UM-B-114
DA14531 Development Kit Pro Hardware User Manual
User Manual
Revision 1.4
23-Apr-2020
61 of 82
© 2021 Dialog Semiconductor
Figure 61: DA14531 PRO-MB, Current Measurement Circuit
T
P42
VOU
T
R
40
51
T
P60
VOU
T
2
AD
_M
OD
E
VI
N
N
T
P70
-Vgg
V
R
EF
C
30
100pF
C
_T
R
IG
AD
_D
R
D
Y
T
P15
5.
0VA
V
R
EF
C
112
100nF
C
35
100pF
BOOST
-
+
U6B
AD
8572AR
Z
-R
EEL7
6
5
4
8
7
C
43
100nF
C
110
4.
7uF
R
44
51
R
N
1-2
1.
00k
2
7
R
135
1.
00K
C
28
10pF
R
312
0
VOU
T
5
.0
V
A
5
.0
V
A
-
+
U
1
9
AP331AW
R
G-7
1
3
4
5
2
T
P13
VI
N
N
C
38
100pF
5
.0
V
A
5
.0
V
A
5
.0
V
A
-V
g
g
U
1
6
N
C
7SB3157P
6X
B1
1
GN
D
2
B0
3
A
4
VC
C
5
S
6
C5
1.
0uF
R
109
4.
75K
BUCK
R
352
0
T
P80
Voc
m
C
26
10uF
5
.0
V
A
Y2
27M
H
Z
-3.
3V
E/
D
1
GN
D
2
VC
C
4
OU
T
3
VD
D
_3V3_PER
F
V1
SEL
R
142
NP
R
27
4.
75K
+
BT
1
NP
C
111
10uF
N
PO
T
it
le
:
D
oc
.
N
r.
R
ev
:
D
at
e:
Sheet
:
of
Dialog Semiconductor N.E.O. Patron-Athinon 15 26441, Patras, Greece tel. (+30) 2610390940 fax. (+30) 2610390941
D
es
igner:
376-18-B
B
D
A
145xx
D
evK
it
Pr
o
M
ai
n
b
o
ar
d
3
5
F
riday
,
Augus
t
09,
2019
PR
D
ia
lo
g
S
e
m
ico
n
d
u
ct
o
r
VF
R
136
NP
V
S-
-V
g
g
U
10
M
C
P1501T
-25E_C
H
Y
OU
T
1
GN
D
2
GN
D
3
SH
D
N
4
GN
D
5
VD
D
6
U8
AD
S1271I
PW
R
AI
N
P
1
AI
N
N
2
C
LK
12
DIN
8
F
OR
M
AT
6
M
OD
E
5
SC
LK
11
SY
N
C
/PD
W
N
7
VR
EF
P
16
VR
EF
N
15
D
R
D
Y
/F
SY
N
C
10
AVDD
4
DVD
D
13
D
OU
T
9
AGND
3
DGN
D
14
VOVL
R
359
NP
-V
g
g
C
24
10uF
R
95
0
R
34
51
N
e
g
a
ti
v
e
s
u
p
p
ly
f
o
r
U
6
,U
9
V3
J4
M
20-876024
2
2
4
1
3
-
+
Vo
cm
#P
D
O
U
T-
O
U
T+
VS+
VS-
U7
T
H
S4521I
D
8
1
4
3
6
5
2
7
R
77
NP
C
95
1.
0uF
-
+
U9A
AD
8572AR
Z
-R
EEL7
2
3
4
8
1
R
350
NP
A
N
A
L
O
G
/D
IG
IT
A
L
C
O
N
V
ER
T
ER
C
O
N
V
ER
SI
O
N
T
O
D
IF
F
ER
EN
T
IA
L
V
R
EF
T
P17
27M
H
z
T
P62
VS+
R
28
2.
37
R
115
18.
7k
R
138
NP
C
120
5.
6nF
C
27
100nF
R
358
NP
J2
0
NP
C
98
56nF
T
P63
VS-
C
25
10pF
T
P12
VLD
O
NOTE: VLDO is produced from U5 and is connected to VS+ of the current sense circuit via jumper J9:1-2. TP12/VLDO is a testpoing connected to VS- of the current sense circuit. Please notice that the test point is not physically connected to VLDO power line.
C2
1.
0nF
C
108
100nF
C
22
100pF
AD
_D
O
VR
EF
C
42
1.
0uF
3
.3
V
R
117
47.
5K
V
D
D
IO
C
113
10uF
BYPASS
AD
_D
I
R
310
NP
R
141
NP
R
33
20.
0k
T
P14
VI
N
P
N
PO
VI
N
P
C
122
1.
0uF
C
109
4.
7uF
T
P69
BLED
R
348
NP
C
128
4.
7uF
R
306
174K
C
96
100nF
R
351
NP
C
93
100nF
OSC
_EN
R
349
0
AD
_SC
LK
R
116
100.
0K
C
37
1.
0nF
R
N
1-3
1.
00k
3
6
5
.0
V
A
5
.0
V
A
D1
Led_Blue
2
1
-
+
U1B
LM
V358LI
D
T
6
5
4
8
7
V
L
D
O
R
N
1-4
1.
00k
4
5
R
120
100.
0K
R
30
4.
75K
R
137
NP
R
112
10M
ohm
VI
N
P
Q2
F
D
V301N
3
1
2
3
.3
V
A
R
N
1-1
1.
00k
1
8
VOU
T
2
C
97
100nF
C
34
100nF
-V
g
g
3
.3
V
A
C
99
100nF
J9
87898-0455
-V
g
g
-
+
U9B
AD
8572AR
Z
-R
EEL7
6
5
4
8
7
C
29
100pF
U
2
5
N
C
7SZ
05P5X
NC
1
I
2
GN
D
3
O
4
VC
C
5
C
41
1.
0uF
-
+
U6A
AD
8572AR
Z
-R
EEL7
2
3
4
8
1
T
P16
VR
EF
C
33
10uF
VOU
T
5
.0
V
A
C
106
NP
R5
33
C
119
5.
6nF
Q1
F
D
V301N
3
1
2
C
39
100pF
5
.0
V
A
C
36
10pF
T
P61
SEL
U
2
0
LM
7705M
M
_N
OPB
CF+
1
VSS
2
SD
3
VD
D
4
CF-
8
VSS
5
VOU
T
6
C
R
ES
7
R
39
1.
00K
U
1
5
N
C
7SB3157P
6X
B1
1
GN
D
2
B0
3
A
4
VC
C
5
S
6
R
119
100.
0K
LP4
0
R
111
4.
75K
C
31
10uF
C
91
100nF
N
PO
C
92
2.
49k
VI
N
N
C
114
100nF
LP3
500m
A_470
OH
M
C
32
100nF
C
23
100nF
AD
_SY
N
C
5
.0
V
A
C
40
100nF
5
.0
V
A
C
121
NP
R
139
NP
R
311
NP
R
31
51
C
84
1.
0nF
R
314
NP
R
313
0
