45
XC-L5
•
Pin Function
.
o
N
e
m
a
N
n
i
P
O
/
I
n
o
i
t
c
n
u
F
.
o
N
e
m
a
N
n
i
P
O
/
I
n
o
i
t
c
n
u
F
1
O
S
Q
S
O
t
u
p
t
u
o
a
t
a
d
l
e
v
e
l
d
n
a
k
a
e
p
M
C
P
,
t
i
b
-
0
8
Q
b
u
S
t
u
p
t
u
o
a
t
a
d
T
X
E
T
D
C
1
4
E
T
I
t
u
p
n
i
r
o
r
r
e
g
n
i
k
c
a
r
T
2
K
C
Q
S
I
t
u
o
d
a
e
r
O
S
Q
S
r
o
f
t
u
p
n
i
k
c
o
l
C
2
4
E
C
I
t
u
p
n
i
g
o
l
a
n
a
o
v
r
e
s
r
e
t
n
e
C
3
T
S
R
X
I
"
L
"
n
e
h
w
t
e
s
e
R
t
e
s
e
r
m
e
t
s
y
S
3
4
C
D
F
R
I
t
u
p
n
i
l
a
n
g
i
s
F
R
4
M
S
Y
S
I
"
H
"
n
e
h
w
e
t
u
M
t
u
p
n
i
e
t
u
M
4
4
O
I
D
A
O
t
u
p
t
u
o
r
e
i
f
il
p
m
a
P
O
5
A
T
A
D
I
U
P
C
m
o
r
f
t
u
p
n
i
a
t
a
d
l
a
i
r
e
S
5
4
V
A
S
S
0
−
D
N
G
g
o
l
a
n
A
6
T
A
L
X
I
U
P
C
m
o
r
f
t
u
p
n
i
h
c
t
a
L
.
e
g
d
e
g
n
il
l
a
f
e
h
t
t
a
d
e
h
c
t
a
l
s
i
a
t
a
d
l
a
i
r
e
S
6
4
N
E
G
I
I
r
e
i
f
il
p
m
a
P
O
r
o
f
t
u
p
n
i
t
n
e
r
r
u
c
t
n
a
t
s
n
o
C
7
K
O
L
C
I
U
P
C
m
o
r
f
t
u
p
n
i
k
c
o
l
c
r
e
f
s
n
a
r
t
a
t
a
d
l
a
i
r
e
S
7
4
V
A
D
D
0
−
y
l
p
p
u
s
r
e
w
o
p
g
o
l
a
n
A
8
S
N
E
S
O
U
P
C
o
t
t
u
p
t
u
o
S
N
E
S
8
4
O
Y
S
A
O
)
D
D
V
=
"
H
"
,
S
S
V
=
"
L
"
(
t
u
p
t
u
o
g
n
i
w
s
-
ll
u
f
M
F
E
9
K
L
C
S
I
t
u
o
d
a
e
r
a
t
a
d
-
l
a
i
r
e
s
S
N
E
S
r
o
f
t
u
p
n
i
k
c
o
l
C
9
4
I
Y
S
A
I
t
u
p
n
i
e
g
a
t
l
o
v
e
t
a
r
a
p
m
o
c
y
r
t
e
m
m
y
s
A
0
1
V
D
D
−
y
l
p
p
u
s
r
e
w
o
p
l
a
t
i
g
i
D
0
5
S
A
I
B
I
t
i
u
c
r
i
c
y
r
t
e
m
m
y
s
a
e
h
t
f
o
t
u
p
n
i
t
n
e
r
r
u
c
t
n
a
t
s
n
o
C
1
1
K
S
T
A
O
/
I
k
c
o
h
s
-
i
t
n
u
r
o
f
t
u
p
t
u
o
d
n
a
t
u
p
n
I
1
5
C
A
F
R
I
t
u
p
n
i
l
a
n
g
i
s
M
F
E
2
1
A
O
P
S
I
)
A
t
u
p
n
i
(
e
c
a
f
r
e
t
n
i
d
e
d
n
e
t
x
e
r
e
t
u
p
m
o
c
o
r
c
i
M
2
5
V
A
S
S
3
−
D
N
G
g
o
l
a
n
A
3
1
B
O
P
S
I
)
B
t
u
p
n
i
(
e
c
a
f
r
e
t
n
i
d
e
d
n
e
t
x
e
r
e
t
u
p
m
o
c
o
r
c
i
M
3
5
V
T
L
C
I
r
e
t
s
a
m
r
o
f
t
u
p
n
i
e
g
a
t
l
o
v
l
o
r
t
n
o
c
O
C
V
4
1
N
O
L
X
O
)
t
u
p
t
u
o
(
e
c
a
f
r
e
t
n
i
d
e
d
n
e
t
x
e
r
e
t
u
p
m
o
c
o
r
c
i
M
4
5
O
L
I
F
O
)
L
L
P
l
a
t
i
g
i
d
=
e
v
a
l
S
(
L
L
P
r
e
t
s
a
m
r
o
f
t
u
p
t
u
o
r
e
t
li
F
5
1
K
C
F
W
O
t
u
p
t
u
o
K
C
F
W
5
5
I
L
I
F
I
L
L
P
r
e
t
s
a
m
r
o
f
t
u
p
n
i
r
e
t
li
F
6
1
F
G
U
X
O
y
b
t
u
p
t
u
o
K
C
F
R
d
n
a
1
T
N
M
t
u
p
t
u
o
F
G
U
X
.
d
n
a
m
m
o
c
e
h
t
g
n
i
h
c
t
i
w
s
6
5
O
C
P
O
L
L
P
r
e
t
s
a
m
r
o
f
t
u
p
t
u
o
p
m
u
p
e
g
r
a
h
C
7
1
K
C
P
X
O
e
h
t
g
n
i
h
c
t
i
w
s
y
b
t
u
p
t
u
o
0
T
N
M
t
u
p
t
u
o
K
C
L
P
X
.
d
n
a
m
m
o
c
7
5
V
A
D
D
3
−
y
l
p
p
u
s
r
e
w
o
p
g
o
l
a
n
A
8
1
S
F
G
O
y
b
t
u
p
t
u
o
F
O
A
R
X
d
n
a
3
T
N
M
t
u
p
t
u
o
S
F
G
.
d
n
a
m
m
o
c
e
h
t
g
n
i
h
c
t
i
w
s
8
5
V
S
S
−
D
N
G
l
a
t
i
g
i
D
9
1
O
P
2
C
O
e
h
t
g
n
i
h
c
t
i
w
s
y
b
t
u
p
t
u
o
P
O
T
G
t
u
p
t
u
o
O
P
2
C
.
d
n
a
m
m
o
c
9
5
V
D
D
−
y
l
p
p
u
s
r
e
w
o
p
l
a
t
i
g
i
D
0
2
R
O
C
S
O
s
i
1
S
r
o
0
S
.
c
n
y
s
e
d
o
c
b
u
s
r
e
h
t
i
e
n
e
h
w
"
H
"
s
t
u
p
t
u
O
.
d
e
t
c
e
t
e
d
0
6
T
U
O
D
O
t
u
p
t
u
o
T
U
O
L
A
T
I
G
I
D
1
2
T
U
O
C
O
/
I
l
a
n
g
i
s
t
n
u
o
c
r
e
b
m
u
n
-
k
c
a
r
t
f
o
t
u
p
t
u
o
d
n
a
t
u
p
n
I
1
6
K
C
R
L
O
s
F
=
f
t
u
p
t
u
o
k
c
o
l
c
R
L
e
c
a
f
r
e
t
n
i
A
/
D
2
2
R
R
I
M
O
/
I
t
u
p
t
u
o
d
n
a
t
u
p
n
i
l
a
n
g
i
s
r
o
r
r
i
M
2
6
D
M
C
P
O
e
c
a
f
r
e
t
n
i
A
/
D
)
t
s
r
i
f
B
S
M
,
t
n
e
m
e
l
p
m
o
c
s
'
o
w
t
(
t
u
p
t
u
o
a
t
a
d
l
a
i
r
e
S
3
2
T
C
F
D
O
/
I
t
u
p
t
u
o
d
n
a
t
u
p
n
i
l
a
n
g
i
s
t
c
e
f
e
D
3
6
K
C
B
O
t
u
p
t
u
o
k
c
o
l
c
t
i
B
e
c
a
f
r
e
t
n
i
A
/
D
4
2
K
O
F
O
/
I
t
u
p
t
u
o
d
n
a
t
u
p
n
i
l
a
n
g
i
s
K
O
s
u
c
o
F
4
6
H
P
M
E
O
,
s
i
s
a
h
p
m
e
s
a
h
c
s
i
d
k
c
a
b
y
a
l
p
e
h
t
n
e
h
w
"
H
"
s
t
u
p
t
u
O
.
s
i
s
a
h
p
m
e
o
n
s
i
e
r
e
h
t
n
e
h
w
"
L
"
d
n
a
5
2
K
C
O
L
O
/
I
n
i
p
s
i
h
t
,
"
H
"
s
i
S
F
G
n
e
h
w
;
z
H
0
6
4
t
a
d
e
l
p
m
a
s
s
i
S
F
G
e
v
i
t
u
c
e
s
n
o
c
t
h
g
i
e
"
L
"
s
i
S
F
G
f
I
.
"
H
"
s
t
u
p
t
u
o
.
"
H
"
=
N
I
K
L
n
e
h
w
t
u
p
n
I
.
"
L
"
s
t
u
p
t
u
o
n
i
p
s
i
h
t
,
s
e
l
p
m
a
s
5
6
V
X
D
D
−
k
c
o
l
c
r
e
t
s
a
m
r
o
f
y
l
p
p
u
s
r
e
w
o
P
6
2
P
D
M
O
r
o
t
o
m
e
l
d
n
i
p
s
f
o
t
u
p
t
u
o
l
o
r
t
n
o
c
o
v
r
e
S
6
6
I
A
T
X
I
t
u
p
n
i
t
i
u
c
r
i
c
n
o
i
t
a
ll
i
c
s
o
l
a
t
s
y
r
C
.
n
i
p
s
i
h
t
a
i
v
k
c
o
l
c
r
e
t
s
a
m
l
a
n
r
e
t
x
e
e
h
t
t
u
p
n
I
7
2
P
T
S
S
I
t
s
o
m
r
e
n
n
i
c
s
i
d
f
o
t
u
p
n
i
l
a
n
g
i
s
n
o
i
t
c
e
t
e
D
7
6
O
A
T
X
O
t
u
p
t
u
o
t
i
u
c
r
i
c
n
o
i
t
a
ll
i
c
s
o
l
a
t
s
y
r
C
8
2
R
D
F
S
O
t
u
p
t
u
o
e
v
i
r
d
d
e
l
S
8
6
V
X
S
S
−
k
c
o
l
c
r
e
t
s
a
m
r
o
f
D
N
G
9
2
R
D
R
S
O
9
6
V
A
D
D
1
−
y
l
p
p
u
s
r
e
w
o
p
g
o
l
a
n
A
0
3
R
D
F
T
O
t
u
p
t
u
o
e
v
i
r
d
g
n
i
k
c
a
r
T
0
7
1
T
U
O
A
O
t
u
p
t
u
o
g
o
l
a
n
a
h
c
L
1
3
R
D
R
T
O
1
7
1
N
I
A
I
t
u
p
n
i
.
p
m
a
P
O
h
c
L
2
3
R
D
F
F
O
t
u
p
t
u
o
e
v
i
r
d
s
u
c
o
F
2
7
1
T
U
O
L
O
t
u
p
t
u
o
E
N
I
L
h
c
L
3
3
R
D
R
F
O
3
7
V
A
S
S
1
−
D
N
G
g
o
l
a
n
A
4
3
V
S
S
−
D
N
G
l
a
t
i
g
i
D
4
7
V
A
S
S
2
−
D
N
G
g
o
l
a
n
A
5
3
T
S
E
T
I
D
N
G
y
ll
a
m
r
o
n
:
n
i
p
T
S
E
T
5
7
2
T
U
O
L
O
t
u
p
t
u
o
E
N
I
L
h
c
R
6
3
T
S
E
T
I
6
7
2
N
I
A
I
t
u
p
n
i
.
p
m
a
P
O
h
c
R
7
3
L
S
T
X
I
t
u
p
n
i
r
o
t
c
e
l
e
s
l
a
t
s
y
r
C
z
H
M
8
8
6
8
.
3
3
:
"
H
"
,
z
H
M
4
4
3
9
.
6
1
:
"
L
"
7
7
2
T
U
O
A
O
t
u
p
t
u
o
g
o
l
a
n
a
h
c
R
8
3
C
V
I
t
u
p
n
i
e
g
a
t
l
o
v
r
e
t
n
e
C
8
7
V
A
D
D
2
−
y
l
p
p
u
s
r
e
w
o
p
g
o
l
a
n
A
9
3
E
F
I
t
u
p
n
i
l
a
n
g
i
s
r
o
r
r
e
s
u
c
o
F
9
7
T
U
M
R
O
g
a
l
f
n
o
i
t
c
e
t
e
d
o
r
e
z
h
c
R
0
4
E
S
I
t
u
p
n
i
l
a
n
g
i
s
r
o
r
r
e
d
e
l
S
0
8
T
U
M
L
O
g
a
l
f
n
o
i
t
c
e
t
e
d
o
r
e
z
h
c
L
Notes)
• PCMD is an MSB first. two's complement output.
• GTOP is used to monitor the frame sync protection status. (High:sync protection window released)
• XUGF is the negative pulse for the frame sync derived from the EFM signal. It is the signal before sync protection.
• XPLCK is the inverse of the EFM PLL clock. The PLL is designed so that the falling edge of XPLCK and the EFM signal transition point coincide.
• GFS goes high when the frame sync and the insertion protection timing match.
• RFCK is derived with the crystal accuracy. This signal has a cycle of 136
µ
s.
• C2PO represents the data error status.
• XRAOF is generated when the 16K RAM exceeds the
±
4F jitter margin.