E S
eries
M
odule
D
a
t
a
sheet
F
unction
a
l
description
O
v
er
v
ie
w
T
he
E
S
e
r
ie
s
m
o
d
u
le
i
s
an
IO
T
p
la
t
f
or
m
f
or
c
r
ea
t
ing
cell
u
la
r
‑
c
o
nnec
t
ed
pro
d
u
c
ts
.
I
t
i
s
an
ind
ustr
ial
v
e
rs
i
o
n
o
f
P
a
rt
icle
'
s
E
lec
tro
n
de
v
ki
t
.
I
t
i
s
sp
ecificall
y
de
s
igned
f
or
ma
ss
s
cale
man
u
fac
tur
ing
and
in
t
eg
r
a
t
i
o
n
.
I
t
c
o
me
s
w
i
t
h
and
an
aff
or
dable
da
t
a
p
lan
f
or
l
ow
‑
band
w
id
t
h
a
pp
lica
t
i
o
n
s
.
P
l
us
i
t
'
s
a
v
ailable
f
or
m
or
e
t
han
100
c
ou
n
tr
ie
s
wor
ld
w
ide
!
I
t
al
so
c
o
me
s
w
i
t
h
P
a
rt
icle
'
s
de
v
el
op
men
t
too
l
s
and
cl
ou
d
p
la
t
f
or
m
f
or
managing
and
in
t
e
r
ac
t
ing
w
i
t
h
your
ne
w
c
o
nnec
t
ed
ha
r
d
w
a
r
e
.
F
e
a
tures
U
‑
bl
ox
S
ARA
‑
U
260/
U
270/
U
201/
G
350
cell
u
la
r
m
o
d
u
le
ST
M
32
F
205
RG
T
6
120
MH
z
ARM C
ort
e
x
M
3
mic
ro
c
o
n
tro
lle
r
1
MB
fla
s
h
,
128
KB RAM
BQ
24195
pow
e
r
managemen
t
u
ni
t
and
ba
tt
e
ry
cha
r
ge
r
MA
X
17043
f
u
el
ga
u
ge
30
mi
x
ed
‑
s
ignal
GPIO
and
ad
v
anced
p
e
r
i
p
he
r
al
s
O
p
en
sour
ce
de
s
ign
R
eal
‑
t
ime
op
e
r
a
t
i
o
n
syst
em
(
R
T
O
S
)
FCC
,
CE
and
IC
ce
rt
ified
I
nterf
a
ces
(
v
002)
B
lock
di
a
gr
a
m
P
o
w
er
T
he
E
s
e
r
ie
s
can
be
pow
e
r
ed
v
ia
t
he
V
IN
(3.9
V
‑12
V
DC
)
p
in
,
t
he
US
B M
ic
ro
B
c
o
nnec
tor
or
a
L
i
P
o
ba
tt
e
ry
.
US
B
M
ost
US
B
ports
can
supp
l
y
o
nl
y
a
ma
x
im
u
m
o
f
500
m
A
,
b
ut
t
he
u
‑
B
l
ox
G
S
M
m
o
d
u
le
o
n
t
he
E
s
e
r
ie
s
al
o
ne
can
c
o
n
su
me
a
p
eak
o
f
800
m
A
to
1800
m
A
o
f
c
urr
en
t
d
ur
ing
tr
an
s
mi
ss
i
o
n
.
I
n
or
de
r
to
c
o
m
p
en
s
a
t
e
o
f
t
hi
s
defici
t
,
o
ne
m
ust
c
o
nnec
t
t
he
L
i
P
o
ba
tt
e
ry
a
t
all
t
ime
s
w
hen
pow
e
r
ing
f
ro
m
a
tr
adi
t
i
o
nal
US
B
port
.
T
he
E
s
e
r
ie
s
w
ill
in
t
elligen
t
l
y
sour
ce
pow
e
r
f
ro
m
t
he
US
B
m
ost
o
f
t
he
t
ime
and
kee
p
t
he
ba
tt
e
ry
cha
r
ged
.
D
ur
ing
p
eak
c
urr
en
t
r
e
qu
i
r
emen
ts
,
t
he
addi
t
i
o
nal
pow
e
r
w
ill
be
sour
ced
f
ro
m
t
he
ba
tt
e
ry
.
T
hi
s
r
ed
u
ce
s
t
he
cha
r
ge
‑
di
s
cha
r
ge
c
y
cle
l
o
ad
o
n
t
he
ba
tt
e
ry
,
t
h
us
im
prov
ing
i
ts
l
o
nge
v
i
ty
.
V
IN
T
he
in
put
vo
l
t
age
r
ange
o
n
V
IN
p
in
i
s
3.9
V
DC
to
12
V
DC
.
W
hen
pow
e
r
ing
f
ro
m
t
he
V
IN
p
in
al
o
ne
,
make
sur
e
t
ha
t
t
he
pow
e
r
supp
l
y
i
s
r
a
t
ed
a
t
10
W
(
f
or
e
x
am
p
le
5
V
DC
a
t
2
A
m
p
).
I
f
t
he
pow
e
r
sour
ce
i
s
u
nable
to
mee
t
t
hi
s
r
e
qu
i
r
emen
t
,
you
'
ll
need
c
o
nnec
t
t
he
L
i
P
o
ba
tt
e
ry
a
s
w
ell
.
A
n
addi
t
i
o
nal
b
u
lk
ca
p
aci
t
ance
o
f
470
u
F
to
1000
u
F
s
h
ou
ld
be
added
to
t
he
V
IN
in
put
w
hen
t
he
L
i
P
o
B
a
tt
e
ry
i
s
di
s
c
o
nnec
t
ed
.
T
he
am
ou
n
t
o
f
ca
p
aci
t
ance
r
e
qu
i
r
ed
w
ill
de
p
end
o
n
t
he
abili
ty
o
f
t
he
pow
e
r
supp
l
y
to
deli
v
e
r
p
eak
c
urr
en
ts
to
t
he
cell
u
la
r
m
o
dem
.
LIPO
T
hi
s
p
in
s
e
rv
e
s
two
purpos
e
s
.
Y
ou
can
us
e
t
hi
s
p
in
to
c
o
nnec
t
a
L
i
P
o
ba
tt
e
ry
di
r
ec
t
l
y
w
i
t
h
out
ha
v
ing
to
us
e
a
J
ST
c
o
nnec
tor
or
i
t
can
be
us
ed
to
c
o
nnec
t
an
e
xt
e
r
nal
DC
pow
e
r
sour
ce
(
and
t
hi
s
i
s
w
he
r
e
o
ne
need
s
to
t
ake
e
xtr
a
pr
eca
ut
i
o
n
s
).
W
hen
pow
e
r
ing
i
t
f
ro
m
an
e
xt
e
r
nal
r
eg
u
la
t
ed
DC
sour
ce
,
t
he
r
ec
o
mmended
in
put
vo
l
t
age
r
ange
o
n
t
hi
s
p
in
i
s
be
tw
een
3.6
V
to
4.4
V
DC
.
M
ake
sur
e
t
ha
t
t
he
supp
l
y
can
handle
c
urr
en
ts
o
f
a
t
lea
st
3
A
m
p
.
T
hi
s
i
s
t
he
m
ost
efficien
t
w
a
y
o
f
pow
e
r
ing
t
he
E
s
e
r
ie
s
s
ince
t
he
PMIC
b
y
‑
p
a
ss
e
s
t
he
r
eg
u
la
tor
and
supp
lie
s
pow
e
r
to
t
he
E
s
e
r
ie
s
m
o
d
u
le
v
ia
an
in
t
e
r
nal
FE
T
leading
to
l
ow
e
r
qu
ie
s
cen
t
c
urr
en
t
.
W
hen
pow
e
r
ed
f
ro
m
a
L
i
P
o
ba
tt
e
ry
al
o
ne
,
t
he
pow
e
r
managemen
t
IC
sw
i
t
che
s
o
ff
t
he
in
t
e
r
nal
r
eg
u
la
tor
and
supp
lie
s
pow
e
r
to
t
he
syst
em
di
r
ec
t
l
y
f
ro
m
t
he
ba
tt
e
ry
.
T
hi
s
r
ed
u
ce
s
t
he
c
o
nd
u
c
t
i
o
n
l
oss
e
s
and
ma
x
imi
z
e
s
ba
tt
e
ry
ru
n
t
ime
.
T
he
ba
tt
e
ry
prov
ided
w
i
t
h
t
he
E
s
e
r
ie
s
m
o
d
u
le
i
s
a
L
i
t
hi
u
m
‑
I
o
n
P
o
l
y
me
r
ba
tt
e
ry
r
a
t
ed
a
t
3.7
V
DC
2000
m
A
h
.
Y
ou
can
su
b
st
i
tut
e
t
hi
s
ba
tt
e
ry
w
i
t
h
an
ot
he
r
3.7
V
L
i
P
o
w
i
t
h
highe
r
c
urr
en
t
r
a
t
ing
.
R
emembe
r
to
ne
v
e
r
e
x
ceed
t
hi
s
vo
l
t
age
r
a
t
ing
and
al
w
a
ys
p
a
y
a
tt
en
t
i
o
n
to
t
he
po
la
r
i
ty
o
f
t
he
c
o
nnec
tor
.
T
yp
ical
c
urr
en
t
c
o
n
su
m
pt
i
o
n
i
s
a
rou
nd
180
m
A
and
up
to
1.8
A
tr
an
s
ien
ts
a
t
5
V
DC
.
I
n
dee
p
s
lee
p
m
o
de
,
t
he
qu
ie
s
cen
t
c
urr
en
t
i
s
130
u
A
(
pow
e
r
ed
f
ro
m
t
he
ba
tt
e
ry
al
o
ne
).
V
B
US
T
hi
s
p
in
i
s
in
t
e
r
nall
y
c
o
nnec
t
ed
to
US
B
supp
l
y
r
ail
and
w
ill
output
5
V
w
hen
t
he
E
s
e
r
ie
s
m
o
d
u
le
i
s
p
l
u
gged
in
to
an
US
B
port
.
I
t
i
s
in
t
en
t
i
o
nall
y
lef
t
u
n
popu
la
t
ed
.
T
hi
s
p
in
w
ill
NO
T
output
an
y
vo
l
t
age
w
hen
t
he
E
s
e
r
ie
s
m
o
d
u
le
i
s
pow
e
r
ed
v
ia
V
IN
and
/
or
t
he
L
i
P
o
ba
tt
e
ry
.
3
V
3
P
in
T
hi
s
p
in
i
s
t
he
output
o
f
t
he
o
n
‑
b
o
a
r
d
3.3
V
sw
i
t
ching
r
eg
u
la
tor
t
ha
t
pow
e
rs
t
he
mic
ro
c
o
n
tro
lle
r
and
t
he
p
e
r
i
p
he
r
al
s
.
T
hi
s
p
in
can
be
us
ed
a
s
a
3.3
V
pow
e
r
sour
ce
w
i
t
h
a
ma
x
l
o
ad
o
f
800
m
A
.
U
nlike
t
he
P
h
oto
n
or
t
he
C
or
e
,
t
hi
s
p
in
CANNO
T
be
us
ed
a
s
an
in
put
to
pow
e
r
t
he
E
s
e
r
ie
s
m
o
d
u
le
.
V
DDA
U
nlike
t
he
E
lec
tro
n
,
t
he
E
s
e
r
ie
s
m
o
d
u
le
e
xpos
e
s
t
he
V
DDA
p
in
o
f
t
he
ST
M
32
mic
ro
c
o
n
tro
lle
r
s
e
p
a
r
a
t
el
y
.
T
hi
s
p
in
pow
e
rs
t
he
ADC
bl
o
ck
o
f
t
he
mic
ro
c
o
n
tro
lle
r
.
A
ma
x
im
u
m
diffe
r
ence
o
f
300
m
V
be
tw
een
V
DD
(
in
t
hi
s
ca
s
e
,
3
V
3)
and
V
DDA
can
be
to
le
r
a
t
ed
d
ur
ing
pow
e
r
‑
up
and
pow
e
r
‑
d
ow
n
op
e
r
a
t
i
o
n
.
U
nde
r
n
or
mal
op
e
r
a
t
i
o
n
s
,
c
o
nnec
t
t
he
V
DDA
to
3
V
3
p
in
o
f
t
he
E
0.
V
BA
T
T
hi
s
i
s
t
he
supp
l
y
to
t
he
in
t
e
r
nal
R
T
C
,
back
up
r
egi
st
e
rs
and
S
RAM
.
Y
ou
can
c
o
nnec
t
a
back
up
ba
tt
e
ry
to
i
t
(1.65
to
3.6
V
DC
),
if
you
w
i
s
h
to
r
e
t
ain
R
T
C
/
RAM
w
hen
3
V
3
i
s
ab
s
en
t
or
s
im
p
l
y
t
ie
i
t
up
to
3
V
3.
PMID
T
hi
s
p
in
i
s
t
he
output
o
f
t
he
in
t
e
r
nal
b
oost
r
eg
u
la
tor
o
f
t
he
PMIC
t
ha
t
can
sour
ce
5.1
V
DC
f
ro
m
t
he
ba
tt
e
ry
in
O
T
G
(
O
n
T
he
G
o
)
m
o
de
.
T
hi
s
fea
tur
e
i
s
us
ef
u
l
w
hen
your
ci
r
c
u
i
try
need
s
a
5
V
sour
ce
f
ro
m
t
he
E
s
e
r
ie
s
m
o
d
u
le
w
hen
pow
e
r
ed
b
y
t
he
ba
tt
e
ry
al
o
ne
.
T
he
c
o
nf
us
ing
bi
t
ab
out
t
hi
s
p
in
i
s
t
ha
t
i
t
w
ill
c
o
n
t
in
u
e
to
prov
ide
5.1
V
DC
b
ut
o
nl
y
w
hen
t
he
in
put
vo
l
t
age
(
V
IN
)
i
s
be
tw
een
3.6
V
to
5.1
V
DC
.
A
s
soo
n
a
s
t
he
in
put
vo
l
t
age
e
x
ceed
s
t
hi
s
limi
t
,
t
he
PMID
st
a
rts
tr
acking
t
ha
t
vo
l
t
age
.
F
or
e
x
am
p
le
if
V
IN
=
9
V
DC
,
t
he
PMID
w
ill
be
9
V
DC
and
NO
T
5.1
V
DC
.
S
o
you
need
to
be
ca
r
ef
u
l
w
hen
us
ing
i
t
a
s
a
sour
ce
f
or
pow
e
r
ing
your
e
xt
e
r
nal
ci
r
c
u
i
try
.
T
he
ma
x
c
urr
en
t
d
r
a
w
o
n
t
hi
s
p
in
i
s
2.1
A
b
ut
i
s
n
ot
r
ec
o
mmended
d
u
e
to
t
he
r
mal
limi
t
a
t
i
o
n
s
o
f
t
he
ci
r
c
u
i
t
b
o
a
r
d
.
FCC
a
ppro
v
ed
a
ntenn
a
s
A
n
t
enna
T
yp
e
M
an
u
fac
tur
e
r
MFG
.
P
a
rt
#
G
ain
PCB
an
t
enna
T
a
o
gla
s
PC
104.07.0165
C
1
d
B
i
~
2.39
d
B
i
P
eripher
a
ls
a
nd
GPIO
P
e
r
i
p
he
r
al
T
yp
e
Q
ty
I
n
put
(
I
)
/
O
utput
(
O
)
F
T
/
3
V
3
[1] [2]
D
igi
t
al
30
I
/
O F
T
/3
V
3
A
nal
o
g
(
ADC
) 12
I
3
V
3
A
nal
o
g
(
DAC
) 2
O
3
V
3
U
AR
T
3
I
/
O
3
V
3
S
PI
2
I
/
O
3
V
3
I
2
S
1
I
/
O
3
V
3
I
2
C
1
I
/
O F
T
CAN
2
I
/
O
3
V
3
US
B
1
I
/
O
3
V
3
P
W
M
13
O
3
V
3
N
ot
e
s
:
F
T
=
5.0
V
to
le
r
an
t
p
in
s
.
A
ll
p
in
s
e
x
ce
pt
A
3
and
DAC
a
r
e
5
V
to
le
r
an
t
(
w
hen
n
ot
in
anal
o
g
m
o
de
).
I
f
us
ed
a
s
a
5
V
in
put
t
he
pu
ll
‑
up
/
pu
ll
‑
d
ow
n
r
e
s
i
stor
m
ust
be
di
s
abled
.
3
V
3
=
3.3
V
ma
x
p
in
s
.
P
W
M
i
s
a
v
ailable
o
n
D
0,
D
1,
D
2,
D
3,
B
0,
B
1,
B
2,
B
3,
A
4,
A
5,
W
KP
,
R
X
,
TX
w
i
t
h
a
ca
v
ea
t
:
P
W
M
t
ime
r
p
e
r
i
p
he
r
al
i
s
d
up
lica
t
ed
o
n
two
p
in
s
(
A
5/
D
2)
and
(
A
4/
D
3)
f
or
11
tot
al
inde
p
enden
t
P
W
M
outputs
.
F
or
e
x
am
p
le
:
P
W
M
ma
y
be
us
ed
o
n
A
5
w
hile
D
2
i
s
us
ed
a
s
a
GPIO
,
or
D
2
a
s
a
P
W
M
w
hile
A
5
i
s
us
ed
a
s
an
anal
o
g
in
put
.
H
ow
e
v
e
r
A
5
and
D
2
cann
ot
be
us
ed
a
s
inde
p
enden
t
l
y
c
o
n
tro
lled
P
W
M
outputs
a
t
t
he
s
ame
t
ime
.
T
echnicall
y
t
he
s
e
p
in
s
a
r
e
5.0
V
to
le
r
an
t
,
b
ut
s
ince
you
wou
ldn
'
t
op
e
r
a
t
e
t
hem
w
i
t
h
a
5.0
V
tr
an
s
cei
v
e
r
i
t
'
s
prop
e
r
to
cla
ss
if
y
t
hem
a
s
3.3
V
.
JTAG AND S
W
D
P
in
D
3
t
h
rou
gh
D
7
a
r
e
J
T
AG
in
t
e
r
face
p
in
s
.
T
he
s
e
can
be
us
ed
to
r
e
pro
g
r
am
your
E
s
e
r
ie
s
m
o
d
u
le
b
oot
l
o
ade
r
or
us
e
r
fi
r
m
w
a
r
e
image
w
i
t
h
st
anda
r
d
J
T
AG
too
l
s
su
ch
a
s
t
he
ST
‑
L
ink
v
2,
J
‑
L
ink
,
R
‑
L
ink
,
OLIME
X
ARM
‑
US
B
‑
T
INI
‑
H
,
and
al
so
t
he
F
T
DI
‑
ba
s
ed
P
a
rt
icle
J
T
AG P
ro
g
r
amme
r
.
I
f
you
a
r
e
s
h
ort
o
n
a
v
ailable
p
in
s
,
you
ma
y
al
so
us
e
SW
D
m
o
de
w
hich
r
e
qu
i
r
e
s
le
ss
c
o
nnec
t
i
o
n
s
.
E
s
e
r
ie
s
m
o
d
u
le
P
in
J
T
AG
SW
D
ST
M
32
F
205
RG
T
6
P
in
D
efa
u
l
t
I
n
t
e
r
nal
D
7
J
T
AG
_
T
M
S SW
D
/
SW
DIO PA
13
~
40
k
pu
ll
‑
up
D
6
J
T
AG
_
T
CK CLK
/
SW
CLK PA
14
~
40
k
pu
ll
‑
d
ow
n
D
5
J
T
AG
_
T
DI PA
15
~
40
k
pu
ll
‑
up
D
4
J
T
AG
_
T
DO PB
3
F
l
o
a
t
ing
D
3
J
T
AG
_
T
R
ST
PB
4
~
40
k
pu
ll
‑
up
3
V
3
P
ow
e
r
GND G
rou
nd
R
ST
R
e
s
e
t
N
ot
e
s
:
[1]
D
efa
u
l
t
st
a
t
e
af
t
e
r
r
e
s
e
t
f
or
a
s
h
ort
p
e
r
i
o
d
o
f
t
ime
bef
or
e
t
he
s
e
p
in
s
a
r
e
r
e
stor
ed
to
GPIO
(
if
J
T
AG
deb
u
gging
i
s
n
ot
r
e
qu
i
r
ed
,
i
.
e
.
USE_SWD_JTAG=y
i
s
n
ot
sp
ecified
o
n
t
he
c
o
mmand
line
.)
M
emor
y
M
a
p
STM
32
F
205
RGT
6
F
l
a
sh
L
a
y
out
O
v
er
v
ie
w
B
oot
l
o
ade
r
(16
KB
)
[4]
3
[1]
[2]
[3]
[4]
[1]
DCD
1
(16
KB
),
stor
e
s
ke
ys
,
mfg
inf
o
,
syst
em
flag
s
,
e
t
c
..
DCD
2
(16
KB
),
sw
a
p
a
r
ea
f
or
DCD
1
EEPROM
em
u
la
t
i
o
n
bank
1
(16
KB
)
EEPROM
em
u
la
t
i
o
n
bank
2
(64
KB
)
[
o
nl
y
16
k
us
ed
]
S
yst
em
fi
r
m
w
a
r
e
(512
KB
)
[256
KB
c
o
mm
s
+
256
KB
hal
/
p
la
t
f
or
m
/
s
e
rv
ice
s
]
F
ac
tory
back
up
,
O
T
A
back
up
and
us
e
r
a
pp
lica
t
i
o
n
(384
KB
)
[3
x
128
KB
]
DCD L
a
y
out
T
he
DCD
a
r
ea
o
f
fla
s
h
mem
ory
ha
s
been
ma
pp
ed
to
a
s
e
p
a
r
a
t
e
DF
U
media
de
v
ice
so
t
ha
t
w
e
can
inc
r
emen
t
all
y
up
da
t
e
t
he
a
pp
lica
t
i
o
n
da
t
a
.
T
hi
s
all
ows
o
ne
i
t
em
(
s
a
y
,
s
e
rv
e
r
pu
blic
ke
y
)
to
be
up
da
t
ed
w
i
t
h
out
e
r
a
s
ing
t
he
ot
he
r
i
t
em
s
.
DCD
la
yout
a
s
o
f
v
0
.
4
.
9
f
ou
nd
he
r
e
in
fi
r
m
w
a
r
e
R
egi
o
n
O
ff
s
e
t
S
i
z
e
syst
em
flag
s
0 32
v
e
rs
i
o
n
32 2
de
v
ice
pr
i
v
a
t
e
ke
y
34 1216
de
v
ice
pu
blic
ke
y
1250 384
i
p
c
o
nfig
1634 128
claim
c
o
de
1762 63
claimed
1825 1
de
v
ice
id
1852 6
v
e
rs
i
o
n
str
ing
1858 32
dn
s
r
e
so
l
v
e
1890 128
r
e
s
e
rv
ed
1 2018 64
s
e
rv
e
r
pu
blic
ke
y
2082 768
p
adding
2850 2
fla
s
h
m
o
d
u
le
s
2852 100
pro
d
u
c
t
stor
e
2952 24
cl
ou
d
tr
an
sport
2977 1
al
t
de
v
ice
pu
blic
ke
y
2978 128
al
t
de
v
ice
pr
i
v
a
t
e
ke
y
3106 192
al
t
s
e
rv
e
r
pu
blic
ke
y
3298 192
al
t
s
e
rv
e
r
add
r
e
ss
3490 128
r
e
s
e
rv
ed
2 3618 1280
N
ot
e
:
W
r
i
t
ing
0
x
FF
to
o
ff
s
e
t
3106
(
DEFA
U
L
T
ke
y
us
ed
o
n
E
s
e
r
ie
s
m
o
d
u
le
)
w
ill
ca
us
e
t
he
de
v
ice
to
r
e
‑
gene
r
a
t
e
a
ne
w
pr
i
v
a
t
e
U
DP
/
ECC
ke
y
o
n
t
he
ne
xt
b
oot
.
T
CP
ke
ys
a
r
e
c
urr
en
t
l
y
u
n
support
ed
o
n
t
he
E
s
e
r
ie
s
m
o
d
u
le
b
ut
wou
ld
be
l
o
ca
t
ed
a
t
o
ff
s
e
t
34.
Y
ou
s
h
ou
ld
n
ot
need
to
us
e
t
hi
s
fea
tur
e
u
nle
ss
your
ke
ys
a
r
e
c
orrupt
ed
.
// Regenerate Alternate Keys (Default)
echo -e "\xFF" > fillbyte && dfu-util -d 2b04:d00a -a 1 -s 3106 -D fillbyte
// Regenerate TCP Keys (Unsupported)
echo -e "\xFF" > fillbyte && dfu-util -d 2b04:d00a -a 1 -s 34 -D fillbyte
M
emor
y
M
a
p
(
C
ommon
)
R
egi
o
n
S
t
a
rt
A
dd
r
e
ss
E
nd
A
dd
r
e
ss
S
i
z
e
B
oot
l
o
ade
r
0
x
8000000 0
x
8004000 16
KB
DCD
1 0
x
8004000 0
x
8008000 16
KB
DCD
2 0
x
8008000 0
x
800
C
000 16
KB
EEPROM
1 0
x
800
C
000 0
x
8010000 16
KB
EEPROM
2 0
x
8010000 0
x
8020000 64
KB
M
emor
y
M
a
p
(
M
odul
a
r
F
irm
w
a
re
‑
def
a
ult
)
B
ef
or
e
0
.
6
.
0
fi
r
m
w
a
r
e
R
egi
o
n
S
t
a
rt
A
dd
r
e
ss
E
nd
A
dd
r
e
ss
S
i
z
e
S
yst
em
P
a
rt
1 0
x
8020000 0
x
8040000 128
KB
S
yst
em
P
a
rt
2 0
x
8040000 0
x
8060000 128
KB
A
pp
lica
t
i
o
n
0
x
8080000 0
x
80
A
0000 128
KB
F
ac
tory
R
e
s
e
t
/
E
xt
ended
A
pp
lica
t
i
o
n
0
x
80
A
0000 0
x
80
C
0000 128
KB
O
T
A B
ack
up
0
x
80
C
0000 0
x
80
E
0000 128
KB
D
ec
o
m
pr
e
ss
r
egi
o
n
0
x
80
E
0000 0
x
8100000 128
KB
S
ince
0
.
6
.
0
fi
r
m
w
a
r
e
R
egi
o
n
S
t
a
rt
A
dd
r
e
ss
E
nd
A
dd
r
e
ss
S
i
z
e
S
yst
em
P
a
rt
2 0
x
8020000 0
x
8040000 128
KB
S
yst
em
P
a
rt
3 0
x
8040000 0
x
8060000 128
KB
S
yst
em
P
a
rt
1 0
x
8060000 0
x
8080000 128
KB
A
pp
lica
t
i
o
n
0
x
8080000 0
x
80
A
0000 128
KB
F
ac
tory
R
e
s
e
t
/
E
xt
ended
A
pp
lica
t
i
o
n
0
x
80
A
0000 0
x
80
C
0000 128
KB
O
T
A B
ack
up
0
x
80
C
0000 0
x
80
E
0000 128
KB
D
ec
o
m
pr
e
ss
r
egi
o
n
0
x
80
E
0000 0
x
8100000 128
KB
M
emor
y
M
a
p
(
M
onolithic
F
irm
w
a
re
‑
option
a
l
)
R
egi
o
n
S
t
a
rt
A
dd
r
e
ss
E
nd
A
dd
r
e
ss
S
i
z
e
R
egi
o
n
S
t
a
rt
A
dd
r
e
ss
E
nd
A
dd
r
e
ss
S
i
z
e
F
i
r
m
w
a
r
e
0
x
8020000 0
x
8080000 384
KB
F
ac
tory
R
e
s
e
t
0
x
8080000 0
x
80
E
0000 384
KB
U
n
us
ed
(
fac
tory
r
e
s
e
t
m
o
d
u
la
r
) 0
x
80
E
0000 0
x
8100000 128
KB
P
in
a
nd
button
definition
P
in
m
a
rkings
:
LED S
t
a
tus
C
ha
r
ge
st
a
tus
LED
S
t
a
t
e
D
e
s
c
r
i
pt
i
o
n
ON C
ha
r
ging
in
pro
g
r
e
ss
OFF C
ha
r
ging
c
o
m
p
le
t
e
B
link
a
t
1
H
z
F
a
u
l
t
c
o
ndi
t
i
o
n
R
a
p
id
blinking
B
a
tt
e
ry
di
s
c
o
nnec
t
ed
N
ot
e
s
:
A
fa
u
l
t
c
o
ndi
t
i
o
n
can
o
cc
ur
d
u
e
to
s
e
v
e
r
al
r
ea
so
n
s
,
f
or
e
x
am
p
le
,
ba
tt
e
ry
ov
e
r
/
u
nde
r
vo
l
t
age
,
t
em
p
e
r
a
tur
e
fa
u
l
t
or
s
afe
ty
t
ime
r
fa
u
l
t
.
Y
ou
can
find
t
he
root
ca
us
e
b
y
r
eading
t
he
fa
u
l
t
r
egi
st
e
r
o
f
t
he
pow
e
r
managemen
t
IC
in
fi
r
m
w
a
r
e
.
Y
ou
can
stop
t
hi
s
beha
v
i
or
b
y
ei
t
he
r
p
l
u
gging
in
t
he
L
i
P
o
ba
tt
e
ry
or
b
y
di
s
abling
t
he
cha
r
ging
us
ing
t
he
a
ppropr
ia
t
e
fi
r
m
w
a
r
e
c
o
mmand
.
S
yst
em
RGB LED
U
nlike
t
he
E
lec
tro
n
,
t
he
E
s
e
r
ie
s
m
o
d
u
le
d
o
e
s
n
ot
ha
v
e
an
o
n
‑
b
o
a
r
d
RGB
st
a
tus
LED
.
W
e
ha
v
e
prov
ided
i
ts
indi
v
id
u
al
c
o
n
tro
l
p
in
s
f
or
you
to
c
o
nnec
t
an
LED
o
f
your
liking
.
T
hi
s
w
ill
all
ow
g
r
ea
t
e
r
fle
x
ibili
ty
in
t
he
end
de
s
ign
o
f
your
pro
d
u
c
ts
.
[1]
[2]
[1]
[2]
F
or
a
de
t
ailed
e
xp
lana
t
i
o
n
o
f
diffe
r
en
t
c
o
l
or
c
o
de
s
o
f
t
he
RGB
syst
em
LED
,
p
lea
s
e
t
ake
a
l
oo
k
[
he
r
e
.](/
g
u
ide
/
ge
tt
ing
‑
st
a
rt
ed
/
m
o
de
s
/
E
s
e
r
ie
s
m
o
d
u
le
/)
P
inout
di
a
gr
a
m
Y
ou
can
d
ow
nl
o
ad
a
high
r
e
so
l
ut
i
o
n
p
in
out
diag
r
am
in
a
PDF
v
e
rs
i
o
n
he
r
e
.
P
in
description
#
PIN F
U
NC
T
ION DE
S
CRIP
T
ION
1
V
IN PO
W
ER
T
hi
s
p
in
can
be
us
ed
a
s
an
in
put
or
output
.
A
s
an
in
put
,
supp
l
y
5
V
DC
to
12
V
DC
to
pow
e
r
t
he
E
lec
tro
n
.
W
hen
t
he
E
lec
tro
n
i
s
pow
e
r
ed
v
ia
t
he
US
B
port
,
t
hi
s
p
in
w
ill
output
a
vo
l
t
age
o
f
a
pprox
ima
t
el
y
4.8
V
DC
d
u
e
to
a
r
e
v
e
rs
e
po
la
r
i
ty
prot
ec
t
i
o
n
s
e
r
ie
s
S
ch
ott
k
y
di
o
de
be
tw
een
V
B
US
and
V
IN
.
W
hen
us
ed
a
s
an
output
,
t
he
ma
x
l
o
ad
o
n
V
IN
i
s
1
A
m
p
.
#
PIN F
U
NC
T
ION DE
S
CRIP
T
ION
2
GND PO
W
ER
S
yst
em
g
rou
nd
.
3
V
B
US
PO
W
ER
T
hi
s
i
s
c
o
nnec
t
ed
to
t
he
V
B
US
pow
e
r
p
in
o
f
t
he
US
B
port
.
4
GND PO
W
ER
S
yst
em
g
rou
nd
.
5
LIPO PO
W
ER
T
hi
s
i
s
c
o
nnec
t
ed
to
t
he
+
L
i
P
o
c
o
nnec
tor
.
6
NC
T
BD D
o
n
ot
c
o
nnec
t
.
7
GND PO
W
ER
S
yst
em
g
rou
nd
.
8
PMID PO
W
ER
T
hi
s
i
s
c
o
nnec
t
ed
to
t
he
PMID
p
in
o
f
t
he
PMIC
.
9 3
V
3
PO
W
ER
T
hi
s
i
s
t
he
output
o
f
t
he
3
V
3
r
eg
u
la
tor
o
n
t
he
E
0.
10
V
DDA PO
W
ER
T
hi
s
i
s
t
he
in
put
to
t
he
anal
o
g
bl
o
ck
o
f
t
he
ST
M
32.
11
V
BA
T
PO
W
ER
S
upp
l
y
to
t
he
in
t
e
r
nal
R
T
C
,
back
up
r
egi
st
e
rs
and
S
RAM
w
hen
3
V
3
i
s
n
ot
pr
e
s
en
t
(1.65
to
3.6
V
DC
).
12
GND PO
W
ER
S
yst
em
g
rou
nd
.
13
US
B
+
IO D
a
t
a
+
p
in
o
f
t
he
US
B
port
.
14
US
B
‑
IO D
a
t
a
‑
p
in
o
f
t
he
US
B
port
.
15
GND PO
W
ER
S
yst
em
g
rou
nd
.
16
TX
IO P
r
ima
r
il
y
us
ed
a
s
U
AR
T
TX
,
b
ut
can
al
so
be
us
ed
a
s
a
digi
t
al
GPIO
or
P
W
M
.
17
R
X
IO P
r
ima
r
il
y
us
ed
a
s
U
AR
T
R
X
,
b
ut
can
al
so
be
us
ed
a
s
a
digi
t
al
GPIO
or
P
W
M
.
18
GND PO
W
ER
S
yst
em
g
rou
nd
.
19
W
KP IO A
c
t
i
v
e
‑
high
w
ake
up
p
in
,
w
ake
s
t
he
m
o
d
u
le
f
ro
m
s
lee
p
/
st
andb
y
m
o
de
s
.
W
hen
n
ot
us
ed
a
s
a
W
AKE
U
P
,
t
hi
s
p
in
can
al
so
be
us
ed
a
s
a
digi
t
al
GPIO
,
ADC
in
put
or
P
W
M
.
C
an
be
r
efe
rr
ed
to
a
s
A
7
w
hen
us
ed
a
s
an
ADC
.
20
DAC IO
12‑
bi
t
D
igi
t
al
‑
to
‑
A
nal
o
g
(
D
/
A
)
output
(0‑4095),
r
efe
rr
ed
to
a
s
DAC
or
DAC
1
in
so
f
tw
a
r
e
.
C
an
al
so
be
us
ed
a
s
a
digi
t
al
GPIO
or
ADC
.
C
an
be
r
efe
rr
ed
to
a
s
A
6
w
hen
us
ed
a
s
an
ADC
.
21
A
5
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
and
al
so
digi
t
al
GPIO
s
.
22
A
4
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
and
al
so
digi
t
al
GPIO
s
.
23
A
3
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
and
al
so
digi
t
al
GPIO
s
.
24
A
2
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
and
al
so
digi
t
al
GPIO
s
.
25
A
1
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
and
al
so
digi
t
al
GPIO
s
.
26
A
0
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
and
al
so
digi
t
al
GPIO
s
.
27
GND PO
W
ER
S
yst
em
g
rou
nd
.
28
B
5
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
and
al
so
digi
t
al
GPIO
s
.
29
B
4
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
and
al
so
digi
t
al
GPIO
s
.
30
B
3
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
P
W
M
and
al
so
digi
t
al
GPIO
s
.
31
B
2
IO
12‑
bi
t
A
nal
o
g
‑
to
‑
D
igi
t
al
(
A
/
D
)
in
puts
(0‑4095),
P
W
M
and
al
so
digi
t
al
GPIO
s
.
32
B
1
IO D
igi
t
al
o
nl
y
GPIO
,
and
P
W
M
.
33
B
0
IO D
igi
t
al
o
nl
y
GPIO
,
and
P
W
M
.
#
PIN F
U
NC
T
ION DE
S
CRIP
T
ION
34
GND PO
W
ER
S
yst
em
g
rou
nd
.
35
D
7
IO D
igi
t
al
o
nl
y
GPIO
.
36
D
6
IO D
igi
t
al
o
nl
y
GPIO
.
37
D
5
IO D
igi
t
al
o
nl
y
GPIO
.
38
D
4
IO D
igi
t
al
o
nl
y
GPIO
.
39
D
3
IO D
igi
t
al
o
nl
y
GPIO
,
and
P
W
M
.
40
D
2
IO D
igi
t
al
o
nl
y
GPIO
,
and
P
W
M
.
41
D
1
IO D
igi
t
al
o
nl
y
GPIO
,
and
P
W
M
.
42
D
0
IO D
igi
t
al
o
nl
y
GPIO
,
and
P
W
M
.
43
GND PO
W
ER
S
yst
em
g
rou
nd
.
44
C
5
IO D
igi
t
al
o
nl
y
GPIO
,
and
P
W
M
.
45
C
4
IO D
igi
t
al
o
nl
y
GPIO
,
and
P
W
M
.
46
C
3
IO D
igi
t
al
o
nl
y
GPIO
.
47
C
2
IO D
igi
t
al
o
nl
y
GPIO
.
48
C
1
IO D
igi
t
al
o
nl
y
GPIO
.
49
C
0
IO D
igi
t
al
o
nl
y
GPIO
.
50
NC
T
BD D
o
n
ot
c
o
nnec
t
.
51
GND PO
W
ER
S
yst
em
g
rou
nd
.
52
BL
U
IO B
l
u
e
p
in
o
f
t
he
RGB LED
.
53
GRN IO G
r
een
p
in
o
f
t
he
RGB LED
.
54
RED IO R
ed
p
in
o
f
t
he
RGB LED
.
55
MODE IO C
o
nnec
t
ed
to
t
he
MODE
b
utto
n
in
put
.
56
R
ST
I A
c
t
i
v
e
‑
l
ow
r
e
s
e
t
in
put
.
57
ST
A
T
O C
o
nnec
t
ed
to
t
he
cha
r
ge
st
a
tus
p
in
o
f
t
he
PMIC
.
58
GND PO
W
ER
S
yst
em
g
rou
nd
.
59
GND PO
W
ER
S
yst
em
g
rou
nd
.
60
GND PO
W
ER
S
yst
em
g
rou
nd
.
61
U
B
_
US
B
+
IO D
a
t
a
+
p
in
o
f
t
he
u
bl
ox
US
B
port
.
62
U
B
_
US
B
‑
IO D
a
t
a
‑
p
in
o
f
t
he
u
bl
ox
US
B
port
.
63
U
B
_
VUS
B
_
DE
T
IO
US
B
de
t
ec
t
p
in
o
f
t
he
u
bl
ox
US
B
port
.
5
V
o
n
t
hi
s
p
in
enable
s
t
he
u
bl
ox
'
s
US
B
in
t
e
r
face
.
[1]
P
W
M
i
s
a
v
ailable
o
n
D
0,
D
1,
D
2,
D
3,
B
0,
B
1,
B
2,
B
3,
A
4,
A
5,
W
KP
,
R
X
,
TX
w
i
t
h
a
ca
v
ea
t
:
P
W
M
t
ime
r
p
e
r
i
p
he
r
al
i
s
d
up
lica
t
ed
o
n
two
p
in
s
(
A
5/
D
2)
and
(
A
4/
D
3)
f
or
11
tot
al
inde
p
enden
t
P
W
M
outputs
.
F
or
e
x
am
p
le
:
P
W
M
ma
y
be
us
ed
o
n
A
5
w
hile
D
2
i
s
us
ed
a
s
a
GPIO
,
or
D
2
a
s
a
P
W
M
w
hile
A
5
i
s
us
ed
a
s
an
anal
o
g
in
put
.
H
ow
e
v
e
r
A
5
and
D
2
cann
ot
be
us
ed
a
s
inde
p
enden
t
l
y
c
o
n
tro
lled
P
W
M
outputs
a
t
t
he
s
ame
t
ime
.
T
echnic
a
l
S
pecific
a
tions
A
bsolute
m
a
x
imum
r
a
tings
[1]
P
a
r
ame
t
e
r
S
y
mb
o
l
M
in
T
yp
M
a
x
U
ni
t
S
upp
l
y
I
n
put
V
o
l
t
age
V
+
17
V
S
upp
l
y
O
utput
C
urr
en
t
I
1
A
B
a
tt
e
ry
I
n
put
V
o
l
t
age
V
+
6
V
S
upp
l
y
O
utput
C
urr
en
t
I
800
m
A
S
tor
age
T
em
p
e
r
a
tur
e
T
‑30
+
75
°
C
E
S
D
S
us
ce
pt
ibili
ty
HBM
(
H
u
man
B
o
d
y
M
o
de
)
V
2
k
V
S
tr
e
ss
e
s
be
yo
nd
t
h
os
e
li
st
ed
u
nde
r
ab
so
l
ut
e
ma
x
im
u
m
r
a
t
ing
s
ma
y
ca
us
e
p
e
r
manen
t
damage
to
t
he
de
v
ice
.
T
he
s
e
a
r
e
str
e
ss
r
a
t
ing
s
o
nl
y
,
and
f
u
nc
t
i
o
nal
op
e
r
a
t
i
o
n
o
f
t
he
de
v
ice
a
t
t
he
s
e
or
an
y
ot
he
r
c
o
ndi
t
i
o
n
s
be
yo
nd
t
h
os
e
indica
t
ed
u
nde
r
r
ec
o
mmended
op
e
r
a
t
ing
c
o
ndi
t
i
o
n
s
i
s
n
ot
im
p
lied
.
E
xposur
e
to
ab
so
l
ut
e
‑
ma
x
im
u
m
‑
r
a
t
ed
c
o
ndi
t
i
o
n
s
f
or
e
xt
ended
p
e
r
i
o
d
s
ma
y
affec
t
de
v
ice
r
eliabili
ty
.
R
ecommended
oper
a
ting
conditions
P
a
r
ame
t
e
r
S
y
mb
o
l
M
in
T
yp
M
a
x
U
ni
t
S
upp
l
y
I
n
put
V
o
l
t
age
V
+
3.88
+
12
V
S
upp
l
y
O
utput
V
o
l
t
age
V
+
4.8
V
S
upp
l
y
O
utput
V
o
l
t
age
V
+
3.3
V
L
i
P
o
B
a
tt
e
ry
V
o
l
t
age
V
+
3.6
+
4.4
V
S
upp
l
y
I
n
put
V
o
l
t
age
V
+
1.65
+
3.6
V
S
upp
l
y
I
n
put
C
urr
en
t
(
V
BA
T
)
I
19
u
A
O
p
e
r
a
t
ing
C
urr
en
t
(
u
C
o
n
,
C
ell
u
la
r
ON
)
I
180 250
m
A
P
eak
C
urr
en
t
(
u
C
o
n
,
C
ell
u
la
r
ON
)
I
800 1800
m
A
O
p
e
r
a
t
ing
C
urr
en
t
(
u
C
o
n
,
C
ell
u
la
r
OFF
)
I
47 50
m
A
S
lee
p
C
urr
en
t
(4.2
V
L
i
P
o
,
C
ell
u
la
r
OFF
)
I
0.8 2
m
A
D
ee
p
S
lee
p
C
urr
en
t
(4.2
V
L
i
P
o
,
C
ell
u
la
r
OFF
)
I
110 130
u
A
O
p
e
r
a
t
ing
T
em
p
e
r
a
tur
e
T
‑20
+
60
°
C
H
u
midi
ty
R
ange
N
o
n
c
o
nden
s
ing
,
r
ela
t
i
v
e
h
u
midi
ty
95
%
N
ot
e
s
:
T
he
minim
u
m
in
put
vo
l
t
age
i
s
so
f
tw
a
r
e
defined
w
i
t
h
a
us
e
r
s
elec
t
able
r
ange
o
f
3.88
V
to
5.08
V
in
80
m
V
inc
r
emen
ts
.
O
ut
o
f
t
he
b
ox
,
t
he
minim
u
m
in
put
vo
l
t
age
i
s
s
e
t
to
4.36
V
in
or
de
r
f
or
t
he
L
i
P
o
ba
tt
e
ry
to
be
able
to
prop
e
r
l
y
cha
r
ge
.
3
G
op
e
r
a
t
i
o
n
2
G
op
e
r
a
t
i
o
n
R
a
dio
specific
a
tions
T
he
E
s
e
r
ie
s
i
s
a
v
ailable
in
t
h
r
ee
diffe
r
en
t
v
e
rs
i
o
n
s
:
A
2
G
v
e
rs
i
o
n
ba
s
ed
o
n
u
‑
bl
ox
G
350
cell
u
la
r
m
o
d
u
le
,
and
two
3
G
v
e
rs
i
o
n
s
ba
s
ed
o
n
U
260
and
U
270
m
o
d
u
le
s
.
T
he
diffe
r
ence
be
tw
een
t
he
3
G
v
e
rs
i
o
n
s
i
s
t
hei
r
op
e
r
a
t
ing
f
r
e
qu
enc
y
band
w
hich
diffe
rs
ba
s
ed
o
n
t
he
c
ou
n
try
.
A
ll
o
f
t
he
s
e
cell
u
la
r
m
o
d
u
le
s
a
r
e
G
S
M
o
nl
y
and
d
o
n
ot
support
CDMA
ne
twor
k
s
.
IN
‑
MA
X
IN
‑
MA
X
‑
L
L
i
P
o
3
V
3‑
MA
X
‑
L
st
g
E
S
D
[1]
IN
[1]
IN
3
V
3
L
i
P
o
V
BA
T
V
BA
T
IN
a
v
g
IN
p
k
[2] [3]
IN
a
v
g
Q
s
Q
d
s
op
[1]
[2]
[3]
E
s
e
r
ie
s
3
G
M
o
d
u
le
C
o
m
p
a
t
ible
C
ou
n
tr
ie
s
U
260
U
ni
t
ed
S
t
a
t
e
s
,
A
ustr
alia
,
A
r
gen
t
ina
,
B
r
a
z
il
,
C
anada
,
C
hile
,
C
o
l
o
mbia
,
C
ost
a
R
ica
,
D
o
minican
R
e
pu
blic
,
E
l
S
al
v
ad
or
,
G
u
a
t
emala
,
H
o
nd
ur
a
s
,
M
e
x
ic
o
,
N
ica
r
ag
u
a
,
P
anama
,
P
a
r
ag
u
a
y
,
P
e
ru
,
V
ene
zu
ela
U
270
A
ustr
ia
,
B
ah
r
ain
,
B
ela
rus
,
B
elgi
u
m
,
B
u
lga
r
ia
,
C
hina
,
C
o
ng
o
,
C
ro
a
t
ia
,
C
yprus
,
C
z
ech
R
e
pu
blic
,
D
enma
r
k
,
E
c
u
ad
or
,
E
g
ypt
,
E
sto
nia
,
F
inland
,
F
r
ance
,
G
e
r
man
y
,
G
hana
,
G
ib
r
al
t
a
r
,
G
r
eece
,
H
o
ng
K
o
ng
,
H
u
nga
ry
,
I
celand
,
I
ndia
,
I
nd
o
ne
s
ia
,
I
r
eland
,
I
sr
ael
,
I
t
al
y
,
J
a
p
an
,
J
e
rs
e
y
,
K
en
y
a
,
R
e
pu
blic
o
f
K
or
ea
,
L
a
tv
ia
,
L
i
t
h
u
ania
,
L
ux
emb
our
g
,
R
e
pu
blic
o
f
M
aced
o
nia
,
M
ala
ys
ia
,
R
e
pu
blic
o
f
M
o
ld
ov
a
,
R
e
pu
blic
o
f
M
o
n
t
eneg
ro
,
N
e
t
he
r
land
s
,
N
e
w
Z
ealand
,
N
ige
r
ia
,
N
orw
a
y
,
P
aki
st
an
,
P
hili
pp
ine
s
,
P
o
land
,
P
ortu
gal
,
Q
a
t
a
r
,
R
e
u
ni
o
n
,
R
o
mania
,
R
uss
ian
F
ede
r
a
t
i
o
n
,
R
w
anda
,
S
a
u
di
A
r
abia
,
R
e
pu
blic
o
f
S
e
r
bia
,
S
e
y
chelle
s
,
S
ie
rr
a
L
e
o
ne
,
S
inga
por
e
,
S
l
ov
akia
,
S
l
ov
enia
,
S
out
h
A
f
r
ica
,
S
p
ain
,
S
r
i
L
anka
,
S
w
a
z
iland
,
S
w
eden
,
S
w
i
tz
e
r
land
,
T
ai
w
an
,
U
ni
t
ed
R
e
pu
blic
o
f
T
an
z
ania
,
T
hailand
,
T
ur
ke
y
,
U
ganda
,
U
k
r
aine
,
U
ni
t
ed
A
r
ab
E
mi
r
a
t
e
s
,
U
ni
t
ed
K
ingd
o
m
,
U
ru
g
u
a
y
,
Z
ambia
P
lea
s
e
be
sur
e
to
or
de
r
a
b
o
a
r
d
t
ha
t
wor
k
s
in
t
he
c
ou
n
try
w
he
r
e
you
w
an
t
to
de
p
l
oy
your
pro
jec
t
.
2
G
cell
u
la
r
cha
r
ac
t
e
r
i
st
ic
s
f
or
G
350,
U
260,
and
U
270
m
o
d
u
le
s
:
P
a
r
ame
t
e
r
S
ARA
‑
U
260
S
ARA
‑
U
270
S
ARA
‑
G
350
P
roto
c
o
l
st
ack
3
GPP R
elea
s
e
7 3
GPP R
elea
s
e
7 3
GPP R
elea
s
e
99
M
S
C
la
ss
C
la
ss
B C
la
ss
B C
la
ss
B
B
and
s
G
S
M
850
MH
z
PC
S
1900
MH
z
E
‑
G
S
M
900
MH
z
DC
S
1800
MH
z
G
S
M
850
MH
z
E
‑
G
S
M
900
MH
z
DC
S
1800
MH
z
PC
S
1900
MH
z
P
ow
e
r
C
la
ss
C
la
ss
4
(33
d
B
m
)
f
or
850
band
C
la
ss
1
(30
d
B
m
)
f
or
1900
band
C
la
ss
4
(33
d
B
m
)
f
or
900
band
C
la
ss
1
(30
d
B
m
)
f
or
1800
band
C
la
ss
4
(33
d
B
m
)
f
or
850/900
band
s
C
la
ss
1
(30
d
B
m
)
f
or
1800/1900
band
s
3
G
cell
u
la
r
cha
r
ac
t
e
r
i
st
ic
s
f
or
U
260,
and
U
270
m
o
d
u
le
s
:
P
a
r
ame
t
e
r
S
ARA
‑
U
260
S
ARA
‑
U
270
P
a
r
ame
t
e
r
S
ARA
‑
U
260
S
ARA
‑
U
270
P
roto
c
o
l
st
ack
3
GPP R
elea
s
e
7 3
GPP R
elea
s
e
7
U
E C
la
ss
C
la
ss
A C
la
ss
A
B
and
s
B
and
V
(850
MH
z
)
B
and
II
(1900
MH
z
)
B
and
V
III
(900
MH
z
)
B
and
I
(2100
MH
z
)
P
ow
e
r
C
la
ss
C
la
ss
3
(24
d
B
m
)
f
or
all
band
s
C
la
ss
3
(24
d
B
m
)
f
or
all
band
s
I
/
O C
h
a
r
a
cteristics
T
he
s
e
sp
ecifica
t
i
o
n
s
a
r
e
ba
s
ed
o
n
t
he
ST
M
32
F
205
RG
T
6
da
t
a
s
hee
t
,
w
i
t
h
r
efe
r
ence
to
E
s
e
r
ie
s
p
in
n
o
mencla
tur
e
.
P
a
r
ame
t
e
r
S
y
mb
o
l
C
o
ndi
t
i
o
n
s
M
in
T
yp
M
a
x
U
ni
t
S
t
anda
r
d
I
/
O
in
put
l
ow
le
v
el
vo
l
t
age
V
‑0.3 0.28
*
(
V
‑
2)
+
0.8
V
I
/
O F
T
in
put
l
ow
le
v
el
vo
l
t
age
V
‑0.3 0.32
*
(
V
‑
2)
+
0.75
V
S
t
anda
r
d
I
/
O
in
put
high
le
v
el
vo
l
t
age
V
0.41
*
(
V
‑
2)
+
1.3
V
+
0.3
V
I
/
O F
T
in
put
high
le
v
el
vo
l
t
age
V V
>
2
V
0.42
*
(
V
‑
2)
+
15.5
V
IL
3
V
3
[1]
IL
3
V
3
IH
3
V
33
V
3
[1]
IH
3
V
33
V
3
P
a
r
ame
t
e
r
S
y
mb
o
l
C
o
ndi
t
i
o
n
s
M
in
T
yp
M
a
x
U
ni
t
V V
≤
2
V
0.42
*
(
V
‑
2)
+
15.2
V
S
t
anda
r
d
I
/
O
S
chmi
tt
tr
igge
r
vo
l
t
age
h
yst
e
r
e
s
i
s
V
200
m
V
I
/
O F
T
S
chmi
tt
tr
igge
r
vo
l
t
age
h
yst
e
r
e
s
i
s
V
5
%
V
m
V
I
n
put
leakage
c
urr
en
t
IGND
≤
V
≤
V
GPIO
s
±
1
μ
A
I
n
put
leakage
c
urr
en
t
I R
V
=
5
V
,
I
/
O
F
T
3
μ
A
W
eak
pu
ll
‑
up
e
qu
i
v
alen
t
r
e
s
i
stor
R
V
=
GND
30 40 50
k
Ω
W
eak
pu
ll
‑
d
ow
n
e
qu
i
v
alen
t
r
e
s
i
stor
R
V
=
V
30 40 50
k
Ω
I
/
O
p
in
ca
p
aci
t
ance
C
5
p
F
DAC
output
vo
l
t
age
(
b
u
ffe
rs
enabled
b
y
defa
u
l
t
)
V
0.2
V
‑0.2
V
DAC
output
r
e
s
i
st
i
v
e
l
o
ad
(
b
u
ffe
rs
enabled
b
y
defa
u
l
t
)
R
5
k
Ω
DAC
output
ca
p
aci
t
i
v
e
l
o
ad
(
b
u
ffe
rs
enabled
b
y
defa
u
l
t
)
C
50
p
F
N
ot
e
s
:
F
T
=
F
i
v
e
‑
vo
l
t
to
le
r
an
t
.
I
n
or
de
r
to
sust
ain
a
vo
l
t
age
highe
r
t
han
V
+
0.3
t
he
in
t
e
r
nal
pu
ll
‑
up
/
pu
ll
‑
d
ow
n
r
e
s
i
stors
m
ust
be
di
s
abled
.
H
yst
e
r
e
s
i
s
vo
l
t
age
be
tw
een
S
chmi
tt
tr
igge
r
sw
i
t
ching
le
v
el
s
.
B
a
s
ed
o
n
cha
r
ac
t
e
r
i
z
a
t
i
o
n
,
n
ot
t
e
st
ed
in
pro
d
u
c
t
i
o
n
.
W
i
t
h
a
minim
u
m
o
f
100
m
V
.
L
eakage
c
ou
ld
be
highe
r
t
han
ma
x
.
if
nega
t
i
v
e
c
urr
en
t
i
s
injec
t
ed
o
n
adjacen
t
p
in
s
.
P
u
ll
‑
up
and
pu
ll
‑
d
ow
n
r
e
s
i
stors
a
r
e
de
s
igned
w
i
t
h
a
tru
e
r
e
s
i
st
ance
in
s
e
r
ie
s
w
i
t
h
sw
i
t
chable
PMO
S
/
NMO
S
.
T
hi
s
PMO
S
/
NMO
S
c
o
n
tr
ib
ut
i
o
n
to
t
he
s
e
r
ie
s
r
e
s
i
st
ance
i
s
minim
u
m
(
~
10
%
or
de
r
).
M
ech
a
nic
a
l
S
pecific
a
tions
IH
3
V
33
V
3
[2]
h
ys
[2]
h
ys
3
V
3[3]
[4]
lkg i
o
3
V
3
[4]
lkg
P
U
i
o
[5]
P
U
i
o
[5]
PD
i
o
3
V
3
IO
DAC
3
V
3
DAC
DAC
[1] 3
V
3
[2]
[3]
[4]
[5]
A
n
E
s
e
r
ie
s
p
a
rt
f
or
EAGLE
can
be
f
ou
nd
in
t
he
P
a
rt
icle
EAGLE
lib
r
a
ry
S
chem
a
tic
A
ll
o
f
t
he
E
s
e
r
ie
s
ha
r
d
w
a
r
e
de
s
ign
file
s
a
r
e
op
en
sour
ce
and
a
v
ailable
u
nde
r
a
C
r
ea
t
i
v
e
C
o
mm
o
n
s
P
u
blic
L
icen
s
e
.
T
he
s
chema
t
ic
and
PCB
de
s
ign
s
w
e
r
e
made
us
ing
EAGLE CAD
.
Y
ou
can
acce
ss
t
he
s
e
file
s
he
r
e
.
N
ot
e
:
C
l
o
ne
or
D
ow
nl
o
ad
t
he
c
o
m
p
le
t
e
r
e
pos
i
tory
a
s
a
Z
IP
file
to
a
vo
id
c
orrupt
ed
da
t
a
in
E
agle
file
s
.
USB
T
he
US
B
da
t
a
line
s
a
r
e
t
e
r
mina
t
ed
w
i
t
h
22
O
hm
r
e
s
i
stors
.
T
he
s
e
da
t
a
p
in
s
a
r
e
al
so
e
xpos
ed
v
ia
s
mall
t
h
rou
gh
h
o
le
s
ne
xt
to
t
he
US
B
c
o
nnec
tor
and
a
r
e
labeled
D
+
and
D
‑.
T
he
V
B
US
(
+
5
V
DC
V
CC
o
f
t
he
US
B
port
)
i
s
fed
to
t
he
PMIC
v
ia
a
3
A
m
p
S
ch
ott
k
y
di
o
de
(
SS
3
P
3).
T
he
V
B
US
p
in
i
s
al
so
a
v
ailable
v
ia
t
he
u
n
popu
la
t
ed
heade
r
h
o
le
o
n
t
he
top
‑
r
igh
t
s
ide
o
f
t
he
E
s
e
r
ie
s
.
PMIC
(
P
o
w
er
M
a
n
a
gement
I
ntegr
a
ted
C
ircuit
)
T
he
E
s
e
r
ie
s
us
e
s
T
I
'
s
BQ
24195
a
s
t
he
pow
e
r
managemen
t
and
cha
r
ging
u
ni
t
.
T
hi
s
PMIC
in
t
elligen
t
l
y
sour
ce
s
pow
e
r
f
ro
m
ei
t
he
r
t
he
V
IN
p
in
,
t
he
US
B
port
and
/
or
t
he
L
i
P
o
ba
tt
e
ry
.
W
hen
all
t
he
pow
e
r
sour
ce
s
a
s
c
o
nnec
t
ed
,
t
he
u
ni
t
tr
ie
s
to
sour
ce
pow
e
r
f
ro
m
t
he
US
B
or
V
IN
a
s
defa
u
l
t
and
c
o
n
t
in
u
e
s
to
cha
r
ge
t
he
L
i
P
o
ba
tt
e
ry
.
W
hen
t
he
ba
tt
e
ry
i
s
c
o
m
p
le
t
el
y
cha
r
ged
,
t
he
pow
e
r
i
s
t
hen
sour
ced
f
ro
m
US
B
/
V
IN
al
o
ne
.
I
f
t
he
r
e
i
s
a
pow
e
r
defici
t
(
w
hich
gene
r
all
y
o
cc
urs
d
ur
ing
cell
u
la
r
r
adi
o
tr
an
s
mi
ss
i
o
n
),
t
he
addi
t
i
o
nal
pow
e
r
i
s
t
hen
sour
ced
f
ro
m
t
he
ba
tt
e
ry
a
s
r
e
qu
i
r
ed
.
T
he
u
ni
t
can
al
so
s
eamle
ss
l
y
sw
i
t
ch
back
to
t
he
ba
tt
e
ry
w
hen
ot
he
r
sour
ce
s
o
f
pow
e
r
a
r
e
su
ddenl
y
r
em
ov
ed
.
T
he
DP
da
t
a
p
in
o
f
t
he
US
B
i
s
us
ed
b
y
t
he
PMIC
to
de
t
ec
t
t
he
pr
e
s
ence
o
f
a
US
B
pow
e
r
sour
ce
.
I
t
t
hen
adj
usts
t
he
cha
r
ge
c
urr
en
t
and
t
he
limi
t
ba
s
ed
o
n
t
he
typ
e
o
f
US
B
pow
e
r
sour
ce
i
t
de
t
ec
ts
.
T
hi
s
d
o
e
s
n
ot
al
w
a
ys
ha
pp
en
su
cce
ss
f
u
ll
y
s
ince
t
he
r
e
a
r
e
a
l
ot
o
f
US
B
h
u
b
s
and
cha
r
ge
rs
out
t
he
r
e
t
ha
t
d
o
n
ot
mee
t
t
he
US
B
de
s
ign
g
u
ideline
s
.
I
f
t
he
de
t
ec
t
i
o
n
i
s
u
n
su
cce
ss
f
u
l
,
t
he
PMIC
defa
u
l
ts
to
a
500
m
A
c
urr
en
t
limi
t
.
A
us
e
r
can
al
w
a
ys
adj
ust
t
he
s
e
p
a
r
ame
t
e
rs
v
ia
so
f
tw
a
r
e
.
T
he
mic
ro
c
o
n
tro
lle
r
c
o
mm
u
nica
t
e
s
w
i
t
h
t
he
PMIC
v
ia
an
I
2
C
in
t
e
r
face
(
p
in
s
PC
9
and
PA
8).
T
hi
s
in
t
e
r
face
all
ows
t
he
mic
ro
c
o
n
tro
lle
r
to
r
ead
t
he
st
a
tus
o
f
t
he
PMIC
and
s
e
t
i
ts
v
a
r
i
ous
p
a
r
ame
t
e
rs
.
M
icrocontroller
T
he
E
s
e
r
ie
s
us
e
s
ST
M
ic
ro
elec
tro
nic
s
'
s
ST
M
32
F
205
RG
T
6
ARM C
ort
e
x
M
3
mic
ro
c
o
n
tro
lle
r
ru
nning
a
t
120
MH
z
.
U
‑
blo
x
cellul
a
r
module
S
ince
u
‑
bl
ox
m
o
d
u
le
'
s
c
o
mm
u
nica
t
i
o
n
in
t
e
r
face
op
e
r
a
t
e
s
a
t
1.8
V
DC
,
w
hile
t
he
ST
M
32
F
205
RG
T
6
mic
ro
c
o
n
tro
lle
r
op
e
r
a
t
e
s
a
t
3.3
V
DC
,
w
e
need
vo
l
t
age
tr
an
s
la
tors
in
‑
be
tw
een
t
hem
.
T
hi
s
i
s
achie
v
ed
w
i
t
h
two
S
N
74
A
V
C
4
T
245
n
o
n
‑
in
v
e
rt
ing
b
u
ffe
rs
.
T
he
defa
u
l
t
st
a
t
e
o
f
t
he
US
AR
T
p
in
s
i
s
s
e
t
w
i
t
h
t
he
hel
p
o
f
pu
ll
‑
up
and
pu
ll
‑
d
ow
n
r
e
s
i
stors
,
and
t
he
u
n
us
ed
in
put
p
in
s
a
r
e
t
ied
to
GND
.
3.3
V
R
egul
a
tor
a
nd
F
uel
G
a
uge
T
he
output
(3.8
V
ne
t
)
o
f
t
he
PMIC
i
s
fed
di
r
ec
t
l
y
to
t
he
u
‑
bl
ox
cell
u
la
r
m
o
d
u
le
and
a
3.3
V
DC
high
efficienc
y
sw
i
t
ching
r
eg
u
la
tor
(
T
P
S
62290).
T
hi
s
3.3
V
DC
r
eg
u
la
tor
hel
ps
pow
e
r
t
he
mic
ro
c
o
n
tro
lle
r
,
f
u
el
ga
u
ge
and
t
he
b
u
ffe
rs
.
T
he
E
s
e
r
ie
s
em
p
l
oys
a
MA
X
17043
f
u
el
ga
u
ge
to
m
o
ni
tor
t
he
L
i
P
o
ba
tt
e
ry
vo
l
t
age
and
i
t
'
s
st
a
t
e
o
f
cha
r
ge
.
T
he
mic
ro
c
o
n
tro
lle
r
c
o
mm
u
nica
t
e
s
w
i
t
h
i
t
ov
e
r
an
I
2
C
in
t
e
r
face
(
s
ame
channel
a
s
t
he
PMIC
).
P
roduct
H
a
ndling
ESD P
rec
a
utions
T
he
E
s
e
r
ie
s
c
o
n
t
ain
s
highl
y
s
en
s
i
t
i
v
e
elec
tro
nic
ci
r
c
u
i
try
and
i
s
an
E
lec
trost
a
t
ic
S
en
s
i
t
i
v
e
D
e
v
ice
(
E
S
D
).
H
andling
an
E
s
e
r
ie
s
w
i
t
h
out
prop
e
r
E
S
D
prot
ec
t
i
o
n
ma
y
de
stroy
or
damage
i
t
p
e
r
manen
t
l
y
.
P
rop
e
r
E
S
D
handling
and
p
ackaging
pro
ced
ur
e
s
m
ust
be
a
pp
lied
t
h
rou
gh
out
t
he
pro
ce
ss
ing
,
handling
and
op
e
r
a
t
i
o
n
o
f
an
y
a
pp
lica
t
i
o
n
t
ha
t
inc
orpor
a
t
e
s
EØ
s
.
E
S
D
pr
eca
ut
i
o
n
s
s
h
ou
ld
be
im
p
lemen
t
ed
o
n
t
he
a
pp
lica
t
i
o
n
b
o
a
r
d
w
he
r
e
t
he
E
s
e
r
ie
s
i
s
m
ou
n
t
ed
.
F
ail
ur
e
to
o
b
s
e
rv
e
t
he
s
e
pr
eca
ut
i
o
n
s
can
r
e
su
l
t
in
s
e
v
e
r
e
damage
to
t
he
E
s
e
r
ie
s
!
C
onnectors
T
he
r
e
a
r
e
two
c
o
nnec
tors
o
n
t
he
E
s
e
r
ie
s
t
ha
t
w
ill
ge
t
damaged
w
i
t
h
im
prop
e
r
us
age
.
T
he
mic
ro
B
US
B
c
o
nnec
tor
o
n
t
he
E
s
e
r
ie
s
i
s
so
lde
r
ed
o
n
t
he
PCB
w
i
t
h
la
r
ge
sur
face
p
ad
s
a
s
w
ell
a
s
c
oup
le
o
f
t
h
rou
gh
h
o
le
anch
or
po
in
ts
.
D
e
sp
i
t
e
t
hi
s
r
einf
or
cemen
t
,
i
t
i
s
v
e
ry
ea
sy
to
r
i
p
out
t
he
c
o
nnec
tor
if
too
m
u
ch
str
e
ss
i
s
put
o
n
in
t
he
v
e
rt
ical
di
r
ec
t
i
o
n
.
T
he
u
.
FL
an
t
enna
c
o
nnec
tor
i
s
a
v
e
ry
f
r
agile
p
iece
o
f
ha
r
d
w
a
r
e
(
and
i
s
fanc
y
too
w
i
t
h
all
t
he
g
o
ld
p
la
t
ing
).
T
he
c
o
nnec
tor
w
a
s
n
ot
de
s
igned
to
be
c
o
n
st
an
t
l
y
p
l
u
gged
and
u
n
p
l
u
gged
.
C
a
r
e
m
ust
be
t
aken
n
ot
to
put
str
e
ss
o
n
i
t
a
t
an
y
t
ime
(
y
e
s
,
sw
inging
t
he
E
s
e
r
ie
s
b
y
t
he
an
t
enna
i
s
a
v
e
ry
bad
idea
,
t
hi
s
i
s
n
ot
your
ca
t
).
T
he
an
t
enna
p
in
i
s
al
so
t
he
m
ost
st
a
t
ic
s
en
s
i
t
i
v
e
and
you
can
de
stroy
t
he
r
adi
o
w
i
t
h
im
prop
e
r
handling
.
I
f
you
a
r
e
feeling
ad
v
en
turous
,
w
e
highl
y
r
ec
o
mmend
putt
ing
a
t
in
y
dab
o
f
gl
u
e
(
e
poxy
,
ru
bbe
r
cemen
t
,
li
qu
id
t
a
p
e
or
h
ot
gl
u
e
)
o
n
t
he
c
o
nnec
tor
to
s
ec
ur
el
y
h
o
ld
t
he
p
l
u
g
in
p
lace
.
D
ef
a
ult
settings
T
he
E
s
e
r
ie
s
c
o
me
s
pr
e
‑
pro
g
r
ammed
w
i
t
h
a
b
oot
l
o
ade
r
and
a
us
e
r
a
pp
lica
t
i
o
n
called
T
inke
r
.
T
hi
s
a
pp
lica
t
i
o
n
wor
k
s
w
i
t
h
an
i
O
S
and
A
nd
ro
id
a
pp
al
so
named
T
inke
r
t
ha
t
all
ows
you
to
v
e
ry
ea
s
il
y
to
ggle
digi
t
al
p
in
s
,
t
ake
anal
o
g
and
digi
t
al
r
eading
s
and
d
r
i
v
e
v
a
r
iable
P
W
M
outputs
.
T
he
b
oot
l
o
ade
r
all
ows
you
to
ea
s
il
y
up
da
t
e
t
he
us
e
r
a
pp
lica
t
i
o
n
v
ia
s
e
v
e
r
al
diffe
r
en
t
me
t
h
o
d
s
,
US
B
,
O
T
A
,
S
e
r
ial
Y
‑
M
o
dem
,
and
al
so
in
t
e
r
nall
y
v
ia
t
he
F
ac
tory
R
e
s
e
t
pro
ced
ur
e
.
A
ll
o
f
t
he
s
e
me
t
h
o
d
s
ha
v
e
m
u
l
t
i
p
le
too
l
s
a
sso
cia
t
ed
w
i
t
h
t
hem
a
s
w
ell
.
Y
ou
ma
y
us
e
t
he
o
nline
W
eb
IDE
P
a
rt
icle
B
u
ild
to
c
o
de
,
c
o
m
p
ile
and
fla
s
h
a
us
e
r
a
pp
lica
t
i
o
n
O
T
A
(
O
v
e
r
T
he
A
i
r
).
P
a
rt
icle
D
e
v
i
s
a
l
o
cal
too
l
t
ha
t
us
e
s
t
he
C
l
ou
d
to
c
o
m
p
ile
and
fla
s
h
O
T
A
a
s
w
ell
.
T
he
r
e
i
s
al
so
a
p
ackage
Spark
DFU-UTIL
f
or
P
a
rt
icle
D
e
v
t
ha
t
all
ows
f
or
C
l
ou
d
c
o
m
p
iling
and
l
o
cal
fla
s
hing
v
ia
DF
U
ov
e
r
US
B
.
T
hi
s
r
e
qu
i
r
e
s
dfu-
util
to
be
in
st
alled
o
n
your
syst
em
.
'
df
u
‑
ut
il
'
can
al
so
be
us
ed
w
i
t
h
P
a
rt
icle
CLI
f
or
C
l
ou
d
c
o
m
p
iling
and
l
o
cal
fla
s
hing
v
ia
t
he
c
o
mmand
line
.
F
inall
y
t
he
l
ow
e
st
le
v
el
o
f
de
v
el
op
men
t
i
s
a
v
ailable
v
ia
t
he
GN
U
GCC
too
l
chain
f
or
ARM
,
w
hich
o
ffe
rs
l
o
cal
c
o
m
p
ile
and
fla
s
h
v
ia
df
u
‑
ut
il
.
T
hi
s
gi
v
e
s
t
he
us
e
r
c
o
m
p
le
t
e
c
o
n
tro
l
o
f
all
sour
ce
c
o
de
and
fla
s
hing
me
t
h
o
d
s
.
T
hi
s
i
s
an
e
xt
en
s
i
v
e
li
st
,
h
ow
e
v
e
r
n
ot
e
x
ha
ust
i
v
e
.
G
loss
a
r
y
T
e
r
m
D
efini
t
i
o
n
S
MP
S S
w
i
t
ch
M
o
de
P
ow
e
r
S
upp
l
y
S
IM
S
u
b
s
c
r
ibe
r
I
den
t
i
ty
M
o
d
u
le
RF R
adi
o
F
r
e
qu
enc
y
S
M
T S
ur
face
M
ou
n
t
T
echn
o
l
o
g
y
(
o
f
t
en
a
sso
cia
t
ed
w
i
t
h
S
MD
w
hich
i
s
a
sur
face
m
ou
n
t
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v
ice
).
LED L
igh
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E
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tt
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ed
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bl
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o
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o
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efe
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p
in
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t
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5
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.
3
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+
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o
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t
;
T
he
r
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la
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ed
+
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l
y
r
ail
.
A
l
so
us
ed
to
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3.3
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PMIC P
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s
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u
C M
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C
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ty
G
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r
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Wa
rnings
a
nd
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nd
P
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L
a
beling
R
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F
ede
r
al
C
o
mm
u
nica
t
i
o
n
C
o
mmi
ss
i
o
n
I
n
t
e
r
fe
r
ence
S
t
a
t
emen
t
T
hi
s
e
qu
i
p
men
t
ha
s
been
t
e
st
ed
and
f
ou
nd
to
c
o
m
p
l
y
w
i
t
h
t
he
limi
ts
f
or
a
C
la
ss
B
digi
t
al
de
v
ice
,
pursu
an
t
to
P
a
rt
15
o
f
t
he
FCC R
u
le
s
.
T
he
s
e
limi
ts
a
r
e
de
s
igned
to
prov
ide
r
ea
so
nable
prot
ec
t
i
o
n
again
st
ha
r
mf
u
l
in
t
e
r
fe
r
ence
in
a
r
e
s
iden
t
ial
in
st
alla
t
i
o
n
.
T
hi
s
e
qu
i
p
men
t
gene
r
a
t
e
s
,
us
e
s
and
can
r
adia
t
e
r
adi
o
f
r
e
qu
enc
y
ene
r
g
y
and
,
if
n
ot
in
st
alled
and
us
ed
in
acc
or
dance
w
i
t
h
t
he
in
stru
c
t
i
o
n
s
,
ma
y
ca
us
e
ha
r
mf
u
l
in
t
e
r
fe
r
ence
to
r
adi
o
c
o
mm
u
nica
t
i
o
n
s
.
H
ow
e
v
e
r
,
t
he
r
e
i
s
n
o
g
u
a
r
an
t
ee
t
ha
t
in
t
e
r
fe
r
ence
w
ill
n
ot
o
cc
ur
in
a
p
a
rt
ic
u
la
r
in
st
alla
t
i
o
n
.
I
f
t
hi
s
e
qu
i
p
men
t
d
o
e
s
ca
us
e
ha
r
mf
u
l
in
t
e
r
fe
r
ence
to
r
adi
o
or
t
ele
v
i
s
i
o
n
r
ece
pt
i
o
n
,
w
hich
can
be
de
t
e
r
mined
b
y
tur
ning
t
he
e
qu
i
p
men
t
o
ff
and
o
n
,
t
he
us
e
r
i
s
enc
our
aged
to
try
to
c
orr
ec
t
t
he
in
t
e
r
fe
r
ence
b
y
o
ne
o
f
t
he
f
o
ll
ow
ing
mea
sur
e
s
:
R
e
or
ien
t
or
r
el
o
ca
t
e
t
he
r
ecei
v
ing
an
t
enna
.
I
nc
r
ea
s
e
t
he
s
e
p
a
r
a
t
i
o
n
be
tw
een
t
he
e
qu
i
p
men
t
and
r
ecei
v
e
r
.
C
o
nnec
t
t
he
e
qu
i
p
men
t
in
to
an
out
le
t
o
n
a
ci
r
c
u
i
t
diffe
r
en
t
f
ro
m
t
ha
t
to
w
hich
t
he
r
ecei
v
e
r
i
s
c
o
nnec
t
ed
.
C
o
n
su
l
t
t
he
deale
r
or
an
e
xp
e
r
ienced
r
adi
o
/
TV
t
echnician
f
or
hel
p
.
FCC C
a
ut
i
o
n
:
A
n
y
change
s
or
m
o
difica
t
i
o
n
s
n
ot
e
xpr
e
ss
l
y
a
pprov
ed
b
y
t
he
p
a
rty
r
e
spo
n
s
ible
f
or
c
o
m
p
liance
c
ou
ld
vo
id
t
he
us
e
r
'
s
a
ut
h
or
i
ty
to
op
e
r
a
t
e
t
hi
s
e
qu
i
p
men
t
.
T
hi
s
de
v
ice
c
o
m
p
lie
s
w
i
t
h
P
a
rt
15
o
f
t
he
FCC R
u
le
s
.
O
p
e
r
a
t
i
o
n
i
s
su
bjec
t
to
t
he
f
o
ll
ow
ing
two
c
o
ndi
t
i
o
n
s
:
1.
T
hi
s
de
v
ice
ma
y
n
ot
ca
us
e
ha
r
mf
u
l
in
t
e
r
fe
r
ence
,
and
2.
T
hi
s
de
v
ice
m
ust
acce
pt
an
y
in
t
e
r
fe
r
ence
r
ecei
v
ed
,
incl
u
ding
in
t
e
r
fe
r
ence
t
ha
t
ma
y
ca
us
e
u
nde
s
i
r
ed
op
e
r
a
t
i
o
n
.
FCC R
adia
t
i
o
n
E
xposur
e
S
t
a
t
emen
t
:
T
hi
s
e
qu
i
p
men
t
c
o
m
p
lie
s
w
i
t
h
FCC
r
adia
t
i
o
n
e
xposur
e
limi
ts
s
e
t
f
ort
h
f
or
an
u
nc
o
n
tro
lled
en
v
i
ro
nmen
t
.
T
hi
s
tr
an
s
mi
tt
e
r
m
o
d
u
le
m
ust
n
ot
be
c
o
‑
l
o
ca
t
ed
or
op
e
r
a
t
ing
in
c
o
nj
u
nc
t
i
o
n
w
i
t
h
an
y
ot
he
r
an
t
enna
or
tr
an
s
mi
tt
e
r
.
T
hi
s
E
nd
e
qu
i
p
men
t
s
h
ou
ld
be
in
st
alled
and
op
e
r
a
t
ed
w
i
t
h
a
minim
u
m
di
st
ance
o
f
20
cen
t
ime
t
e
rs
be
tw
een
t
he
r
adia
tor
and
your
b
o
d
y
.
IMPOR
T
AN
T
NO
T
E
:
I
n
t
he
e
v
en
t
t
ha
t
t
he
s
e
c
o
ndi
t
i
o
n
s
can
n
ot
be
me
t
(
f
or
e
x
am
p
le
ce
rt
ain
la
ptop
c
o
nfig
ur
a
t
i
o
n
s
or
c
o
‑
l
o
ca
t
i
o
n
w
i
t
h
an
ot
he
r
tr
an
s
mi
tt
e
r
),
t
hen
t
he
FCC
a
ut
h
or
i
z
a
t
i
o
n
i
s
n
o
l
o
nge
r
c
o
n
s
ide
r
ed
v
alid
and
t
he
FCC ID
can
n
ot
be
us
ed
o
n
t
he
final
pro
d
u
c
t
.
I
n
t
he
s
e
ci
r
c
u
m
st
ance
s
,
t
he
OEM
in
t
eg
r
a
tor
w
ill
be
r
e
spo
n
s
ible
f
or
r
e
‑
e
v
al
u
a
t
ing
t
he
end
pro
d
u
c
t
(
incl
u
ding
t
he
tr
an
s
mi
tt
e
r
)
and
o
b
t
aining
a
s
e
p
a
r
a
t
e
FCC
a
ut
h
or
i
z
a
t
i
o
n
.
E
nd
P
ro
d
u
c
t
L
abeling
T
he
final
end
pro
d
u
c
t
m
ust
be
labeled
in
a
v
i
s
ible
a
r
ea
w
i
t
h
t
he
f
o
ll
ow
ing
:
C
o
n
t
ain
s
FCC ID
:
X
P
YS
ARAG
350
(
F
or
2
G E
s
e
r
ie
s
m
o
d
u
le
us
ing
t
he
G
350
m
o
d
u
le
)
X
P
YS
ARA
U
260
(
F
or
3
G E
s
e
r
ie
s
m
o
d
u
le
us
ing
t
he
U
260
m
o
d
u
le
)
X
P
YS
ARA
U
270
(
F
or
3
G E
s
e
r
ie
s
m
o
d
u
le
us
ing
t
he
U
270
m
o
d
u
le
)
X
P
YS
ARA
U
201
(
F
or
3
G E
s
e
r
ie
s
m
o
d
u
le
us
ing
t
he
U
201
m
o
d
u
le
)
M
an
u
al
I
nf
or
ma
t
i
o
n
to
t
he
E
nd
U
s
e
r
T
he
OEM
in
t
eg
r
a
tor
ha
s
to
be
a
w
a
r
e
n
ot
to
prov
ide
inf
or
ma
t
i
o
n
to
t
he
end
us
e
r
r
ega
r
ding
h
ow
to
in
st
all
or
r
em
ov
e
t
hi
s
RF
m
o
d
u
le
in
t
he
us
e
r
’
s
man
u
al
o
f
t
he
end
pro
d
u
c
t
w
hich
in
t
eg
r
a
t
e
s
t
hi
s
m
o
d
u
le
.
C
anada
S
t
a
t
emen
t
T
hi
s
de
v
ice
c
o
m
p
lie
s
w
i
t
h
I
nd
ustry
C
anada
’
s
licence
‑
e
x
em
pt
R
SS
s
.
O
p
e
r
a
t
i
o
n
i
s
su
bjec
t
to
t
he
f
o
ll
ow
ing
two
c
o
ndi
t
i
o
n
s
:
1.
T
hi
s
de
v
ice
ma
y
n
ot
ca
us
e
in
t
e
r
fe
r
ence
;
and
2.
T
hi
s
de
v
ice
m
ust
acce
pt
an
y
in
t
e
r
fe
r
ence
,
incl
u
ding
in
t
e
r
fe
r
ence
t
ha
t
ma
y
ca
us
e
u
nde
s
i
r
ed
op
e
r
a
t
i
o
n
o
f
t
he
de
v
ice
.
L
e
pr
é
s
en
t
a
pp
a
r
eil
e
st
c
o
nf
or
me
a
ux
CNR
d
’
I
nd
ustr
ie
C
anada
a
pp
licable
s
a
ux
a
pp
a
r
eil
s
r
adi
o
e
x
em
pts
de
licence
.
L
’
e
xp
l
o
i
t
a
t
i
o
n
e
st
a
utor
i
s
ée
a
ux
de
ux
c
o
ndi
t
i
o
n
s
su
i
v
an
t
e
s
:
1.
l
’
a
pp
a
r
eil
ne
d
o
i
t
p
a
s
pro
d
u
i
r
e
de
b
rou
illage
;
2.
l
’
ut
ili
s
a
t
e
ur
de
l
’
a
pp
a
r
eil
d
o
i
t
acce
pt
e
r
tout
b
rou
illage
r
adi
o
élec
tr
i
qu
e
su
bi
,
même
s
i
le
b
rou
illage
e
st
sus
ce
pt
ible
d
’
en
c
o
m
pro
me
ttr
e
le
f
o
nc
t
i
o
nnemen
t
.
C
a
ut
i
o
n
E
xposur
e
:
T
hi
s
de
v
ice
mee
ts
t
he
e
x
em
pt
i
o
n
f
ro
m
t
he
rout
ine
e
v
al
u
a
t
i
o
n
limi
ts
in
s
ec
t
i
o
n
2.5
o
f
R
SS
102
and
us
e
rs
can
o
b
t
ain
C
anadian
inf
or
ma
t
i
o
n
o
n
RF
e
xposur
e
and
c
o
m
p
liance
.
L
e
di
spos
i
t
if
r
é
po
nd
à
l
'
e
x
em
pt
i
o
n
de
s
limi
t
e
s
d
'
é
v
al
u
a
t
i
o
n
de
rout
ine
dan
s
la
s
ec
t
i
o
n
2.5
de
R
SS
102
e
t
le
s
ut
ili
s
a
t
e
urs
p
e
uv
en
t
o
b
t
eni
r
de
s
r
en
s
eignemen
ts
canadien
s
sur
l
'
e
xpos
i
t
i
o
n
a
ux
RF
e
t
le
r
e
sp
ec
t
.
T
he
final
end
pro
d
u
c
t
m
ust
be
labelled
in
a
v
i
s
ible
a
r
ea
w
i
t
h
t
he
f
o
ll
ow
ing
:
T
he
I
nd
ustry
C
anada
ce
rt
ifica
t
i
o
n
label
o
f
a
m
o
d
u
le
s
hall
be
clea
r
l
y
v
i
s
ible
a
t
all
t
ime
s
w
hen
in
st
alled
in
t
he
h
ost
de
v
ice
,
ot
he
rw
i
s
e
t
he
h
ost
de
v
ice
m
ust
be
labelled
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