Seals DT-601CG User manual
97600
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ll
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w
the
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e p
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c
aut
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r
, depend
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ated b
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th
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ted.
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he a
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t
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ated b
y
th
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u
s
t be e
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uted b
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m
ean
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BE
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utput Input
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DT-
601
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Dis
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°
Input
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o
p
e
r
a
t
i
o
n
<
B
oo
s
t
i
ng/
D
o
w
n ope
r
at
i
on
>
S
ett
i
ng
c
ond
i
t
i
on
U
p/
D
o
w
n, and
A
uto
m
at
ic
r
e
s
et
s
ett
i
ng
will
be
i
n
v
a
li
d
O
FF
SE
T
=
0 ,
O
FF
SE
T
<
0 ,
P
R
ESE
T
B
<
O
FF
SE
T
<
P
R
ESE
T
A
<
N
o auto
m
at
ic
r
e
s
et
>
<
Wi
th auto
m
at
ic
r
e
s
et
>
n
=
Mi
n
im
u
m
c
ount
(Dis
p
l
a
y)
(C
ont
i
nuou
s)
w
i
t
h
o
u
t
r
e
-
output
w
i
t
h
r
e
-
output
n
=
Mi
n
im
u
m
c
ount
(Dis
p
l
a
y)
<
N
o auto
m
at
ic
r
e
s
et
>
<
Wi
th auto
m
at
ic
r
e
s
et
>
(C
ont
i
nuou
s)
(C
ont
i
nuou
s)
(C
ont
i
nuou
s)
n
=
Mi
n
im
u
m
c
ount
(Dis
p
l
a
y)
w
i
t
h
o
u
t
r
e
-
output
w
i
t
h
r
e
-
output
(C
ont
i
nuou
s)
(C
ont
i
nuou
s)
O
FF
SE
T
P
R
ESE
T
A
+
n
P
R
ESE
T
A
P
R
ESE
T
B
+
n
P
R
ESE
T
B
0
O
FF
SE
T
P
R
ESE
T
B
+
n
P
R
ESE
T
A
P
R
ESE
T
A
-
n
O
FF
SE
T
0
P
R
ESE
T
A
P
R
ESE
T
A
-
n
O
FF
SE
T
0
P
R
ESE
T
B
+
n
P
R
ESE
T
B
0
P
2
(
3
)
B
a
t
c
h
c
o
u
n
t
o
p
e
r
a
t
i
o
n
<
B
oo
s
t
i
ng ope
r
at
i
on
> <
D
o
w
n ope
r
at
i
on
>
S
ett
i
ng
c
ond
i
t
i
on
A
uto
m
at
ic
r
e
s
et
s
e
l
e
c
t
i
on and
r
e
-
output
s
e
l
e
c
t
i
on
will
be
i
n
v
a
li
d
O
FF
SE
T
=
0,
O
FF
SE
T
<
P
R
ESE
T
A
,
P
R
ESE
T
A
=
0,
P
R
ESE
T
A
<
O
FF
SE
T
,
P
R
ESE
T
B
>
0
P
R
ESE
T
B
>
0
(
4
)
+
1
s
t
a
g
e
p
l
u
s
s
e
c
o
n
d
a
r
y
o
u
t
p
u
t
o
p
e
r
a
t
i
o
n
<
B
oo
s
t
i
ng ope
r
at
i
on
> <
D
o
w
n ope
r
at
i
on
>
S
ett
i
ng
c
ond
i
t
i
on
R
e
-
output
s
e
l
e
c
t
i
on
will
be
i
n
v
a
li
d.
O
FF
SE
T
=
0,
O
FF
SE
T
<
P
R
ESE
T
A
,
P
R
ESE
T
A
=
0,
O
FF
SE
T
>
P
R
ESE
T
A
,
99.9
>
P
R
ESE
T
B
>
0 99.9
>
P
R
ESE
T
B
>
0
<
O
u
t
p
u
t
c
o
n
d
i
t
i
o
n
o
f
e
a
c
h
p
r
e
s
e
t
o
u
t
p
u
t
>
In p
ri
n
ci
p
l
e, 1
s
hot o
r
c
ont
i
nuou
s
s
hot
will
be output f
r
o
m
O
UT
1 to
O
UT
4 unde
r
the
c
ond
i
t
i
on of
"c
ount d
is
p
l
a
y
>
(
<
)
P
r
e
s
et
A
(
P
r
e
s
et
B
)
H
o
w
e
v
e
r
,
i
f
+
2
s
tage
s
p
r
e
s
et ope
r
at
i
on o
r
±
1
s
tage p
r
e
s
et ope
r
at
i
on
w
a
s
c
ho
s
en, and u
s
ed
wi
th
the
c
ond
i
t
i
on of
"wi
th
r
e
-
output
"
o
r
"wi
thout auto
m
at
ic
r
e
s
et
"
, the
c
ond
i
t
i
on
will
be a
s
be
l
o
w
irr
e
s
pe
c
t
iv
e
ly
of the
m
ode
c
ho
s
en
(U
P
/
D
O
WN)
.
O
utput
s
et
O
N
(c
ont
i
nuou
s
, 1
s
hot
)
:
C
ount d
is
p
l
a
y
( )
P
r
e
s
et
A
(
P
r
e
s
et
B
)
O
utput
s
et
O
FF
(c
ont
i
nuou
s
, 1
s
hot
*
)
:
C
ount d
is
p
l
a
y
<
(
>
)
P
r
e
s
et
A
(
P
r
e
s
et
B
)
*
c
hoo
si
ng 1
s
hot
m
a
k
e
s
output
"
O
N"
(Dis
p
l
a
y)
(C
ont
i
nuou
s)
(Dis
p
l
a
y)
(C
ont
i
nuou
s)
(C
ont
i
nuou
s)
(C
ont
i
nuou
s)
(Dis
p
l
a
y)
(C
ont
i
nuou
s)
(C
ont
i
nuou
s)
(
B
at
c
h
C
ounte
r)
(
B
at
c
h
C
ounte
r)
0
<
N
o auto
m
at
ic
r
e
s
et
>
<
Wi
th auto
m
at
ic
r
e
s
et
>
(Dis
p
l
a
y)
0
P
3
2.
SPE
C
I
F
I
CAT
I
O
N
S
[
S
t
a
nd
a
r
d]
o
r
p
r
e
s
s
i
n
g
S
h
i
f
t
k
e
y
(
w
h
e
n
i
t
e
x
c
e
e
d
s
,
9
9
9
9
9
9
w
i
l
l
b
e
f
l
u
s
h
i
n
g
)
B
at
c
h
c
ount d
is
p
l
a
y
P
r
e
s
et
O
utput
I
T
E
M
S
P
E
C
I
F
I
C
A
T
I
O
N
S
(
d
e
p
e
n
d
i
n
g
o
n
t
h
e
m
o
d
e
,
s
e
l
e
c
t
r
e
s
e
t
d
i
s
p
l
a
y
)
d
i
s
p
l
a
y
v
a
l
u
e
a
f
t
e
r
r
e
s
e
t
c
a
n
b
e
c
h
o
s
e
n
f
r
o
m
-
9
9
9
9
9
t
o
9
9
9
9
9
9
(
a
c
c
e
p
t
N
P
N
o
p
e
n
c
o
l
l
e
c
t
o
r
p
u
l
s
e
o
u
t
p
u
t
o
r
a
c
t
u
a
l
c
o
n
t
a
c
t
o
u
t
p
u
t
)
m
o
r
e
t
h
a
n
5
0
m
s
.
S
e
l
e
c
t
a
b
l
e
f
r
o
m
x
x
x
x
x
S
e
l
e
c
t
a
b
l
e
f
r
o
m
-
9
9
9
9
9
t
o
9
9
9
9
9
9
.
W
h
e
n
d
e
l
a
y
i
n
g
t
h
e
s
e
c
o
n
d
a
r
y
o
u
t
p
u
t
,
J
u
d
g
e
b
y
c
o
m
p
a
r
i
n
g
d
i
s
p
l
a
y
v
a
l
u
e
a
n
d
p
r
e
s
e
t
v
a
l
u
e
D
u
r
i
n
g
t
h
e
O
U
T
1
a
l
a
r
m
o
u
t
p
u
t
i
s
o
n
,
O
utput
r
e
s
et
H
o
l
d
s
e
l
e
c
t
i
on
i
nput
E
x
te
r
na
l
Input
O
utput te
rmi
na
l
/
s
t
yl
e
(
O
UT
1, 2
)
O
utput te
rmi
na
l
/
s
t
yl
e
(
O
UT
3,4
)
O
u
t
p
u
t
m
o
d
e
1
s
h
o
t
p
e
r
i
o
d
P
r
e
s
et ope
r
at
i
on
P
r
e
s
et
v
a
l
ue
s
ett
i
ng
O
utput d
is
p
l
a
y
Dis
p
l
a
y
S
wi
t
c
h
R
e
s
et
Dis
p
l
a
y
off
s
et
Integ
r
ated
d
is
p
l
a
y
D
i
s
p
l
a
y
A
c
c
u
r
a
c
y
S
c
a
l
i
n
g
A
c
t
i
v
a
t
e
b
y
R
S
T
k
e
y
i
n
t
h
e
f
r
o
n
t
p
a
r
t
o
r
,
D
i
s
p
l
a
y
r
a
n
g
e
i
s
0
t
o
9
9
9
9
9
9
w
h
e
n
s
e
l
e
c
t
i
n
g
b
a
t
c
h
c
o
u
n
t
o
p
e
r
a
t
i
o
n
S
e
l
e
c
t
i
n
g
U
P
/
D
O
W
N
m
o
d
e
,
a
u
t
o
m
a
t
i
c
r
e
s
e
t
r
e
-
o
u
t
p
u
t
c
a
n
b
e
s
e
t
.
(
C
h
a
n
g
e
w
i
t
h
E
N
T
k
e
y
)
:
D
C
3
0
V
5
0
m
A
:
0
.
1
2
A
L
o
a
d
v
o
l
t
a
g
e
:
A
C
1
4
0
V
±
1
s
t
a
g
e
,
b
a
t
c
h
c
o
u
n
t
a
n
d
+
1
s
t
a
g
e
s
e
c
o
n
d
a
r
y
o
u
t
p
u
t
s
e
l
e
c
t
a
b
l
e
f
r
o
m
0
.
0
t
o
9
9
.
9
.
(
t
h
e
v
a
l
u
e
o
u
t
s
i
d
e
t
h
e
r
a
n
g
e
i
s
i
n
v
a
l
i
d
)
O
U
T
1
L
E
D
(
R
E
D
)
w
i
l
l
b
e
s
y
n
c
h
r
o
n
o
u
s
l
y
f
l
u
s
h
i
n
g
m
a
k
i
n
g
t
e
r
m
i
n
a
l
r
e
s
e
t
i
n
p
u
t
O
N
m
o
r
e
t
h
a
n
5
0
m
s
S
e
l
e
c
t
a
b
l
e
f
r
o
m
+
s
i
d
e
2
s
t
a
g
e
s
,
S
e
l
e
c
t
a
b
l
e
f
r
o
m
1
s
h
o
t
o
r
c
o
n
t
i
n
u
o
u
s
T
o
a
c
t
i
v
a
t
e
L
a
p
c
o
u
n
t
a
n
d
d
i
s
p
l
a
y
c
h
a
n
g
e
,
t
u
r
n
t
h
e
t
e
r
m
i
n
a
l
b
l
o
c
k
(
2
-
3
)
(
a
c
c
e
p
t
N
P
N
o
p
e
n
c
o
l
l
e
c
t
o
r
p
u
l
s
e
o
u
t
p
u
t
o
r
a
c
t
u
a
l
c
o
n
t
a
c
t
o
u
t
p
u
t
)
O
u
t
p
u
t
f
r
o
m
t
e
r
m
i
n
a
l
b
l
o
c
k
9
-
6
(
O
U
T
1
)
a
n
d
1
0
-
6
(
O
U
T
2
)
T
w
o
-
p
o
i
n
t
s
N
P
N
o
p
e
n
c
o
l
l
e
c
t
o
r
p
u
l
s
e
o
u
t
p
u
t
.
M
a
x
i
m
u
m
r
a
t
i
n
g
(
6
i
s
G
N
D
c
o
m
m
o
n
)
(
H
o
w
e
v
e
r
,
w
i
t
h
t
h
e
l
i
n
e
r
e
c
e
i
v
e
r
,
i
t
w
i
l
l
n
o
t
f
u
n
c
t
i
o
n
)
O
u
t
p
u
t
f
r
o
m
t
e
r
m
i
n
a
l
b
l
o
c
k
1
5
-
1
6
(
O
U
T
3
)
a
n
d
1
7
-
1
8
(
O
U
T
4
)
T
w
o
-
p
o
i
n
t
s
P
h
o
t
o
M
O
S
r
e
l
a
y
"
a
"
c
o
n
t
a
c
t
o
u
t
p
u
t
.
R
a
t
e
d
l
o
a
d
c
u
r
r
e
n
t
(
s
t
a
b
i
l
i
z
a
t
i
o
n
)
o
u
t
p
u
t
T
e
r
m
i
n
a
l
b
l
o
c
k
(
4
-
3
)
t
o
b
e
O
N
m
o
r
e
t
h
a
n
5
0
m
s
S
e
l
e
c
t
f
r
o
m
F
o
r
b
i
d
d
e
n
,
H
o
l
d
,
L
a
p
c
o
u
n
t
,
d
i
s
p
l
a
y
e
x
c
h
a
n
g
e
F
o
r
b
i
d
d
e
n
,
H
o
l
d
c
a
n
b
e
a
c
t
i
v
a
t
e
d
w
h
i
l
e
t
e
r
m
i
n
a
l
b
l
o
c
k
(
2
-
3
)
i
s
O
N
.
T
o
a
L
i
n
e
r
e
c
e
i
v
e
r
2
p
h
a
s
e
H
o
w
e
v
e
r
,
d
u
t
y
i
s
5
0
%
(
c
h
a
n
g
e
w
i
t
h
d
i
p
s
w
i
t
c
h
)
H
i
g
h
s
p
e
e
d
i
n
p
u
t
(
s
t
a
b
i
l
i
z
a
t
i
o
n
)
o
u
t
p
u
t
E
l
e
c
t
r
i
c
v
o
l
t
a
g
e
p
u
l
s
e
i
n
p
u
t
(
L
O
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3
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)
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p
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h
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d
hunt the ne
c
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ry
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t
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b
i
t
e
d
D
a
t
a
v
a
l
u
e
,
l
a
t
c
h
s
i
g
n
a
l
,
p
o
s
i
t
i
v
e
/
n
e
g
a
t
i
v
e
s
e
l
e
c
t
a
b
l
e
o
u
t
f
l
o
w
e
l
e
c
t
r
i
c
i
t
y
i
s
a
b
o
u
t
3
m
A
w
h
e
n
s
h
u
n
t
i
n
g
e
a
c
h
i
n
p
u
t
t
e
r
m
i
n
a
l
s
P
5
3.
M
E
T
E
R
I
N
S
TALLAT
I
O
N
(
1
) C
ut the pane
l
and
i
n
s
e
r
t the
m
ete
r
f
r
o
m
the f
r
ont pa
r
t.
*
W
hen
y
ou need a
s
p
l
a
s
h p
r
oof,
i
n
s
e
r
t the atta
c
hed
s
p
l
a
s
h p
r
oof pa
cki
ng bet
w
een
m
ete
r
and
i
n
s
ta
ll
at
i
on pane
l
.
Dim
en
si
on
s
of pane
l
(
2
)
In
s
e
r
t the atta
c
h
m
ent
l
ug
s
i
n both
si
de
s
of the
m
ete
r
.
(
3
)
S
li
de the atta
c
h
m
ent
l
ug
s
to the ba
ck(
to
w
a
r
d
s
the te
rmi
na
l
b
l
o
ck
si
de
)
,
and tu
r
n the
scr
e
w
to
s
tead
y
the
m
ete
r
.
(
both
si
de
s)
N
O
T
E
:
1.
M
a
k
e
s
u
r
e to ho
riz
onta
lly
i
n
s
ta
ll
ed
2.
P
ane
l
ha
s
to be 1.0
mm
to 4.0
mm
th
ick
.
3.
D
o not t
i
ghten the
scr
e
w
too
m
u
c
h.
T
he
c
a
s
e
mi
ght b
r
ea
k
.
M
ete
r
In
s
ta
ll
at
i
on pane
l
S
p
l
a
s
h p
r
oof pa
cki
ng
A
tta
c
he
m
ent pa
r
t
s
A
tta
c
he
m
ent pa
r
t
s
Driv
e
r
P
6
4.
NAM
ES
AND
FUNCT
I
O
N
S
O
F
E
ACH
P
ART
S
I
N
TH
E
FR
O
NT
.
(
1
)
D
i
s
p
l
a
y
(
A
t
o
F
)
W
h
i
l
e
m
e
a
s
u
r
i
n
g
:Ind
ic
ate the
m
ea
s
u
r
ed
v
a
l
ue of
Dis
p
l
a
y
1
(D
1
)
o
r
Dis
p
l
a
y
2
(D
2
)
W
h
il
e
s
ett
i
ng :
W
h
il
e
s
ett
i
ng
m
ode
s
,
Dis
p
l
a
y
A
and
B
i
nd
ic
ate
m
ode nu
m
be
r
and
C
to
F
i
nd
ic
ate
s
ett
i
ng
v
a
l
ue
:
W
h
il
e
s
ett
i
ng p
r
e
s
et
v
a
l
ue, d
is
p
l
a
y
i
nd
ic
ate
s
c
u
rr
ent
v
a
l
ue
:
W
h
il
e
s
ett
i
ng the d
is
p
l
a
y
off
s
et
v
a
l
ue, d
is
p
l
a
y
i
nd
ic
ate
s
c
u
rr
ent
v
a
l
ue
(
2
)
-
(
5
)
O
U
T
1
-
4
A
l
a
r
m
o
u
t
p
u
t
L
E
D
S
y
n
c
h
r
on
ic
a
lly
f
l
a
s
h
w
hen the
O
UT
1 to 4
's
a
l
a
rm
w
a
s
output
(
6
)
O
v
e
r
s
c
a
l
e
L
E
D
Fl
a
s
h
w
hen the
v
a
l
ue e
xc
eed 999999 o
r
be
l
o
w
-
99999.
(
7
)
H
o
l
d
L
E
D
l
a
s
h
w
hen the
r
e
is
e
x
te
r
na
l
i
nput
(s
hunt te
rmi
na
l
b
l
o
ck
#2 and #3
)
(
8
)
M
o
d
e
K
e
y
W
h
il
e tu
r
n
i
ng on :
T
ES
T
m
ode
is
a
c
t
iv
ated
w
hen po
w
e
r
is
tu
r
ned on
w
h
il
e p
r
e
ssi
ng th
is
k
e
y
(T
o e
sc
ape f
r
o
m
T
ES
T
m
ode, tu
r
n off the po
w
e
r)
W
h
il
e
m
ea
s
u
ri
ng :
M
ode
s
ett
i
ng
is
a
c
t
iv
ated
w
hen
S
h
i
ft
k
e
y
is
p
r
e
ss
ed
m
o
r
e than 2
s
e
c
ond
s
w
h
il
e p
r
e
ssi
ng th
is
k
e
y
.
:
P
r
e
s
et
v
a
l
ue
s
ett
i
ng
is
a
c
t
iv
ated
w
hen the
k
e
y
is
p
r
e
ss
ed
m
o
r
e than 2
s
e
c
ond
s
.
:
Dis
p
l
a
y
off
s
et
v
a
l
ue
s
ett
i
ng
is
a
c
t
iv
ated
w
hen
U
p
k
e
y
is
p
r
e
ss
ed
m
o
r
e than
2
s
e
c
ond
s
w
h
il
e p
r
e
ssi
ng th
is
k
e
y
.
W
h
il
e
s
ett
i
ng :
M
ode nu
m
be
r
(Dis
p
l
a
y
A
,
B
)
c
an be
c
hanged o
v
e
r
:
W
h
il
e
s
ett
i
ng p
r
e
s
et
v
a
l
ue, p
r
e
s
et nu
m
be
r
(
P
R
ESE
T
A
to
B
)
c
an be
swi
t
c
hed o
v
e
r
.
(
1
)Dis
p
l
a
y(R
ed
)
(
2
)
A
l
a
rm
output:
O
UT
1
(R
ed
)
(
3
)
A
l
a
rm
output:
O
UT
2
(R
ed
)
(
4
)
A
l
a
rm
output:
O
UT
3
(R
ed
)
(
5
)
A
l
a
rm
output:
O
UT
4
(R
ed
)
(
15
)Dis
p
l
a
y
2 L
E
D
(
G
r
een
)
(
14
)Dis
p
l
a
y
1 L
E
D
(
G
r
een
)
(
7
)H
o
l
d L
E
D(
G
r
een
)
(
6
)
O
v
e
rsc
a
l
e L
E
D(
G
r
een
)
(
12
)
E
nt
r
e
k
e
y
(
13
)R
e
s
et
k
e
y
(
9
)
S
h
i
ft
k
e
y
(
11
)D
o
w
n
k
e
y
(
8
)M
ode
k
e
y
(
10
)U
p
k
e
y
M
ode
P
7
(
9
)
S
h
i
f
t
k
e
y
W
h
il
e
m
ea
s
u
ri
ng :
A
c
t
iv
ate the
m
ode
s
ett
i
ng
(
p
r
e
ss
wi
th the
m
ode
k
e
y
m
o
r
e than 2
s
e
c
ond
s)
B
at
c
h
c
ount nu
m
be
r
will
be d
is
p
l
a
y
ed
w
h
il
e p
r
e
ssi
ng th
is
k
e
y
.
(w
h
il
e
s
e
l
e
c
t
i
ng bat
c
h
c
ount
m
ode
)
W
h
il
e
s
ett
i
ng :
S
h
i
ft the de
cim
a
l
p
l
a
c
e to
w
a
r
d
s
ri
ght hand
si
de.
(
1
0
)
U
p
k
e
y
W
h
il
e
m
ea
s
u
ri
ng :
A
c
t
iv
ate d
is
p
l
a
y
off
s
et
v
a
l
ue
(
p
r
e
ss
wi
th the
m
ode
k
e
y
m
o
r
e than 2
s
e
c
ond
s)
W
h
il
e p
r
e
ssi
ng th
is
k
e
y
, nu
m
be
r
of t
im
e
s
e
xc
eeded the
limi
t
is
i
nd
ic
ated.
W
h
il
e
s
ett
i
ng :
C
hange the
v
a
l
ue
w
h
il
e
s
ett
i
ng
(U
P
si
de
)
(
1
1
)
D
o
w
n
k
e
y
W
h
il
e
s
ett
i
ng :
C
hange the
v
a
l
ue
w
h
il
e
s
ett
i
ng
(D
O
WN
si
de
)
:
A
c
t
iv
ate o
r
m
od
i
f
y
m
ode p
r
ote
c
t fun
c
t
i
on
(
1
2
)
E
n
t
e
r
k
e
y
W
h
il
e tu
r
n
i
ng on :
F
o
rm
at the ea
c
h
s
et
v
a
l
ue
s
b
y
tu
r
n
i
ng on
w
h
il
e p
r
e
ssi
ng th
is
k
e
y
W
h
il
e
m
ea
s
u
ri
ng :
C
hange the d
is
p
l
a
y
f
r
o
m
Dis
p
l
a
y
1
(D
1
)
and
Dis
p
l
a
y
2
(D
2
)
W
h
il
e
s
ett
i
ng :
W
h
il
e
s
ett
i
ng,
v
a
l
ue
will
be
r
eg
is
te
r
ed
wi
th th
is
k
e
y
and
r
etu
r
n to the
m
ea
s
u
ri
ng
d
is
p
l
a
y
(
1
3
)
R
e
s
e
t
k
e
y
W
h
il
e
m
ea
s
u
ri
ng :
S
wi
t
c
h ba
ck
the d
is
p
l
a
y
to
"Z
E
R
O
"
o
r
c
an
c
e
l
the a
l
a
rm
output
S
wi
t
c
h ba
ck
the bat
c
h
c
ount d
is
p
l
a
y
to
"Z
E
R
O
"
W
h
il
e
s
ett
i
ng :
W
h
il
e
s
ett
i
ng,
v
a
l
ue
will
not be
r
eg
is
te
r
ed
wi
th th
is
k
e
y
and
r
etu
r
n to the
m
ea
s
u
ri
ng d
is
p
l
a
y
.
(
1
4
)
D
i
s
p
l
a
y
1
L
E
D
Will
f
l
a
s
h
w
hen d
is
p
l
a
yi
ng the
v
a
l
ue of
Dis
p
l
a
y
1
(D
1
)
(
1
5
)
D
i
s
p
l
a
y
2
L
E
D
Will
f
l
a
s
h
w
hen d
is
p
l
a
yi
ng the
v
a
l
ue of
Dis
p
l
a
y
2
(D
2
)
*
D
1 and
D
2
is
the one
c
ho
s
en b
y
the
m
ode 00
's
m
ea
s
u
ri
ng
c
a
lc
u
l
at
i
on
E
NT
R
S
T
P
8
5.
C
O
NN
E
CT
I
N
G
T
E
RM
I
NAL
BL
O
CK
<
N
P
N
o
p
e
n
c
o
l
l
e
c
t
o
r
p
u
l
s
e
,
e
l
e
c
t
r
i
c
v
o
l
t
a
g
e
p
u
l
s
e
,
9
0
°
p
h
a
s
e
c
o
n
t
r
a
s
t
i
n
p
u
t
>
C
a
u
t
i
o
n
!
(
1
)C
he
ck
po
w
e
r
s
upp
ly
1.
B
e
c
a
r
efu
l
not to get a
s
ho
ck
w
h
il
e
wiri
ng.
2.
P
a
y
attent
i
on
i
f the un
i
t
is
fo
r
A
C
po
w
e
r
s
upp
ly
t
y
pe o
r
DC
po
w
e
r
s
upp
ly
t
y
pe
3. In
c
a
s
e of
DC
po
w
e
r
s
upp
ly
,
c
a
r
efu
lly
c
he
ck
+
,
-
.
D
o not
c
onne
c
t othe
r
w
a
y
r
ound
(
2
)C
he
ck
the na
m
e
s
of te
rmi
na
ls
and
wir
e the
m
c
o
rr
e
c
t
ly
(
3
)Wiri
ng d
i
ffe
rs
depend
i
ng on the
s
en
s
o
rs
.
R
efe
r
to the
wiri
ng d
i
ag
r
a
m
on
P
11.
M
a
xim
u
m
po
w
e
r
s
upp
ly
to
s
en
s
o
r
is
DC
12
V
100
m
A
(
opt
i
ona
lly
:
DC
24
V
60
m
A
)
, ne
v
e
r
o
v
e
r
l
oad.
Wr
ong
wiri
ng
mi
ght
c
au
s
e da
m
age
s
to
s
en
s
o
r
o
r
circ
u
i
t.
(
4
)M
a
k
e
s
u
r
e to t
i
ghten the
scr
e
ws
on the te
rmi
na
l
b
l
o
ck
(
5
)
A
bout
B
CD
output, p
l
ea
s
e
r
efe
r
to
"
B
CD
output
"
on
P
48
A
bout
B
CD
i
nput, p
l
ea
s
e
r
efe
r
to
"
B
CD
i
nput
"
on
P
49
(
6
)
S
en
s
o
r's
po
w
e
r
s
ou
rc
e
s
hou
l
d not be u
s
ed fo
r
othe
r
u
s
age.
E
n
c
ode
r
90
°
pha
s
e
c
ont
r
a
s
t
(
O
pt
i
on
)
P
u
ls
e
s
en
s
o
r
B
P
u
ls
e
s
en
s
o
r
A
R
e
s
et
E
x
te
r
na
l
Input
N
P
N
O
pen
c
o
ll
e
c
to
r
pu
ls
e output
output/
i
nput
(
O
pt
i
on
A
na
l
og output
(
O
pt
i
on
)
P
o
w
e
r
s
upp
ly
R
e
l
a
y
output
(
P
hoto
M
O
S
r
e
l
a
y
)
P
9
<
S
i
n
u
s
o
i
d
a
l
,
s
i
n
e
c
u
r
v
e
,
l
i
n
e
r
e
c
e
i
v
e
r
i
n
p
u
t
>
C
a
u
t
i
o
n
!
(
1
)C
he
ck
po
w
e
r
s
upp
ly
1.
B
e
c
a
r
efu
l
not to get a
s
ho
ck
w
h
il
e
wiri
ng.
2.
P
a
y
attent
i
on
i
f the un
i
t
is
fo
r
A
C
po
w
e
r
s
upp
ly
t
y
pe o
r
DC
po
w
e
r
s
upp
ly
t
y
pe
3. In
c
a
s
e of
DC
po
w
e
r
s
upp
ly
,
c
a
r
efu
lly
c
he
ck
+
,
-
.
D
o not
c
onne
c
t othe
r
w
a
y
r
ound
(
2
)C
he
ck
the na
m
e
s
of te
rmi
na
ls
and
wir
e the
m
c
o
rr
e
c
t
ly
(
3
)Wiri
ng d
i
ffe
rs
depend
i
ng on the
s
en
s
o
rs
.
R
efe
r
to the
wiri
ng d
i
ag
r
a
m
on
P
11.
M
a
xim
u
m
po
w
e
r
s
upp
ly
to
s
en
s
o
r
is
DC
12
V
100
m
A
(
opt
i
ona
lly
:
DC
24
V
60
m
A
)
, ne
v
e
r
o
v
e
r
l
oad.
Wr
ong
wiri
ng
mi
ght
c
au
s
e da
m
age
s
to
s
en
s
o
r
o
r
circ
u
i
t.
(
4
)M
a
k
e
s
u
r
e to t
i
ghten the
scr
e
ws
on the te
rmi
na
l
b
l
o
ck
(
5
)
A
bout
B
CD
output, p
l
ea
s
e
r
efe
r
to
"
B
CD
output
"
on
P
48
A
bout
B
CD
i
nput, p
l
ea
s
e
r
efe
r
to
"
B
CD
i
nput
"
on
P
49
(
6
)Wi
th
li
ne
r
e
c
e
iv
e
r
i
nput
(
L1,L2
)
t
y
pe, te
rmi
na
l
b
l
o
ck
#9 and #10
will
be
i
nput te
rmi
na
l
.
S
o a
l
a
rm
output
O
UT
1 and
O
UT
2
c
annot be u
s
ed.
(
7
)
S
en
s
o
r's
po
w
e
r
s
ou
rc
e
s
hou
l
d not be u
s
ed fo
r
othe
r
u
s
age.
R
e
s
et
S
i
nu
s
o
i
da
l
i
nput
(
O
pt
i
on
)
S
i
ne
c
u
rv
e
i
nput
(
O
pt
i
on
)
E
x
t
r
a po
w
e
r
s
upp
ly
L
i
ne d
riv
e
r
(
O
pt
i
on
)
W
hen
li
ne
r
e
c
e
iv
e
r
i
nput
B
CD
output/
i
nput
(
opt
i
on
)
N
P
N
O
pen
c
o
ll
e
c
to
r
pu
ls
e output
R
e
l
a
y
output
P
o
w
e
r
s
upp
ly
A
na
l
og output
(
opt
i
on
)
(
P
hoto
M
O
S
r
e
l
a
y
)
P
10
<
C
o
n
n
e
c
t
i
o
n
d
i
a
g
r
a
m
s
f
o
r
e
a
c
h
s
e
n
s
o
r
>
A
.
D
C
t
h
r
e
e
w
i
r
e
s
t
y
l
e
p
u
l
s
e
s
e
n
s
o
r
B
.
D
C
t
w
o
w
i
r
e
s
t
y
l
e
p
u
l
s
e
s
e
n
s
o
r
C
.
C
o
n
t
a
c
t
o
u
t
p
u
t
s
e
n
s
o
r
D
.
9
0
°
p
h
a
s
e
c
o
n
t
r
a
s
t
i
n
p
u
t
E
.
S
i
n
u
s
o
i
d
a
l
/
S
i
n
e
c
u
r
v
e
i
n
p
u
t
F
.
L
i
n
e
r
e
c
e
i
v
e
r
i
n
p
u
t
G
.
T
h
r
e
e
w
i
r
e
c
u
r
r
e
n
t
m
o
d
u
l
a
t
e
d
p
u
l
s
e
s
e
n
s
o
r
H
.
T
w
o
w
i
r
e
c
u
r
r
e
n
t
m
o
d
u
l
a
t
e
d
p
u
l
s
e
s
e
n
s
o
r
P
11
6
.
F
O
R
M
A
T
O
F
I
N
P
U
T
C
I
R
C
U
I
T
(
1
)
S
e
n
s
o
r
i
n
p
u
t
:
N
P
N
o
p
e
n
c
o
l
l
e
c
t
o
r
p
u
l
s
e
i
n
p
u
t
o
r
v
o
l
t
a
g
e
c
o
n
t
a
c
t
i
n
p
u
t
(
2
)
S
e
n
s
o
r
i
n
p
u
t
:
E
l
e
c
t
r
i
c
p
u
l
s
e
i
n
p
u
t
(
3
)
R
e
s
e
t
/
E
x
t
e
r
n
a
l
i
n
p
u
t
(
N
P
N
o
p
e
n
c
o
l
l
e
c
t
o
r
p
u
l
s
e
i
n
p
u
t
)
o
r
o
r
S
en
s
o
r
P
o
w
e
r
P
12
7
.
F
O
R
M
A
T
O
F
O
U
T
P
U
T
C
I
R
C
U
I
T
(
1
)
A
l
a
r
m
i
n
p
u
t
(
O
U
T
1
/
O
U
T
2
)
:
N
P
N
O
p
e
n
c
o
l
l
e
c
t
o
r
p
u
l
s
e
o
u
t
p
u
t
(
2
)
A
l
a
r
m
o
u
t
p
u
t
(
O
U
T
3
/
O
U
T
4
)
:
P
h
o
t
o
M
O
S
r
e
l
a
y
o
u
t
p
u
t
P
13
8
.
S
E
T
T
I
N
G
U
P
T
H
E
D
I
P
S
W
I
T
C
H
Fi
g. 20
S
e
t
t
i
n
g
u
p
t
h
e
D
I
P
S
w
i
t
c
h
Di
p
swi
t
c
h
s
ett
i
ng
c
an
swi
t
c
h
m
ode f
r
o
m
i
nput
r
e
s
pond f
r
equen
cy
,
N
P
N
open
c
o
ll
e
c
to
r
pu
ls
e
i
nput
and e
l
e
c
t
ric
pu
ls
e
i
nput
T
ab
l
e 1
B
.I
N
A
.I
N
123456
O
N
O
FF
O
FF
O
N
O
FF
O
N
O
N
O
FF
O
FF
O
FF
O
FF
O
FF
O
FF
O
FF
O
FF
O
FF
O
N
O
N
O
FF
O
FF
(
1
) Di
p
swi
t
c
h
c
an be found f
r
o
m
the
sli
t on the
ri
ght
si
de
's
c
o
r
ne
r
of the
m
a
i
n bod
y
.
(R
ef.
Fi
g. 20
)
If
i
t
is
not
c
on
v
en
i
ent to
s
et, pu
ll
out the
P
C
B
f
r
o
m
the
c
a
s
e and do the
s
ett
i
ng.
(
2
) F
o
ll
o
wi
ng th
r
ee
ki
nd
s
of
i
nput t
y
pe ha
s
to be u
s
ed
wi
th the fa
c
to
ry
p
r
e
s
et
m
ode;
S
i
nu
s
o
i
da
l
i
nput
(
V
3
)
,
si
ne
c
u
rv
e
i
nput
(N)
and
li
ne
r
e
c
e
iv
e
r
i
nput
(
L1, L2
)
.
(
3
) F
o
r
90
°
pha
s
e
c
ont
r
a
s
t
i
nput
(R
E
)
t
y
pe,
m
a
k
e
s
u
r
e to
k
eep the fa
c
to
ry
p
r
e
s
et
m
ode
(H
I
)
fo
r
both
A
/
B
i
nout fo
r
r
e
s
pond f
r
equen
cy
.
(
4
) Di
p
swi
t
c
h
s
ett
i
ng
m
u
s
t be done b
y
the
c
o
m
b
i
nat
i
on
s
s
ho
w
n on the abo
v
e
c
ha
r
t.
T
he u
s
age of the
c
o
m
b
i
nat
i
on
w
h
ic
h
is
not
i
nd
ic
ated abo
v
e
mi
ght
c
au
s
e
s
o
m
e e
rr
o
r
.
b
l
a
c
k
s
h
o
w
s
t
h
e
s
ett
i
ng
N
P
N
O
pen
C
o
ll
e
c
to
r
P
u
ls
e Input
V
o
l
tage
P
u
ls
e Input
B
. I
N
A
. I
N
m
a
x
.
li
n
k
e
j
e
c
t
i
ng f
r
equen
cy
0.01
Hz-
50
Hz
(
L
O
W)
m
a
x
.
li
n
k
e
j
e
c
t
i
ng f
r
equen
cy
0.01
Hz-
1
kHz
(M
I
D)
m
a
x
.
li
n
k
e
j
e
c
t
i
ng f
r
equen
cy
0.01
Hz-
10
kHz
(H
I
)
m
a
x
.
li
n
k
e
j
e
c
t
i
ng f
r
equen
cy
0.01
Hz-
120
kHz
(
O
P
.
)
D
I
P
S
W
I
TCH
P
u
s
h the 4 tab
s
at the
si
de of
c
a
s
e
and pu
ll
the
P
C
B
ba
ckw
o
r
d
s
P
u
s
h the fou
r
hoo
ks
P
14
9
.
S
E
T
T
I
N
G
M
E
N
U
P
o
w
e
r
O
FF
T
e
s
t
M
ode
R
e
s
et
M
e
s
u
r
e
m
ent
Dis
p
l
a
y
M
o
d
e
M
o
d
e
M
o
d
e
M
o
d
e
M
o
d
e
M
o
d
e
M
o
d
e
M
o
d
e
M
o
d
e
M
o
d
e
P
o
w
e
r
O
FF
S
o
f
t
w
a
r
e
v
e
r
.
L
E
D
K
e
y
I
n
p
u
t
T
e
s
t
T
e
r
m
i
n
a
l
B
o
a
r
d
I
n
p
u
t
T
e
s
t
O
utput
T
e
s
t
S
e
n
s
o
r
I
n
p
u
t
T
e
s
t
A
n
a
l
o
g
O
u
t
p
u
t
T
e
s
t
B
C
D
O
u
t
p
u
t
T
e
s
t
B
C
D
I
n
p
u
t
T
e
s
t
Lat
c
h
S
i
gna
l
Input
H
o
l
d
R
e
s
e
t
A
i
n
p
u
t
B
i
n
p
u
t
M
o
d
e
P
r
o
t
e
c
t
"
O
N
"
M
o
d
e
P
r
o
t
e
c
t
"
O
F
F
"
M
o
d
e
P
r
o
t
e
c
t
F
u
n
c
t
i
o
n
P
u
s
h
t
h
e
D
o
w
n
k
e
y
f
o
r
2
s
e
c
o
n
d
s
.
P
o
w
e
r
O
N
w
h
i
l
e
p
u
s
h
i
n
g
t
h
e
M
o
d
e
k
e
y
.
M
o
d
e
P
o
w
e
r
O
N
w
h
i
l
e
p
u
s
h
i
n
g
t
h
e
E
n
t
e
r
k
e
y
.
E
NT
P
o
w
e
r
O
N
M
o
d
e
E
NT
R
S
T
M
o
d
e
U
p
D
o
w
n
S
h
i
f
t
E
n
t
e
r
R
e
s
e
t
B
a
t
c
h
O
v
e
r
n
u
m
b
e
r
o
f
t
i
m
e
s
P
u
s
h
t
h
e
U
p
k
e
y
f
o
r
2
s
e
c
o
n
d
s
w
h
i
l
e
p
u
s
h
i
n
g
t
h
e
M
o
d
e
k
e
y
.
S
e
t
t
i
n
g
t
h
e
O
f
s
e
t
1
S
e
t
t
i
n
g
t
h
e
O
f
s
e
t
2
S
e
t
t
i
n
g
t
h
e
A
(
O
u
t
1
&
3
)
S
e
t
t
i
n
g
t
h
e
B
(
O
u
t
2
&
4
)
P
u
s
h
t
h
e
M
o
d
e
k
e
y
f
o
r
2
s
e
c
o
n
d
s
E
NT
:
R
e
c
o
r
d
a
n
d
f
i
n
i
s
h
R
S
T
:
U
n
r
e
c
o
r
d
a
n
d
f
i
n
i
s
h
S
e
t
t
i
n
g
t
h
e
B
C
D
I
n
p
u
t
S
e
t
t
i
n
g
t
h
e
B
C
D
O
u
t
p
u
t
S
e
t
t
i
n
g
t
h
e
D
i
s
p
l
a
y
o
f
M
a
x
.
A
n
a
l
o
g
o
u
t
p
u
t
S
e
t
t
i
n
g
t
h
e
A
n
a
l
o
g
'
s
D
i
s
p
l
a
y
S
e
t
t
i
n
g
t
h
e
R
S
T
k
e
y
S
e
t
t
i
n
g
t
h
e
E
x
t
e
r
n
a
l
I
n
p
u
t
F
u
n
c
i
o
n
S
e
t
t
i
n
g
t
h
e
A
l
a
r
m
s
i
g
n
a
l
3
S
e
t
t
i
n
g
t
h
e
S
c
a
l
i
n
g
D
a
t
a
(
I
n
p
u
t
B
)
S
e
t
t
i
n
g
t
h
e
D
i
s
p
l
a
y
S
e
t
t
i
n
g
t
h
e
A
l
a
r
m
s
i
g
n
a
l
2
S
e
t
t
i
n
g
t
h
e
A
l
a
r
m
s
i
g
n
a
l
1
S
e
t
t
i
n
g
t
h
e
E
X
P
v
a
l
u
e
(
I
n
p
u
t
B
)
S
e
t
t
i
n
g
t
h
e
S
c
a
l
i
n
g
D
a
t
a
(
I
n
p
u
t
A
)
S
e
t
t
i
n
g
t
h
e
E
X
P
v
a
l
u
e
(
I
n
p
u
t
A
)
P
u
s
h
t
h
e
S
h
i
f
t
k
e
y
f
o
r
2
s
e
c
o
n
d
s
w
h
i
l
e
p
u
s
h
i
n
g
t
h
e
M
o
d
e
k
e
y
.
E
NT
:
R
e
c
o
r
d
a
n
d
f
i
n
i
s
h
R
S
T
:
U
n
r
e
c
o
r
d
a
n
d
f
i
n
i
s
h
M
o
d
e
M
o
d
e
M
o
d
e
P
15
1
0
.
I
N
I
T
I
A
L
V
A
L
U
E
A
N
D
I
N
I
T
I
A
L
I
Z
A
T
I
O
N
If the
s
pe
ci
a
l
r
eque
s
t
w
a
s
m
ade p
ri
o
r
to
s
h
i
p
m
ent,
i
n
i
t
i
a
l
v
a
l
ue
is
s
et a
s
r
equ
ir
ed.
Wi
thout the
r
eque
s
t,
i
n
i
t
i
a
l
v
a
l
ue
is
s
et a
s
be
l
o
w
.
S
e
t
v
a
l
u
e
f
o
r
e
a
c
h
m
o
d
e
A B
C D
E
F
0 0. 0 0 0 0
0 1. 1 0 0 0
0 2. 3 0 0 0
0 3. 1 0 0 0
0 4. 3 0 0 1
0 5. 0
- -
0
- -
0 6. 0 0
-
0
-
0 7. 1 3 1 3
0 8. 0
-
0 0
-
0 9.
-
014
-
1 0. 0 0 0 0
1 1. 1 0 0 0
1 2. 0
-
0 0
-
1
3
.
0
-
0
1
-
E
a
c
h
p
r
e
s
e
t
v
a
l
u
e
999999
9
9
9
9
9
9
D
i
s
p
l
a
y
o
f
f
s
e
t
v
a
l
u
e
000000
0
0
0
0
0
0
M
o
d
e
p
r
o
t
e
c
t
s
e
t
t
i
n
g
v
a
l
u
e
I
n
i
t
i
a
l
i
z
a
t
i
o
n
In
i
t
i
a
liz
at
i
on
c
an be done b
y
tu
r
n
i
ng the po
w
e
r
on
w
h
il
e p
r
e
ssi
ng
E
NT
k
e
y
.
A
fte
r
the
i
n
i
t
i
a
liz
at
i
on,
s
et
v
a
l
ue
will
be a
s
c
ha
r
t 2, 3, 4 and 5.
c
a
lc
u
l
at
i
on ho
l
d
i
ng data and bat
c
h
c
ount data
will
be
s
et a
s
Z
E
R
O
.
C
a
u
t
i
o
n
In
i
t
i
a
liz
at
i
on
m
a
k
e
s
e
v
e
ry
c
u
rr
ent
s
et
v
a
l
ue to be
r
e
s
et.
R
e
c
o
r
d the
c
u
rr
ent
v
a
l
ue p
ri
o
r
to the
i
n
i
t
i
a
liz
at
i
on.
*
If the
i
nte
r
na
l
c
o
m
pute
r
ha
s
i
nte
r
fe
r
en
c
e due to
s
o
m
e e
x
te
r
na
l
fa
c
to
rs
s
u
c
h a
s
no
is
e,
fo
ll
o
w
the abo
v
e
s
tep
s
and do the
i
n
i
t
i
a
liz
at
i
on, then
s
et the
v
a
l
ue a
s
r
equ
ir
ed.
M
ode p
r
ote
c
t
s
ett
i
ng
v
a
l
ue
L
-
O
F
F
O
F
F
S
E
T
2
i
n
i
t
i
a
l
v
a
l
u
e
m
e
m
o
i
n
i
t
i
a
l
v
a
l
u
e
m
e
m
o
O
FF
SE
T
1
P
R
ESE
T
A
P
R
E
S
E
T
B
M
o
d
e
#
i
n
i
t
i
a
l
v
a
l
u
e
m
e
m
o
i
n
i
t
i
a
l
v
a
l
u
e
m
e
m
o
P
16
1
1
.
C
O
N
T
E
N
T
S
O
F
E
A
C
H
M
O
D
E
A
N
D
S
E
T
T
I
N
G
M
E
T
H
O
D
1
.
K
e
y
o
p
e
r
a
t
i
o
n
s
f
o
r
e
a
c
h
m
o
d
e
s
e
t
t
i
n
g
C
a
u
t
i
o
n
1.
D
o not tu
r
n off the po
w
e
r
w
h
il
e
r
eg
is
te
ri
ng the
s
et
v
a
l
ue
(
f
r
o
m
p
r
e
ssi
ng
E
NT
unt
il
r
etu
r
n to
m
ea
s
u
rm
ent d
is
p
l
a
y)
2.
T
u
r
n
O
FF
the
m
ode p
r
ote
c
t
w
h
il
e unde
r
go
i
ng
m
ode
s
ett
i
ng.
Wi
th a
c
t
iv
at
i
ng
m
ode p
r
ote
c
t,
s
et
v
a
l
ue
c
annot be
c
hanged.
F
o
r
m
o
r
e deta
ils
of
m
ode p
r
ote
c
t fun
c
t
i
on,
r
efe
r
to
P
45.
Dis
p
l
a
y
O
pe
r
at
i
on p
r
o
c
edu
r
e.
P
r
e
ss
s
h
i
ft
k
e
y
m
o
r
e than 2
s
e
c
ond
s
w
h
il
e p
r
e
ssi
ng
the
m
ode
k
e
y
.
Dis
p
l
a
y
A
/
B
will
s
ho
w
[00] and
m
ode [00]
will
be
app
li
ed.
C
hange the po
si
t
i
on of f
l
a
s
h
i
ng d
i
g
i
t.
O
ne h
i
t
m
a
k
e
s
1d
i
g
i
t
m
o
v
e
ri
ght hand
si
de.
C
hange the
v
a
l
ue of f
l
a
s
h
i
ng d
i
g
i
t.
O
ne h
i
t
m
a
k
e
s
the
v
a
l
ue b
i
gge
r
b
y
1.
S
o
m
e d
i
g
i
t
mi
ght not go up t
il
9 depend
i
ng on the
s
ett
i
ng
i
te
m
.
C
hange the
v
a
l
ue of f
l
a
s
h
i
ng d
i
g
i
t.
O
n
e
h
i
t
m
a
k
e
s
t
h
e
v
a
l
u
e
s
m
a
l
l
e
r
b
y
1
.
S
o
m
e d
i
g
i
t
mi
ght not go up t
il
9 depend
i
ng on the
s
ett
i
ng
i
te
m
.
C
hange the
m
ode nu
m
be
r
.
O
ne h
i
t
c
hoo
s
e
s
one
m
ode fu
r
the
r
. In tota
l
, the
r
e a
r
e 13
m
ode
s
.
R
eg
is
te
r
the
s
et
v
a
l
ue.
A
fte
r
f
i
n
is
h
i
ng the
s
ett
i
ng,
r
eg
is
te
r
s
ett
i
ng
wi
th th
is
k
e
y
.
A
fte
r
r
eg
is
t
r
at
i
on,
m
ea
s
u
rm
ent d
is
p
l
a
y
will
appea
r
.
R
etu
r
n to
m
ea
s
u
r
e
m
ent d
is
p
l
a
y
wi
thout
r
eg
is
te
ri
ng
the
s
et
v
a
l
ue.
P
17
2
.
W
h
i
c
h
m
o
d
e
t
o
b
e
s
e
t
1.
S
et the
m
u
l
t
i
p
lyi
ng fa
c
to
r
pe
r
one
i
nput
si
gna
l
.
M
ode 01
(
P
.22
)
A
i
n
p
u
S
ett
i
ng of
sc
a
li
ng data
(c
on
v
e
r
te
r)
M
ode 02
(
P
.23
)
A
i
n
p
u
S
ett
i
ng of
EXP
v
a
l
ue and f
r
equen
cy
d
ivi
de
r
.
M
ode 03
(
P
.24
)
B
i
n
p
u
S
ett
i
ng of
sc
a
li
ng data
(c
on
v
e
r
te
r)
M
ode 04
(
P
.24
)
B
i
n
p
u
S
ett
i
ng of
EXP
v
a
l
ue and f
r
equen
cy
d
ivi
de
r
.
2.
A
bout
c
a
lc
u
l
at
i
on and
m
ea
s
u
r
e
m
ent
m
ethod
M
ode 00
(
P
.19
)
s
ett
i
ng of
c
a
lc
u
l
at
i
on
m
ea
s
u
r
e
m
ent
m
ethod
*
T
h
is
s
ett
i
ng
is
m
andato
ry
w
hen
R
E
opt
i
on
is
c
ho
s
en.
M
ode 08
(
P
.31
-
33
)
s
ett
i
ng of o
v
e
rsc
a
l
e d
is
p
l
a
y
3.
A
bout a
l
a
rm
output
(
O
UT
1
-
4
)
M
ode 05
(
P
.25
-
27
)
S
ett
i
ng of a
l
a
rm
output 1
M
ode 06
(
P
.28
-
29
)
S
ett
i
ng of a
l
a
rm
output 2
M
ode 07
(
P
.30
)
S
ett
i
ng of a
l
a
rm
output 3
F
o
r
the
m
ethod of
s
ett
i
ng p
r
e
s
et
v
a
l
ue,
r
efe
r
to
P
.43
4.
A
bout ana
l
og output
(
AV
/
A
I opt
i
on
)
M
ode 10
(
P
.36
-
37
)
A
na
l
og output :
s
ett
i
ng of output
s
t
yl
e, output d
i
g
i
t,
r
e
v
e
rs
e output,
and output d
is
p
l
a
y
M
ode 11
(
P
.38
-
39
)
A
na
l
og output :
s
ett
i
ng of the d
is
p
l
a
y
v
a
l
ue at the
m
a
xim
u
m
output
5.
A
bout the d
is
p
l
a
y
(
1
) Dis
p
l
a
y
afte
r
the de
cim
a
l
po
i
nt
M
ode 00
(
P
.19
)
Dis
p
l
a
y
1 : po
si
t
i
on of de
cim
a
l
po
i
nt
Dis
p
l
a
y
2 :
s
ett
i
ng of de
cim
a
l
po
i
nt po
si
t
i
on
(
2
) Cl
ea
r
the d
is
p
l
a
y
M
ode 08
(
P
.31
-
33
)
S
ett
i
ng of b
l
an
k
d
is
p
l
a
y
(
3
) C
hange the a
ri
th
m
et
ic
m
ea
s
u
r
e
m
ent d
is
p
l
a
y
v
a
l
ue afte
r
r
e
s
et
s
ett
i
ng of d
is
p
l
a
y
off
s
et
(
P
.44
)
(
4
) Cl
ea
r
the
l
a
s
t
m
ea
s
u
r
e
m
ent data
w
h
il
e the po
w
e
r
is
on
M
ode 09
(
P
.34
-
35
)
R
e
s
et
m
ode
w
h
il
e the po
w
e
r
is
on
(
5
) Cl
ea
r
Dis
p
l
a
y
1 o
r
2
w
h
il
e
r
e
s
ett
i
ng
M
ode 09
(
P
.34
-
35
)
s
e
l
e
c
t
i
on of
r
e
s
et d
is
p
l
a
y
(
6
)
S
wi
t
c
h bet
w
een d
is
p
l
a
y
1 and 2 b
y
k
e
y
i
nput
M
ode 00
(
P
.19
)
Dis
p
l
a
y
s
e
l
e
c
t
i
on
(
7
)
S
wi
t
c
h bet
w
een d
is
p
l
a
y
1 and 2 b
y
e
x
te
r
na
l
i
nput
M
ode 08
(
P
.31
-
33
)
s
e
l
e
c
t
i
on of e
x
te
r
na
l
i
nput fun
c
t
i
on
s
6.
A
bout othe
r
fun
c
t
i
on
s
(
1
)
A
bout u
s
age of e
x
te
r
na
l
output
(
fo
r
b
i
dden, ho
l
d,
l
ap
c
ount, d
is
p
l
a
y
swi
t
c
h
)
M
ode 08
(
P
.31
-
33
)
s
e
l
e
ci
ton of e
x
te
r
na
l
i
nput fu
cc
t
i
on
s
(
2
)
A
bout
r
e
s
et
k
e
y
a
c
t
i
on
M
ode 09
(
P
.34
-
35
)
r
e
s
et
k
e
y
a
c
t
i
on
m
ode
(
3
)
P
r
ote
c
t
m
ode
s
ett
i
ng
v
a
l
ue
M
ode p
r
ote
c
t fun
c
t
i
on
(
P
.45
)
(
4
)
O
utput d
is
p
l
a
y
v
a
l
ue b
y
B
CD
(
B
opt
i
on
)
M
ode 12
(
P
.40
-
41
)
S
ett
i
ng of
B
CD
output
(
5
)
Input p
r
e
s
et
v
a
l
ue b
y
B
CD
(
B
I opt
i
on
)
M
ode 13
(
P
.42
-
43
)
s
ett
i
ng of
B
CD
i
nput
P
18
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