR
-LR
W/B
L
W/B
L
C3
BR
GY
BR
BR
W
/Y
W/R
R
W
/BK
ST2
ST3CF
OL1CTF 3CTF 1REBETB1CTB2LEI
LEO
MV
CFC1
C1
GY
B
R
SW
2 17
SW2
12
SW
2 16
TB2 TB
1W/B
L
LEO
LEI
W/R
R U
EI
RR
ED
WW
HIT
E
BK
BLA
CK
BR
BR
OW
N
GY
GR
AY
GN
GR
EE
N
BL
BLU
E
W/B
KW
HIT
E/B
LAC
K
W/R
W
HIT
E/R
ED
W/Y
WH
ITE
/YE
LLO
W
W/B
LW
HIT
E/B
LUE
WIR
E C
OLO
R C
OD
E
SY
MB
OL
KE
Y
PR
:TIM
ER
SW
:PR
OG
RA
M S
ELE
CTO
R
CS
W:C
LEA
N S
WIT
CH
OL:
OV
EN
LA
MP
WTH
:VA
RIA
BLE
TH
ER
MO
STA
T
CFT
:CO
OLI
NG
FA
N T
HE
RM
OS
TAT
LDT:
LOC
KIN
G D
OO
R T
HE
RM
OS
TAT
PTH
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LF C
LEA
N T
HE
RM
OS
TAT
ST:
HIG
H L
IMIT
TH
ER
MO
STA
T
BE
:BR
OIL
ELE
ME
NT
2000
W
UE
O:U
PP
ER
ELE
ME
NT,
OU
TER
RIN
G5
00W
UE
I:U
PP
ER
ELE
ME
NT,
INN
ER
RIN
G5
00W
LEO
:LO
WE
R E
LEM
EN
T, O
UTE
R R
ING
600
WLE
I:LO
WE
R E
LEM
EN
T, IN
NE
R R
ING
1400
W
C:C
ATA
LYS
TC
F:C
OO
LIN
G F
AN
MO
TOR
ON
L:O
N IN
DIC
ATO
R
LDL:
DO
OR
LO
CK
ED
IND
ICAT
OR
MS
W:M
AN
UA
L S
WIT
CH
LM:D
OO
R L
OC
KIN
G M
OTO
R
DR
M:D
OO
R M
ICR
OS
WIT
CH
UM
:UP
MIC
RO
SW
ITC
H
DW
M:D
OW
N M
ICR
OS
WIT
CH
RB
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LAY
BO
AR
D
TB:T
ER
MIN
AL
BLO
CK
TP:T
ES
T P
OIN
T
BE
UEO
PTH
34
SW
2 14
SW
2 9
C1
C
OL2
GN
BL
ST2DWM2
DWM1
LDT14
PTH34UM3
TP3UM2
LM
C2
JUM
PE
R C
ON
NE
CTE
DFO
R 2
08V
ON
LY
HB
L 5
4
DIAGRAM #28
RE
BE
UEI
LEI
LEO
UEO
BE
UEI
LEI
LEO
UEO
L
UPPER OVEN
LOWER OVEN
SW1
SW1
17a
18a
19a
20a
16a
15a
14a
20
13a
11a
12a
10a
9a
8a
7a
6a
5a
3a
4a
2a
1a
16
17
18
19
20
14
15
13
11
10
9
8
6
5
4
3
2
1
7
12
16a
SW2
SW2
SW
2TSW
14a
15a
13a
11a
12a
10a
9a
8a
6a
7a
5a
5a
5
4a
3a
2a
1a
16
14
15
13
11
10
9
8
6
5
4
3
2
1
7
12
BR
BK
W/B
K
W/BK
W/R
W/R
2020
20
78
20
20
20
20
20 20
20
20
2012 14
11
20
20
20
20 20
20
20
20 20
2020
JUMPERS CONNECTED FOR 208V ONLY
16
2020
20
20
20
20
20
20
20
20
20
20
20
20
12
11
14
2020
20
20
20
20
20
20
20
20
10 A
WG
14 A
WG
12 A
WG
12 A
WG
20
20
2020
1616
2020
2020
20
20
16
16
16 16
16
16 16
16
16
16
16
31
34
7a
2a 4a
1a
72
4
1
16
18
18
18
14
14
16
16
18
18
18
18
18
16
20
207
7a
8
8a
20
20
10a
3a
4a
13a
14a
11a
5a
12a
6a6
12
5
11
14
13
4
10
3
16
16
16
16
21 24
16
16a
16
16
18
18
N
E5
E4
E6
F2
CV
L
E3
L1
F1
E5
16
20
16
20
18
18
18
18
18
16
16 16
16
20
34
31
16
16
16
1616
1
1
1a
2a
4a
4
2
2a
2
1a
2020
20
20
20 20
20
20
20
20
20
2020
2016
16
20
BR
BR
R
BR
BR
BL
W/Y
W
BK
BK
W/R
CFT(140 f)
ST2(311 f)
W/B
K
GY
W/R
GY
GY
W/BL
W/BL
W/B
L
W/BL
W/BLOL
OL
WM
PTH(890 f) ST3
(205 f)
WTH
CSW
CSW DRMGY
LDT(518 f)
LDL
UM
LM
BL
BL
TSW
CSW
TSWBL
BR
BR
DWM
ST1(572 f)
ST1(572 f)
2021 24 15
15a
TSW
BL
DWM
BL
BL
BL
BL
BL
BRC
W/R
W/R
W/R
W/R
W/R
TP1 TP2
N
L2
L1
TP3 TP4 TP5 TP6W/R
MTB
STB
GN
14GN
GN
R
BR
BR
BR
W/BK
BK
W/Y
W/Y
W/Y
W
GY
ONL
R
R
R
WW
WTSW
BR
BR
CFW
SW
1 R
R
R
WWW
/R
BR
RB
GY
TSW
W/BL
BL
BK
W/BK R
PR
CFT(140 f)
ST2(311 f)
GY
W/BL
W/BL
BL
BL
BLLM
OL
OL
W/R
W/R
W/RG
Y
W/BL
GY
W TSW CSWCSW
LDL
C
BL
BL
BR
CSWGY
BR
W/B
LW
/R
WTH
PTH(890 f)
ST3(205 f)
W
W/R
W/RONL
W
1
2
3
78
1
23
DRM
UM
W/Y
W/R
LDT(518 f)
GY
W/RW
TP2TP1 TP4TP3 TP6TP5
W/Y
R RED
W WHITE
BK BLACK
BR BROWN
GY GRAY
GN GREEN
BL BLUE
W/BK WHITE/BLACK
W/R WHITE/RED
W/Y WHITE/YELLOW
W/BL WHITE/BLUE
WIRE COLOR CODE
BAKEBROIL
SELF CLEAN
THAWCONV BROILCONV ROAST
OFFCONV BAKE
X X X X X X X X X X X X XX X X X X X X X XX X X X X X X X X X XX X X X X X XX X X X X X X X X X XX X X X X X X X X X X XX X X X X X X X X
X
PO
S.
1
1a
2
2a
3
3a
4
—
5
5a
6
6a
7
7a
8
8a
9
9a
10
10a
11
11a
12
—
13
13a
14
14a
15
15a
16
16a
17
17a
18
18a
19
19a
20
20a
SW1
BAKEBROIL
SELF CLEAN
OFF
X XX XX X X X XXXX XX X X XXXX
X XX X X XXXXX
PO
S.
1
1a
2
2a
3
3a
4
4a
5
5a
6
6a
7
—
8
8a
9
9a
10
10a
11
11a
12
—
13
13a
14
14a
15
—
16
16a
SW2
LOR
X X XXXXX X X XX X
X X XXXXX
PO
S.
1
1a
2
2a
3
3a
4
4a
5
5a
6
6a
7
7a
8
8a
9
9a
10
10a
11
11a
12
12a
13
13a
14
14a
15
15a
16
16a
TSW
MANUAL
DOWN OVEN
UP OVEN
Ø
>Ø÷500 F
SELF CLEAN
XX X
POS.1
1a
2
2a
4
4a
CSW
SYMBOL KEY
PR : TIMER
SW : PROGRAM SELECTOR
CSW : CLEAN SWITCH
OL : OVEN LAMP
WTH : VARIABLE THERMOSTAT
CFT : COOLING FAN THERMOSTAT
LDT : LOCKING DOOR THERMOSTAT
PTH : SELF CLEAN THERMOSTAT
ST : HIGH LIMIT
C : CATALYST
WM : CONV. FAN MOTOR
MTB : MAIN TERMINAL BLOCK
ONL : ON INDICATOR
LDL : DOOR LOCKED INDICATOR
STB : SECONDARY TERMINAL BLOCK
LM : DOOR LOCKING MOTOR
DRM : DOOR MICROSWITCH
UM : UP MICROSWITCH
DWM : DOWN MICROSWITCH
RB : RELAY BOARD
TP : TEST POINTTSW : TIMER SELECTOR
RE : RING ELEMENT 2500 W
BE : BROIL ELEMENT 2000 W
UEO : UPPER ELEMENT, OUTER RING 500 WUEI : UPPER ELEMENT, INNER RING 500 W
LEO : LOWER ELEMENT, OUTER RING 600 WLEI : LOWER ELEMENT, INNER RING 1400 W
123
123
456
HBL 55
DIAGRAM #29A
SW2 SW2
1 2 3 4 5 6 7 8
1a 2a 3a 4a 5a 6a 8a
9 10 11 12 13 14 15 16
9a 10a11a 13a 14a 15a 16aB
R
W/B
K
GY
W/R
BR
W/B
L
WH BL
W/R BK
W/B
L
W/BL
W/B
L
WH
GY
W/R
BL
BL
W/R
R W/R
BR
W/B
L
BR
GY
W/BL
GY
GN
ST2"MTB4
TP3"
ST3"
CF"
PTH34"
ST2"
W/Y
GY
WH
W/R
LM"TP2"
TPG"UM"2
LDT"11ST1"24
DWM'1TP'3
DWM'2
PTH'34LDT'11
UM'2UM'3
LEO"LEI"
UEO"C"
UEI"BE"
UM"3OL2"
CFT"378 "
1 2 4
1a 2a 4a
WTH"CSW"
ONL"
LDL"
ONL'
LDL'
C2
CF'
W/BL
GY
R
WH
E3
E6
E4
NE5
L C1W/BLMTB3
J1
F1 F2 L1 CV
RBPR
C3DRM'3
GY
W/Y
WH
BL
BL
10 11 12 13 14 15 161 2 3 4 5 6 7
WH
BL
W/R
BR
GY
WH
TSW
-7
W/B
L
BL
R BK
W/BKBR
WH
GY
R BR
BL
W/R
W/Y
W/B
K
R W/R
W/B
L
BR
GY
WH
W/Y
SW2'2a
R
BK
BL
W/B
K
W/B
L
BK
W/B
L
C1
ST2
'
BLWH
BL
WHBL CSW'2a
WH
W/Y
8
10a 11a 12a 13a 14a 15a 16a1a 2a 3a 4a 5a 6a 7a 8a
TSW TSW
WH
W/BL
BL
W/R
1 2 4
1a 2a 4a
CSW' WTH'
C3
DRM'2MTB3 CFT'2CF' ST3'CFT'3 CFT'1OL1' WM'RE' BE'MTB1 C'MTB2 LEI'LEO'ST2'
ST2'CF'
CFT'2MTB4
MTB3
11 12 13 14 15 16 17 18
TSW13
19 20
11a 13a 14a 15a 16a 17a 18a 19a 20a
1 2 3 4 5 6 7 8 9 10
1a 1a 3a 5a 6a 7a 8a 9a 10a
SW1 SW1
PR:L
GY
C1
W/R
C4
TSW4a
BL
W/R
WH
BK
C3
DRM'1
R
R RED
W WHITE
BK BLACK
BR BROWN
GY GRAY
GN GREEN
BL BLUE
W/BK WHITE/BLACK
W/R WHITE/RED
W/Y WHITE/YELLOW
W/BL WHITE/BLUE
WIRE COLOR CODE
SYMBOL KEY
PR : TIMER
SW : PROGRAM SELECTOR
CSW : CLEAN SWITCH
OL : OVEN LAMP
WTH : VARIABLE THERMOSTAT
CFT : COOLING FAN THERMOSTAT
LDT : LOCKING DOOR THERMOSTAT
PTH : SELF CLEAN THERMOSTAT
ST : HIGH LIMIT
C : CATALYST
WM : CONV. FAN MOTOR
MTB : MAIN TERMINAL BLOCK
ONL : ON INDICATOR
LDL : DOOR LOCKED INDICATOR
STB : SECONDARY TERMINAL BLOCK
LM : DOOR LOCKING MOTOR
DRM : DOOR MICROSWITCH
UM : UP MICROSWITCH
DWM : DOWN MICROSWITCH
RB : RELAY BOARD
TP : TEST POINTTSW : TIMER SELECTOR
' : UPPER CAVITY COMPONENT" : LOWER CAVITY COMPONENT
RE : RING ELEMENT 2500 W
BE : BROIL ELEMENT 2000 W
UEO : UPPER ELEMENT, OUTER RING 500 WUEI : UPPER ELEMENT, INNER RING 500 W
LEO : LOWER ELEMENT, OUTER RING 600 WLEI : LOWER ELEMENT, INNER RING 1400 W
CONTROL PANEL
HBL 55
DIAGRAM #29B
R BK
R
PR-L
W/RCFT"2
TSW5aSW1-5a
SW2-8a
TP'1
TP"1
W/BLW/R
WH
WH
BK
BK
WH
GN
SW1-15SW1-13
UPPER OVEN (') LOWER OVEN (")
C1
C6
C1
C1
C4
W/BLW/R
L1 L2 N
BLBL
GN
OL2'
GY
SW1-6
SW1-8
MTB1 2 1 2 STB3 4 5
WM'
SW1-17SW1-16
WHWH
1
2
3CFT'
C1C1
C1
SW1-7BR
TSW:13a
SW1:18a
OL1'
1
2
3CFT"
OL1"
OL2'
C1 BLBR
GY
LEO
'LE
I'
W/BL
W/BK
W/RR
C1
C1
C1
SW1-12
SW1-11
TSW13
SW1-14a
W/Y
UEO'UEI'
BE'
SW2-16SW2-11
SW2-1C6/4
GY
W/R
SW2-5SW2-5a
SW2-12
C6/4
C6/4
GYBR
W/RW/BLSW2-14
SW2-15BL
R
LEO
"LE
I"
BL
UEO"UEI"
BE"
RE' WM'
SW1-10
BL
BL
GN
C1
WTH
'
0L'
WH
BL
BL
W/BK
BK
C1
C1
C1
SW
1-14
C1
C1
SW
1-7a
ONL'
WH
BR
78
BRBRC
F'
C' ST2
'
ST3
'
GN
BR
WH
GN OL2"
WH
WH
BL
OL1"
BL
OL1"
W/YW/YW/RW/RWHWH
BL
OL1
'
TP'
W/Y
W/R
WHMTB5
CSW'1
123456
W/YW/YW/RW/RWHWH
1
TP"
W/Y
W/R
WHMTB5
CSW"1
123456LDL"
LDL'
LDT"14LDT"12
ONL"
C4
C2
C4C6
C2
GY
W/Y
W/R
11 3121
14 24 34
12
LDT' PTH'
ST1'
CSW'2
BR
11 3121
14 24 34
12
BL
BR
GY
GY
BL
GY
PTH"ST1" C"
BL
GY
TSW15LDL"
SW2-9MTB3
SW2-13SW2-10
LDL"TP"5
TP"4CSW2"
SW2-14aTSW-4
PR-NWHT"
SW2-1SW2-5
SW2-5aSW2-14
SW2-12SW2-11
SW2-16SW2-15
C6
LDT"14LDT"12
PTH34"
LM"CFT"3
78CF"
UEO"UEI" BE"LEO" LEI"
DR
M'
DW
M'
UM
'
23 123
123
GYR BL
C3
SW
1-18
a
SW
1-8
LDL' SW1-9
LDL'
C2
C2
PR-E
3TSW
-16
BL
GY
W/R
W/Y
W/Y
C2
BL
WH
WH
LM'1 D
RM
"
DW
M"
UM
"
231
231
23
BL
GY
W/RG
YW/R
BL
C5 W/Y
BL
PR-NLM"
OL2'
CF'
GNC6/4
WH
LDT"
C6/4
W/Y
W/R
C6
TP"5
TP"4
CSW2"
GN
BL
BL
W/BK
W/B
K
CF" ST2
"
ST3
"C"
BR
BR
78
WH
PTH
"34
BR
W/R
BR
OL2" BL
WH
OL2"
GN
W/R
W/B
L
GNR
R
R
JUMPER CONNECTEDFOR 208V ONLY
JUMPER CONNECTEDFOR 208V ONLY
BR
HBL 55
DIAGRAM #30
RE
BE
UEI
LEI
LEO
UEO
BE
RE
UEI
LEI
LEO
UEO
L
UPPER OVEN
LOWER OVEN
SW1
SW1
17a
18a
19a
20a
16a
15a
14a
20
13a
11a
12a
10a
9a
8a
7a
6a
5a
3a
4a
2a
1a
16
17
18
19
20
14
15
13
11
10
9
8
6
5
4
3
2
1
7
12
16a
15a
SW2
SW2
SW
2TSW
14a13a
11a
12a
10a
9a
8a
6a
5a
7a
7
7a
3a
4a
2a
1a
16
14
15
13
11
10
9
8
6
5
4
3
2
1
7
12
20
18
19
17
20a
18a
19a
17a
BRBR
BK
BL
W/B
K
W/BK
W/R
W/B
L
W/R
20
78
20
20
20
20
2020
20
20 20
20
20
2012 14
11
20
20
20
20 20
20
20
20 20
2020
16
2020
20
20
20
20
20
20
20
20
20
20
20
20
12
11
14
2020
20
20
20
20
20
20
20
20
10 A
WG
14 A
WG
12 A
WG
12 A
WG
20
20
2020
1616
2020
2020
20
20
16
16
16 16
16
16 16
16
16
16
16
31
34
7a
2a 4a
1a
72
4
1
16
18
18
18
14
14
16
16
18
18
18
18
18
16
20
207
7a
8
8a
20
20
10a
3a
4a
13a
14a
11a
5a
12a
6a6
12
5
11
14
13
4
10
3
16
16
16
16
21 24
16
16a
16
16
18
18
N
E5
E4
F2
CV
E6 E5
L
E3
L1
F1
16
16
16
20
18
18
18
18
18
18
16
16
16
16
20
34
31
16
16
16
1616
1
1
1a
2a
4a
4
2
2a
2
1a
2020
20
20
20 20
20
20
20
20
20
20
20
20
16
20
BR
R
BR
BR
BL
W/Y
W
BK
BK
W/R
CFT(140 f)
ST2(311 f)
W/B
K
GY
W/R
GY
GY
W/BL
W/BL
W/B
L
W/BL
W/BLOL
OL
WM
PTH(890 f)
ST3(205 f)
WTH
CSW
CSW DRMGY
LDT(518 f)
LDL
UM
LM
BL
BL
TSW
CSW
TSWBL
BR
BR
DWM
ST1( 572 )
ST1( 572 )
2021 24 15
15a
TSW
BLDWM
BL
BL
BL
BL
BL
BRC
W/R
W/R
W/R
W/R
W/R
TP1 TP2
N
L2
L1
TP3 TP4 TP5 TP6W/R
MTB
STB
GN
14GN
GN
R
BR
BR
BR
W/BK
BK
W/Y
W/Y
W/Y
W
GY
ONL
R
R
R
WW
WTSW
BR
BR
CFW
SW
1 R
R
R
WWW
/R
BR
RBG
Y
TSW
W/BL
BL
BK
W/BK R
PR
CFT(140 f)
ST2(311 f)
GY
W/BL
W/BL
BL
BL
BLLM
OL
OL
W/R
W/BL
W/BK
W/R
W/R
GY
W/Y
GY
W TSW CSWCSW
LDL
C
BL
BL
BR
CSWGY
BR
W/B
LW
/R
WTH
PTH(890 f)
ST3(205 f)
W
W/R
W/RONL
W
1
2
3
78
1
23
DRM
UM
W/Y
W/R
LDT(518 f)
GY
W/RW
TP2TP1 TP4TP3 TP6TP5
W/Y
BAKEBROIL
SELF CLEAN
THAWCONV BROILCONV ROAST
OFFCONV BAKE
X X X X X X X X X X X X XX X X X X X X X XXX X X X X X X X X X XX X X X X X XX X X X X X X X X X XX X X X X X X X X X X XX X X X X X X X X
X
PO
S.
1
1a
2
2a
3
3a
4
—
5
5a
6
6a
7
7a
8
8a
9
9a
10
10a
11
11a
12
—
13
13a
14
14a
15
15a
16
16a
17
17a
18
18a
19
19a
20
20a
SW1 - SW2
LOR
X X XXXXX X X XX X
X X XXXXX
PO
S.
1
1a
2
2a
3
3a
4
4a
5
5a
6
6a
7
7a
8
8a
9
9a
10
10a
11
11a
12
12a
13
13a
14
14a
15
15a
16
16a
TSW
MANUAL
DOWN OVEN
UP OVEN
Ø
>Ø÷500 F
SELF CLEAN
XX X
POS.1
1a
2
2a
4
4a
CSW
R RED
W WHITE
BK BLACK
BR BROWN
GY GRAY
GN GREEN
BL BLUE
W/BK WHITE/BLACK
W/R WHITE/RED
W/Y WHITE/YELLOW
W/BL WHITE/BLUE
WIRE COLOR CODE
SYMBOL KEY
PR : TIMER
SW : PROGRAM SELECTOR
CSW : CLEAN SWITCH
OL : OVEN LAMP
WTH : VARIABLE THERMOSTAT
CFT : COOLING FAN THERMOSTAT
LDT : LOCKING DOOR THERMOSTAT
PTH : SELF CLEAN THERMOSTAT
ST : HIGH LIMIT
C : CATALYST
WM : CONV. FAN MOTOR
MTB : MAIN TERMINAL BLOCK
ONL : ON INDICATOR
LDL : DOOR LOCKED INDICATOR
STB : SECONDARY TERMINAL BLOCK
LM : DOOR LOCKING MOTOR
DRM : DOOR MICROSWITCH
UM : UP MICROSWITCH
DWM : DOWN MICROSWITCH
RB : RELAY BOARD
TP : TEST POINTTSW : TIMER SELECTOR
RE : RING ELEMENT 2500 W
BE : BROIL ELEMENT 2000 W
UEO : UPPER ELEMENT, OUTER RING 500 WUEI : UPPER ELEMENT, INNER RING 500 W
LEO : LOWER ELEMENT, OUTER RING 600 WLEI : LOWER ELEMENT, INNER RING 1400 W
123
123
45
6
JUMPERS CONNECTED FOR 208V ONLY
HBL 56
DIAGRAM #31A
SW2 SW2
1 2 3 4 5 6 7 8 9 10
1a 2a 3a 4a 5a 6a 7a 8a 9a 10a
11 12 13 14 15 16 17 18 19 20
11a 13a1 4a 15a 16a 17a 18a 19a 20a
WH
W/B
LB
K
BR
W/B
L
GY
W/R
BR
W/B
L
WH BL
W/R
GY
BR
BL
W/R
W/Y
W/B
K
R W/R
BR
W/B
L
BR
GY
W/R
BL
W/BK
W/BL
GY
GN
ST2"
CF"
TP3"
ST3"
MTB4
PTH34"
ST2"
W/Y
GY
WHW
/R
LM"TP2"
TP6"UM"2
LDT"11ST1"24
DWM'1TP'3
DWM'2
PTH'34LDT'11
UM'2UM'3
LEO"LEI"
UEO"C"
UEI"BE"
RE"WM"
UM"3OL2"
78 "CFT"3
TSW
4a
1 2 4
1a 2a 4a
WTH"CSW"
ONL"
LDL"
ONL'
LDL'
C2
CF'
W/BL WH
GY
R
WH
E3
E6
E4
NE5
L C1W/BLMTB3
R
J1
F1 F2 L1 CV
RBPR
C3DRM'3
GY
W/Y
WH
BLBL
10 11 12 13 14 15 161 2 3 4 5 6 7
WHB
L
W/R
BR
GY
WH
TSW
-7
W/B
L
BL
R BK
W/BKBR
WH
GY
BR
BL
W/R
W/Y
W/B
K
R RW/R
W/B
L
BR
GY
WH
W/Y
R
BK
BL
W/B
K
W/B
L
BK
W/B
L
C1
ST2
'
BL
WH
BL
WHBL
CSW'2aWH
W/Y
8
10a 11a 12a 13a 14a 15a 16a1a 2a 3a 4a 5a 6a 7a 8a
TSW TSW
WH
W/BL
BL
W/R
1 2 4
1a 2a 4a
CSW' WTH'
C3DRM'2
MTB3CFT'2
CF'ST3'
CFT'3CFT'1
OL1'WM'
RE'BE'
MTB1C'
MTB2LEI'
LEO'ST2'
ST2'CF'
CFT'2MTB4
MTB3
11 12 13 14 15 16 17 18
TSW13
19 20
11a 13a 14a 15a 16a 17a 18a 19a 20a
1 2 3 4 5 6 7 8 9 10
1a 1a 3a 5a 6a 7a 8a 9a 10a
SW1 SW1
PR:L
GY
C1
W/R
C4
BL
W/R
WR
BK
SW2-18a
RDRM'1
C3
R RED
W WHITE
BK BLACK
BR BROWN
GY GRAY
GN GREEN
BL BLUE
W/BK WHITE/BLACK
W/R WHITE/RED
W/Y WHITE/YELLOW
W/BL WHITE/BLUE
WIRE COLOR CODE
PR
SW
CSW
OL
WTH
CFT
LDT
PTH
ST
C
WM
MTB
ONL
LDL
STB
LM
DRM
UM
DWM
RB
TPTSW
'"
RE 2500 W
BE 2000 W
UEO 500 WUEI 500 W
LEO 600 WLEI 1400 W
SYMBOL KEY
: TIMER
: PROGRAM SELECTOR
: CLEAN SWITCH
: OVEN LAMP
: VARIABLE THERMOSTAT
: COOLING FAN THERMOSTAT
: LOCKING DOOR THERMOSTAT
: SELF CLEAN THERMOSTAT
: HIGH LIMIT
: CATALYST
: CONV. FAN MOTOR
: MAIN TERMINAL BLOCK
: ON INDICATOR
: DOOR LOCKED INDICATOR
: SECONDARY TERMINAL BLOCK
: DOOR LOCKING MOTOR
: DOOR MICROSWITCH
: UP MICROSWITCH
: DOWN MICROSWITCH
: RELAY BOARD
: TEST POINT: TIMER SELECTOR
: UPPER CAVITY COMPONENT: LOWER CAVITY COMPONENT
: RING ELEMENT
: BROIL ELEMENT
: UPPER ELEMENT, OUTER RING: UPPER ELEMENT, INNER RING
: LOWER ELEMENT, OUTER RING: LOWER ELEMENT, INNER RING
CONTROL PANEL
HBL 56
DIAGRAM #31B
R BK
R
PR-L
W/RCFT"2
TSW5aSW1-5a
SW2-5a
TP'1
TP"1
W/BLW/R
WH
WH
BK
BK
WH
GN
SW1-15SW1-13
UPPER OVEN (')
C1
C6
C1
C1
C4
W/BLW/R
L1 L2 N
BLBL
GN
OL2'
GY
SW1-6
SW1-8
MTB1 2 3 4 5
WM'
SW1-17SW1-16
WHWH
1
2
3CFT'
C1C1
C1
SW1-7BR
TSW:13a
SW1:18a
OL1'
OL2'
C1 BLBR
GY
LEO
'LE
I'
W/BL
W/BK
W/RR
C1
C1
C1
SW1-12
SW1-11
TSW13
SW1-14a
W/Y
UEO'UEI'
BE'
RE' WM'
SW1-10
BL
BL
GN
C1
WTH
'
0L'
WH
BL
BL
W/BK
BK
C1
C1
C1
SW
1-14
C1
C1
SW
1-7a
ONL'
WH
BR
78
BRBRC
F'
C' ST2
'
ST3
'
GN
WH
GN
W/YW/YW/RW/RWHWH
BL
OL1
'
TP'
W/Y
W/R
WHMTB5
CSW'1
123456
W/YW/YW/RW/RWHWH
1
TP"
W/Y
W/R
WHMTB5
CSW"1
123456LDL"
LDL'
LDT"14LDT"12
ONL"
C4
C2
C4C6
C2
GY
W/Y
W/R
11 3121
14 24 34
12
LDT' PTH'
ST1'
CSW'2
BRBL
DR
M'
DW
M'
UM
'
23 123
123
GYR BL
C3
SW
1-18
a
SW
1-8
LDL' SW1-9
LDL'
C2
C2
PR-E
3TSW
-16
BL
GY
W/R
W/Y
W/Y
C2
BL
WH
WH
LM'
OL2'
CF'
GN
R
R
R
JUMPER CONNECTEDFOR 208V ONLY
BR
LOWER OVEN (")
1 2 STB
1
2
3CFT"
OL1"
SW2-17SW2-12SW2-6
C6/4
GY
W/R
W/R
SW2-7SW2-7a
SW2-13
C6/4
C6/4
GYBR
W/RSW2-15
SW2-16BL
R
LEO
"LE
I"
UEO"UEI"
BE"
OL2"
WH
BL
GN
GN BL
BL
OL1"
BL
11 3121
14 24 34
12
BLBR
GY
GY
BL
GY
PTH"ST1"C"
GY
TSW15LDL"
SW2-8MTB3
SW2-14SW2-9
LDL"TP"5
TP"4CSW2"
SW2-14aTSW-4
PR-NWHT"
SW2-6SW2-7
SW2-7aSW2-15
SW2-13SW2-12
SW2-17SW2-16
SW2-11SW2-10
C6
LDT"14LDT"12
PTH34"
LM"
CFT"378
CF"UEO"
UEI"BE"
LEO"LEI"
RE"WM"
1
DR
M"
DW
M"
UM
"
231
231
23
BL
GY
W/RG
YW
/R BL
C5 W/Y
BL
PR-NLM"
C6/4
WH
LDT"
C6/4
W/Y
W/R
C6
TP"5
TP"4
CSW2"
GN
0
BL
BL
W/BK
W/B
K
CF" ST2
"
RE" WM"
ST3
"C"
WH
C6/4
W/BKSW2-11
W/BL
SW2-10 W/Y
0L1"
BRBR
78
WH
PTH
"34
BR
BR
OL2" BL
WH
WM"
GN
W/R
W/B
L
JUMPER CONNECTEDFOR 208V ONLY
BR
HBL 56
DIAGRAM #32B
K G W
PO
WE
R S
UP
PLY
SPA
RK
MO
DU
LEIG
NIT
OR
SVA
LVE
SW
ITC
HE
S
(RR
)
(LR
)
(RF)
(LF)
(RR
)
(LR
)
(RF)
(LF)
RE
I 5S
W4
SW
3
SW
2
SW
1
GR
OU
ND
16
LIN
E 1
5
RE
IG 5
13
RE
IG 4
12
NE
UTR
AL
11
RE
IG 3
10
RE
IG 2
9
RE
IG 1
8
RE
I 4
RE
I 3
RE
I 2
RE
I 1
NH
T 71
BK G W
PO
WE
R S
UP
PLY
SPA
RK
MO
DU
LEIG
NIT
OR
SVA
LVE
SW
ITC
HE
S
(RR
)
(CR
)
(LR
)
(RF)
(LF)
(RR
)
(CR
)
(LR
)
(RF)
(LF)
RE
I 5S
W5
SW
4
SW
3
SW
2
SW
1
GR
OU
ND
16
LIN
E 1
5
RE
IG 5
13
RE
IG 4
12
NE
UTR
AL
11
RE
IG 3
10
RE
IG 2
9
RE
IG 1
8
RE
I 4
RE
I 3
RE
I 2
RE
I 1
NH
T 91
DIAGRAM #33c/u 1 737 203 858
1 739 911 201
M
F
1M 1
M 1M 1
u6u8
161˚
Fe6
e5
PTC
u4
b3
1211
109
87
65
4
4
31
2
21
24
43
aa
1
bb
24
1
3
ba
aa
bb
b
5 6
1 2
a 24
1
r1
m2
m3
m1A2
s2
e0
N
L1a1
u5u3
f4
f1
h1
b2 14
0˚F
f3
b1
u2
185
˚F
f5
curr
ent p
ath
Sym
bol K
ey
curr
ent p
ath
a1M
AIN
SW
ITC
H2
e0D
OO
R S
WIT
CH
3A
2A
CTU
ATO
R (D
ispe
nser
)7
e6FL
OAT
SW
ITC
H7
e5FL
OW
SW
ITC
H11
f3TH
ER
MO
STA
T 14
0˚F
9f1
WAT
ER
LE
VE
L S
WIT
CH
5
f4TH
ER
MO
STA
T 16
1˚F
6
Sym
bol K
ey
PO
WE
R S
CR
UB
b1
& b
3
RE
GU
LAR
b1
& b
2
RIN
SE
& H
OLD
b3
f5H
IGH
LIM
IT 1
85˚F
12 curr
ent p
ath
h1O
N/O
FF L
AM
P4
m1
TIM
ER
MO
TOR
6m
2C
IRC
ULA
TIO
N M
OTO
R10
m3
DR
AIN
MO
TOR
8r1
HE
ATIN
G E
LEM
EN
T12
s2W
ATE
R S
OLE
NO
ID5
u–TI
ME
R C
ON
TAC
TS–
Sel
ecto
r Sw
itch
Con
tact
s
L
perm
anen
t spl
itca
paci
tor m
otor
(m2)
N
SH
U 3
0
DIAGRAM #34c/u 1 737 203 858
1 739 911 203
e0
1M
Sel
ecto
r Sw
itch
– b
WHGN-u-4b
WH-f4
GYRD-u-6bVT-u-8b
GN-u-6aVTBK-u-2a
12
34
56
b.b.b.b.b.b.
On
/ O
ff S
witc
h –
a1D
oor S
witc
h –
e0
WHRD-l6-9
BK-l1-L1
WHRD-A2WH-l1-N
WHVT-u-4RD-l6-5
21
34
56
h1 a1
Tim
er –
u
YE
-f4R
D-A
2
BK-
m2-
1W
HG
N-b
-1V
TBK-
b-5
GY
BK-
e5-1
WH
RD
-A2
m1
BU
-l6-4
GY-
l6-1
VT-
b-3
GY
RD
-b-2
GY
RD
-l6-8
WH
-l6-3
WH
-f4G
N-l6
-6G
N-b
-4W
HV
T-a1
-31M
3b 3a 3 4b 4a 4
5b 5a 5 6b 6a 6
8b 8a 8
2b 2a 2
GY
RD
-l6-8
GY
RD
-e6-
4
BU
RD
-m2-
2B
UR
D-s
2
L1
Dra
in M
otor
– m
3
BK-
a1-4
WH
-e0-
2
GN
YE
-r1
L1 N
PE
-3
Ele
ctric
al S
uppl
y –
l1
VT-
f1-2
BU
RD
-m3
GN
YE
-r1
Wat
er S
olen
oid
– s2
RD
-e5-
4G
NY
E-1
-PE
-3G
NY
E-P
E-2
GN
YE
-s2
GN
YE
-m2
RD
-f5
Hea
ting
Ele
men
t – r1
GN
YE
-PE
-1
GN
YE
-r1
GN
YE
-m2
GN
YE
-PE
-4
Gro
und
– P
E
124
RD
-u-3
b
WH
RD
-m1
WH
RD
-e0-
1
Act
uato
r (D
ispe
nser
) – A
2
WH
RD
-e0-
1G
YR
D-u
-6b
GN
-u-6
aR
D-a
1-3
BU
-u-5
aW
H-u
-8a
GY-
u-3
BU
RD
-m2
WH
RD
-f5
GY
RD
-m3-
L1
GN
-f3R
D-e
6-1
BU
-f1-1
WH
-e5-
2
GY-
e6-2
Wiri
ng C
onne
ctor
– l6
123456789
BK-
u-2b
BU
RD
-m3
BU
RD
-l6-9
GN
YE
-PE
-1G
NY
E-r
1
Circ
ulat
ion
Mot
or –
m2
12
3
K1
YE
-u-5
b
WH
-u-8
aW
H-b
-6
Ther
mos
tat –
f4
161˚
F
WH
-e5-
2W
H-f1
-4
GN
-l6-6
WH
RD
-l6-9
RD
-r1
Ther
mos
tats
– f3
& f5
f3
140˚
F
f5
185˚
F
BU
-l6-4
WH
-f3
VT-
s2
Wat
er L
evel
Sw
itch
– f1
P
4 2
1
RD
-l6-5
GY
RD
-m3-
L1
GY-
l6-1
Floa
t Sw
itch
– e6
4 21
RD
-r1
WH
-f3W
H-l6
-3
Flow
Sw
itch
– e5
4 21
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
Hig
h Li
mit
A2
SH
U 3
0
B DIAGRAM #35c/u 1 737 203 858
1 739 911 202
WA
SH
STA
LLR
INS
E S
TALL
W A T E R L E V E L
PR
OG
RA
M
TIM
ING
KE
Y (T
IME
FOR
SE
NS
OR
TO
BE
SAT
ISFI
ED
)
f1 =
Wat
er L
evel
Sw
itch
f3 =
140
˚F T
herm
osta
tf4
= 1
61˚F
The
rmos
tat
12
34
516
618
78
910
1112
1314
1517
1920
2142
2223
2425
2637
4727
2835
3229
30
3133
34
36
38
39
40
4143
44
454
64
84
95
051
5253
54
555
657
60
58
59
60606060240240240605545
UU
f4+56055f3+56060f1+55f1+53030240f1+55f1+560603030230f3+5f3/f4+51806060f1+55f1+53030606060f1+50f1+5(5)30306060f1+55f1+53030
PT
offoff
TTTTTPU
H+UH+U+KH+U+KH+UH+UH+UF+UFPP+UUF+UFPFPP+U UH+UH+UH+UH+U+RH+U+RF+UFPP+UUUUF+UFStopPP+UUUF+UFPP
PR
E-W
AS
HW
AS
H W
/ H
EAT
PR
E-R
INS
ER
INS
E W
/ H
EAT
DR
YIN
G
87654321 11 12 13 14 15 16 17 18 19
a b a ba ba ba ba ba ba b
Ther
mos
tat 1
40˚
FD
rain
Mot
or
Tim
er M
otor
161˚
F Th
erm
osta
t Byp
ass
Wat
er S
olen
oid
Ther
mos
tat 1
61˚F
Hea
ting
Ele
men
tD
rain
Mot
or
Act
uato
r
Tim
er S
top
Circ
ulat
ion
Mot
or
Reg
ular
Pow
er S
crub
Rin
se &
Hol
d
161˚
16
1˚
140˚
161˚
T I M E R C O N T A C T S
TIM
E IN
SE
CO
ND
S
OP
ER
ATIO
N
TIM
ER
PO
SIT
ION
WA
SH
/RIN
SE
161˚
F/16
1˚F
140˚
F/16
1˚F
OP
ER
ATIO
N K
EY
DR
AIN
ING
P=
FILL
ING
F=
CIR
CU
LATI
ON
U=
DE
TER
GE
NT
DIS
PE
NS
ING
R=
RIN
SE
–AID
DIS
PE
NS
ING
K=
DR
YIN
GT
=H
EAT
ING
H=
SH
U 3
0
DIAGRAM #361 739 911 198
11
11
1
1
1
2
M 1
X1
X2
l4
76
32
12
1
1
34
562
e0
I2.7
-1
f2-f4I2
.6-
I2.5
-I2
.9I2
.8
A1
I2.2
-I2
.4-
I2.4
-1I2
.7-2
I2.4
-2
185˚
F
A2
12
87
3
NTC
4
2
1
14
4
e3
e5F
N L1
a1
Con
trol
Mod
ule
– I2
m2
m3
e6s2
o2f1
f5 r1
I2.1
-1
I2.1
-2
I2.1
-3
depe
nden
t on
equi
pmen
t1
cont
acts
5–6
are
mom
enta
ry –
they
rese
t the
con
trol
mod
ule
& a
ctua
te th
e te
st p
rogr
am2
Sym
bol K
ey
a1O
N/O
FF S
WIT
CH
e0D
OO
R S
WIT
CH
A1
AC
TUAT
OR
(Upp
er B
aske
t)A
2A
CTU
ATO
R (D
ispe
nser
)
e6FL
OAT
SW
ITC
He5
FLO
W S
WIT
CH
e3R
EE
D S
WIT
CH
f1W
ATE
R L
EV
EL
SW
ITC
H
Sym
bol K
ey
f5H
IGH
LIM
IT 1
85˚F
m2
CIR
CU
LATI
ON
MO
TOR
m3
DR
AIN
MO
TOR
NTC
TEM
PE
RAT
UR
E S
EN
SO
Rr1
HE
ATIN
G E
LEM
EN
Ts2
WAT
ER
SO
LEN
OID
X2
SE
RV
ICE
CO
NN
EC
TOR
l4A
QU
A S
EN
SO
R
X1
JUM
PE
R
L
perm
anen
t spl
itca
paci
tor m
otor
(m2)
N
SH
I 43/
68
and
SH
U 4
3/53
/68
DIAGRAM #371 739 911 220
1M
Con
trol
Mod
ule–
l2
On/
Off
Sw
itch
– a1
Doo
r Sw
itch
– e0
Floa
t sw
itch
– e6
Ele
ctric
al S
uppl
y –
l1H
eatin
g E
lem
ent –
r1Fl
ow S
witc
h –
e5D
rain
Mot
or –
m3
Gro
und
– P
E
Act
uato
r (D
ispe
nser
) – A
2
Circ
ulat
ion
Mot
or –
m2
Wat
er S
olen
oid
– s2
Wat
er L
evel
Sw
itch
– f1
NTC
– f2
& f4
/ T
herm
osta
t – f5
Wiri
ng C
onne
ctor
s –
I5 &
I6
WH-l2.1-1
WH-l2.1-3
WHRD-e5-1WH-l1-N
GYBK-l2.7-1BK-l1-L1
WH-l2.4-8WH-l6-2
21
34
56
e0
GY
RD
-e6-
4G
YR
D-l6
-9
WH
VT-
m2-
2
L1
BK-
a1-4
WH
-e0-
2
GN
YE
-r1
L1 N
PE
-3
RD
-e5-
4G
NY
E-l1
-PE
-3G
NY
E-P
E-2
GN
YE
-s2
GN
YE
-m2
RD
-f5
GN
YE
-PE
-1
GN
YE
-r1
GN
YE
-m2
GN
YE
-PE
-4124
BU
-l2.2
-1
BU
-l2.2
-2
GN
-NTC
GN
-NTC
BN
-l2.5
-7B
N-l2
.5-6
BN
-l2.5
-3B
N-l2
.5-2
BN
-l2.5
-1
WH
-l2.4
-7
l5 987654321
RD
-f5W
H-e
6-1
VT-
s2B
U-f1
-4
GY
RD
-m3-
L1
RD
-l2.7
-2W
H-a
1-6
BU
-l2.4
-4
BK-
m2-
1B
U-l2
.4-2
BU
-l2.4
-3
BU
-l2.4
-1
l6 987654321
BK-
l6-8
WH
VT-
m3
WH
VT-
e5
GN
YE
-PE
-1G
NY
E-r
1
12
3
K4
GN
-l5-1
BU-l6-6
GN
-l5-2
RD
-l6-1
RD
-r1
f2-f4 f5
185˚
F
RD
-e6-
1
BU
-l6-7
P
4 2
1
WH
-l6-2
RD
-f1-1
GY
RD
-m3-
L1
WH
-s2
4
21
RD
-r1
WH
RD
-e0-
1W
HV
T-m
2-3
4
21
1m
ay e
xist
with
out f
unct
ion
VT-
l6-6
WH
-e6-
2
GN
YE
-r1
NTC
1
11
1 1 1
x1
4
BU-l6-7
3
BU-l6-8
2
BU-l6-9
1
GYBK-a1-3
1
RD-l6-1
BK-l2.1-2
2
BN-l5-5
3
BN-l5-6
2
BN-l5-7
1
WH a1-5
3
BK-l2.7-1
2
WH-e0-1
1
WH a1-6
8
WH l6-3
7
BU-A2
2
BU-A2
12
1
BN-l5-1
7
BN-l5-2
65
46
5.5
.6.4
.2.1
.7
.5.9
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
Hig
h Li
mit
SH
I/S
HU
43
A2
DIAGRAM #381 739 911 205
1M
Ree
d S
witc
h –
e3C
ontr
ol M
odul
e –
l2
On/
Off
Sw
itch
– a1
Doo
r Sw
itch
– e0
Floa
t Sw
itch
– e6 Ele
ctric
al S
uppl
y –
l1H
eatin
g E
lem
ent –
r1Fl
ow S
witc
h –
e5D
rain
Mot
or –
m3
Gro
und
– P
E
Act
uato
r (D
ispe
nser
) – A
2
Circ
ulat
ion
Mot
or–
m2
Wat
er S
olen
oid
– s2
Wat
er L
evel
Sw
itch
– f1
NTC
– f2
& f4
/ T
herm
osta
t – f5
Wiri
ng C
onne
ctor
s –
I5 &
I6
Aqu
a S
enso
r – l4
WH-l2.1-1
WH-l2.1-3
WHRD-e5-1WH-l1-N
GYBK-l2.7-1BK-l1-L1
WH-l2.4-8WH-l6-2
21
34
56
e0
GY
RD
-e6-
4G
YR
D-l6
-9
WH
VT-
m2-
2
L1B
K-a1
-4
WH
-e0-
2
GN
YE
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L1 N
PE
-3
RD
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NY
E-l1
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NY
E-P
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GN
YE
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GN
YE
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-1
YE
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YE
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-2
GN
YE
-r1
GN
YE
-m2
GN
YE
-PE
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BU
-l2.2
-1
BU
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-2
GN
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GN
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BN
-l2.5
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N-l2
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BN
-l2.5
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N-l2
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BN
-l2.5
-1
BN
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BN
-l4-2
BN
-l4-1
WH
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l5 987654321
RD
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H-e
6-1
VT-
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U-f1
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GY
RD
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L1
RD
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H-a
1-6
BU
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-4
BK-
m2-
1B
U-l2
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BU
-l2.4
-3
BU
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-1
l6 987654321
BK-
l6-8
WH
VT-
m3
WH
VT-
e5
GN
YE
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-1G
NY
E-r
1
12
3
K4
GN
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BU-l6-6
GN
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RD
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RD
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f2-f4 f5
185˚
F
RD
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BU
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WH
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GY
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WH
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4
21
RD
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WH
RD
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1W
HV
T-m
2-3
4
21
VT-
l6-6
WH
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2
GN
YE
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NTC
1
1
N S
x1
4
BU-l6-7
3
BU-l6-8
2
BU-l6-9
1
GYBK-a1-3
1
RD-l6-1
BK-l2.1-2
2
BN-l5-5
3
BN-l5-6
2
BN-l5-7
1
BN-l5-5
3
BN-l5-6
2
BN-l5-7
1
WH a1-5
3
BK-l2.7-1
2
WH-e0-1
1
WH a1-6
8
WH l6-3
7
BU-A2
2
BU-A2
1
YE-e3
2
YE-e3
1
BN-l5-1
7
BN-l5-2
65
46
5.5
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1m
ay e
xist
with
out f
unct
ion
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
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olet
GY
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ayW
H=
whi
teP
K=
pink
Hig
hLi
mit
SH
U 5
3
A2
DIAGRAM #391 739 911 199
1M
Ree
d S
witc
h –
e3
On/
Off
Sw
itch
– a1
Doo
r Sw
itch
– e0
Floa
t Sw
itch
– e6
Ele
ctric
al S
uppl
y –
l1H
eatin
g E
lem
ent –
r1Fl
ow S
witc
h –
e5D
rain
Mot
or –
m3
Gro
und
– P
E
Act
uato
rs –
A1
& A
2
Circ
ulat
ion
Mot
or –
m2
Wat
er S
olen
oid
– s
2
Wat
er L
evel
Sw
itch
– f1
NTC
– f2
& f4
/ T
herm
osta
t – f5
Wiri
ng C
onne
ctor
s –
I5 &
I6
Aqu
a S
enso
r – l4
WH-l2.1-1
WH-l2.1-3
WHRD-e5-1WH-l1-N
GYBK-l2.7-1BK-l1-L1
WH-l2.4-8WH-l6-2
21
34
56
e0
GY
RD
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4G
YR
D-l6
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WH
VT-
m2-
2
L1B
K-a1
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WH
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GN
YE
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L1 N
PE
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NY
E-l1
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NY
E-P
E-2
GN
YE
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GN
YE
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RD
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GN
YE
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YE
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YE
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GN
YE
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GN
YE
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GN
YE
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BU
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BU
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2
RD
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1W
H-l6
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l6-3
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GN
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GN
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BN
-l2.5
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N-l2
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BN
-l2.5
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N-l2
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BN
-l2.5
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BN
-l4-3
BN
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BN
-l4-1
WH
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l5 987654321
RD
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RD
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RD
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1-6
BU
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BK-
m2-
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BU
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BU
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l6 987654321
BK-
l6-8
WH
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m3
WH
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BU-l6-6
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dete
rgen
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pens
er
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r bas
ket w
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l6-6
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1
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1
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BK-l2.1-2
2
BN-l5-5
3
BN-l5-6
2
BN-l5-7
1
BN-l5-5
3
BN-l5-6
2
BN-l5-7
1
WH a1-5
3
BK-l2.7-1
2
WH-e0-1
1
WH a1-6
8
WH l6-3
7
BU-A2
2
BU-A2
1
YE-e3
2
YE-e3
1
BN-l5-1
7
BN-l5-2
65
46
5.5
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BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
Con
trol
Mod
ule
– l2
Hig
hLi
mit
SH
I/S
HU
68
DIAGRAM #401 739 911 152
SHI/U 43-- MODELS
To begin the test program, press both the POWER SCRUB PLUS and REGULAR WASH buttons at the same time as youturn the unit on by pressing the ON/OFF button. When the buttons are released, the LED’s above them will begin flashing.To end the test program or test cycle, press the ON/OFF button.
To check the LED indicator lamps (WASH, RINSE/DRY and CLEAN status lights and the SCRUB WASH program light),press the SCRUB WASH button.
To start the test cycle, press both the POWER SCRUB PLUS and REGULAR WASH buttons a second time. When the testcycle has completed and a fault was detected, the following indicator LED’s will be illuminated.
WASH = Heating faultRINSE/DRY = Filling faultCLEAN = NTC (temperature sensor) fault
SHU 53-- or SHI/U 68-- MODELS
To begin the test program, press both the SCRUB WASH and DELICATE/ECONO wash program buttons at the same timeas you turn the unit on by pressing the ON/OFF button. Initially, the control unit version number will appear in the display(e.g./ 20 = version 20, 21 = version 21, etc.). When the wash program buttons are released, the LED’s above them willbegin flashing. To end the test program or test cycle, press the ON/OFF button.
To check the wash program LED, press its corresponding button. To check the Cycle Countdown display, Refill Rinse AgentLED and REGULAR WASH button LED, press the REGULAR WASH button (press the DELAY START button to test theCycle Countdown display alone). The Cycle Countdown display should show “88” when the DELAY START button ispressed and “8h” when the REGULAR WASH button is pressed.
To start the test cycle, press both the SCRUB WASH and DELICATE/ECONO buttons a second time. When the test cyclehas completed, the Cycle Countdown display will indicate a fault using the codes below. If a combination of faults exists,the code numbers will be added together, (e.g./ 6 = faults 2 + 4).
0 = No faults1 = Aqua Sensor (“Sensotronic”) fault2 = Heating fault4 = Filling fault8 = NTC (temperature sensor) fault
If the refill rinse agent sensor (reed switch e3) has failed (open circuited), the display will show “0” throughout the testcycle. If the water level switch (f1) has failed (open circuited), the display will show fault code “4” and the unit willcontinually fill and drain where the test cycle won’t be completed. If the flow switch (e5) has failed (open circuited), thedisplay will show “0” throughout the test cycle, the water will not heat (to 150°F) and the unit won’t stop circulating. If theNTC probe (f2/f4) has failed (open circuited), the display will show fault code “8” immediately and the test cycle will endshortly after the unit has started circulating.
• To bypass a function: SHI/U 43-- models Press the SCRUB WASH buttonSHI/U 53--/68-- models Press the REGULAR WASH button.
FUNCTION* DURATION COMMENTS
Draining 30 seconds
Aqua Sensor 65 seconds Not used on SHI/U 43--(“Sensotronic”) Calibration
Filling Until Water Level Switch (f1) closes This function can’t be bypassed
Heating & Circulating Until water temperature reaches 150°F (65°C) Dispenser Actuator energizes
Draining 60 seconds
SHI/U 43--, 53-- or 68-- DISHWASHER DIAGNOSTIC TEST PROGRAM
DIAGRAM #41
M
F
1M 1
M 1M 1
u6u8
161˚
Fe6
e5
PTC
u4
b3
1211
109
87
65
4
4
31
2
21
24
43
aa
1
bb
24
1
3
ba
aa
bb
b
5 6
1 2
a 24
1
r1
m2
m3
m1A2
s2
e0
N
L1a1
u5u3
f4
f1
h1
b2 140˚
F
f3
b1
u2
185˚
F
f5
curr
ent p
ath
Sym
bol K
ey
curr
ent p
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a1M
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SW
ITC
H2
e0D
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WIT
CH
3A
2A
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nser
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ITC
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ITC
H11
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STA
T 14
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ER
LE
VE
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WIT
CH
5
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MO
STA
T 16
1˚F
6
Sym
bol K
ey
PO
WE
R S
CR
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b1
& b
3
RE
GU
LAR
b1
& b
2 &
b3
EC
ON
OM
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RIN
SE
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OLD
b3
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LIM
IT 1
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12 curr
ent p
ath
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N/O
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P4
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TIM
ER
MO
TOR
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2C
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Sel
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Con
tact
s
L
perm
anen
t spl
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paci
tor m
otor
(m2)
N
SH
U 4
0
DIAGRAM #42
e0
1M
Sel
ecto
r Sw
itch
– b
WHGN-u-4b
WH-f4
GYRD-u-6bBNBK-u-8b
GN-u-6aVTBK-u-2a
12
34
56
b.b.b.b.b.b.
On
/ O
ff S
witc
h –
a1D
oor S
witc
h –
e0
WHRD-l6-9
BK-l1-L1
WHRD-A2WH-l1-N
WHVT-u-4RD-l6-5
21
34
56
h1 a1
Tim
er –
u
BK
BU
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D-A
2
BK-
m2-
1W
HG
N-b
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TBK-
b-5
GY
BK-
e5-1
WH
RD
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m1
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l6-1
BN
BK-
b-3
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RD
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RD
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HV
T-a1
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5b 5a 5 6b 6a 6
8b 8a 8
2b 2a 2
GY
RD
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GY
RD
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4
BU
RD
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2B
UR
D-s
2
L1
Dra
in M
otor
– m
3
BK-
a1-4
WH
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2
GN
YE
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L1 N
PE
-3
Ele
ctric
al S
uppl
y –
l1
VT-
f1-2
BU
RD
-m3
GN
YE
-r1
Wat
er S
olen
oid
– s2
WH
GN
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NY
E-1
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NY
E-P
E-2
GN
YE
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GN
YE
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Hea
ting
Ele
men
t – r1
GN
YE
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GN
YE
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GN
YE
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GN
YE
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Gro
und
– P
E
124
RD
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b
WH
RD
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WH
RD
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1
Act
uato
r – A
2
WH
RD
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D-u
-6b
GN
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D-a
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H-u
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GY-
u-3
BU
RD
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L1
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6-1
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Wiri
ng C
onne
ctor
– l6
123456789
BK-
u-2b
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RD
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GN
YE
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NY
E-r
1
Circ
ulat
ion
Mot
or –
m2
12
3
K1
BK
BU
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b
WH
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aW
H-b
-6
Ther
mos
tat –
f4
161˚
F
WH
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2W
H-f1
-4
GN
-l6-6
WH
RD
-l6-9
RD
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Ther
mos
tats
– f3
& f5
f3
140˚
F
f5
185˚
F
BU
-l6-4
WH
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VT-
s2
Wat
er L
evel
Sw
itch
– f1
P
4 2
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GY
RD
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GY-
l6-1
Floa
t Sw
itch
– e6
4 21
GY
BK-
u-4a
WH
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WH
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H-l6
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Flow
Sw
itch
– e5
4 21
BK
=bl
ack
BN
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own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
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ayW
H=
whi
teP
K=
pink
1M
SH
U 4
0
B DIAGRAM #43
WA
SH
STA
LLR
INS
E S
TALL
W A T E R L E V E L
PR
OG
RA
M
TIM
ING
KE
Y (T
IME
FOR
SE
NS
OR
TO
BE
SAT
ISFI
ED
)
f1 =
Wat
er L
evel
Sw
itch
f3 =
140
˚F T
herm
osta
tf4
= 1
61˚F
The
rmos
tat
12
34
516
618
78
910
1112
1314
1517
1920
2142
2223
2425
2637
4727
2835
3229
30
3133
34
36
38
39
40
4143
44
454
64
84
95
051
5253
54
555
657
60
58
59
60606060240240240605545
UU
f4+56055f3+56060f1+55f1+53030240f1+55f1+560603030230f3+5f3/f4+51806060f1+55f1+53030606060f1+50f1+5(5)30306060f1+55f1+53030
PT
offoff
TTTTTPU
H+UH+U+KH+U+KH+UH+UH+UF+UFPP+UUF+UFPFPP+U UH+UH+UH+UH+U+RH+U+RF+UFPP+UUUUF+UFStopPP+UUUF+UFPP
PR
E-W
AS
HW
AS
H W
/ H
EAT
PR
E-R
INS
ER
INS
E W
/ H
EAT
DR
YIN
G
87654321 11 12 13 14 15 16 17 18 19
a b a ba ba ba ba ba ba b
Ther
mos
tat 1
40˚
FD
rain
Mot
or
Tim
er M
otor
161˚
The
rmos
tat B
ypas
s
Wat
er S
olen
oid
Ther
mos
tat 1
61˚F
Hea
ting
Ele
men
tD
rain
Mot
or
Act
uato
r
Tim
er S
top
Circ
ulat
ion
Mot
or
Eco
nom
y
Reg
ular
Pow
er S
crub
Rin
se &
Hol
d
161˚
161˚
140˚
161˚
140˚
161˚
T I M E R C O N T A C T S
TIM
E IN
SE
CO
ND
S
OP
ER
ATIO
N
TIM
ER
PO
SIT
ION
WA
SH
/RIN
SE
161˚
F/16
1˚F
140˚
F/16
1˚F
140˚
F/16
1˚F
OP
ER
ATIO
N K
EY
DR
AIN
ING
P=
FILL
ING
F=
CIR
CU
LATI
ON
U=
DE
TER
GE
NT
DIS
PE
NS
ING
R=
RIN
SE
–AID
DIS
PE
NS
ING
K=
DR
YIN
GT
=H
EAT
ING
H=
SH
U 4
0
DIAGRAM #44
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
X11
-4.2
X11-
4.10
X11
-4.9
X11
-5.2
X11
-5.1
X11
-5.4
X11
-5.3
3231
X11
-4.1
X11
-8.1
X11
-1.1
X11
-1.3
X11-
1.4
X11
-1.2
X11
-6.1
X11
-6.5
X11
-2.1
X11
-1.5
X11
-2.3
X11
-8.1
9
X11
-5.5
5 po
l.
Y3
K2
R1
F3
Q4
Q4
K10
N1
19 p
ol.
Con
trol
Boa
rd
X11
-4.4
X11
-4.8
X11
-4.8
X11
-3.3
X11
-4.3
Y2
J1 K9
X11
-3.2
X11
-3.4
X11
-3.8
X11
-3.5
X11
-3.6
X2.
4
X11
-3.9
X2.
3
36 34
X11
-4.7
X11
-4.5
X2.
7
X11-
3.10
X2.
2
14
2
14.2
(X11
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1)
4
L1Le
vel 2
Leve
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12
11
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(X2.
1)
X2.
5X
2.8
X11
-3.7
X11
-3.1
YR
M2
X1-
L2
X1-
L1
F7
K11
K7K
5
M2
M
M3
H1
Z1
M 1
G
S
B3
P
B2
K13
23
3
3 5
1
462
24
K2
E1
K8
K3 P
K6
V5
List
of C
ompo
nent
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urre
nt P
ath
B2
Pre
ssur
e S
witc
h Le
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3P
ress
ure
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itch
Leve
l 116
E1
Hea
ter
9F3
Doo
r with
Loc
k8
F7M
otor
Ove
rload
21H
1O
n/O
ff La
mp
(Indi
cato
r Lig
ht)
4K
2H
eate
r Rel
ay9,
11K
3H
eate
r Rel
ay11
K5
Rev
ersi
ng R
elay
23K
6R
ever
sing
Rel
ay22
K7
Fiel
d Ta
p R
elay
22K
8R
elay
Pum
p13
K9
Rel
ay M
ain
Was
h16
K10
Rel
ay P
rew
ash
15K
11R
elay
Hot
Wat
er18
K13
Rel
ay -
Lock
ing
8M
2W
ash/
Spi
n M
otor
21M
3P
ump
Mot
or13
N1
Ope
ratin
g M
odul
e2
N7
Con
trol
Mod
ule
Q4
On/
Off
Sw
itch
4R
1N
TC T
empe
ratu
re S
enso
r11
V5
Tria
c M
otor
Con
trol
21X
1P
ower
Ter
min
al B
lock
1X
2M
otor
Con
nect
or P
lug
20-2
3X
11P
lug
in C
onne
ctio
n C
ontro
l Mod
ule
5-23
X11
-6D
iagn
ostic
Plu
g9
Y2
Inle
t Val
ve M
ain
Was
h16
Y3
Inle
t Val
ve P
rew
ash
15Y
RIn
let V
alve
Hot
Wat
er18
Z1
Sur
ge S
uppr
esso
r3
WA
RN
ING
!A
lway
s di
scon
nect
ele
ctric
al p
ower
to th
e w
ashe
r bef
ore
begi
nnin
g an
y se
rvic
e re
pair
proc
edur
es.
K5
K6
Dru
m ro
tatio
n rig
htof
fon
Dru
m ro
tatio
n le
fton
off
Con
nect
or m
odul
e N
7C
onne
ctor
to e
lect
rical
com
pone
nt
WFK
24
01
B33 5008 AA2
DIAGRAM #45
X11
-4.5
…4.
8
MQ
87
65
43
21
1214
113
631
34
32
12
34
5
12
31
24
56
L3L2
L1N
L3L2
L1N
A
12
34
1323
24a
b14
PE
M1
511
76
54
32
1
10 9 8 7 6 12
17 6 5 4 3 2 123
L2*
L2*
J1
4
2121
2121
12 34 12
21
21
3
23
1
21
21
11
2
12
34 12
2121
2121
X11
-3K
7
K5
K3
Q4 F3
Pre
ssur
e S
witc
h
Hea
ter R
elay
5k …
7k
B2
N2
Saf
ety
leve
l
N1
= 2
5…
32m
mN
2 =
38
…3
9cm
Saf
ety
leve
l = 4
8…
49c
mN
1
14.2
N1
N2
B3
K2
PE
PE
E1
Hea
ter
15 …
34
3.5k
… 4
.7k
3.5k
… 4
.7k
70 …
100
3.5k
… 4
.7k
R1
PE
:S
ide
Wal
lH
eate
rM
otor
Mai
n G
roun
d
Doo
r with
Lock
NTC
Tem
pera
ture
Sen
sor
N1
Ope
ratin
g M
anua
l
300
…15
00
not
act
uate
d at
room
tem
pera
ture
H1
On/
Off
Lam
p(In
dica
tor L
ight
)
On/
Off
Sw
itch
Sur
ge S
uppr
esso
r
X1
Z1
Pow
er T
erm
inal
Blo
ck
N7
Con
trol
Mod
ule
Inle
t Val
veH
ot W
aterW
ash/
Spi
n M
otor
K6
V5
L1
L1
L1
510 9 8 7 6 123
L2*
L2*
L2*
< N
1
N2
4
1919
1818
1717
1616
1515
1414
1313
1212
1111
1010
99
88
77
66
55
44
33
22
1
123456789101112131415161718191
33
22
1
1231
123 12345678910111213141516171819
X11
-4X
11-8
X11
-11
23
45 L1
21
21
3
23
12
34
1
23
11
2
X11
-5
X11
-2
K13
K10
K11
L1
L1
K9
K8
L1
M2
X2
13
24
5X
11-6
Dia
gnos
tic P
lug
Mot
or C
onne
ctor
Plu
g
YR
M3
Y2
Y3 P
re w
ash
Inle
t Val
veM
ain
Was
hB
3-31
…3
6
Pum
p
F7
PP
10ºC
8.5k
…10
.6k
20ºC
5.4k
…6.
5k
30º
C3.
5k …
4.3k
4
0ºC
2.3k
…2.
9k
50º
C1.
5k …
1.9k
6
0ºC
1.1k
…1.
3k
66º
C0.
9k …
1.1k
8
6ºC
0.45
k …
0.55
k
X2.
1 –
30.
7
…1.
2
X2.
2 –
30.
7
…2
X
2.4
– 5
1.5
…
10
X2.
6 –
714
…
20
K5
K6
Dru
m ro
tatio
n rig
htof
fon
Dru
m ro
tatio
n le
fton
off
WFK
24
01
B33 5018 AA1
E3
B9
X6-
X11
-12
X11
-12
S9
H8
Q4Q
4
L2 PE
X22
X11
-1
E2
R2
3 8
12
34
56
78
910
11
For W
TL 5
400
con
dens
atio
n dr
yers
not o
n m
odel
s w
ithou
t dru
m il
lum
inat
ion
1213
1415
1617
1819
2021
22
F71X2-
M8
M4
C1
X11
-10
5 2
4 35
32
1
64
4
1
62
45 4
L1X
11-1
2X
11-1
X11
-2X
11-5 X
11-1
4
N1
/ S
2
S10
V2
S8
X20
X18
R3
B10
F1
N3
2
31
5
7
3 2
4
27
62P
1
3
51
10 p
ol.
31
31
1
5 6
6 5
M 1
M 1
List
of C
ompo
nent
sC
urre
nt P
ath
B9
Ove
rhea
t The
rmos
tat
7B
10Le
vel S
witc
h C
onde
nsat
ed W
ater
10C
1C
apac
itor
15E
2H
eate
r10
E3
Hea
ter
8F1
Doo
r Sw
itch
8F7
Mot
or O
verlo
ad14
H8
Illum
inat
ion
6M
4P
ump
Mot
or C
onde
nsat
e W
ater
8
List
of C
ompo
nent
sC
urre
nt P
ath
M8
Dru
m M
otor
15N
1O
pera
ting
Mod
ule
21N
3P
ower
Sw
itch
6-19
Q4
On/
Off
Sw
itch
4R
2N
TC T
empe
ratu
re S
enso
r11
R3
NTC
Tem
pera
ture
Sen
sor
13S
2S
elec
tor S
witc
h21
S8
Slid
ing
Con
tact
– M
oist
ure
Sen
sor
19S
9D
oor S
witc
h6
List
of C
ompo
nent
sC
urre
nt P
ath
S10
Slid
ing
Gro
und
Con
tact
17V
2E
lect
rode
– M
oist
ure
(In D
rum
)18
X2
Mot
or C
onne
ctor
Plu
g13
-16
X6
Con
nect
ion
Str
ip H
eate
r7-
11X
11P
lug
in C
onne
ctio
n M
odul
e6-
22X
18C
onne
ctor
16X
20C
onne
ctor
20X
22P
ower
Con
nect
ion
Box
2
Plu
g in
Con
nect
ion
Mod
ule
To W
FK 2
401
Out
let
WTA
35
00/
WTL
54
00
DIAGRAM #46518 5008 AA6
DIAGRAM #47
M
M 1
21
21
43
64
5
13
2
12
12
21
23
1
21
21
21
12
32
31
23
1
2
PE
13
21
3
23
12
31
23
1
B10
S10
S8
X20
Moi
stur
e S
enso
rs
V2
X18
R3
NTC
Tem
pera
ture
Sen
sor
**9k
… 1
1k
(Bea
ring
shie
ld)
** 18k …
22k
**
Leve
l Sw
itch
PE
Q4
O
n/O
ff S
witc
h
15A
X22
Pow
er C
onne
ctio
n B
ox
To W
FK 2
401
Out
let
15A
12 12
1234567
12
12
34
56
78
23
14
56
12
12
12
12
12
12
12
2
12
12345
123
L1 L2*
P
E2
700W
=71
…
76
E2
1300
W=
37
…42
E
318
00W
=27
…
31
X2.
2 - 3
19 …
25
25 …
29
X2.
2 - 4
18 …
23
25 …
30
E3
X6
Con
nect
ion
Str
ipH
eate
r
Hea
ter
open
s at
120
º C
(con
dens
. dry
ing)
open
s at
100
º C
(air
dryi
ng)
R2
NTC
B9
Sid
e B
ag
Pum
p M
otor
Con
dens
ate
Wat
er
C1
Cap
acito
r
M4
110
… 1
36
Mot
or C
onne
ctor
Plu
g
Con
dens
atio
ndr
ying
Air
dryi
ng
X2
Mot
or O
verlo
adF7
Dru
m M
otor
M8
Ove
rhea
tTh
erm
osta
t
E2
H8
S9
X11
-1(X
11-3
) X11
-2X
11-5
X11
-14
1 10987654321 1098765432
110 9 8 7 6 5 4 3 2110 9 8 7 6 5 4 3 2
X11
-12
X11
-10
N3
Pow
er M
odul
e
N1
Ope
ratin
g M
odul
e
PE
:S
ide
Wal
lFr
ont W
all
Trav
erse
Mai
n G
roun
d
F12
12
1
23
1
1 2 3
43
21
65
71
23
45
6
12
Illum
inat
ion
Doo
r Sw
itch
For W
TL 5
400
con
dens
atio
n dr
yers
not o
n m
odel
s w
ithou
t dru
m il
lum
inat
ion
not o
n m
odel
s w
ithou
t dru
m il
lum
inat
ion
Con
dens
ated
Wat
er
WTA
35
00/
WTL
54
00
518 5018 AA5
BDIAGRAM #48
11
1M 1
X2
21
21
1
1
34
4
562
2
f2-f4
I2.7
-
I2.3
-
I2.8
-I2
.6
A1
I2.1
-I2
.4-3
I2.4
-1I2
.5-1
185˚
F
A2
13
12
NTC
2
22
4 1
1
4
e3
e5F
N L1
a1
e1
m2
Con
trol
Mod
ule
– I2
m3
e6s2
f1
f5 r1
I2.2
-3I2
.4-2
I2.2
-2
I2.5
-2
used
on
SH
V 4
803
, SH
U 9
922/
992
5/9
926
1
1
1
Sym
bol K
ey
a1O
N/O
FF S
WIT
CH
e1D
OO
R S
WIT
CH
A1
AC
TUAT
OR
(Top
Rac
k O
nly)
A2
AC
TUAT
OR
(Dis
pens
er)
e6FL
OAT
SW
ITC
He5
FLO
W S
WIT
CH
e3R
EE
D S
WIT
CH
f1W
ATE
R L
EV
EL
SW
ITC
H
Sym
bol K
ey
f5H
IGH
LIM
IT 1
85˚F
m2
CIR
CU
LATI
ON
MO
TOR
m3
DR
AIN
MO
TOR
NTC
TEM
PE
RAT
UR
E S
EN
SO
Rr1
HE
ATIN
G E
LEM
EN
Ts2
WAT
ER
SO
LEN
OID
X2
SE
RV
ICE
CO
NN
EC
TOR
L
perm
anen
t spl
itca
paci
tor m
otor
(m2)
N
SH
U 8
8/9
9 (e
xcep
t 995
x),
SH
V 4
3/4
8
L1LI
NE
VO
LTA
GE
(120
VA
C)
NN
EU
TRA
L
HIN
T: F
low
sw
itch
e5 c
lose
s w
hen
wat
er fl
ows,
allo
win
g th
e he
ater
to w
ork.
It w
ill b
e op
en w
hen
dish
was
her i
s of
f.
HIN
T: U
nlik
e S
HU
/SH
I di
shw
ashe
rs, t
hese
di
shw
ashe
rs h
ave
a se
para
te
door
sw
itch
e1. T
his
mea
ns
the
push
butto
ns o
nly
light
up
whe
n th
e do
or is
ope
n.
HIN
T: F
loat
sw
itch
e6
switc
hes
from
term
inal
2 to
4
only
if d
ishw
ashe
r has
ov
erfil
led
or w
ater
has
flo
oded
the
base
.
HIN
T: R
eed
switc
h e3
,lo
cate
d in
the
botto
m
of th
e di
spen
ser,
sens
es w
hen
rinse
aid
ha
s ru
n ou
t.
5602038692
BDIAGRAM #49
1M
VT-
m2-
3
Ree
d S
witc
h –
e3C
ontr
ol M
odul
e –
I2O
n/O
ff S
witc
h –
a1
Floa
t Sw
itch
– e6
Ele
ctric
al S
uppl
y –
l1H
eatin
g E
lem
ent –
r1Fl
ow S
witc
h –
e5D
rain
Mot
or –
m3
Circ
ulat
ion
Mot
or–
m2
Wat
er S
olen
oid
– s2
Wat
er L
evel
Sw
itch
– f1
NTC
– f2
& f4
/ T
herm
osta
t – f5
Bas
e W
iring
Con
nect
or –
I6
WHRD-e1-1WHRD-e5-1
WH-l1-NGYBK-l2.5-2
BK-l1-L12
13
45
6
GY
RD
-e6-
4G
YR
D-l6
-7
WH
VT-
e5-1
L1
BK-
a1-4
WH
-a1-
2
GN
YE
-r1
L1 N
PE
-3
RD
-e5-
4G
NY
E-l1
-PE
-3G
NY
E-P
E-2
GN
YE
-s2
GN
YE
-m2
RD
-f5
YE
-l2.7
-2
YE
-l2.7
-1
BU
-l2.3
-1
BU
-l2.3
-2
BN
-l2.8
-1W
H-l2
.1-3
WH
-l2.1
-2
RD
-f5G
N-N
TCG
N-N
TCB
U-f1
-4V
T-s2
GY-
A1
GY
RD
-m3
WH
-A1
RD
-l2.5
-1B
N-l2
.8-2
WH
-l2.1
-1
BK-
m2-
1W
H-l2
.4-2
WH
-l2.4
-3
WH
-l2.4
-1
l6 987654321
BK-
l6-8
VT-
e1-2
GN
YE
-PE
-1G
NY
E-r
1
12
3
K4
GN
-l6-3
WHRD-e1-1
GN
-l6-2
RD
-l6-1
RD
-r1
Hig
hLi
mit
f2-f4 f5
185˚
F
RD
-e6-
1
BU
-l6-4
P
4 2
1
Doo
r Sw
itch
– e1
WH
RD
-l2.2
-2W
HR
D-a
1-1
GY-
l2.2
-34 2
1
RD
-A1
RD
-f1-1
GY
RD
-m3-
l1
WH
-s2
4
21
RD
-r1
WH
RD
-a1-
1W
HV
T-m
3
4
21
VT-
l6-5
WH
-e6-
2
GN
YE
-r1
NTC
1
1
N S
2
GY-e1-4
3
GYBK-a1-3
2
RD-l6-1
1
WH-I6-9
1
WH-I6-8
2
WH-I6-7
3
WH-I6-6
1
WH-I6-5
2
WH-I6-4
3
BU-A2
1
BU-A2
2
YE-e3
1
YE-e3
2
BN-l6-3
1
BN-l6-2
23
41
I2.8
-I2
.7-
I2.4
-I2
.2-
I2.3
-I2
.1-
I2.x
I2.5
-
I2.6
-
1
1
1
used
on
SH
V 4
803
,S
HU
992
2/9
925/
992
6
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
1
1
Act
uato
rs –
A1
& A
2
RD
-e6-
1W
H-l6
-9
GY-
l6-6
A1
A2
Top
Rac
k O
nly
Det
erge
nt D
ispe
nser
Wire
Col
or C
ode
HIN
T: A
wire
col
or w
ith fo
ur
lette
rs s
how
s th
e w
ire c
olor
an
d th
e st
ripe
(e.g
. “G
YR
D”
= g
ray
wire
with
red
strip
e).
HIN
T: F
orm
at fo
r wire
con
nect
ions
in
clud
es w
ire c
olor
and
par
t/te
rmin
al
conn
ecte
d to
. For
exa
mpl
e, “
VT-
m2-
3” =
V
T (v
iole
t wire
) con
nect
ed to
term
inal
3
of c
ircul
atio
n m
otor
m2.
SH
U 8
8/9
9 (e
xcep
t 995
x),
SH
V 4
3/4
8
Gro
und
– P
E
GN
YE
-PE
-1J-
Box
Con
trol
Hin
ge
GN
YE
-r1
GN
YE
-m2
GN
YE
-PE
-4124
5602038692
PR23
SW1
20
W/BL
W/BK 20
20
DWM21ST120
24
BR20 BR 20
W/BL
W/RONL
(White)
BL
20 GY
I
PR12
PR11
PR24
F1
BPI BPU
FP
FF
VR
PRF
PRP
U
VRF 11a
W 20
2a
3a
4a
5a
6a
7a
8a
20
20
W/B
L
W/R
16 W
/R
20
20
20
20
20
20
16
16
16 16
12V
120V
20
BK
20
R
20
2 16
3
4
5
6 16
7
8
PR21
CR
SW2
W/BL
W/BKPR3
RSE
RSI
C
RGB
RGA
RGD
RGC
L99a
10a
11a
12a
13a
14a
16a
10
11
12
13
14
15
16
PRE3E6
R L
L1
RB
BR 20
16 R 16
F1
E4
N
E5
F2
CV
MSW
1
16
1a
16
4a 4
BL
16
2
C OL OL TR
20
16
BE EUE IUE
BL 16
IDE
34PTH
31
18
18
GY
BR
R 16
18
18
W/BL
W/R
BL20
18
EDE
BR
ST3
BL 1620
16
16W/BK CSW
W/BL WTH
ST2THL(red)
16
LDL(white)
LM
TP4TP3TP2TP1 TP5 TP6
W/Y
W/R
20
W CF
GY
78Ω
1
2
14GN5 White 20
4 Black 16
3
2
1 TB
18
18
L116 AWG
Connected for 208VNot connected for 240V
16 AWG
16 AWG
14 AWG
L2
N
Red 16
320
SW1
CFT5a
5
BR
BR 20
20
W/R
W/BL
20
11
20
GY
W/Y
UMW/R
20
LDT
14
DRM
12
1a
1
CSW
W/Y 20
CSW2aW
W
16
BL
M
M
16
16a—
1514
14a
13121110987654321
0OFF
1
2
3
BAKE
BROIL
SELF CLEAN
X
XX
X XXX
X
X
XX
XXX
X
XX X X X X
X
X X XX
1a
1POS.
MSW
SW1
16CH/127
SW2
2CH/426
WIRE COLOR CODE
MANUALTIMER
1a
2a 3a 4a
X XX
1POS.
CSW
4CH/259
O (OFF)
SELF CLEAN>0÷500ºF
1a
2
2a
4
4a
5a 6a 7a 8a 9a 10a -11a 12a 13a
W
BK
BL
BRGY
R Red
NOTE: THE NUMBERS 14-16-18-20 INDICATETHE WIRE SIZE (AWG)
22 GN
White/Blue
Green
BE : Broil element, 1750W, 1750WC : Catalyst
CF : Cooling fanCFT : Cooling fan thermostat
CSW : Clean switchDRM : Door microswitch
DWM : Down microswitchEDE : External down element, 400W, 600WEUE : External up element, 1400W, 1400W IDE : Internal down element, 1200W, 1400WIUE : Internal up element, 348W(111V), 348W(111V)LDL : Locking door warning lightLDT : Locking door thermostatLM : Locking motor
MSW : Manual switchOL : Oven lamp, 12V-20W
ONL : On/Off warning lightPR : Programmer
PTH : Pyrolytic thermostatRB : Relay boardST : Safety thermostat, 68000, 77000
SW : Switch-commutatorTB : Terminal block
THL : Thermostat warning lightTP : Test pointTR : Transformer, 120V-12V, 40W
UM : Up microswitchWTH : Working thermostat
55
69
0929
49
White/Black
White/Red
White/Yellow
W/BL
W/BKW/R
W/Y
99
00
66
11
90
White
Black
Blue
Brown
GrayP
R3-
RS
E
PR
3-R
SI
PR
3-C
PR
3-R
GB
PR
3-R
GA
CR
-RG
D
CR
-RG
C
PR
21-L
BP
I-BP
U
F1-F
P
PR
24-V
R
FI-F
F
PR
11-P
RF
PR
12-P
RP
I-UPR
23-V
RF
P
OS
.
HBL 63
DIAGRAM #50
SW1W/BL
W/BK 20
PR12
PR11
PR24
PR21
PR23
F1
BPI BPU
L
VR
VRF
FF
FV
FP
PRP
PRF11a
2a
3a
5a
6a 6 GY
7a
2
W
W
16
16
16
3
4
5 W/BL
W/BL
W/BK
W/R
W/R
ONL(White)
18
W/R
R
BR
BR
BL
BL
GY
W/Y
W/R
7
88a
PR22
CR
I
SW2
PR3 RV
RSI
RSE
U
C
RGB
RGA
RGD
RGC
MV
9a 9
11a
12a
13a
15a
16a
18a
19a
20a
10
20
16
20
11
12 14
LDTW/Y
20
UM W/YBL 20
LM
LDL(white)
DRM
W/R
20W/R
TP4 TP6 W/BL
W/BK W/BK
16
ST2
16
16TP5TP3TP2TP1
R16
10a
11
12
13
14
15
16
16
32
39Ω
WTH3
31BR
W/M
20
17
18
18
18
C
18
16
34PTH31
12 14
16BLTHL
(red) CSW
WTH1
4a ST311 4
16
18
20
ERP1
P2 2
WTH2
21
22
18
19 W/R
20
R
20
PRE3E6
L
L1
RB
BR 20
F1
E4
N
E5
F2
CV
1aW/Y 20
20
12V
120V
R
MSW1
16
OL OLTR
BE
16
BL 16
RE EUE IUE IDE EDE
3 2
1
78Ω
GY
CF
20
SW1
CFT7a
7BRBR 20
20
1a
1
CSW
M
M
M
14GN5 White 20
4 Black 16
3
2
1TB
Connected for 208 VNot connected for 240V
18
18
L116 AWG
16 AWG
16 AWG
14 AWG
L2
N
Red 16
DWM21ST120
20
20
20BR
20
20
BL
20BL
20
W/B
L
BK
20
W/R
20
20
1818
RW
/BK
20 20
20
20
16
2020
20
20BR
GY
W/BL
W/R
W
W/R
GY
24
2
CSW
2a
18
X
1POS.
MSW2CH/426
WIRE COLOR CODE.
MANUALTIMER
1a
X XX
1POS.
CSW
4CH/259
O (OFF)
SELF CLEAN> 0÷500ºF
1a
2
2a
4
4a
W
BK
BL
BR
GY
R Red
NOTE: THE NUMBERS 14-16-18-20 INDICATE THEWIRE SIZE (AWG)
22 GN
White/Blue
Green 55
69
0929
49
White/Black
White/Red
White/Yellow
W/BL
W/BKW/R
W/Y
99
00
66
11
90
White
Black
Blue
BrownGray
2019181716151413121110987654321
0OFF
1CONV. ROAST
2CONV. BAKE
3CONV. BROIL
THAW 4
5BAKE
BROIL 6
7 SELF CLEAN
X
X X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X XXX
X
X
X
X
XX
X
X
X
X
X
X
X
X
X
X
X
X
X XX
1a SW2SW1
20CH/17MZ
2a 3a — ——5a 6a 7a 8a 9a 10a 11a 12a 13a 15a 16a 19a18a 20a
I-UPR
3-R
SE
PR
3-R
SI
PR
3-R
V
PR
3-C
PR
3-R
GB
PR
3-R
GD
CR
-RG
D
CR
-RG
C
PR
22-M
V
BP
I-BP
U
PR
21-L
PR
24-V
R
PR
23-V
RF
FI-F
F
FI-F
V
FI-F
P
PR
12-P
RP
PR
11-P
RF
P
OS
.
BE : Broil element, 1750W, 1750WC : Catalyst
CF : Cooling fanCFT : Cooling fan thermostat
CSW : Clean switchDRM : Door microswitch
DWM : Down microswitchEDE : External down element, 400W, 600W
ER : Energy regulatorEUE : External up element, 1400W, 1400W IDE : Internal down element, 1200W, 1400WIUE : Internal up element, 348W(111V), 348W(111V)LDL : Locking door warning lightLDT : Locking door thermostatLM : Locking motorOL : Oven lamp 12V-20W
ONL : On/Off warning lightPR : Programmer
PTH : Pyrolytic thermostatRB : Relay boardRE : Ring element, 2500W, 2500WST : Safety thermostat, 68000, 77000
SW : Switch-commutatorTB : Terminal block
THL : Thermostat warning lightTP : Test pointTR : Transformer 40W, 120V-12V
UM : Up microswitchWM : Working motor
WTH : Working thermostat
HBL/HBN 64
DIAGRAM #51
BDIAGRAM #52
PR11
SW1
SW1
R 20
16 BK
20 BL
W/R 20
WM
PTH31
BL
ST3
20 W
W/Y
34
THL(Red)
(Optional)
R 20
WTH3
TSW CSW
BR
BR
20
20
TP1 TP2 TP3 TP5TP4 TP6
W/Y
20 W/R
20 W/R
W 16
W/BL
W/R
18
18
18
18
18 W/BK
BR
GY
GY 20
ONL(White)
18
18
R
20
BR39Ω
PR12
F1
PR23
PR24
PR21
BPI
PR22 MV
BPU
L
VR
VRF
FF
FV
FP
PRP
PRF 11a
31
120V12V
2a
3a
5a
20BR
6a
7a
8a
18
R
20 TR
20
R
20
GY
16W
/BK
16B
K
W/R
20
16
20
16
BL
20
20
BL
20 20
R
20W
/R
20R
1616
16
16
BL
20
20
GY
9a
10a
2
3
4
GY
W/BL 16
OL
OL
32
20W/Y
7a 7 16
W
C
16
W
1a1
2a 2
20BR
BL 20
20
5
6
7
8
9
10
CR
PR3
UI
RSE
RSI
RV
C
RGB
RGA
RGD
RGC 1111a
12a
13a
15a
16a
18a
19a
20a
12
13
14
15
16
17
18
19
208
8a
TSW
ST2
M
BE
EUE
IUE
IDE
EDE
RE
BL
11LDT
12
LDL(White)
ER WTH 2W/R
20
20
P118W/R
R 20
P2
R 1821
22
18
14
11
12
2
LM
DRM20 GY
BL
4 CSW
4a UM
20
14
M
WTH1
20R
6a
16
16
16
R
16 BK
16 BK
20 W
BL 20
TSW
W/BL
RB
PRN
E5
E4
CV
F2F1
L1
E3
L
20
W/BK 16
12a
5a
11a
14a
13a
4a
3a
10a
6
12
5
11
14
13
4
3
10
DWM
ST1
TSW
W/BL 18
W/R 18
CSW
MTB
GN 14
GN 14
GN 14
STB
BK
BK
10 A
WG
14 A
WG
12 A
WG
12 A
WG
CO
NN
EC
TED
FO
R 2
08V
NO
T C
ON
NE
CTE
D F
OR
24
0V
20
20
20
20
BL
20
16
16 W
/R 20 W
20
BK
20
20 G
Y R 1
6
W
20
N
L116
16L2
BL 16 16a2024
21
BK
16 W/BL
DWM
BL2024
21 ST1 TSW15
15a
6
5
4
3
1
2
1
3
2
GY
20
W/R
BR
16
20
2020
20
TR
16
16B
L
16
16
W/R
20
W/B
K
16
20G
Y
20W
/R
PR11
SW2
PR12
F1
PR23
I
PR24
BPI
W/BK
ST2
PR21 L
BPU
FP
FF
VR
PRF
PRP
VRF11a
BR 20
20 20 BR
BR CFT
CF
20
20
78Ω7a
7
2a
2
BL
TSW
2a
3a
4a
5a
6a
7a
8a
9a
10a
2
3
4
5
6
7
8
9
10
CR
PR3
U
RSE
RSI
C
RGB
RGA
RGD
RGC11a 11
13a
16 14a
16a
SW2
12
13
14
15
16
W/BL 18
20
W/R 18
W
ONL(White)
W/R
W/R
20
20
20
16
1616
120V12V
1a
TSW
W
16
18
16
W/BL
W/R
R
GY
BR
BL
GY
W/R
20
18
TLH(Red) W/R 20
1a 1
CSW
18
2a
CSW
WTH
CSW
4
4A
4
31
16
W/R 204a
BL
BL
ST3PTH
34
BRC
20
20
W/R
TP2TP1 TP3 TP4 TP5 TP6
12
W
LDT
GY
BL
DRM
LDL(White)
W/Y
BL20 UM
20
14
11
W/YLM
21
W/BL
W 16
OL
BR 20
MM
SW
2
20
OL
BE
EUE
IUE
IDE
EDE
(Optional)
7BR
20
CFT
BR
78Ω20
7a
20 W
CF
R 16
SW
1
M
BE : Broil element, 1750W, 1750WC : Catalyst
CF : Cooling fanCFT : Cooling fan thermostat
CSW : Clean switch DRM : Door microswitchDWM : Down microswitchEDE : External down element, 400W, 600W
ER : Energy regulatorEUE : External up element, 1400W, 1400W IDE : Internal down element, 1200W, 1400WIUE : Internal up element, 348W(111V), 348W(111V)LDL : Locking door warning lightLDT : Locking door thermostatLM : Locking motor
MTB : Main terminal blockONL : On/Off warning light
OL : Oven lamp, 12V—20WPTH : Pyrolytic thermostat
PR : ProgrammerRB : Relay boardRE : Ring element, 2500W, 2500WST : Safety thermostat, 68000, 77000
STB : Service terminal blockSW : Switch-commutatorTP : Test point
THL : Thermostat warning lightTSW : Timer switch commutator
TR : Transformer, 120V—12V, 40WUM : Up microswitch
WM : Working motorWTH : Working thermostat
2019181716151413121110987654321
0OFF
1CONV. ROAST
2CONV. BAKE
3CONV. BROIL
THAW 4
5BAKE
BROIL 6
7 SELF CLEAN
X X X XX X X
X X XX X
X X X X X XX
X XX
X
X X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X XXX
X
X
X
X
XX
X
X
X
X
X
X
X
X
X
X
X
X
X XX
1a
1POS.CSW
16CH/112
TSW
L
OR
SW2SW1
4CH/259O (OFF)
SELF CLEAN> 0÷500ºF
1a
2a
22a
3a
44a
5a 6a 7a 8a 9a 10a 11a 12a 13a 15a 16a 161514
14a
13121110987654321
1a 2a 3a 4a 5a 6a 7a 8a 9a 10a 11a 12a 13a 15a 16a
19a18a 20a
DOWN OVEN
MANUAL
UP OVEN
I-UPR
E-R
SE
PR
3-R
SI
PR
3-R
V
PR
3-C
PR
3-R
GB
PR
3-R
GA
CR
-RG
D
CR
-RG
C
PR
22-M
V
BP
I-BP
U
PR
21-L
PR
24-V
R
PR
23-V
RF
FI-F
F
FI-F
V
FI-F
P
PR
12-P
RP
PR
11-P
RF
P
OS
.
PO
S.
WIRE COLOR CODE
W
BK
BL
BRGY
R Red
NOTE: THE NUMBERS 14-16-18-20 INDICATE THE WIRE SIZE
22 GN
White/Blue
Green 55
69
0929
49
White/Black
White/Red
White/Yellow
W/BL
W/BKW/R
W/Y
99
00
66
11
90
White
Black
Blue
Brown
Gray
1615
14a
1413121110987654321
0OFF
1
2
3
BAKE
BROIL
SELF CLEAN
XX
X XXX
X
X
X
XXX
X
XX X X X X
X
X X XX
1aSW2
16CH/127
2a 3a 4a 5a 6a 7a 8a 9a 10a 11a 12a 13a 16a
PR
3-R
SE
PR
3-R
SI
PR
3-C
PR
3-R
GB
PR
3-R
GA
CR
-RG
D
CR
-RG
C
PR
21-L
BP
I-BP
U
F1-F
P
PR
24-V
R
FI-F
F
PR
11-P
RF
PR
12-P
RP
I-UPR
23-V
RF
P
OS
.
UPPER OVEN
LOWER OVEN
HBL/HBN 65
BDIAGRAM #53
PR11
SW1
R16
16 BK
BL
ST2
W/R 20
WM
PTH31
BL
34
W/Y
20 W
W/Y
BL
DRMGY 20
1112
THL(Red)
LDL(White)
LDT
BL
R 20
R 20
2019181716151413121110987654321
0OFF
1CONV. ROAST
2CONV. BAKE
3CONV. BROIL
THAW 4
5BAKE
BROIL 6
7 SELF CLEAN
X X X XX X X
X X XX X
X X X X X XX
X XX
X
X X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X XXX
X
X
X
X
XX
X
X
X
X
X
X
X
X
X
X
X
X
X XX
1a
1POS.
CSW
16CH/112
TSW
L
OR
SW2SW1
4CH/259
WIRE COLOR CODE
O (OFF)
SELF CLEAN> 0÷500ºF
1a
2a
2
2a
3a
4
4a
5a 6a 7a 8a 9a 10a 11a 12a 13a 15a 16a161514
14a
13121110987654321
1a 2a 3a 4a 5a 6a 7a 8a 9a 10a 11a 12a 13a 15a 16a19a18a 20a
W
BK
BL
BRGY
R Red
NOTE: THE NUMBERS 14-16-18-20 INDICATE THE WIRE SIZE
22 GN
White/Blue
Green
DOWN OVEN
MANUAL
UP OVEN
BE : Broil element, 1750W, 1750WC : Catalyst, 150W
CF : Cooling fanCFT : Cooling fan thermostat
CSW : Clean switchDRM : Door microswitch
DWM : Down microswitchEDE : External down element, 400W, 600W
ER : Energy regulatorEUE : External up element, 1400W, 1400W IDE : Internal down element, 1200W, 1400WIUE : Internal up element, 348W(111V), 348W(111V)LDL : Locking door warning lightLDT : Locking door thermostatLM : Locking motor
MTB : Main terminal blockOL : Oven lamp 12V-20W
ONL : On/Off warning lightPR : Programmer
PTH : Pyrolytic thermostatRB : Relay boardRE : Ring element, 2500W, 2500WST : Safety thermostat, 68000, 77000
STB : Service terminal blockSW : Switch-commutatorTHL : Thermostat warning light
TP : Test pointTSW : Timer switch commutator
TR : Transformer 120V-12V, 40WUM : Up microswitch
WM : Working motorWTH : Working thermostat
55
69
0929
49
White/Black
White/Red
White/Yellow
W/BL
W/BKW/R
W/Y
99
00
66
11
90
White
Black
Blue
Brown
Gray
WTH3
TSW CSW
BR
BR
GY 20
W/R
ONL(White)
SW1
DWM
ST1
TSW
W/BL 18
W/R 18
CSW20 W/R
20 W/R
20 W
TP1
MTB
GN 14
GN 14
GN 14
STB
BK
BR
TP2 TP3 TP4 TP5 TP6
W 18
W/BL
W/R
18
18
18
18
18 W/BK
BR
GY18
18
R
20BR
39Ω
PR12
F1
PR23
PR24
PR21
BPI
PR22 MV
BPU
L
VR
VRF
FF
FV
FP
PRP
PRF
W/R 18
ER WTH2W/BK
11a
BL
31
120V12V
2a
3a
5a
20
20
BR
6a
7a
8a
18
20
20
I-UPR
E-R
SE
PR
3-R
SI
PR
3-R
V
PR
3-C
PR
3-R
GB
PR
3-R
GA
CR
-RG
D
CR
-RG
C
PR
22-M
V
BP
I-BP
U
PR
21-L
PR
24-V
R
PR
23-V
RF
FI-F
F
FI-F
V
FI-F
P
PR
12-P
RP
PR
11-P
RF
PO
S.
PO
S.
TR
20
R
20
GY
16 R
W/B
K16
BK
20
16
BL
4aB
L16
20
20
R
20W
/R
20 20
10 A
WG
14 A
WG
12 A
WG
12 A
WG
CO
NN
EC
TED
FO
R 2
08V
NO
T C
ON
NE
CTE
D F
OR
24
0V
20
20
20R
1616
16
16
20
GY
20
W/R
BR
16
16 B
L
18
18
GY
20
2020
20
TR
16
16
W/R
20
CS
W
20
16 W
/R
20 W
20B
K2020
GY
20
R 1
6
R
20 W
/BL
20
GY
20
BL
20
20 B
L
W/B
L 1
6
16
GY
20
9a
10a
2
3
4
GY
W/BL 16
P1
P2
R 1821
22
18
1814
11
122
OL
OL
32
20W/Y
7a 7 16
W
C
16
LMUM
20
20 W
11a
N
L1
16
16
L2
BL 16 16a2024
21
20 BK
16 W/BL
2a 2
1420BR 20
5
6
7
8
9
10
CR
PR3
U
R
I
RSE
RSI
RV
C
RGB
RGA
RGD
RGC 1111a
12a
13a
15a
16a
18a
19a
20a
12
13
14
15
16
17
18
19
20
PR11
SW2
PR12
F1
PR23
PR24
PR21
BPI
W/BK
ST2
PR22 MV
BPU
L
VR
VRF
FF
FV
FP
PRP
PRF 11a
W/R
16 BK
20 BR
20 20 BR CF
2078Ω
10
16
7a
7
7 20 BR
CFT
BR
78Ω20
2a
2
BL
TSW
7a
20 WCF
8
8a
R 16
BR CFT
2a
3a
5a
6a
7a
8a
9a
10a
2
3
4
5
6
7
8
9
10
CR
PR3
U
SW1W/R
RSE
RSI
RV
C
RGB
RGA
RGD
RGC 1111a
12a
13a
16 15a
16a
18a
19a
20a
12
13
14
15
16
17
18
19
20
20
6a
16
TSW
TSW
W/BL
16 R
RB
16 BK
20 W
16 BK
BL 20
NPR
DWM
BL2024
21 ST1 TSW15 15a
W/R 18
W/BL 18
20
18 W/R
W
ONL(White)
W/R
20
16120V12V
1aTSW
W
16
WM
BR2039ΩW/BL
W/R
R
W/BK
BR
GY
20W/R
20
18
18
16
18
18
18
18
TLH(Red) W/R
20
20 GY
20
1a 1
CSW
2a
CSW
WTH112 14
1116 BL
4
31
16 BL
W/R 20
P1
ER
2P2
R22
WTH2W/BK
2118
18
4a
BL
ST3PTH34
BRC
20
TP1 TP2 TP3 TP4 TP5 TP6
20W/R
12
W
LDT
BLDRM
HDL(White)
W/Y
BL20
20 W/R
UM
20
1411
W/YLM
21
W/BL
W 16
OL
W/Y
BR 20
E5
E4
CV
F2F1
L1
E3
L
20
W/BK 16
12a
5a
11a
14a
13a
4a
3a
10a
6
12
5
11
14
13
4
3
10
CS
W
4
M
MM
M
SW
2
SW
1
WTH3
3132
BE
EUE
IUE
IDE
EDE
OL
RE
6
5
4
3
1
2
1
3
2
BE
EUE
IUE
IDE
EDE
RE
M
WTH1
20
UPPER OVEN
LOWER OVEN
HBL/HBN 66
DIAGRAM #54173—76866-011
>E
2E
30
E3
N32 N
2.4
N2.
2
N31
.S
H2
HS2
4
P1
N3.
4N
3.4A
N3.
2
N3
4.S N4.
P1
H3
H
H3
02
4
4A
P1
HS2
4
P1
HS 2
4
P1
H4
>
44A
N1.
4N
1.4AH
10 H1
N1.
2N
34.
SN
32.S
E1
NO
TE: F
ront
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e, v
iew
ing
botto
m o
f coo
ktop
.
E10
N31
N33
N3
4
>
>
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N4.
4
N4.
2N
33.S
N31
.S
N31
.H
N32
.HN
33.H
N4.
P2
N3
4.H
H1
H2
H3
H4
L1 L2 X7
GN
D
1 2 3 4
N1.
P1
N2.
P1
N3.
P2
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P2
N3.
P1
N1.
P2
N4.
P1
N2.
P2
N1.
P2
N1.
S2
H7
N4.
S2
N1.
4
N1.
4
N4.
S1
N1.
S1
H7
X7.
3N
31.2
X7.
1
S1
S2
P2
24
P1
S1
S2
P2
24
P1
4A4
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4
N31
.4E
10.4
A
H10
H7
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S1
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4X
7.4
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4.2A
X7.
2N
33.S
N1.
S2
N2.
S2
N3
4.4
N4.
S1
S1
S2
P2
24
P1
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N3.
S1
X7.
3N
32.2
X7.
1
N4.
S2
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S2
N32
.4
N2.
S1
S1
S2
P2
24 4
4A
P1
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N3.
P1
N3.
S1
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4N
33.2
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2
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4
H3
0
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4
N33
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30.
4AE
30
E1
Ele
men
t10
00W
SY
MB
OL
KE
Y
E10
Ele
men
t13
00W
E2
Ele
men
t15
00W
E2
Ele
men
t15
00W
E3
Ele
men
t15
00W
E4
Ele
men
t17
00W
800
WE
30
Ele
men
t
H1
Hea
t Ind
icat
or L
amp
N1
Reg
ulat
or, D
ual Z
one
N2
Reg
ulat
orN
3R
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ator
, Dua
l Zon
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4R
egul
ator
H2
Hea
t Ind
icat
or L
amp
H3
Hea
t Ind
icat
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amp
H4
Hea
t Ind
icat
or L
amp
H7
On
Lam
p
H3
0D
ual Z
one
Indi
cato
r Lam
pH
10D
ual Z
one
Indi
cato
r Lam
p
X7
Term
inal
Blo
ck
N31
Ther
mos
tat L
imit
Ass
embl
y–
Hig
h Li
mit
– H
eat I
ndic
ator
Lam
pN
32Th
erm
osta
t Lim
it A
ssem
bly
– H
igh
Lim
it–
Hea
t Ind
icat
or L
amp
N33
Ther
mos
tat L
imit
Ass
embl
y–
Hig
h Li
mit
– H
eat I
ndic
ator
Lam
pN
34
Ther
mos
tat L
imit
Ass
embl
y–
Hig
h Li
mit
– H
eat I
ndic
ator
Lam
p
S
NK
T 72
DIAGRAM #55173—76866—012
P>
P>
P>
P>
L1
X7
1 2
L2G
ND
X7
3 14
S1
S2
S1
S2
S1
S2
S1
S2
2P1
2P1
2P1
2P1
N1
N1
E1
E2
H10
E3
E4
N2
N3
N4
N2
N3
N4
N1
H1
H2
H3
H4
H7
N31
N32
N33
N3
4
S HN
31
2 4P1
2 P1
2 P1
2 P1
N
32N
33N
34
S H
S H
S H
4 P2
N1
4A 4
4E
104A
H30
N3
4A 4
E3
04A
N32
4N
33N
34
4
N2
4 P2
N3
4 P2
N4
44 P2
23
45
67
89
1011
1213
1415
1617
1819
2021
2223
2425
2627
2829
30
31
CU
RR
EN
T PA
THC
UR
RE
NT
PATH
CU
RR
EN
T PA
THC
UR
RE
NT
PATH
15E
1E
lem
ent
1000
W17
E10
Ele
men
t13
00W
21E
2E
lem
ent
1500
W23 25 29
E3
Ele
men
t16
00W
E3
0E
lem
ent
800
WE
4E
lem
ent
1700
W
1H
1H
eat I
ndic
ator
Lam
p9/
15/1
7N
1R
egul
ator
, Dua
l Zon
e10
/21
N2
Reg
ulat
or11
/23/
25N
3R
egul
ator
12/2
9N
4R
egul
ator
1X
7Te
rmin
al B
lock
3H
2H
eat I
ndic
ator
Lam
p5
H3
Hea
t Ind
icat
or L
amp
7H
4H
eat I
ndic
ator
Lam
p11
H7
On
Lam
p
27H
30
Dua
l Zon
e In
dica
tor L
amp
19H
10D
ual Z
one
Indi
cato
r Lam
p
N31
Ther
mos
tat L
imit
Ass
embl
y15
– H
igh
Lim
it1
– H
eat I
ndic
ator
Lam
pN
32Th
erm
osta
t Lim
it A
ssem
bly
21–
Hig
h Li
mit
3–
Hea
t Ind
icat
or L
amp
N33
Ther
mos
tat L
imit
Ass
embl
y23
– H
igh
Lim
it5
– H
eat I
ndic
ator
Lam
pN
34
Ther
mos
tat L
imit
Ass
embl
y29
– H
igh
Lim
it7
– H
eat I
ndic
ator
Lam
p
SY
MB
OL
KE
YS
YM
BO
L K
EY
SY
MB
OL
KE
YS
YM
BO
L K
EY
NK
T 72
DIAGRAM #56
>
>
E2
N32 N
2.4
N2.
2
N31
.S
H2
HS2
4
P1
P1
HS2
4
P1
HS2
4
P1
H
HH
4H
40
S
S2
2
4
P1
44A
4A
4 4
N5.
4N
5.4AH
50 H5
H3
N5.
2N
31.S
N33
.S
E5
E4
0E
4
E5
0
N35
>
44A
N1.
4N
1.4AH
10 H1
N1.
2N
35.S
N32
.S
E1
E10
N31
N33
N3
4
NO
TE: F
ront
edg
e, v
iew
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botto
m o
f coo
ktop
.
>E
3
N3.
4
N3.
2N
34.
SN
35.S
N4.
4A
N4.
2N4.
4
N4.
P1
N33
.S
N31
.H
N32
.HN
35.H
N33
.H
N4.
P2
N3
4.H
H1
H2
H5
H3
H4
L1 L2 X7
GN
D
1 2 3 4
N1.
P1
N5.
P1
N1.
P2
N5.
P2
N2.
P1
N2.
P2
N4.
P1
N4.
P2
N1.
P2
N1.
S2
H7
N4.
S2
N1.
4
N1.
4
N4.
S1
N1.
S1
H7
X7.
4 N
31.2
X
7.1
S1
S2
P2
24
P1
S1
S2
P2
24
P1
4A4
E1.
4
N31
.4E
10.4
A
H10
H7
N1
N4
N2.
S1
H1–
5X
7.3
N3
4.2A
X7.
2N
33.S
N1.
S2
N2.
S2
E4
N4.
S1
S1
S2
P2
24
P1
N2
N5.
S1
N3.
P2
X7.
3N
32.2
X7.
2N
3.P
1
N4.
S2
N5.
S2
N32
.4
N5.
S1
S1
S2
P2
24
P1
N3
N3.
S1
N2.
P2
N33
.2N
3.S
1N
2.P
1
N5.
S2
N32
.4
N2.
S1
S1
S2
P2
24 4
4A
P1
N5
N3.
S1
X7.
4N
35.2
N35
.4
X7.
1
N2.
S2
N3.
S2
N5.
4
N5.
4E
5.4
E5
0.4A
H5
0
E1
Ele
men
t10
00W
E10
Ele
men
t13
00W
E2
Ele
men
t15
00W
E3
Ele
men
t17
00W
E4
Ele
men
t16
00W
E4
0E
lem
ent
800
WE
5E
lem
ent
1000
WE
50
Ele
men
t10
00W
H1
Hea
t Ind
icat
or L
amp
N1
Reg
ulat
or, D
ual Z
one
N2
Reg
ulat
orN
3R
egul
ator
N4
Reg
ulat
or, D
ual Z
one
N5
Reg
ulat
or, D
ual Z
one
X7
Term
inal
Blo
ck
H2
Hea
t Ind
icat
or L
amp
H3
Hea
t Ind
icat
or L
amp
H4
Hea
t Ind
icat
or L
amp
H5
Hea
t Ind
icat
or L
amp
H7
On
Lam
pH
10D
ual Z
one
Indi
cato
r Lam
p
H5
0D
ual Z
one
Indi
cato
r Lam
pH
40
Dua
l Zon
e In
dica
tor L
amp
N31
Ther
mos
tat L
imit
Ass
embl
y–
Hig
h Li
mit
– H
eat I
ndic
ator
Lam
pN
32Th
erm
osta
t Lim
it A
ssem
bly
– H
igh
Lim
it–
Hea
t Ind
icat
or L
amp
N33
Ther
mos
tat L
imit
Ass
embl
y–
Hig
h Li
mit
– H
eat I
ndic
ator
Lam
pN
34
Ther
mos
tat L
imit
Ass
embl
y–
Hig
h Li
mit
– H
eat I
ndic
ator
Lam
pN
35Th
erm
osta
t Lim
it A
ssem
bly
– H
igh
Lim
it–
Hea
t Ind
icat
or L
amp
SY
MB
OL
KE
Y
4A
H4
0
N4.
4
N3
4.4
E4
0.4A
E4
0
>
NK
T 92
173—76865—011
DIAGRAM #57
P>
2P1
E4
N4
2 P1
N3
4
N4
4A 4
E4
04A
N3
44
N4
4
P2
CU
RR
EN
T PA
THC
UR
RE
NT
PATH
CU
RR
EN
T PA
THC
UR
RE
NT
PATH
15E
1E
lem
ent
1000
W17
E10
Ele
men
t13
00W
21E
2E
lem
ent
1500
W23 25 27
E3
Ele
men
t17
00W
E4
Ele
men
t16
00W
31E
5E
lem
ent
1000
WE
40
Ele
men
t8
00W
33E
50
Ele
men
t10
00W
1H
1H
eat I
ndic
ator
Lam
p9/
15/1
7N
1R
egul
ator
, Dua
l Zon
e10
/21
N2
Reg
ulat
or11
/23
N3
Reg
ulat
or
13/3
1/33
N5
Reg
ulat
or, D
ual Z
one
12/2
5/27
N4
Reg
ulat
or, D
ual Z
one
1X
7Te
rmin
al B
lock
3H
2H
eat I
ndic
ator
Lam
p5
H3
Hea
t Ind
icat
or L
amp
7H
4H
eat I
ndic
ator
Lam
p9
H5
Hea
t Ind
icat
or L
amp
11H
7O
n La
mp
29H
40
Dua
l Zon
e In
dica
tor L
amp
19H
10D
ual Z
one
Indi
cato
r Lam
p
35H
50
Dua
l Zon
e In
dica
tor L
amp
N31
Ther
mos
tat L
imit
Ass
embl
y15
– H
igh
Lim
it1
– H
eat I
ndic
ator
Lam
pN
32Th
erm
osta
t Lim
it A
ssem
bly
21–
Hig
h Li
mit
3–
Hea
t Ind
icat
or L
amp
N33
Ther
mos
tat L
imit
Ass
embl
y23
– H
igh
Lim
it5
– H
eat I
ndic
ator
Lam
p
N35
Ther
mos
tat L
imit
Ass
embl
y31
– H
igh
Lim
it9
– H
eat I
ndic
ator
Lam
p
N3
4Th
erm
osta
t Lim
it A
ssem
bly
29–
Hig
h Li
mit
7–
Hea
t Ind
icat
or L
amp
P>
P>
P>
P>
L1
X7
1 2
L2G
ND
X7
3 14
S1
S2
S1
S2
S1
S2
S1
S2
S1
S2
2P1
2P1
2P1
2P1
N1
N1
E1
E2
H10
E3
E5
E5
0H
50H
40
N2
N3
N4
N5
N2
N3
N5
N1
H1
H2
H3
H4
H5
H7
N31
N32
N33
N3
4N
35
S HN
31
2 4P1
2 P1
2 P1
N32
N33
N35
2 P1
S H
S H
S HHS
4 P2
N1
4A 4
44
E10
4A
N32
4N
334
N2
4 P2
N3
4
P2
N5
N5
4
4
4
4A4A
P2
23
45
67
89
1011
1213
1415
1617
1819
2021
2223
2425
2627
2829
30
31
SY
MB
OL
KE
YS
YM
BO
L K
EY
SY
MB
OL
KE
YS
YM
BO
L K
EY
NK
T 92
173—76865—012
DIAGRAM #58
BK
Gea
r Mot
or
Blo
wer
Mot
or
Cha
ssis
Gro
und
Sw
itchb
oard
(upp
er)
DH
D 8
65/9
65
Sw
itch
Con
trol
Boa
rd (l
ower
)
BK
BU
BU
WH
WH
OR
OR
OR
BK
BK
RD
RD
WH
WH
N L GG
N
GN
YE
YE
= b
lack
= re
d
= y
ello
w
= g
reen
= b
lue
= w
hite
= o
rang
e
DIAGRAM #59
Gea
r Mot
or
Tria
cS
nubb
er
To R
emot
e B
low
erD
HG
565
Cha
ssis
Gro
und
Sw
itchb
oard
(upp
er)
DH
D 8
05/9
05
Sw
itch
Con
trol
Boa
rd (l
ower
)BU
BU
BU
WH
OR
YE
OR
OR
BK
BK
BK
BK
BK
RD
RD
WH
WH
WH
N L G
GN
GN
GN
YE
= b
lack
= re
d
= y
ello
w
= g
reen
= b
lue
= w
hite
= o
rang
e
BDIAGRAM #60
1M1M
M 1
X2
21
34
562
A2
12
f2-f4I2
.4-
I2.5
-I2
.7-1
I2.4
-
185˚
Fl4
37
65
43
21
NTC
24
15
4
e5
e3 e6
F
N L1
1
e0a1
Con
trol
Mod
ule
– I2
m2
m3
f5f1
r1
I2.7
-2
I2.2
-I2
.6-
I2.8
I2.1
-1
I2.1
-2
Sym
bol K
ey
a1O
N/O
FF S
WIT
CH
e0D
OO
R S
WIT
CH
e3R
EE
D S
WIT
CH
e5FL
OW
SW
ITC
H
f1W
ATE
R L
EV
EL
SW
ITC
Hf5
HIG
H L
IMIT
185
˚Fl4
AQ
UA
SE
NS
OR
m2
CIR
CU
LATI
ON
MO
TOR
m3
DR
AIN
MO
TOR
NTC
TEM
PE
RAT
UR
E S
EN
SO
Rr1
HE
ATIN
G E
LEM
EN
Ts2
WAT
ER
SO
LEN
OID
X2
SE
RV
ICE
CO
NN
EC
TOR
L
perm
anen
t spl
itca
paci
tor m
otor
(m2)
N
e6FL
OAT
SW
ITC
H
s2
2 1
42
1
A2
AC
TUAT
OR
(Dis
pens
er)
cont
acts
5-6
are
mom
enta
ry –
they
rese
t the
con
trol
mod
ule
& a
ctua
te th
e te
st p
rogr
amus
ed o
n S
HU
432
2/43
26
used
on
SH
U 3
322/
3326
/333
6/43
22/4
326
321
2
11
1
3
3
3S
HU
33
&S
HU
432
2/43
26
5602038303
B DIAGRAM #61
1M
Ree
d S
witc
h –
e3
On/
Off
Sw
itch
– a1
Doo
r Sw
itch
– e0
Floa
t Sw
itch
– e6 Ele
ctric
al S
uppl
y –
l1H
eatin
g E
lem
ent –
r1Fl
ow S
witc
h –
e5D
rain
Mot
or –
m3
Gro
und
– P
E
Act
uato
r (D
ispe
nser
) – A
2
Circ
ulat
ion
Mot
or–
m2
Wat
er S
olen
oid
– s2
Wat
er L
evel
Sw
itch
– f1
NTC
– f2
& f4
/ T
herm
osta
t – f5
Wiri
ng C
onne
ctor
s –
I5 &
I6
Aqu
a S
enso
r – l4
GY
RD
-e6-
4G
YR
D-l6
-9
WH
VT-
m2-
2
L1B
K-a1
-4
WH
-a1-
2
GN
YE
-r1
L1 N
PE
-3
RD
-e5-
4G
NY
E-l1
-PE
-3G
NY
E-P
E-2
GN
YE
-s2
GN
YE
-m2
RD
-f5
GN
YE
-PE
-1J-
Box
Con
trol
Hin
ge
YE
-l2.6
-1
YE
-l2.6
-2
GN
YE
-r1
GN
YE
-m2
GN
YE
-PE
-4124
YE
-l2.2
-1
YE
-l2.2
-2
GN
-NTC
GN
-NTC
BN
-l2.5
-7B
N-l2
.5-6
BN
-l2.5
-3B
N-l2
.5-2
BN
-l2.5
-1
BN
-l4-3
BN
-l4-2
BN
-l4-1
l5 987654321
RD
-f5W
H-e
6-1
VT-
s2B
U-f1
-4
GY
RD
-m3-
L1
RD
-l2.7
-1W
H-a
1-6
BU
-l2.4
-5
BK-
m2-
1B
U-l2
.4-3
BU
-l2.4
-4
BU
-l2.4
-2
l6 987654321
BK-
l6-8
WH
VT-
m3
WH
VT-
e5-1
GN
YE
-PE
-1G
NY
E-r
1
12
3
K4
GN
-l5-1
GN
-l5-2
RD
-l6-1
RD
-r1
f2-f4 f5
185˚
F
RD
-e6-
1
BU
-l6-7
P
4 2
1
WH
-l6-2
RD
-f1-1
GY
RD
-m3-
L1
WH
-s2
4
21
RD
-r1
WH
RD
-a1-
1W
HV
T-m
2-3
4
21
VT-
l6-6
WH
-e6-
2
GN
YE
-r1
NTC
N S BN-l5-5
3
BN-l5-6
2
BN-l5-7
1
1us
ed o
n S
HU
332
2/33
26/
333
6/43
22/4
326
2us
ed o
n S
HU
432
2/43
26
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
Hig
hLi
mit
SH
U 3
3 &
SH
U 4
322/
4326
A2
Con
trol
Mod
ule–
I2
GYBK-a1-3RD-l6-1
WH-a1-5
6
WHRD-a1-1
21
BU-I6-8BU-I6-9BU-a1-6
BN-I5-5BN-I5-6BN-I5-7
YE-e3YE-e3
BU-I6-6BU-I6-73
45
26
78
1
BU-I5-1BU-I5-2
74
35
YE-A2
1
YE-A2
2
12
21
2
.8.2
.1.5
.6.4I2.
.7
1
WHRD-l2.1-1
WH-l2.1-2
WHRD-e5-1WH-l1-N
GYBK-l2.7-2BK-l1-L1
BU-l2.4-1WH-l6-2
21
34
56
e0
1
1
2
21
2
1 1
5602038303
B
M 1
M 1
M 1M 1
F
4
1213
1110
98
76
54
31
2
21
24
43
1
u2
m2
ba
s2
e0
N
L1a1
f1
h1
curr
ent p
ath
Sym
bol K
ey
curr
ent p
ath
a1O
N/O
FF S
WIT
CH
2
e0D
OO
R S
WIT
CH
3A
2A
CTU
ATO
R (D
ispe
nser
)9
e6FL
OAT
SW
ITC
H7
e5FL
OW
SW
ITC
H11
f3TH
ER
MO
STA
T 13
5˚F
8f1
WAT
ER
LE
VE
L S
WIT
CH
5
f4TH
ER
MO
STA
T 14
9˚F
6
Sym
bol K
ey
HIG
H T
EM
PE
RAT
UR
E
b1
RE
GU
LAR
TE
MP
ER
ATU
RE
non
e
RIN
SE
& H
OLD
b3
f5H
IGH
LIM
IT 1
85˚F
11
curr
ent p
ath
h1O
N/O
FF L
AM
P4
m1
TIM
ER
MO
TOR
12m
2C
IRC
ULA
TIO
N M
OTO
R13
m3
DR
AIN
MO
TOR
10r1
HE
ATIN
G E
LEM
EN
T11
s2W
ATE
R S
OLE
NO
ID5
u–TI
ME
R C
ON
TAC
TS–
Sel
ecto
r Sw
itch
Con
tact
s
L
perm
anen
t spl
itca
paci
tor m
otor
(m2)
N
u6
m1
m3
ba
u4
ba
e5
24
1
185
˚F
f5r1
e6
2
1
u5
ba
14
9˚F
f4
135
˚F
f3
b112
b35
34
u3
ba
PTC
A2
SH
U 3
03X
/313
X
NO
TE: U
se ti
mer
to s
elec
t was
h pr
ogra
m a
nd s
elec
tor s
witc
h to
se
lect
wat
er te
mpe
ratu
re.
To lo
cate
eac
h pa
rt, m
atch
cur
rent
pa
th fr
om th
is ta
ble
with
cur
rent
pat
h al
ong
botto
m o
f circ
uit d
iagr
am a
bove
.
HIN
T: F
loat
sw
itch
e6 s
witc
hes
from
term
inal
2 to
4 o
nly
if di
shw
ashe
r has
ove
rfille
d or
wat
er h
as fl
oode
d th
e ba
se.
HIN
T: T
herm
osta
ts f3
& f4
with
tim
er
cont
acts
3a
& 5
b (d
urin
g he
atin
g/dr
ying
), tim
er c
onta
ct 4
a (d
urin
g rin
sing
), w
ater
leve
l sw
itch
f1 (a
fter w
ater
has
fille
d) a
nd ti
mer
co
ntac
t 6a
all a
dvan
ce ti
mer
mot
or m
1.
HIN
T: D
iagr
am
show
s ci
rcui
t at
“Reg
ular
Te
mpe
ratu
re”
setti
ng w
ith
pow
er o
ff. T
imer
co
ntac
ts (u
2-u6
) ch
ange
pos
ition
(t
o “a
” or
“b”
) ac
cord
ing
to
timin
g ch
art
(Dia
gram
) #6
4.
At “
Hig
h Te
mpe
ratu
re”
setti
ng, c
onta
ct
“b1”
ope
ns to
cu
t out
th
erm
osta
t f3
allo
win
g th
erm
osta
t f4
to
oper
ate.
At
“Rin
se &
Hol
d”
setti
ng, c
onta
ct
“b3”
sw
itche
s fro
m te
rmin
al 3
to
4, b
ypas
sing
th
erm
osta
ts f3
&
f4 a
nd d
ispe
nser
ac
tuat
or A
2.
HIN
T: F
low
sw
itch
e5
switc
hes
from
te
rmin
al 2
to
4 w
hen
wat
er is
ci
rcul
atin
g,
allo
win
g th
e he
ater
to
wor
k.
DIAGRAM #625602034902
B DIAGRAM #635602034902
e0
1M
Tem
pera
ture
Sel
ecto
r Sw
itch
– b
YE-u-3aBU-f3VT-u-3GN-f3
WH-u-6a
12
34
5
On
/ O
ff S
witc
h –
a1D
oor S
witc
h –
e0
WHRD-l6-9
BK-l1-L1
WHRD-A2WH-l1-N
WHVT-u-4RD-l6-5
21
34
56
h1 a1
Tim
er –
u
GN
-I6-6
RD
-A2
VT-
b-3
YE
-b-1
BK-
m2-
1O
R-I6
-8
GY
BK-
e5-1
WH
RD
-A2
m1
BU
-l6-4
GY-
l6-1
GN
-f3
WH
-b-5
WH
-I6-3
WH
VT-
a1-3
1M3b 3a 3 4b 4a 4
65b 5a 5 6b 6a
2b 2a 2
GY
RD
-l6-8
GY
RD
-e6-
4
BU
RD
-m2-
2B
UR
D-s
2
L1
Dra
in M
otor
– m
3
BK-
a1-4
WH
-a1-
2
GN
YE
-r1
L1 N
PE
-3
Ele
ctric
al S
uppl
y –
l1
VT-
f1-2
BU
RD
-m3
GN
YE
-r1
Wat
er S
olen
oid
– s2
RD
-e5-
4G
NY
E-I1
-PE
-3G
NY
E-P
E-2
GN
YE
-s2
GN
YE
-m2
RD
-f5
Hea
ting
Ele
men
t – r1
GN
YE
-PE
-1
GN
YE
-r1
GN
YE
-m2
GN
YE
-PE
-4
Gro
und
– P
E
12
GN
YE
-PE
-15
GN
YE
-s2
Left
side
pan
el
Rig
ht s
ide
pane
l
Term
inal
box
Con
trol
pan
el
Hin
ge
6 4
RD
-u-3
b
WH
RD
-u-m
1W
HR
D-a
1-1
Act
uato
r (D
ispe
nser
) – A
2
WH
RD
-a1-
1O
R-u
-4b
GN
-u-5
bR
D-a
1-3
BU
-u-5
aW
H-u
-6a
GY-
u-5
BU
RD
-m2-
2W
HR
D-f5
GY
RD
-m3-
L1
GN
-f4R
D-e
6-1
BU
-f1-1
WH
-e5-
2
GY-
e6-2
Bas
e W
iring
Con
nect
or –
l6
123456789
BK-
u-2b
BU
RD
-m3
BU
RD
-l6-9
GN
YE
-PE
-1G
NY
E-r
1
Circ
ulat
ion
Mot
or –
m2
12
3
K1
BU
-b-2
GN
-u-5
bG
N-b
-4
Ther
mos
tat –
f313
5˚F
WH
-e5-
2W
H-f1
-4
GN
-l6-6
WH
RD
-l6-9
RD
-r1
Ther
mos
tats
– f4
& f5
f4
149˚
F
f5
185˚
F
BU
-l6-4
WH
-f4
VT-
s2
Wat
er L
evel
Sw
itch
– f1
P
4 2
1
RD
-l6-5
GY
RD
-m3-
L1
GY-
l6-1
Floa
t Sw
itch
– e6
4 21
RD
-r1
GY
BK-
u-4a
WH
-f4W
H-l6
-3
Flow
Sw
itch
– e5
4 21
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
te
OR
=or
ange
PK
=pi
nk
Hig
h Li
mit
A2
GN
YE
-PE
-6
SH
U 3
03X
/313
X
HIN
T: F
orm
at fo
r w
ire c
onne
ctio
ns
incl
udes
wire
col
or
and
part
/ter
min
al
conn
ecte
d to
. For
ex
ampl
e, “
BK-
m2-
1”
= B
K (b
lack
wire
) co
nnec
ted
to
term
inal
1 o
f ci
rcul
atio
n m
otor
m2.
HIN
T: W
hen
a w
ire c
olor
co
nsis
ts o
f fou
r le
tters
, the
3rd
an
d 4t
h le
tters
sh
ow th
e st
ripe.
Fo
r exa
mpl
e,
“GY
BK
” w
ire is
a
gray
wire
with
a
blac
k st
ripe.
Wire
Col
or C
ode
B
WA
SH
STA
LLR
INS
E S
TALL
W A T E R L E V E L
PR
OG
RA
M
TIM
ING
KE
Y (T
IME
FOR
SE
NS
OR
TO
BE
SAT
ISFI
ED
)
f1 =
Wat
er L
evel
Sw
itch
f3 =
135
˚F T
herm
osta
tf4
= 1
49˚F
The
rmos
tat
12
34
516
618
78
910
1112
1314
1517
1920
2142
2223
2425
2637
4727
2835
3229
30
3133
34
36
38
39
40
4143
44
454
64
84
95
051
5253
54
555
657
60
58
59
18090
18018030
3060180f4+60606030f1+3030
FP
303030180150f1+3030303030601801801260176f3/f4+4150f1+303030303060180150f1+30303056f1+43030180150f1+30303056f1+430
TT
TT
P
PU+HF+U+KU+HF+UF+UF+U
F+UPP+UUF+UFPF+UPP+UUUUUUU+HF+U+R FPF+UPP+UUUF+UFPP+UF+UFPP+UUF+UFPP+UF+UFP
PR
E-R
INS
EP
RE
-WA
SH
WA
SH
W/
HE
ATP
RE
-RIN
SE
RIN
SE
W/
HE
ATD
RY
ING
87654321 11 12 13 14 15 16 17 18 19
a b a ba ba ba ba ba ba b
Tim
er M
otor
Wat
er S
olen
oid
Ther
mos
tat 1
49˚
F
Hea
ting
Ele
men
tD
rain
Mot
or
Act
uato
rTh
erm
osta
t 135
˚FC
ircul
atio
n M
otor
Pow
er S
crub
(Reg
Tem
p)
Reg
ular
(Hig
h Te
mp)
Rin
se &
Hol
d
Pow
er S
crub
(Hig
h Te
mp)
Reg
ular
(Reg
Tem
p)
149˚
149˚
135˚
149˚
149˚
149˚
135˚
149˚
T I M E R C O N T A C T S
TIM
E IN
SE
CO
ND
S
OP
ER
ATIO
N
TIM
ER
PO
SIT
ION
WA
SH
/RIN
SE
149˚
F/14
9˚F
135˚
F/14
9˚F
135˚
F/14
9˚F
149˚
F/14
9˚F
OP
ER
ATIO
N K
EY
DR
AIN
ING
P=
FILL
ING
F=
CIR
CU
LATI
ON
U=
RIN
SE
–AID
DIS
PE
NS
ING
K=
DR
YIN
GT
=
DE
TER
GE
NT
DIS
PE
NS
ING
R=
HE
ATIN
GH
=
SH
U 3
03X
/313
XN
OTE
: Whe
n tim
er is
set
to “
Rin
se &
Hol
d” c
ycle
,if
sele
ctor
sw
itch
is n
ot a
lso
set t
o “R
inse
& H
old”
setti
ng, d
ishw
ashe
r will
ent
er a
“he
at d
elay
”w
here
it w
ill ru
n lo
nger
than
usu
al.
NO
TE: B
efor
e w
ash
cycl
e st
arts
,di
shw
ashe
r will
dra
in:
5 tim
es —
Pow
er S
crub
(Hig
h or
Reg
Tem
p)3
times
— R
egul
ar (H
igh
or R
eg T
emp)
DIAGRAM #645600 03 5985
SHU 99 Dishwasher Test ProgramTEST* TIME NOTES
Draining 30 seconds
Filling Until Water Level Switch (f1) closes Input current < 1 A
Heating & Circulating(water circulates before unit stops filling)
Until water temperature reaches150ºF (65ºC)
Input current ~ 11 A anddispenser actuator comes on
Draining 60 seconds
*To skip Heating & Circulating test:
SHU 9902/9905/9906 (Millennium) models Press SCRUB WASH button.SHU 991x (Integra) models Press REGULAR WASH button.
SHU 9902/9905/9906 (Millennium) MODELSTo start test program, press and hold both POWER SCRUB PLUS and REGULAR WASH program buttons, then turn uniton by pressing ON/OFF button. When program buttons are released, lights above them will flash. To end test program,press ON/OFF button. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To check program indicator lights (POWER SCRUB PLUS, SCRUB WASH, REGULAR WASH and RINSE & HOLD),press and hold each program button. When SCRUB WASH program button is pressed, CLEAN light also comes on.NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To start testing, press both POWER SCRUB PLUS and REGULAR WASH buttons a second time. When testing hasended and a fault was detected, the following indicator lights will be lit:
POWER SCRUB PLUS = Heater faultSCRUB WASH = Water filling fault (over or under filling)REGULAR WASH = NTC (temperature sensor) fault – note circulation motor stops shortly after it started during an NTC fault
To check for heater, high limit or flow switch problems, start testing until heating starts. Using a meter with a current coil,measure current going into dishwasher. If current is ~ 11 A, then heater, high limit and flow switch are OK. If current staysat ~ 1.5-2 A, then heater, high limit or flow switch are faulty.
If water level switch (f1) has failed (opened), SCRUB WASH light will come on and unit will continually fill and drain wheretesting won't be completed. If flow switch (e5) has failed (opened), water won't heat (to 150ºF) and water won’t stopcirculating. If NTC probe (f2 / f4 ) has failed (opened), REGULAR WASH light will come on immediately and testing willend shortly after water has started circulating. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
If more than one fault occurs, more than one light will be lit.
SHU 9902/9905/9906 (Millennium) models program buttons & indicator lights:
See Diagram #65B for SHU 991x UC/06-UC/11 (Integra) Models, Diagram #66A for SHU 991x UC/12(Integra) Models, Diagram #66B for SHU 992x UC/12 (Integra) Models & Diagram #66C for SHU 88
UC/12 (Integra) Models.
PowerScrubPlus
ScrubWash
RegularWash
Rinse& Hold
Clean
DIAGRAM #65A
HINT: Models don’t have an end of cycle tone. HINT: Lights will be lit only when the door is open.
SHU 99 Dishwasher Test ProgramTEST* TIME NOTES
Draining 30 seconds
Filling Until Water Level Switch (f1) closes Input current < 1 A
Heating & Circulating(water circulates before unit stops filling)
Until water temperature reaches150ºF (65ºC)
Input current ~ 11 A anddispenser actuator comes on
Draining 60 seconds
*To skip Heating & Circulating test:
SHU 9902/9905/9906 (Millennium) models Press SCRUB WASH button.SHU 991x (Integra) models Press REGULAR WASH button.
SHU 991x UC/06 & UC/11 (Integra) MODELSTo start test program, press and hold both POWER SCRUB PLUS and QUICK WASH program buttons, then turn unit onby pressing ON/OFF button. When program buttons are released, lights above them will flash. To end test program, pressON/OFF button. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To check program indicator lights (POWER SCRUB PLUS, REGULAR WASH, QUICK WASH and RINSE & HOLD),press and hold each program button. When REGULAR WASH program button is pressed, CLEAN light also comes onand an audible tone (“beep”) also occurs. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To start testing, press both POWER SCRUB PLUS and QUICK WASH buttons a second time. When testing has endedand a fault was detected, the following indicator lights will be lit:
POWER SCRUB PLUS = Heater faultREGULAR WASH = Water filling fault (over or under filling)QUICK WASH = NTC (temperature sensor) fault – note circulation motor stops shortly after it started during an NTC fault
To check for heater, high limit or flow switch problems, start testing until heating starts. Using a meter with a current coil,measure current going into dishwasher. If current is ~ 11 A, then heater, high limit and flow switch are OK. If current staysat ~ 1.5-2 A, then heater, high limit or flow switch are faulty.
If water level switch (f1) has failed (opened), REGULAR WASH light will come on and unit will continually fill and drainwhere testing won't be completed. If flow switch (e5) has failed (opened), water won't heat (to 150ºF) and water won’t stopcirculating. If NTC probe (f2 / f4 ) has failed (opened), QUICK WASH light will come on immediately and testing will endshortly after water has started circulating. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
If more than one fault occurs, more than one light will be lit.
SHU 991x UC/06 & UC/11 (Integra) models program buttons & indicator lights:
See Diagram #65A for SHU 9902/9905/9906 (Millennium) Models, Diagram #66A for SHU 991x UC/12(Integra) Models, Diagram #66B for SHU 992x UC/12 (Integra) Models & Diagram #66C for SHU 88
UC/12 (Integra) Models.
PowerScrubPlus
Clean
RegularWash
QuickWash
Rinse& Hold
DIAGRAM #65B
HINT: Models have an end of cycle tone. HINT: Lights will be lit only when the door is open.
SHU 88/99 UC/12 Dishwasher Test Programs
TEST* TIME NOTES
Draining 30 seconds
Filling Until Water Level Switch (f1) closes Input current < 1 A
Heating & Circulating(water circulates before unit stops filling)
Until water temperature reaches150ºF (65ºC)
Input current ~ 11 A anddispenser actuator comes on
Draining 60 seconds
*To skip Heating & Circulating test:
SHU 88 UC/12 (Integra) models Press REGULAR WASH button.SHU 991x UC/12 (Integra) models Press REGULAR WASH button.SHU 992x UC/12 (Integra) models Press REGULAR WASH button.
SHU 991x UC/12 (Integra) MODELSTo start test program, press and hold both POWER SCRUB PLUS and DELICATE/ECONO program buttons, then turnunit on by pressing ON/OFF button. When program buttons are released, lights above them will flash. To end testprogram, press ON/OFF button. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To check program indicator lights (POWER SCRUB PLUS, REGULAR WASH, DELICATE/ECONO and RINSE & HOLD),press and hold each program button. When REGULAR WASH program button is pressed, CLEAN light also comes onand an audible tone (“beep”) also occurs. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To start testing, press both POWER SCRUB PLUS and DELICATE/ECONO buttons a second time. When testing hasended and a fault was detected, the following indicator lights will be lit:
POWER SCRUB PLUS = Heater faultREGULAR WASH = Water filling fault (over or under filling)DELICATE/ECONO = NTC (temperature sensor) fault – note circulation motor stops shortly after it started during an NTC fault
To check for heater, high limit or flow switch problems, start testing until heating starts. Using a meter with a current coil,measure current going into dishwasher. If current is ~ 11 A, then heater, high limit and flow switch are OK. If current staysat ~ 1.5-2 A, then heater, high limit or flow switch are faulty.
If water level switch (f1) has failed (opened), REGULAR WASH light will come on and unit will continually fill and drainwhere testing won't be completed. If flow switch (e5) has failed (opened), water won't heat (to 150ºF) and water won’t stopcirculating. If NTC probe (f2 / f4 ) has failed (opened), DELICATE/ECONO light will come on immediately and testing willend shortly after water has started circulating. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
If more than one fault occurs, more than one light will be lit.
SHU 991x UC/12 (Integra) models program buttons & indicator lights:
See Diagram #65A for SHU 9902/9905/9906 (Millennium) Models, Diagram # 65B for SHU 991x UC/06-UC/11 (Integra) Models, Diagram #66B for SHU 992x UC/12 (Integra) Models & Diagram #66C for SHU
88 UC/12 (Integra) Models
PowerScrubPlus
Clean
RegularWash
Delicate/Econo
Rinse& Hold
NOTE: All SHU 99UC/12 models usethe same controlmodule # 481055and have the samewash programs.
HINT: Models have an end of cycle tone.
DIAGRAM #66A
HINT: Lights will be lit only when the door is open.
SHU 88/99 UC/12 Dishwasher Test Programs
TEST* TIME NOTES
Draining 30 seconds
Filling Until Water Level Switch (f1) closes Input current < 1 A
Heating & Circulating(water circulates before unit stops filling)
Until water temperature reaches150ºF (65ºC)
Input current ~ 11 A anddispenser actuator comes on
Draining 60 seconds
*To skip Heating & Circulating test:
SHU 88 UC/12 (Integra) models Press REGULAR WASH button.SHU 991x UC/12 (Integra) models Press REGULAR WASH button.SHU 992x UC/12 (Integra) models Press REGULAR WASH button.
SHU 992x UC/12 (Integra) MODELSTo start test program, press and hold both POWER SCRUB PLUS and DELICATE/ECONO program buttons, then turnunit on by pressing ON/OFF button. When program buttons are released, lights above them will flash. To end testprogram, press ON/OFF button. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To check program indicator lights (POWER SCRUB PLUS, REGULAR WASH, DELICATE/ECONO and RINSE & HOLD),press and hold each program button. When REGULAR WASH program button is pressed, CLEAN light also comes onand an audible tone (“beep”) also occurs. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To start testing, press both POWER SCRUB PLUS and DELICATE/ECONO buttons a second time. When testing hasended and a fault was detected, the following indicator lights will be lit:
POWER SCRUB PLUS = Heater faultREGULAR WASH = Water filling fault (over or under filling)DELICATE/ECONO = NTC (temperature sensor) fault – note circulation motor stops shortly after it started during an NTC fault
To check for heater, high limit or flow switch problems, start testing until heating starts. Using a meter with a current coil,measure current going into dishwasher. If current is ~ 11 A, then heater, high limit and flow switch are OK. If current staysat ~ 1.5-2 A, then heater, high limit or flow switch are faulty.
If water level switch (f1) has failed (opened), REGULAR WASH light will come on and unit will continually fill and drainwhere testing won't be completed. If flow switch (e5) has failed (opened), water won't heat (to 150ºF) and water won’t stopcirculating. If NTC probe (f2 / f4 ) has failed (opened), DELICATE/ECONO light will come on immediately and testing willend shortly after water has started circulating. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
If more than one fault occurs, more than one light will be lit.
SHU 992x UC/12 (Integra) models program buttons & indicator lights:
See Diagram #65A for SHU 9902/UC/11 (Integra) Models, Diagram
PowerScrubPlus
Clean
RegularWash
Delicate/Econo
Rinse& HoldR
A
TopRackOnly
DIAGRAM #66B
HINT: Models have an end of cycle to
NOTE: All SHU 99UC/12 models usethe same controlmodule # 481055and have the samewash programs.
Refillinsegent
9905/9906 (Millennium) Models, Diagram #65B for SHU 991x UC/06-#66A for SHU 991x UC/12 (Integra) Models & Diagram #66C for SHU
88 UC/12 (Integra) Models
HINT: Lights will be lit only when the door is open.ne.
SHU 88/99 UC/12 Dishwasher Test Programs
TEST* TIME NOTES
Draining 30 seconds
Filling Until Water Level Switch (f1) closes Input current < 1 A
Heating & Circulating(water circulates before unit stops filling)
Until water temperature reaches150ºF (65ºC)
Input current ~ 11 A anddispenser actuator comes on
Draining 60 seconds
*To skip Heating & Circulating test:
SHU 88 UC/12 (Integra) models Press REGULAR WASH button.SHU 991x UC/12 (Integra) models Press REGULAR WASH button.SHU 992x UC/12 (Integra) models Press REGULAR WASH button.
SHU 88 UC/12 (Integra) MODELSTo start test program, press and hold both POWER SCRUB PLUS and QUICK WASH program buttons, then turn unit onby pressing ON/OFF button. When program buttons are released, lights above them will flash. To end test program, pressON/OFF button. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To check program indicator lights (POWER SCRUB PLUS, REGULAR WASH, and QUICK WASH ), press and hold eachprogram button. When REGULAR WASH program button is pressed, CLEAN light also comes on and an audible tone(“beep”) also occurs. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To start testing, press both POWER SCRUB PLUS and QUICK WASH buttons a second time. When testing has endedand a fault was detected, the following indicator lights will be lit:
POWER SCRUB PLUS = Heater faultREGULAR WASH = Water filling fault (over or under filling)QUICK WASH = NTC (temperature sensor) fault – note circulation motor stops shortly after it started during an NTC fault
To check for heater, high limit or flow switch problems, start testing until heating starts. Using a meter with a current coil,measure current going into dishwasher. If current is ~ 11 A, then heater, high limit and flow switch are OK. If current staysat ~ 1.5-2 A, then heater, high limit or flow switch are faulty.
If water level switch (f1) has failed (opened), REGULAR WASH light will come on and unit will continually fill and drainwhere testing won't be completed. If flow switch (e5) has failed (opened), water won't heat (to 150ºF) and water won’t stopcirculating. If NTC probe (f2 / f4 ) has failed (opened), QUICK WASH light will come on immediately and testing will endshortly after water has started circulating. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
If more than one fault occurs, more than one light will be lit.
SHU 88 UC/12 (Integra) models program buttons & indicator lights:
See Diagram #65A for SHU 9902/9905/9906 (Millennium) Models, Diagram # 65B for SHU 991x UC/06-UC/11 (Integra) Models, Diagram #66A for SHU 991x UC/12 (Integra) Models & Diagram #66B for SHU
992x UC/12 (Integra) Models
HINT: Models have an end of cycle tone. HINT: Lights will be lit only when the door is open.
PowerScrubPlus
Clean
RegularWash
QuickWash
NOTE: All SHU 88UC/12 models usethe same controlmodule # 186923and have the samewash programs.
DIAGRAM #66C
BDIAGRAM #685602040016
M 1
M 1
M 1
L
perm
anen
t spl
itca
paci
tor m
otor
(m2)
N
Con
trol
Mod
ule–
I2
34
52
61
21
46
21
21
43
21
32
1
I2.5
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I2.2
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I2.1
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I2.8 X2
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m2
m3f5
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L1N
185˚
F
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e1
e6
f1
(f2 &
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42 1s2
P
4 62
3 51
Sym
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ON
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SW
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H
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AC
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(Dis
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HU
995
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HIN
T: F
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sw
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e6sw
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mte
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to 4
only
if d
ishw
ashe
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led
or w
ater
has
flood
ed th
e ba
se.
HIN
T: R
eed
switc
h e3
,lo
cate
d in
the
botto
m
of th
e di
spen
ser,
sens
es w
hen
rinse
aid
ha
s ru
n ou
t.
HIN
T: F
low
sw
itch
e5cl
oses
whe
n w
ater
flow
s,al
low
ing
the
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w
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It w
ill b
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en w
hen
dish
was
her i
s of
f.
HIN
T: U
nlik
e S
HU
/SH
I dis
hwas
hers
, the
se d
ishw
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para
te d
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HIN
T: T
his
is s
imila
r to
Dia
gram
#72
for S
HV
68
dish
was
hers
, ex
cept
Dia
gram
#72
(SH
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8) h
as a
top
rack
onl
y ac
tuat
or (A
1).
BDIAGRAM #695602040016
1M
GY
RD
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4G
YR
D-l5
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WH
VT-
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L1
Dra
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Wire
Col
or C
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BK-
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WH
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GN
YE
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L1 N
PE
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Ele
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uppl
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l1
RD
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NY
E-s
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E-m
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E-I1
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E-P
E-2
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Hea
ting
Ele
men
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RD
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WH
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HV
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Sw
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– e5
4
21
BK
=bl
ack
BN
=br
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RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
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GY
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H=
whi
teP
K=
pink
HIN
T: W
hen
a w
ire c
olor
con
sist
s of
four
lette
rs,
the
3rd
& 4
th le
tters
sho
w th
e st
ripe.
For
exa
mpl
e,a
“GY
BK
” w
ire is
a g
ray
wire
with
a b
lack
str
ipe.
HIN
T: F
orm
at fo
r wire
con
nect
ions
incl
udes
wire
col
or a
nd p
art/
term
inal
conn
ecte
d to
. For
exa
mpl
e,“B
U-l6
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= B
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lue
wire
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nnec
ted
to p
art l
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ear b
ase
wiri
ng c
onne
ctor
) @ te
rmin
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.
Ree
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witc
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e3O
n/O
ff S
witc
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– e6
Gro
und
– P
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Act
uato
r (D
ispe
nser
) – A
2
Circ
ulat
ion
Mot
or–
m2
Wat
er S
olen
oid
– s2
Wat
er L
evel
Sw
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– f1
NTC
– f2
& f4
/ T
herm
osta
t – f5
Aqu
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enso
r – l4
GN
YE
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Box
Con
trol
Hin
ge
RD
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RD
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GN
YE
-r1
GN
YE
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YE
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YE
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WH
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H-l2
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BU
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VT-
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l6-
987654321
RD
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YR
D-m
3-L1
GN
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BN
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BN
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RD
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YR
D-l2
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BU
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N-N
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U-l2
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WH
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H-l2
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BN
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BU
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U-l2
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BU
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l5-
987654321
Bas
e W
iring
Con
nect
ors
– I5
& I6
GY-
l2.7
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T-e1
-2
GN
YE
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-1G
NY
E-r
1
12
3
K4
GN
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GN
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RD
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RD
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f2-f4 f5
185˚
F
RD
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BU
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P
4 2
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WH
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RD
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GY
RD
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L1
WH
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4
21
VT-
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WH
-e6-
2
GN
YE
-r1
NTC
N S
BN-l5-7
3
BN-l5-8
2
BN-l5-9
1
Hig
hLi
mit
SH
U 9
95x
A2
Con
trol
Mod
ule–
I2
GYRD-l5-2RD-l5-1
BU-I5-7BU-I5-8BU-I5-9
BU-I5-5BU-I5-63
45
26
1
WH-l6-8WH-l6-9
34
52
67
89
1
RD-e3RD-e3
32
1
3
GY-m2-1
12
GYBK-a1-3
4
I2.x
I2.8
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.5-
I2.6
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YE-A2YE-A2
WH-e1-4
WH-l5-334
52
67
89
1
WHRD-e1-1WH-a1-5
21
I2.2
-
I2.7
-I2
.1-
WHRD-e1
WH-l2.1-1
WHRD-e5-1WH-l1-N
GYBK-l2.7-4WH-a1-6
BK-l1-L1
WH-a1-32
13
45
6 VT-
m2-
2
Doo
r Sw
itch
– e1
WH
RD
-a1-
1W
HR
D-l2
.1-2
GY-
l2.2
-64
21
SHV 43/48 Dishwasher Test ProgramTEST* TIME NOTES
Draining 30 seconds
Filling Until Water Level Switch (f1) closes Input current < 1 A
Heating & Circulating(water circulates before unit stops filling)
Until water temperature reaches150ºF (65ºC)
Input current ~ 11 A anddispenser actuator comes on
Draining 60 seconds
* To skip Heating & Circulating test: SHV 43/48 UC/06, UC/07 & UC/11 models Press SCRUB WASH button.
SHV 43/48 UC/12 models Press REGULAR WASH button.
SHV 43/48 UC/06, UC/07 & UC/11 MODELS (see Diagram 71B for SHV 43/48 UC/12 models)
To start test program, press and hold both POWER SCRUB PLUS and REGULAR WASH program buttons, then turn uniton by pressing ON/OFF button. When program buttons are released, lights above them will flash. To end test program,press ON/OFF button. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To check program indicator lights (POWER SCRUB PLUS, SCRUB WASH, REGULAR WASH and RINSE & HOLD),press and hold each program button. When SCRUB WASH program button is pressed, CLEAN and REFILL RINSEAGENT lights also come on (for SHV 4803 models) or CLEAN light also comes on (for SHV 4303 models). NOTE: TOENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To start testing, press both POWER SCRUB PLUS and REGULAR WASH buttons a second time. When testing hasended and a fault was detected, the following indicator lights will be lit:
POWER SCRUB PLUS = Heater faultSCRUB WASH = Water filling fault (over or under filling)REGULAR WASH = NTC (temperature sensor) fault – note circulation motor stops shortly after it started
during an NTC fault
To check for heater, high limit or flow switch problems, start testing until heating starts. Using a meter with a current coil,measure current going into dishwasher. If current is ~ 11 A, then heater, high limit and flow switch are OK. If current staysat ~ 1.5-2 A, then heater, high limit or flow switch are faulty.
If water level switch (f1) has failed (opened), SCRUB WASH light will come on and unit will continually fill and drain wheretesting won't be completed. If flow switch (e5) has failed (opened), water won't heat (to 150ºF) and water won’t stopcirculating. If NTC probe (f2 / f4 ) has failed (opened), REGULAR WASH light will come on immediately and testing willend shortly after water has started circulating. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
If more than one fault occurs, more than one light will be lit.
SHV 4303 UC/06 & UC/11 models program buttons & indicator lights:
SHV 4803 UC/06 & UC/07 models program buttons & indicator lights:
PowerScrubPlus
ScrubWash
RegularWash
Rinse& Hold
PowerScrubPlus
ScrubWash
RegularWash
Rinse& Hold
TopRackOnly
Clean
CleanRA
DIAGRAM #71A
HINT: Models don’t have
Refillinsegent
HINT: Lights will be lit only when the door is open. an end of cycle tone.
SHV 43/48 Dishwasher Test ProgramTEST* TIME NOTES
Draining 30 seconds
Filling Until Water Level Switch (f1) closes Input current < 1 A
Heating & Circulating(water circulates before unit stops filling)
Until water temperature reaches150ºF (65ºC)
Input current ~ 11 A anddispenser actuator comes on
Draining 60 seconds
* To skip Heating & Circulating test: SHV 43/48 UC/06, UC/07 & UC/11 models Press SCRUB WASH button.
SHV 43/48 UC/12 models Press REGULAR WASH button.
SHV 43/48 UC/12 MODELS (see Diagram 71A for SHV 43/48 UC/06, UC/07 & UC/11 models)
To start test program, press and hold both POWER SCRUB PLUS and REGULAR WASH program buttons, then turn uniton by pressing ON/OFF button. When program buttons are released, lights above them will flash. To end test program,press ON/OFF button. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To check program indicator lights (POWER SCRUB PLUS, REGULAR WASH, DELICATE/ECONO and RINSE & HOLD),press and hold each program button. When REGULAR WASH program button is pressed, CLEAN and REFILL RINSEAGENT lights also come on (for SHV 4803 models) or CLEAN light also comes on (for SHV 4303 models). NOTE: TOENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
To start testing, press both POWER SCRUB PLUS and DELICATE/ECONO buttons a second time. When testing hasended and a fault was detected, the following indicator lights will be lit:
POWER SCRUB PLUS = Heater faultREGULAR WASH = Water filling fault (over or under filling)DELICATE/ECONO = NTC (temperature sensor) fault – note circulation motor stops shortly after it started
during an NTC fault
To check for heater, high limit or flow switch problems, start testing until heating starts. Using a meter with a current coil,measure current going into dishwasher. If current is ~ 11 A, then heater, high limit and flow switch are OK. If current staysat ~ 1.5-2 A, then heater, high limit or flow switch are faulty.
If water level switch (f1) has failed (opened), REGULAR WASH light will come on and unit will continually fill and drainwhere testing won't be completed. If flow switch (e5) has failed (opened), water won't heat (to 150ºF) and water won’t stopcirculating. If NTC probe (f2 / f4 ) has failed (opened), DELICATE/ECONO light will come on immediately and testing willend shortly after water has started circulating. NOTE: TO ENABLE LIGHTS TO COME ON, DOOR MUST BE OPENED.
If more than one fault occurs, more than one light will be lit.
SHV 4303 UC/12 models program buttons & indicator lights:
SHV 4803 UC/12 models program buttons & indicator lights:
PowerScrubPlus
RegularWash
Delicate/Econo
Rinse& Hold
Clean
DIAGRAM #71B
PowerScrubPlus
RW
Delicate/Econo
Rinse& Hold
TopRackOnly
CleanRA
HINT: LHINT: Models have an end of cycle tone.
egularash
Refillinsegent
ights will be lit only when the door is open.
BDIAGRAM #725602040018
M 1
M 1
M 1
L
perm
anen
t spl
itca
paci
tor m
otor
(m2)
N
Con
trol
Mod
ule–
I2
34
52
61
42
14
62
12
1
43
21
32
1
I2.5
-2
1
I2.6
-I2
.4-
I2.2
-I2
.7-
I2.1
-
I2.8 X2
l4
m2
m3f5
r1 e5
a1
L1N
185˚
F
NTC
A1
A2
e1
e6
f1
(f2 &
f4)e3
42 1
42 1s2
P
4 62
3 51
Sym
bol K
eya1
ON
/OFF
SW
ITC
H
e1D
OO
R S
WIT
CH
A1
AC
TUAT
OR
(Top
Rac
k O
nly)
A2
AC
TUAT
OR
(Dis
pens
er)
e6FL
OAT
SW
ITC
He5
FLO
W S
WIT
CH
e3R
EE
D S
WIT
CH
f1W
ATE
R L
EV
EL
SW
ITC
H
Sym
bol K
ey
f5H
IGH
LIM
IT 1
85˚F
m2
CIR
CU
LATI
ON
MO
TOR
m3
DR
AIN
MO
TOR
NTC
TEM
PE
RAT
UR
E S
EN
SO
Rr1
HE
ATIN
G E
LEM
EN
Ts2
WAT
ER
SO
LEN
OID
X2
SE
RV
ICE
CO
NN
EC
TOR
l4A
QU
A S
EN
SO
RL1
LIN
E V
OLT
AG
E (1
20 V
AC
)
NN
EU
TRA
L
SH
V 6
8
HIN
T: F
loat
sw
itch
e6sw
itche
s fro
mte
rmin
al 2
to 4
only
if d
ishw
ashe
rha
s ov
erfil
led
or w
ater
has
flood
ed th
e ba
se.
HIN
T: R
eed
switc
h e3
,lo
cate
d in
the
botto
m
of th
e di
spen
ser,
sens
es w
hen
rinse
aid
ha
s ru
n ou
t.
HIN
T: F
low
sw
itch
e5cl
oses
whe
n w
ater
flow
s,al
low
ing
the
heat
er to
w
ork.
It w
ill b
e op
en w
hen
dish
was
her i
s of
f.
HIN
T: U
nlik
e S
HU
/SH
I dis
hwas
hers
, the
se d
ishw
ashe
rs h
ave
a se
para
te d
oor s
witc
h (e
1). T
his
mea
ns th
e pu
shbu
ttons
ligh
t up
and
the
digi
tal d
ispl
ay is
on
only
whe
n th
e do
or is
ope
n.
HIN
T: T
his
is s
imila
r to
Dia
gram
#6
8 fo
r SH
U 9
95X
dis
hwas
hers
, ex
cept
Dia
gram
#6
8 (S
HU
995
X) d
oes
not h
ave
a to
p ra
ck o
nly
actu
ator
(A1)
.
BDIAGRAM #735602040018
1M
GY
RD
-e6-
4G
YR
D-l5
-2
WH
VT-
e5-1
L1
Dra
in M
otor
– m
3W
ire C
olor
Cod
eB
K-a1
-4
WH
-a1-
2
GN
YE
-r1
L1 N
PE
-3
Ele
ctric
al S
uppl
y –
l1
RD
-e5-
4G
NY
E-s
2G
NY
E-m
2G
NY
E-I1
-PE
-3G
NY
E-P
E-2
RD
-f5
Hea
ting
Ele
men
t – r1
RD
-r1
WH
RD
-a1-
1W
HV
T-m
3
Flow
Sw
itch
– e5
4
21
BK
=bl
ack
BN
=br
own
RD
=re
dY
E=
yello
wG
N=
gree
nB
U=
blue
VT
=vi
olet
GY
=gr
ayW
H=
whi
teP
K=
pink
HIN
T: W
hen
a w
ire c
olor
con
sist
s of
four
lette
rs,
the
3rd
& 4
th le
tters
sho
w th
e st
ripe.
For
exa
mpl
e,a
“GY
BK
” w
ire is
a g
ray
wire
with
a b
lack
str
ipe.
HIN
T: F
orm
at fo
r wire
con
nect
ions
incl
udes
wire
col
or a
nd p
art/
term
inal
conn
ecte
d to
. For
exa
mpl
e,“B
U-l6
-8”
= B
U (b
lue
wire
)co
nnec
ted
to p
art l
6 (r
ear b
ase
wiri
ng c
onne
ctor
) @ te
rmin
al 8
.
Ree
d S
witc
h –
e3O
n/O
ff S
witc
h –
a1
Floa
t Sw
itch
– e6
Gro
und
– P
E
Act
uato
rs –
A1
& A
2
Circ
ulat
ion
Mot
or–
m2
Wat
er S
olen
oid
– s2
Wat
er L
evel
Sw
itch
– f1
NTC
– f2
& f4
/ T
herm
osta
t – f5
Aqu
a S
enso
r – l4
GN
YE
-PE
-1J-
Box
Con
trol
Hin
ge
RD
-l2.6
-1
RD
-l2.6
-2
GN
YE
-r1
GN
YE
-m2
GN
YE
-PE
-4124
GY
BK-
l6-6
WH
-l2.4
-2W
H-l2
.4-1
BU
-f1-4
WH
-l2.4
-4G
YB
K-A
1
VT-
s2
l6-
987654321
RD
-f5G
YR
D-m
3-L1
GN
-NTC
BN
-l4-3
BN
-l4-1
RD
-l2.7
-3G
YR
D-l2
.7-2
BU
-l2.5
-4G
N-N
TCB
U-l2
.5-5
WH
-e6-
1W
H-l2
.2-4
BN
-l4-2
BU
-l2.5
-2B
U-l2
.5-3
BU
-l2.5
-1
l5-
987654321
Bas
e W
iring
Con
nect
ors
– I5
& I6
GY-
l2.7
-1V
T-e1
-2
GN
YE
-PE
-1G
NY
E-r
1
WH
-l5-3
WH
-e6-
1
12
3
K4
GN
-l5-5
GN
-l5-6
RD
-l5-1
RD
-r1
f2-f4 f5
185˚
F
RD
-e6-
1
BU
-l6-8
P
4 2
1
WH
-A1
RD
-f1-1
GY
RD
-m3-
L1
WH
-s2
4
21
VT-
l6-6
WH
-e6-
2
GN
YE
-r1
NTC
N S
BN-l5-7
3
BN-l5-8
2
BN-l5-9
1
Hig
hLi
mit
SH
V 6
8
A1
YE
-l2.2
-1
YE
-l2.2
-2A
2
Con
trol
Mod
ule–
I2
GYRD-l5-2RD-l5-1
BU-I5-7BU-I5-8BU-I5-9
BU-I5-5BU-I5-63
45
26
1
WH-l6-8
WH-l6-6
WH-l6-9
34
52
67
89
1
RD-e3RD-e3
32
1
3
GY-m2-1
12
GYBK-a1-3
4
I2.x
I2.8
-I2
.5-
I2.6
-I2
.4-
YE-A2YE-A2
WH-e1-4
WH-l5-334
52
67
89
1
WHRD-e1-1WH-a1-5
21
I2.2
-
I2.7
-I2
.1-
WHRD-e1
WH-l2.1-1
WHRD-e5-1WH-l1-N
GYBK-l2.7-4WH-a1-6
BK-l1-L1
WH-a1-32
13
45
6 VT-
m2-
2
Doo
r Sw
itch
– e1
WH
RD
-a1-
1W
HR
D-l2
.1-2
GY-
l2.2
-64
21
Top
Rac
k O
nly
Det
erge
nt D
ispe
nser