66
STBY POWERGND POWER -POWER +
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
1
1
2
2
2
3
3
3
3
3
3
3
3
3
3
3
3
!
Indicates safety critical components.
shall be carried out befor the appliance retruned to the customer.
To reduce the risk of electric shock, leakage current or resistance measurement
T
8 2 1
RC
D
-
N
8
-
T
A
0 0 1
H
S
D
2 2 1
Y
J
1 3
-
3 0
H
S
Q
8 2 1
Y
J
1 3
-
3 0
T
8 7 1
RC
D
-
N
8
-
T
A
1 0 1
PRIMARY SECONDARY
PRIMARY SECONDARY
H
S
D
4 4 1
Y
J
0 5
-
3 0
CHANGE 0.5 ohm --> 0.82 ohm
CHANGE 0.2 ohm --> 0.15 ohm
ADD
CHANGE HFS7N80 --> STF13N
M60N
CHANGE 105--> 101
ADD
CHANGE HS1M--> UF5404
CHANGE 25V/220uF--> 25V/2200uF
CHANGE 2.7K--> 1.5K
ADD 7812
DELETE L224
CHANGE 101--> 334
CHANGE EER3541--> EER4042
CHANGE 47 ohm --> 10 ohm
CHANGE 10 ohm --> 0 ohm
H
S
U
1
Y
J
0 5
-
3 0
AC 100V
C805 C806
250V/330uF
400V/330uFNC
250V/330uF
AC 230V
ADD
ADD
ADD
CHANGE 102 -> 471
ADD
ADD
CHANGE 102--> 101
ADD
ADD
CHANGE 25V/1000uF --> 25V/220uF
ADD
ADD
ADD
ADD
ADD
CHANGE
CHANGE
CHANGE
CHANGE
CHANGE
CHANGE
CHANGE
CV1615280 --> CV620280SH
CV1615280 --> CV620280SH
C
2 2 1
5 0
V
/
1 0 0 0
u
F
(
1 0 5
'
)
C
2 2 2
5 0
V
/
1 0 0 0
u
F
(
1 0 5
'
)
L
2 2 1
5
.
5
u
H
(
B
A
R
)
R
2 2 1
3K 1W
R
2 2 2
3K 1W
R
2 2 3
3K 1W
C
2 2 3
1 0 4
(
2 0 1 2
)
D
2 2 2
U
F
5 4 0 4
C
2 2 5
2 5
V
/
2 2 0 0
u
F
(
1 0 5
'
)
R
2 2 6
1K 1/2W
C
2 2 6
2 5
V
/
1 0 0
u
F
(
1 0 5
'
)
C
2 2 4
1 0 4
(
2 0 1 2
)
D
2 2 3
H
S
1
M
C
2 2 7
2 5
V
/
2 2 0
u
F
(
1 0 5
'
)
R
2 3 0
1K 1/2W
C
2 2 8
2 5
V
/
1 0 0
u
F
(
1 0 5
'
)
C
2 3 1
1 0 4
(
2 0 1 2
)
L
2 2 2
4
.
7
u
H
(
D
R
2
)
D
2 2 4
H
S
1
M
R
2 3 1
1K 1/2W
C
2 3 2
1 0 4
(
2 0 1 2
)
L
2 2 3
4
.
7
u
H
(
D
R
2
)
D
8 2 1
U
F
4 0 0 7
R
8 2 1
68K 2W
C
1 4
4 7 0
p
F
1
K
V
B
8 2 1
3 5 5 0
C
8 0 5
2 5 0
V
/
3 3 0
u
F
(
1 0 5
'
)
C
8 0 6
2 5 0
V
/
3 3 0
u
F
(
1 0 5
'
)
1 2
S
W
_
1 0 0
V
L
8 0 2
CV620280SH
C
8 0 2
A
C
2 7 5
V
0
.
2 2
u
F
L
8 0 1
CV620280SH
C
8 0 1
A
C
2 7 5
V
0
.
2 2
u
F
R
V
8 0 1
1 4
D
4 7 1
F
8 0 1
250V/4A
R
8 0 1
1.5M 1/2W(SURGE)
JK802
AC-M34
R
8 2 7
NOT
D
8 2 2
NO
T
G
D
S
Q
8 2 1
STF13NM60N
R
8 3 0
0.15/2W
C
8 2 7
1 0 4
(
2 0 1 2
)
T
H
8 0 1
5
D
-
1 5
C
8 0 4
4 0 0
V
/
1 0 2
C
8 0 3
4 0 0
V
/
1 0 2
C
8 2 3
5 0
V
/
4 7
u
F
(
1 0 5
'
)
R
8 2 3
10K(2012)
R
8 2 6
4.7K(2012)
C
8 2 5
1 0 1
(
2 0 1 2
)
D
8 2 3
18V(NC)
12
P
C
8 2 1
-
A
P
C
-
1 7
K
1
3
4
P
C
8 2 1
-
B
P
C
-
1 7
K
1
R
2 5 2
2K(2012)
R
2 5 1
4.3K(2012)
R
2 5 6
68K(2012)
C
2 5 1
1 0 4
(
2 0 1 2
)
C
2 5 2
3 3 4
(
2 0 1 2
)
R
2 5 5
1.5KF(2012)
R
2 5 4
15KF(2012)
R
2 5 3
1.8KF(2012)
R
8 7 1
100K 1W
C
8 7 2
1 0 3
K
/
6 3 0
V
D
8 7 1
U
F
4 0 0 7
B871
3550
R
8 7 3
0(3216)
R
8 7 4
10(3216)
D
8 7 2
B
A
V
2 1
W
D
8 7 4
B
A
V
2 1
W
D
4 4 2
H
S
1
M
C
4 4 3
2 5
V
/
2 2 0
u
F
(
1 0 5
'
)
L
4 4 2
4
.
7
u
H
(
D
R
2
)
C
4 4 4
2 5
V
/
1 0 0
u
F
(
1 0 5
'
)
C
4 4 5
1 0 4
(
2 0 1 2
)
C
4 4 1
1 0
V
/
2 2 0 0
u
F
(
1 0 5
'
)
C
4 4 2
1 0
V
/
4 7 0
u
F
(
1 0 5
'
)
L
4 4 1
5
.
5
u
H
(
B
A
R
)
12
P
C
8 7 1
-
A
P
C
1 7
K
-
1
3
4
P
C
8 7 1
-
B
P
C
1 7
K
-
1
R
4 5 2
470(2012)
R
4 5 1
470(2012)
R
4 5 3
5.1KF(2012)
R
4 5 5
1K(2012)
C
4 5 1
4 7 3
(
2 0 1 2
)
2
3
1
I
C
4 5 1
K
A
4 3 1
A
S
(
M
F
2
)
C
8 7 6
1 0 2
(
2 0 1 2
)
D
8 7 3
18V
R
8 7 2
0.82 1W
C
8 7 5
5 0
V
/
0
.
4 7
u
F
C
8 7 4
5 0
V
/
4 7
u
F
(
1 0 5
'
)
R
8 2 9
47K(2012)
12
P
C
8 2 2
-
A
P
C
-
1 7
K
1
3
4
P
C
8 2 2
-
B
P
C
-
1 7
K
1
R
4 6 1
2K(2012)
R
4 6 2
4.7K(2012)
D
8 3 2
1N4007
R
8 3 3
150K(3216)
R
8 3 2
120K(3216)
12
P
C
8 3 1
-
A
P
C
1 7
K
-
1
3
4
P
C
8 3 1
-
B
P
C
1 7
K
-
1
R
2 7 2
4.7K(2012)
R
2 7 1
4.7K(2012)
R
2 7 3
47K(2012)
C
8 2 6
4 0 0
V
/
4 7 1
D
2 2 1
F
C
U
2 0
A
3 0
C
2 2 9
2 5
V
/
2 2 0
u
F
(
1 0 5
'
)
C
2 3 0
2 5
V
/
1 0 0
u
F
(
1 0 5
'
)
2
3
1
I
C
2 5 1
K
A
4 3 1
A
S
(
M
F
2
)
R
4 5 4
4.99KF(2012)
C
4 4 6
1 0 4
(
2 0 1 2
)
C821
6 3 0
V
/
1 0 3
K
(
M
P
E
)
1
BA
2
FB
3
CS
4
DRAIN
8
GND
7
VCC
5
-DRAIN
6
NC
I
C
8 7 1
I
C
E
3
B
R
1 7 6 5
J
B
8 2 2
3 5 5 0
1
INV
2
COMP
3
VFF
4
CS
8
VCC
7
DRV
5
ZCD
6
GND
I
C
8 2 1
L
6 5 6 5
AC_1 AC_2
+
-
D801
TS6B05G
B
E
C
Q
8 2 2
A
1 2 9 8
C
2 5 3
1 0 2
/
1
K
V
(
3 2 1 6
)
C
1
0
o
h
m
C
2
0
o
h
m
C
3
0
o
h
m
C
4
0
o
h
m
C
6
0
o
h
m
C
7
0
o
h
m
C
8
0
o
h
m
C
9
0
o
h
m
D
4 4 1
S
R
F
1 0 6 0
C
5
0
o
h
m
R
1
47(3216)
R
2
1K(2012)
C
1 0
1 0 1
(
2 0 1 2
)
1
IN
2
GND
3
OUT
U1
7812
1
2
3
4
5
6
CN221
5267-6
A
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CN222
20010
WS-15
C
1 1
5 0
V
/
4 7
u
F
(
1 0 5
'
)
R
8 3 4
150K(3216)
R
8 3 5
120K(3216)
1 2
S
W
_
2 3 0
V
B
E
C
Q823
KTN2222AS
B
1
3550
B
2
3550
C
2 4 2
1 0 2
/
1
K
V
(
3 2 1 6
)
C
2 4 3
1 0 2
/
1
K
V
(
3 2 1 6
)
C
2 4 4
1 0 2
/
1
K
V
(
3 2 1 6
)
R
2 4 3
0R47(3216)
R
2 4 4
0R47(3216)
B
3
3550
B
4
3550
C
1 3
4 7 0
p
F
1
K
V
B
6
3550
B
5
3550
C
1 2
1 0 2
/
1
K
V
(
3 2 1 6
)
S
J
1 3
0 (2012)
S
J
1 4
NOT
P/S
[1]
P_VCC
[1]
+18V_D
[1]
DC_LINK
[1]
P/D
[1]
CPU_5V
[1]
CPU_5V
[1]
DC_LINK
[1]
CPU_5V
[1]
PVDD
[1]
-12V_A
[1]
+12V_A
[1]
+12V_D
[1]
PVDD
[1]
A_GND
D_GND
A_GND
GND_D
GND_D
GND_D
GND_D
A_GND
+12V_D
[1]
P/S
[1]
+12V
_A
[1]
-12V_A
[1]
+18V_D
[1]
CPU_5V
[1]
P/D
[1]
A_GND
P_VCC
[1]
PVDD
[1]
CHASSIS_GND
GND_D
D_GND GND_D
D_GND A_GND
A_GND
DHASSIS_GND
GND_D
GND_D
GND_D
D_GND
87654321
A
B
C
D
E
F
SCHEMATIC DIAGRAMS (6/6)
SMPS
CN221
CN222
TO CN101
TO CN408
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General
Weight and Dimensions
