UG-1861
User Guide
Rev. 0 | Page 6 of 10
EVALUATION BOARD SCHEMATIC AND ARTWORK
J8
V
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1
2
D
2
LE
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J1
G
N
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1
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TP
27
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1
V
out
5:
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N
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0.
68
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1
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Tes
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nt
and LE
D
Indi
cat
or
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9
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4:
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65
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TP
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in:
3.
7V
±5
%
TP
33
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2
1
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3
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38 1µF
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13
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32
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78
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24
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26
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J35
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9
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1µ
F
TP
15
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4_S
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S
1
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R
19
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Ω
J20
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10
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J9
V
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1
2
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40
R
EF
C
A
P
1
C
35 1µ
F
V
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C
20
10
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TP
4
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1
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5
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29
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4
1
V
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25
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C
1
C
S
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12
C
28
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F
C
33
47
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R
9
10k
Ω
TP
18
V
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N
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1
J15
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56
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9:
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14
10
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14
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12
V
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8:
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9V
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41
VR
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34
47
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R
29
N
C
J19
P
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4
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45
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3:
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TP
38
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N
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1
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15
22
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2
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J18
V
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J28
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6
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2:
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36
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R
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Ω
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3
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1
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C
17
10
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C
12
47
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J27
V
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18
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F
J10
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1
2
3
VM
0
R
22
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S
C
9
N
C
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4.
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H
1
2
TP
31
W
DI
0
1
C
19
10
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C
10
N
C
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1
R
25
5.
11
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3
C
6
10
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J25
P
G
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11
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J13
V
O
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1
2
TP
17
V
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N
S
1
C
5
47
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C
3
47
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4
VM
1
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5
V
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N
S
1
V
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J29
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G
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12
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N
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35
W
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1
1
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A
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C
31
10
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R
23
0
Ω
TP
21
V
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U
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N
S
1
W
DI
0
J17
V
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1
2
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4
N
C
C
21
10
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R
6
30m
Ω
TP
10
V
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N
S
1
J36
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
C
onnec
to
r
TP
30
W
A
K
E
1
C
37
1µ
F
P
VI
N
78
V
O
U
T4
C
24
10
µF
R
21
0
Ω
S
1
P
VI
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56
R
8
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P
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4
M
IS
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1
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1
2
3
V
out
12:
5
V
TP
28
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1
1
J5
V
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U
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1
2
C
16
47
µF
R
1
162k
Ω
R
3
0
Ω
R
14
15k
Ω
C
4
47
µF
J30
P
VI
N
56
1
2
E
N
VR
E
G
V
out
7:
0.
9V
J37
GP
IO
1
2
VI
N
V
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100nH
1
2
C
11
47
µF
R
11
10
kΩ
VI
N
TP
20
P
G
ND
11_S
N
S
1
W
A
K
E
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19
P
G
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S
1
TP
26
VM
1
1
TP
6
V
O
U
T8_S
N
S
1
V
out
6:
1.
8V
VR
E
G
S
3
P
VI
N
9
J4
V
O
U
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1
2
V
O
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T11
P
VI
N
56
M
OS
I
C
23
4.
7µ
F
VI
O
V
O
U
T7
C
8
10nF
ST
AT
U
S
L4
0.
47
µH
1
2
V
O
U
T9
W
DI
0
U
1
AD
P5140
FB
1
56
SW
1
2
P
G
ND
1
6
SW
2
5
FB
2
8
FB
12
45
O
U
T12
46
SW
12
47
P
VI
N
4
39
P
VI
N
1011
11
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U
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12
FB
11
13
O
U
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10
A
VI
N
44
A
VD
D
18
E
N
36
VM
0
19
VM
1
17
S
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Q
37
FB
6
24
O
U
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23
P
VI
N
56
22
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U
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21
VR
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G
25
FB
9
28
R
EF
C
A
P
29
P
VI
N
9
26
FB
8
30
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U
T8
31
P
VI
N
78
32
O
U
T7
33
FB
7
34
FB
3
43
SW
3
41
FB
5
20
SW
4
38
FB
4
35
P
VI
N
1
3
R
E
S
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T
15
W
DI
1
54
W
DI
0
53
M
IS
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49
M
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50
SC
K
51
C
S
48
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N
C
52
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A
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42
M
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D
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7
V
S
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1
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P
VI
N
3
40
VI
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55
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10
9
FA
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14
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S
R
E
S
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T
16
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U
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27
PG
ND2
57
P
VI
N
2
4
NC1
66
NC2
67
NC3
68
NC4
69
SY
N
C
C
2
0.
1µ
F
V
out
1:
1.
25
V
/F
AU
LT
V
O
U
T7
V
O
U
T5
V
O
U
T1
TP
12
P
G
ND
9_S
N
S
1
C
25
0.
47
µF
L1
0.
68
µH
1
2
R
7
16
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Ω
J14
V
O
U
T9
1
2
R
17 NC
TP
34
VM
0
1
VM
1
P
VI
N
9
J7
P
G
ND
7
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TP
39
G
N
D
1
J31
G
N
D
1
2
V
O
U
T11
TP
7
P
G
ND
2_S
N
S
1
D
3
LE
D
J3
VI
N
1
2
VR
E
G
R
10
10k
Ω
R
12
10
kΩ
TP
48
G
N
D
1
C
7
10
µF
TP
22
V
O
U
T12_S
N
S
1
C
32
0.
1µ
F
J12
P
G
ND
8
1 2
V
O
U
T5
R
EF
C
A
P
FA
U
LT
P
VI
N
78
W
A
K
E
TP
47
G
N
D
1
R
18 NC
C
29
4.
7µF
C
27
1µF
R
5
10k
Ω
V
O
U
T2
VI
N
J23
V
O
U
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1
2
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0
W
DI
1
VI
O
L3
0.
68
µH
1
2
TP
24
P
G
ND
12
1
TP
16
P
G
ND
10_S
N
S
1
VI
O
SY
N
C
C
36
1µ
F
J32
P
VI
N
78
1
2
SC
K
C
S
P
1
S
P
I
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
10
V
out
11:
3.
3V
C
22
10
µF
C
30
10
µF
R
16 NC
J33
G
N
D
1
2
R
13
10
kΩ
C
13
10
µF
TP
44
SW
12
1
TP
23
P
G
ND
6_S
N
S
1
TP
8
P
G
ND
8_S
N
S
1
V
out
10:
3.
3V
J21
VI
O
1
2
3
SW
1
C
26
1µ
F
25037-009
Figure 9. ADP5140-EVALZ Schematic
