PF250LF-002.43M [CONNOR-WINFIELD]
LVCMOS Output Clock Oscillator, 2.43MHz Nom, ROHS COMPLIANT PACKAGE-4;
| 型号: | PF250LF-002.43M |
| 厂家: | 
CONNOR-WINFIELD CORPORATION |
| 描述: | LVCMOS Output Clock Oscillator, 2.43MHz Nom, ROHS COMPLIANT PACKAGE-4 机械 振荡器 |
| 文件: | 总4页 (文件大小:280K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Pre c is ion
Fre qu e nc y
S tan d ard
P F-S eri es
O v en Co n tr ol le d Cr ys tal Osc i lla to rs
3 . 3V / 5. 0V S e ri es
2
1
1
1
C
o
m
p
r
e
h
e
n
s
i
v
e
D
r
i
v
e
A
u
r
o
r
a
,
I
l
l
i
n
o
i
s
6
0
5
0
5
P
h
o
n
e
:
6
3
0
-
8
5
1
-
4
7
2
2
LVC M OS / H C M OS S er ie s
Ad ju s tab le / Fixe d
F
a
x
:
6
3
0
-
8
5
1
n
-
5
0
4
0
w
w
S
6
p
w
.
c
o
n
w
i
.
c
o
m
U
H
e
a
8
d
q
u
a
r
2
t
e
r
s
14 x 20m m S u r f ac e M ou nt Pa cka ge
O CXO Se ri e s
1 4 Pin DI P Pac kage
O C XO S e rie s
3
e
0
-
5
1
e
-
4
7
2
:
E
u
r
o
a
n
H
a
d
q
u
a
r
t
e
r
s
:
+ 35 3- 61- 472221
D
e
s
c
r
i
p
t
i
o
n
D
e
s
c
r
i
p
t
i
o
n
T
S
h
e
b
o
e
n
d
n
o
C
r
-
r
i
t
n
a
f
i
l
e
C
l
d
o
1
n
x
0
d
m
O
m
s
e
t
n
o
T
h
e
C
o
n
n
o
r
-
W
s
i
t
n
a
f
i
l
e
C
l
d
o
1
n
i
n
e
I
P
e
a
t
a
r
s
S
t
a
b
i
l
i
z
e
d
C
r
y
r
s
(
O
O
O
v
s
C
e
X
n
O
S
t
s
e
r
i
i
(
e
s
e
C
)
a
d
O
n
C
C
d
r
X
V
o
l
t
l
e
a
C
r
g
e
n
C
o
n
t
r
d
o
l
l
e
d
(
O
O
O
v
s
C
e
X
n
O
S
t
)
t
o
s
a
r
e
b
s
r
i
i
V
e
s
a
d
O
n
C
C
d
r
X
V
o
l
t
l
a
C
e
g
e
n
s
C
o
n
t
r
d
o
l
l
e
d
t
a
b
s
l
i
z
y
s
t
a
s
o
t
r
o
l
l
e
i
l
z
e
y
s
t
a
o
tr
o
l
l
e
c
i
l
l
a
o
r
V
O
i
e
s
)
a
r
e
c
i
l
l
a
(
C
O
)
s
r
i
e
a
r
e
e
q
s
u
i
e
g
d
s
f
t
o
a
r
b
e
e
i
s
n
o
a
f
p
+
l
i
0
c
.
a
0
t
5
i
o
p
n
p
s
m
e
q
s
u
i
e
g
d
s
f
t
o
a
to
t
o
+
/
-
+
/
-
0
.
2
d
5
u
p
p
m
o
v
m
e
r
p
t
e
h
r
e
a
c
o
m
r
m
e
g
r
c
e
i
s
a
.
l
o
r
0
.
d
2
u
5
s
p
p
m
o
v
e
p
r
t
e
h
e
t
c
o
e
m
m
e
r
e
c
s
i
.
a
l
o
r
t
h
e
t
h
e
i
n
s
t
r
i
a
l
t
e
tu
r
e
a
n
i
n
t
r
i
a
l
t
e
m
r
a
u
r
r
a
n
g
F
e
a
t
u
r
e
n
-
O
5
s
c
F
F
e
a
t
u
r
e
s
F
r
e
q
u
e
y
R
a
n
F
g
e
q
e
:
1
.
6
n
o
n
M
H
z
t
o
2
0
M
H
z
F
r
e
q
u
e
n
-
c
y
x
-
R
a
n
F
g
e
q
e
:
1
.
6
n
o
t
c
n
o
y
2
0
M
H
z
O
C
X
O
V
O
C
o
i
x
-
e
V
d
o
r
e
g
u
e
c
y
O
C
X
O
V
O
C
o
F
O
5
i
e
d
o
r
e
g
u
e
V
3
C
.
X
r
l
t
a
C
n
t
r
o
l
l
e
d
V
3
C
.
X
r
V
l
t
a
C
t
r
o
l
l
e
d
3
.
0
V
O
p
e
r
a
t
i
o
3
.
0
V
O
p
e
r
a
t
i
o
n
L
F
V
C
q
P
P
P
P
P
S
c
0
1
2
3
4
r
S
u
v
e
e
e
e
e
t
a
t
o
g
:
i
c
L
F
C
q
P
P
P
P
P
S
c
0
1
2
3
4
r
r
e
e
±
±
±
±
±
x
s
0
0
0
0
0
:
.
.
.
.
.
0
5
0
5
0
5
p
p
p
p
p
p
m
m
m
m
m
5
p
p
p
p
p
p
p
p
p
p
m
m
m
m
m
x
x
x
x
s
s
s
s
1
1
2
2
p
p
p
p
0
5
0
5
T
e
m
a
r
e
v
l
e
Te
m
a
r
P
P
w
F
F
J
1
1
5
6
e
x
x
r
x
x
<
x
x
S
S
1
e
e
p
r
r
S
i
i
e
e
R
s
s
:
:
M
0
t
0
o
7
o
0
8
°
5
C
°
P
P
w
F
F
J
2
2
5
6
e
x
x
r
x
x
<
x
x
S
S
e
e
r
r
i
i
e
e
s
s
:
:
0
t
0
o
7
o
0
8
°
5
C
°
-
4
S
t
C
-
4
S
t
C
L
o
i
t
t
L
o
i
t
t
1
p
S
R
M
1
R
4
o
P
i
n
C
D
o
I
P
m
P
p
a
c
a
k
n
a
t
g
/
e
L
S
Ta
u
p
r
f
a
e
c
a
e
n
M
d
o
u
n t Pac kag e
el Pack in g
H
S
l
i
e
a
d
F
r
e
e
R
e
R
o
H
S
C
o
m
p
l
i
a
n
t
/
L
e
a
d
F
r
e
e
S
t
a
n
d
a
r
d
F
r
e
q
u
e
n
c
i
e
s
t
h
a
t
a
r
e
A
v
a
i
l
a
b
l
e
*
6
.
4
M
H
z
8
.
1
9
2
M
H
z
9
.
7
2
M
H
z
1
2
0
0
.
.
0
0
M
M
H
H
z
z
1
2
.
8
M
H
z
1
6
.
3
8
4
M
H
z
1
9
.
4
4
M
H
z
O
r
d
e
r
i
n
g
I
n
f
o
r
m
a
t
i
o
n
-
0
1
0
.
0
M
L
F
P
F
5
1
1
F
r
e
q
u
e
n
c
/
/
/
/
/
y
S
t
a
b
i
l
i
t
y
:
S
u
p
L
H
p
=
=
l
y
V
o
3
l
V
t
a
d
d
g
c
c
e
/
/
O
u
t
M
p
u
O
t
S
S
:
O
u
t
F
V
p
u
=
=
t
:
F
V
O
u
t
M
p
u
t
F
r
e
q
u
e
n
c
y
:
T
P
y
p
c
q
n
OCXO
VCOCXO
e
i
u
d
:
s
P
a
c
1
2
k
a
=
=
g
1
S
e
4
T
P
M
y
p
e
:
D
T
e
m
5
6
p
=
=
e
r
0
-
a
t
t
u
o
0
r
e
7
o
R
a
C
5
n
g
e
:
0
1
2
3
4
=
=
=
=
=
+
+
+
+
+
-
-
-
-
-
0
0
0
0
0
.
.
.
.
.
0
1
1
2
2
5
0
5
0
5
p
p
p
p
p
p
p
p
p
p
m
m
m
m
m
3
.
L
V
C
i
o
x
l
e
d
g
F
e
r
e
C
q
o
u
n
e
n
o
c
y
e
=
M
H
z
r
e
i
e
a
o
n
rd
n
c
i
n
2
I
P
4
0
°
F
r
e
y
T
0
x
1
m
m
4
t
8
°
C
5
.
0
V
/
H
C
M
O
t
a
t
r
l
l
d
x
x
x
.
x
x
M
B
u
l
l
e
t
i
n
C
x
1
2
3
S
t
a
P
a
g
e
1 of
4
R ev is io n
P
0
3
D
a
t
e
0
8
O
c
t
2
0
0
7
F
r
e
q
u
e
n
c
i
e
s
a
v
a
i
l
a
b
l
e
f
r
o
m
t
h
e
f
a
c
t
o
r
y
f
o
r
s
m
a
l
l
q
u
a
n
t
i
t
i
e
s
o
r
q
u
i
c
k
d
e
l
i
v
e
r
i
e
s
,
a
d
d
i
t
i
o
n
f
r
e
q
u
e
n
c
i
e
s
a
r
e
a
v
a
i
l
a
b
l
e.
S
p
e
c
i
f
i
c
a
t
i
o
n
s
s
u
b
j
e
c
t
t
o
c
h
a
n
g
e
w
i
t
h
o
u
t
n
o
t
i
c
e
.
A
l
l
d
i
m
e
n
s
i
o
n
s
i
n
i
n
c
h
e
s
.
©
C
o
p
y
r
i
g
h
t
2
0
0
7
T
h
e
C
o
n
n
o
r
-
W
i
n
f
i
e
l
d
C
o
r
p
o
r
a
t
i
o
n
2
111 C om p r ehens i v e D r i v e
A
u
r
o
r
a
,
I
l
l
i
n
o
i
s
6
0
5
0
5
P
h
o
a
n
e
:
6
3
0
-
8
5
1
-
4
7
2
2
F
x
:
6
3
0
-
8
5
1
-
5
0
4
0
w
w
w.
c
o
n
w
i
n
.
c
o
m
M ode l S p ecif ica t ions
P
F
1
5
x
x
x
/
P
F
1
6
x
xx
-
Se
r
i
e
s
D IP P acka ge Mo del N u mbe r
SM P ac kage M ode l N u mb e r
N o te:
P
P
F
1
2
5
5
0
0
L
F
F
P
P
F
1
5
5
0
H
H
F
P
P
F
1
5
0
L
V
V
P
P
F
F
1
2
5
5
0
0
H
H
V
V
F
L
F
2
0
F
F
2
5
0
L
F r eq u ency R a n ge
F r eq u ency S ta bi l i ty
T e mpe rat u re R ange
Su pp ly Vo l tag e
1.6 t o 20 M H z
± 0.05p pm
1. 2
0 to 70 °C
3 .3 V dc
O C XO
5.0 V dc
O C XO
3.3 Vdc
V CO C X O
5. 0 V dc
VC O C X O
OC X O / VC O C XO
P
F
2
5
x
x
x
/
P
F
2
6
x
x
x
-
S
e
r
i
e
s
D IP P acka ge Mo del N u mbe r
SM P ac kage M ode l N u mb e r
N o te:
P
P
F
1
2
6
6
0
0
L
L
F
F
P
P
F
1
2
6
6
0
0
H
H
F
F
P
P
F
1
2
6
6
0
0
L
L
V
V
P
P
F
F
1
2
6
6
0
0
H
H
V
V
F
F
F
F r eq u ency R a n ge
F r eq u en cy S tabi l i t y
T e mpe rat u re R ange
Su pp ly Vo l tag e
1.6 to 20 MH z
±0 .05ppm
1. 2
-
4
0
t
o
8
5
°
C
3.3 V dc
O C XO
5.0 V dc
O C XO
3.3 Vdc
V CO C X O
5. 0 V dc
VC O C X O
O
C
X
O
/
V
C
O
C
X
O
D IP P acka ge Mo del N u mbe r
SM P ac k ag e Mo d el N um b er
N
o
t
e
:
P
P
F
1
2
5
5
1
1
L
L
F
F
P
P
F
1
2
5
5
1
1
H
H
F
F
P
P
F
1
2
5
5
1
1
L
L
V
V
P
P
F
F
1
2
5
5
1
1
H
H
V
V
F
E
A
T
U
R
E
S
F
F
F
F r eq u ency R a n ge
F r eq u ency S ta bi l i ty
T e mpe rat u re R ange
Su pp ly Vo l tag e
1.6 t o 20 M H z
± 0.10p pm
O
C
X
O
X
-
O
F
i
x
-
e
V
d
o
F
r
e
g
e
e
S
x
u
C
1
e
n
o
1
.
2
0
t
o
7
0
°
C
V
Fr
C
e
O
C
l
t
a
o
2
l
0
l
e
d
M
3.3 V dc
O C XO
5.0 V dc
O C XO
3.3 Vdc
V CO C X O
5 . 0 V dc
VC O C X O
q
V
u
o
e
r
n
5
c
y
R
V
a
O
n
p
g
.
6
H
z
O
C
X
O
/
V
C
O
C
X
O
3
.
3
.
0
t
i
o
u
n
D IP P acka ge Mo del N u mbe r
SM P ac kage M ode l N u mb e r
N o te:
P
P
F
1
2
6
6
1
1
L
L
F
F
P
P
F
1
2
6
6
1
1
H
H
F
F
P
P
F
1
2
6
6
1
1
L
L
V
V
P
P
F
F
1
2
6
6
1
1
H
H
V
V
L
P
V
F
C
5
c
5
M
O
S
/
P
H
F
C
M
O
t
p
t
L
4
o
g
P
i
n
c
D
F
F
F
1
x
a
x
x
/
e
/
1
2
6
x
x
x
e
e
r
i
e
s
s
i
I
P
F r eq u ency R a n ge
F r eq u ency S ta bi l i ty
T e mpe rat u re R ange
Su pp ly Vo l tag e
1.6 to 20 MH z
±0.10p pm
P
a
k
g
1
.
2
P
F
2
x
x
x
P
F
6
x
x
r
i
e
u
r
f
a
c
e
M
o
u
n
t
-
4
0
t
o
8
5
°
C
P
Fr
a
e
c
q
k
u
a
e
g
n
e
c
3.3 V dc
O C XO
5.0 V dc
O C XO
3.3 Vdc
V CO C X O
5. 0 V dc
VC O C X O
OC X O / VC O C XO
y
S
t
a
b
i
l
i
t
s
A
v
l
a
b
l
e
:
P
P
P
P
P
P
P
P
P
P
F
F
F
F
F
F
F
F
F
F
1
2
1
2
1
2
1
2
1
2
5
5
5
5
5
5
5
5
5
5
0
0
1
1
2
2
3
3
4
4
x
x
x
x
x
x
x
x
x
x
x
/
/
/
/
/
/
/
/
/
/
P
P
P
P
P
P
P
P
P
P
F
1
2
1
2
1
2
1
2
1
2
6
6
6
6
6
6
6
6
6
6
0
0
1
1
2
2
3
3
4
4
x
x
x
x
x
x
x
x
x
x
x
S
e
r
r
r
r
r
r
r
r
r
r
i
e
e
e
e
e
e
e
e
e
e
s
s
s
s
s
s
s
s
s
s
:
:
:
:
:
:
:
:
:
:
±
±
±
±
±
±
±
±
±
±
0
.
.
.
.
.
.
.
.
.
.
0
5
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
m
m
m
m
m
m
m
m
m
m
D IP P acka ge Mo del N u mbe r
SM P ac kage M ode l N u mb e r
N
o
t
e
:
P
P
F
1
2
5
5
2
2
L
L
F
F
P
P
F
1
2
5
5
2
2
H
H
F
F
P
P
F
1
2
5
5
2
2
L
L
V
V
P
P
F
F
1
2
5
5
2
2
H
H
V
V
x
x
x
x
x
x
x
x
x
F
F
F
F
F
F
F
F
F
x
x
x
x
x
x
x
x
x
S
S
S
S
S
S
S
S
S
e
e
e
e
e
e
e
e
e
i
i
i
i
i
i
i
i
i
0
0
0
0
0
0
0
0
0
:
0
5
0
0
5
5
0
0
5
5
F
F
F
1
1
1
1
2
2
2
2
F r eq u ency R a n ge
F r eq u ency S ta bi l i ty
T e mpe rat u re R ange
Su pp ly Vo l tag e
1.6 t o 20 M H z
± 0.15p pm
1
.
2
0
t
o
7
0
°
C
3.3 V dc
OC X O
5.0 V dc
O C XO
3.3 Vdc
V CO C X O
5. 0 V dc
VC O C X O
O
C
X
O
/
V
C
O
C
X
O
D IP P acka ge Mo del N u mbe r
SM P ac kage M ode l N u mb e r
N
o
t
e
:
P
P
F
1
2
6
6
2
2
L
L
F
F
P
P
F
1
2
6
6
2
2
H
H
F
F
P
P
F
1
2
6
6
2
2
L
L
V
V
P
P
F
F
1
2
6
6
2
2
H
H
V
V
F
F
F
F r eq u ency R a n ge
F r eq u ency S ta bi l i ty
Te mp e ra ture R ang e
Su pp ly Vo l tag e
1.6 to 20 MH z
±0 .15ppm
1
.
2
T
e
m
p
e
r
a
t
u
r
e
R
a
n
g
e
s
A
v
a
i
l
a
b
l
e
-
4
0
t
o
8
5
°
C
P
P
w
F
F
J
1
1
5
6
t
x
x
e
n
o
x
x
r
d
m
x
x
<
:
:
0
-
1
e
t
o
7
o
M
0
8
S
°
5
C
3.3 V dc
O C XO
5.0 V dc
O C XO
3
.
3
V
d
c
5
.
0
V
d
c
O
C
X
O
/
V
C
O
C
X
O
V
C
O
C
X
O
V
C
O
C
X
O
4
0
t
R
°
C
D
I
P
P
a
c
k
a
g
e
M
od
e
l
N
um
b
er
N
o
t
e
:
:
:
:
P F1 5 3 LF
P F2 5 3 LF
P F1 5 3 HF
P F2 5 3 HF
P F1 53 LV
P F 25 3L V
PF 15 3 HV
PF 25 3 HV
L
o
i
t
p
S
l
n
S
M
P
a
c
k
a
g
e
M
o
de
l
N
u
m
b
er
T
a
p
H
e
S
a
C
R
p
e
a
P
a
c
k
e
a
a
g
d
i
n
F
g
Freq u enc y R ange
Freq u enc y S tab il i ty
1. 6 to 2 0 M H z
±0 . 20p p m
0 t o 70 °C
1 . 2
R
o
l
i
t
/
L
r
e
e
Te mp erat u re R ang e
Sup p l y V ol t age
3 .3 V dc
O CX O
5 .0 V dc
O CX O
3 . 3 V d c
5 . 0 V d c
PIN C ON N EC T ION S
O
C
X
O
/
V
C
O
C
X
O
V
C
O
C
X
O
VC O CXO
D
I
P
P
a
c
k
a
g
e
M
od
e
l
N
u
m
b
e
r
N
o
t
e
P F1 6 3 LF
P F2 6 3 LF
P F1 6 3 HF
P F2 6 3 HF
P F1 63 LV
P F2 63 LV
PF 16 3 HV
PF 26 3 HV
P
i
n
F
u
n
c
t
i
o
n
g
S
M
P
a
c
k
a
g
e
M
o
d
e
l
N
u
m
b
e
r
O
V
G
O
C
X
O
o
O
–
N
/
C
1
7
8
C
C
X
O
-
V
o
)
l
t
a
e
C
o
n
t
r
o
l
Freq u enc y R ange
Freq u enc y S tab il i ty
1
.
6
t
o
2
0
M
H
z
1
.
2
r
u
n
d
(
C
a
s
e
±
0
.
2
0
p
p
m
u
t
p
u
t
Te mp erat u re R ang e
Sup p l y V ol t age
-
4
0
t
o
8
5
°
C
3 .3 V dc
O CX O
5 .0 V dc
O CX O
3
.
3
V
d
c
5
.
0
V
d
c
1
4
V
c
c
O
C
X
O
/
V
C
O
C
X
O
V
C
O
C
X
O
V
C
O
C
X
O
D
I
P
P
a
c
k
a
g
e
M
o
d
e
l
N
u
m
b
e
r
N
o
t
e
P F1 5 4 LF
P F2 5 4 LF
P F1 5 4 HF
P F2 5 4 HF
P F1 54 LV
P F2 54 LV
PF 15 4 HV
PF 25 4 HV
O
R
D
E
R
I
N
G
I
N
F
O
R
M
A
T
I
O
N
S
M
P
a
c
k
a
g
e
M
o
d
e
l
N
u
m
b
e
r
Freq u enc y R ange
Freq u enc y S tab il i ty
Te mp erat u re R ang e
Sup p l y V ol t age
O C XO / VC O C XO
1. 6 to 2 0 M H z
±0 . 25p p m
0 t o 70 °C
1
.
2
P
F
1
5
1
L
F
-
0
1
0
.
0
M
OC X O
S ER IE S
C
E
N
T
E
R
3 .3 V dc
O CX O
5 .0 V dc
O CX O
3
.
3
V
d
c
5
.
0
V
d
c
F
R
E
Q
U
E
N
C
Y
V
C
O
C
X
O
V
C
O
C
X
O
D
I
P
P
a
c
k
a
g
e
M
o
d
e
l
N
u
m
b
e
r
N
o
t
e
P F1 6 4 LF
P F2 6 4 LF
P F1 6 4 HF
P F2 6 4 HF
P F1 64 LV
P F2 64 LV
PF 16 4 HV
PF 26 4 HV
S
M Pa c kag e Mo de l N um b er
Freq u enc y R ange
Freq u enc y S tab il i ty
Te mp erat u re R ang e
Sup p l y V ol t age
O C XO / VC O C XO
N ot e :
1
.
6
t
o
2
0
M
H
z
1
.
2
B
u
l
l
e
t
i
n
C
x
1
2
3
4
3
±0 . 25 p pm
US Headquarters:
6 3 0 - 8 5 1 - 4 7 2 2
European Headquarters:
+ 3 5 3 -6 1 - 4 7 2 2 2 1
-
4
0
t
o
8
5
°
C
P
a
g
e
2
o
f
3 .3 V dc
O CX O
5 .0 V dc
O CX O
3
.
3
V
d
c
5
.
0
V
d
c
V CO CX O
VC O CXO
R
e
v
i
s
i
o
n
P
0
1
.
2
)
F
r
e
q
u
e
n
c
y
s
t
a
b
i
l
i
t
y
v
s
.
c
h
a
n
g
e
i
n
t
e
m
p
e
r
a
t
u
r
e
.
Date
0
8
O
c t 2 0 0 7
S
p
e
c
i
f
i
c
a
t
i
o
n
s
s
u
b
j
e
c
t
t
o
c
h
a
n
g
e
w
i
t
h
o
u
t
n
o
t
i
c
e
.
A
l
l
d
i
m
e
n
s
i
o
n
s
i
n
i
n
c
h
e
s
.
©
C
o
p
y
r
i
g
h
t
2
0
0
7
T
h
e
C
o
n
n
o
r
-
W
i
n
f
i
e
l
d
C
o
r
p
o
r
a
t
i
o
n
2111 C om p r ehens i v e D r i v e
A
u
r
o
r
a
,
I
l
l
i
n
o
i
s
6
0
5
0
5
P
h
o
a
n
e
:
6
3
0
-
8
5
1
-
4
7
2
2
F
x
:
6
3
0
-
8
5
1
-
5
0
4
0
w
w
w.
c
o
n
w
i
n
.
c
o
m
5
.
0
V
H
C
M
O
S
M
o
d
e
l
S
p
ec
i
f
i
c
a
t
i
o
n
s
3
.
3
V
L
V
C
M
O
S
M
o
d
e
l
S
p
e
c
i
f
i
c
a
t
i
o
n
s
AB S OL UT E M AX IM UM RAT I NG S
A
B
S
O
L
U
T
E
M
A
X
I
M
U
M
R
AT
I
N
G
S
T
A
B
L
E
1
.
3
TA BL E 6. 3
NO TE
P
A
R
A
M
E
T
E
R
U
N
I
T
S
M
I
N
I
M
UM
N
O
M
-
I
NAL
M
A
X
I
M
U
M
U
N
°C
I
T
S
N
O
T
E
P AR AME T E R
S to ra ge T emp era t ure
S up ply Vo lt age
U
N
I
T
S
MI NI MUM NO MI NAL M AX I MUM
UNI TS
° C
S t o ra g e Tem p e ra t u re
S u p p ly V o lt a ge
-5 5
-0. 5
-0. 5
12 5
4 .5
4 .5
-5 5
-0 .5
-0 .5
-
-
-
12 5
4. 5
4. 5
(Vcc )
(V c)
-
-
V dc
V dc
(V c c )
(V c )
Vd c
Vd c
C o n t ro l Vo lt a g e
C
o
n
t
r
o
l
V
o
l
t
a
g
e
O
P
E
R
A
T
I
N
G
S
P
E
C
I
F
I
C
A
T
I
O
N
S
T
A
B
L
E
2
.
3
OP ER ATI N G SP E C I FI C AT I O
P AR AME T E R
F re qu enc y Cali b rat io n
F re qu enc y St ab ili ty
N
S
TA BL E 7. 3
NO TE
9 . 3, 1 2 . 3
1 0 .3
P
A
R
A
M
E
T
E
R
M
I
N
-1 .0
I
M
U
M
N
O
M
I
N
A
L
M
A
X
1. 0
I
M
U
M
U
pp m
pp m
N
I
T
S
N
O
T
E
M
I
N
I
M
U
M
N
O
M
I
N
A
L
M
A
X
I
M
U
M
UNI TS
p p m
p p m
Fr e q u e ncy C a l ib ra t i o n
Fr e q u e ncy S t a b i lit y
1 .3 , 4. 3
2 .3
1
.
0
-
1
.
0
S
e
e
P
a
g
e
2
S
e
e
P
a
g
e
2
Fr e q u e ncy vs . C h a n ge in Su p p l y Vo l t a g e
A g in g ( D a ily )
A g in g ( 1 st ye a r)
To t a l Fre q ue n c y To l e ra n ce (2 0 ye a rs)
S u p p ly V o lt a ge
S u p p ly P o we r ( 0 t o 7 0 ° C )
S u p p ly P o we r (-4 0 t o 8 5 °C )
P h a se J it te r (BW = 1 0 H z to F o /2 )
P h a se J it te r (BW = 1 0 KH z to Fo / 2 )
P e ri o d Ji tt e r
A ll a n V a ria n c e (1 S e co n d )
S SB P h a se N o ise a t 1 0 H z of fse t
S SB P h a se N o ise a t 1 0 0 H z of f se t
S SB P h a se N o ise a t 1 KH z offs e t
S SB P h a se N o ise a t 1 0KH z o f fset
S t a rt -Up Tim e : Os c ill a t or
W a rm U p Ti me
-0. 0 5
-3 0
-1. 0
-4. 6
-
-
-
-
0 .0 5
30
1 .0
4 .6
3 .4 7
1 .5
2 .7
3
1
1
-
-
-
-
-
35
5
pp m
p pb
pp m
pp m
3 .3
4 .3
F re qu enc y v s. Cha n ge in S up ply V olt a ge
A gin g (Da ily )
A gin g (1 s t y e ar)
T o ta l F req ue nc y T ole ra nc e (2 0 y ea rs )
S up ply Vo lt age
S up ply Po we r (0 t o 70 ° C)
S up ply Po we r (-4 0 t o 85 ° C)
P ha se J it te r (BW =1 0Hz t o F o/ 2 )
P ha se J it te r (BW =1 0K Hz t o F o/ 2)
P erio d J it t er
A llan Va ria nc e (1 S ec o nd )
S SB Ph as e No is e a t 1 0Hz of f se t
S SB Ph as e No is e a t 1 00 Hz of f s et
S SB Ph as e No is e a t 1 KHz of f s et
S SB Ph as e No is e a t 1 0K Hz o f fs et
S ta rt -Up T ime : O s c illa t or
W a rm Up T im e
-0 .0 5
-3 0
-1 .0
-4 . 6
-
-
-
-
0 . 05
3 0
1. 0
4. 6
5 . 25
1. 5
2. 7
3
1
1
-
-
-
-
-
3 5
5
p p m
p p b
p p m
p p m
1 1 .3
1 2 3
5
.
3
1 3 .3
(
V
c
c
)
3
.
1
3
3 .3
-
-
-
V
d
c
(
V
c
c
)
4
.
7
5
5 .0
-
-
-
V
d
c
-
-
-
-
-
-
-
-
-
-
-
-
W att s
W att s
p S RM S
p S RM S
p S RM S
-
-
-
-
-
-
-
-
-
-
-
-
W a tt s
W a tt s
p S RM S
p S RM S
p S RM S
-
-
-
1. 0 0 E -10
-9 0
-12 0
-14 0
-15 0
-
-
1 .0 0 E -1 0
-9 0
-1 20
-1 40
-1 50
-
dB c/ H z
dB c/ H z
dB c/ H z
dB c/ H z
m s
6 .3
6 .3
6 .3
6 .3
d Bc / Hz
d Bc / Hz
d Bc / Hz
d Bc / Hz
m s
1 4 .3
1 4 .3
1 4 .3
1 4 .3
-
M
i
n
u
t
e
s
7
.
3
-
M
i
n
u
t
e
s
1
5
.
3
V
C
O
C
X
O
I
N
P
U
T
C
H
A
R
A
C
T
E
R
I
S
T
I
C
S
T
A
B
L
E
3
.
3
V COC X O I NP U T C H AR AC TE RI S T I C S
P AR AME T E R
TA BLE 8. 3
NO TE
P
A
R
A
M
E
T
E
R
M
I
N
0. 3
-
I
M
U
M
N
O
M
I
N
A
L
M
A
X
I
M
U
M
U
V dc
pp m
pp m
p pm /V
O hm
N
I
T
S
N
O
T
E
M
I
N
I
M
U
M
N
O
M
I
N
A
L
M
A
X
I
M
U
M
UNI TS
Vd c
p p m
p p m
p p m/ V
O hm
Co n t ro l V o lt a g e R a n g e
Fr e q u e ncy a t V c= 0 . 3 V dc
Fr e q u e ncy a t V c= 3 . 0 V dc
S lo p e o f Fre q ue n cy Ad j ust
I n p u t I m p e d a n c e
(
V
c
)
1 .5
-7
7
-
-
3 .0
-5
-
Co nt ro l V o lt ag e Ra ng e
(V c )
0 .5
-
5
2 .0
-7
7
4. 1
-5
-
8 .3
8 .3
F re qu enc y at Vc=0 . 5 Vdc
F re qu enc y at Vc =4 . 1 Vdc
S lop e o f F re que nc y Ad jus t
I np ut I mpe da nc e
1 6 .4
1 6 .4
5
3. 7
10 0 k
-
-
3 .7
1 00 k
-
-
-
-
L VC M OS OUT P UT C HAR ACT E RI S T I CS
TA BLE 4 .3
H CM OS OU TPU T C HA R A CT E RI S TI CS
P AR AME T E R
L OA D
TA BLE 9. 3
NO TE
P
AR
AM
E
T
E
R
M
I
N
I
-
M
UM
N
O
M
1 5
-
-
-
-
5 0
-
I
NAL
M
A
X
I
-
M
U
M
U
N
pF
I
T
S
N
O
T
E
MI NI MUM NO MI NAL M AX I MUM
UNI TS
p F
L
O
A
D
-
1 5
-
-
-
V o lt a g e
C u rr en t
(H i g h )
(L o w)
(H i g h )
(L o w)
(Vo h)
(Vo l)
(I o h)
(I o l)
2. 6
-
-4
-
4 5
-
-
0 .4
-
4
55
6
V dc
V dc
m A
m A
%
V olt ag e
(Hi gh)
(L ow)
(Hig h)
(L ow)
(V oh )
(V ol )
(I oh )
(I o l)
V
c
c
-
0
.
5
Vd c
Vd c
m A
m A
%
-
-4
-
-
-
-
0. 4
-
4
Cu rren t
D u t y C yc le at 5 0 % o f V cc
R i s e / Fa l l Tim e 1 0 % t o 9 0%
Du ty Cy c le at 50 % o f V cc
Ris e / F al l Time 1 0 % t o 9 0%
4 5
-
5 0
-
5 5
6
n
S
n
S
P
A
C
K
A
G
E
C
H
A
R
A
C
T
E
R
I
S
T
I
C
S
T
A
B
L
E
5
.
3
P
A
C
K
A
G
E
C
H
A
R
A
C
T
E
R
I
S
T
I
C
S
T
A
B
L
E
1
0
.
3
P
F
1
x
x
x
x
-
S
e
r
i
e
s
D
I
P
P
a
c
k
a
g
e
1 4 pi n DI P , he rm et ica ll y se ale d , grou n ded, w e lde d pa ck ag e .
Su r fa ce M ou nt , N on-h erm et ic p ack age co nsi sti ng of an F R4 s u bs tr at e wit h
g ro un de d me t al co ve r.
P
F
1
x
x
x
x
-
S
e
r
i
e
s
D
I
P
P
a
c
k
a
g
e
1 4 pin DI P, he rme t ic a lly s ea le d, gro un d ed, we lde d p ac k a g e .
S urf a c e Mou nt , No n-h erme ti c p ac k a ge c on si st in g o f a n F R4 s u bs t ra t e wit h
g rou nde d met a l co v e r.
P
F
2
x
x
x
x
-
S
e
r
i
e
s
S
u
r
f
a
c
e
M
o
u
n
t
P
a
c
k
a
g
e
P
F
2
x
x
x
x
-
S
e
r
i
e
s
S
u
r
f
a
c
e
M
o
u
n
t
P
a
c
k
a
g
e
N
o
t
e
s
:
N
o
t
e
s
:
1 . 3) I nit ia l c a li b r at ion @ 2 5 C. VC OC XO mo de l Vc = 1 .50 Vdc.
2 . 3) Fr e q u en c y s ta bilit y vs. C ha ng e in te mp e r atu r e, r e f er e n c ed to 2 5 C.
3 . 3) Fr e q u en c y s ta bilit y pe r 5 % c ha n g e in su pp ly v o lta g e.
9.3 ) I nit ia l c a lib r a tio n @ 2 5C. VC O C XO mo d e l Vc = 2.0 Vdc.
10 .3) Fr e q u en c y sta b ilit y v s. C h an g e in t em pe r a t ur e, r e fe r e n c e d t o 25 C.
11 .3) Fr e q u en c y sta b ilit y p e r 5% c h an g e in su pp ly v o lt a g e.
4
.
3
)
A
t
t
h
e
t
i
m
e
o
f
s
h
i
p
m
e
n
t
a
f
t
e
r
4
8
h
o
u
r
s
o
f
o
p
e
r
a
t
i
o
n
.
1
2
.
3
)
A
t
t
h
e
t
i
m
e
o
f
s
h
i
p
m
e
n
t
a
f
t
e
r
4
8
h
o
u
r
s
o
f
o
p
e
r
a
t
i
o
n
.
5 . 3) Inc lusi v e o f c a libr at ion, o pe r at ing te mp e r atu r e r ang e, s up p ly v o lta g e c h an g e,
sh o ck a n d v ib r at ion 20 year s ag ing, VC O CXO mo d els Vc =1 .5 V.
6 . 3) Ty p ic a l p ha se n oise, r e sult s w ill v a r y d ep e nd in g o n c en t er f r e que n cy. Th e p h a se
n oi se sh ow n a r e t ypic a l f or 2 0 MH z.
13 .3) In c lu sive o f ca lib r a t ion, o p e r a tin g t em pe r a t ur e r a n g e, su p pl y vo l t ag e c h an g e,
sh o c k an d vib r a t io n 2 0 y ea r s a g in g, VC O CXO mo d e ls Vc =2 .0V.
14 .3) Typ ic a l p h a se n o is e, r e su lt s w ill v ar y d e p e n d ing o n c e nt e r fr e q ue n c y. T h e ph as e
n o ise sh o w n ar e t yp ic a l fo r 2 0 M Hz.
7 . 3) Me asu r e d @ 25 C, w it hin 5 minu te s, th e un it w ill b e w ith in + /-0 .1 p p m o f it s r e f e r e n c e
fr e q u en c y, mea sur e d aft er 3 0 min ut es of c on tin uo us o p e r a tio n a t a s ta b le 2 5 C.
8 . 3) VC OC XO mod e ls pu llabilit y r ef er e n ced t o Fo @ 2 5 °C, Po sit iv e Tr a ns f er
C h a r ac te r istic.
15 .3) Me a su r e d @ 25 C, w it h in 5 min u te s, t h e u n it w ill b e wi th in +/- 0.1 p pm o f it s r e fe r e n c e
fr e q u e n cy, me a su r e d a ft er 3 0 mi nu t es o f c o nt in u ou s o p e r at io n a t a s t ab le 2 5 C.
16 .3) VCO C XO mo d e ls p u llab ilit y r e f er e n c e d t o Fo @ 25 °C, Po s it iv e Tr an s fe r
C h ar a c t e r ist ic.
B
u
l
l
e
t
i
n
C
x
1
2
3
4
3
U
S
H
e
a
d
q
u
a
r
t
e
r
s
:
P
a
g
e
3
o
f
6 3 0 - 8 5 1 - 4 7 2 2
European Headquarters:
+ 3 5 3 -6 1 - 4 7 2 2 2 1
R
e
v
i
s
i
o
n
P
0
D
a
t
e
0
8
O
c
t
2
0
0
7
S
p
e
c
i
f
i
c
a
t
i
o
n
s
s
u
b
j
e
c
t
t
o
c
h
a
n
g
e
w
i
t
h
o
u
t
n
o
t
i
c
e
.
A
l
l
d
i
m
e
n
s
i
o
n
s
i
n
i
n
c
h
e
s
.
©
C
o
p
y
r
i
g
h
t
2
0
0
7
T
h
e
C
o
n
n
o
r
-
W
i
n
f
i
e
l
d
C
o
r
p
o
r
a
t
i
o
n
2111 C om p r ehens i v e D r i v e
A
u
r
o
r
a
,
I
l
l
i
n
o
i
s
6
0
5
0
5
P
h
o
a
n
e
:
6
3
0
-
8
5
1
-
4
7
2
2
F
x
:
6
3
0
-
8
5
1
-
5
0
4
0
w
w
w.
c
o
n
w
i
n
.
c
o
m
14 Pin D I P Pac kag e Ou tl ine
1
4
m
P
e
i
n
n
D
I
P
l
P
a
a
c
r
k
a
a
c
g
t
e
e
E
n
v
i
r
o
n
t
a
C
h
r
i
s
t
i
c
s
E NV IRO NM EN T AL CH AR ACT ERI ST IC S
Te m p e ra tu re Cy cle : Pe r M I L- ST D - 88 3, M etho d 1 010 , C ondi ti on B. - 55° C t o 1 25° C, 30 0 c y c l es ,
1 0 m i n u te dwe ll , 1m in ut e t ra n si tio n .
G ro ss L e a k T es t: Pe r M IL- ST D - 20 2, M etho d 1 12, Co n di ti on D . N o Bub bl es i n fl ou r i ner t ( F C - 43) at
1 2 5°C ± 5° C f o r 20 s ec on ds .
S OL DERI NG
P in So l d e ra b i l it y: Pe r M I L- ST D - 88 3, M etho d 200 3. 8 ho ur s te am ag e pr io r to 254 ° C ± 5°C So l der
p o t d i p, 95 % Co v era g e.
C
W
0
7
0
4
F
Z
Re si st an ce to S old e r H ea t: Pe r M I L- STD - 202 , Met hod 210 , Co ndi t i on C . W av e: To ps i de boar d -
m o un t p r od uc t, 26 0° C ± 5° C fo r 2 0 se c ond s.
P
F
1
5
1
L
1
0
.
0
M
H
M E CHANI CAL CH AR ACT ERI ST ICS
V ib r at i o n : P e r M IL- STD - 20 2, Me th o d 2 04, C ond i ti on A . 10 G ’s p eak , 10 Hz to 50 0H z, 15 m i nute
c yc l es 1 2 ti m e s e ac h pe rpe nd ic ul ar ax i s .
D i me n si o n a l To l e ra n ce :
±.0 0 5 (.1 2 7 mm)
±.0 2 (.5 0 8 mm)
S ho ck : P e r M IL - STD - 20 2, M eth od 2 13, Con di ti on F . 1 500 G ’s , 0.5m s , ha lf s i n e, 3 s hoc k s per
d i re ct io n.
M
o
i
s
t
u
r
e
R
e
s
i
s
t
a
n
c
e
:
P
e
r
M
I
L
-
S
T
D
-
2
0
2
,
M
e
t
h
o
d
1
0
6
.
9
5
%
R
H
@
6
5
°
C
,
1
0
c
y
c
l
e
s
1
0
°
C
t
o
6
5
°
C
.
S
u
r
f
a
c
e
M
o
u
n
t
P
a
c
ka
g
e
O
u
t
l
i
n
e
S
u
r
f
n
a
m
c
e
e
M
o
l
u
C
n
h
t
P
a
a
c
c
k
t
a
e
g
e
t
.
E
n
v
i
r
o
n
t
a
r
a
r
i
s
i
c
s
(
)
E N V IR O N M E NT AL C H AR ACT E RI S T I C S
Tem per at ur e C ycl e: P er M I L- S TD - 8 83 , M e t ho d 10 1 0 , Co n d it io n B. - 5 5 °C t o 1 25 ° C, 3 0 0 cy cl e s,
10 m i nut e d we ll, 1 m in ut e t ran sit io n .
M E C H A N IC AL CH AR ACT E RI S T I CS
V ib r ati on: Per M I L- S TD - 2 02 , M et h o d 2 0 4 , C on d it io n A. 10 G ’s p e ak, 1 0 H z t o 50 0 Hz, 15 m i nu t e
c yc le s 12 ti m es e ach pe rp e n dic ula r a x is .
S ho c k: Per MIL - S TD - 2 02 , M et h od 2 1 3, Co n d it io n F. 1 5 00 G ’s, 0 . 5 m s, h a lf s in e , 3 sh o ck s p e r
dir e c ti on.
M
o
i
s
t
u
r
e
R
e
s
i
s
t
a
n
c
e
:
P
e
r
M
I
L
-
S
T
D
-
2
0
2
,
M
e
t
h
o
d
1
0
6
.
9
5
%
R
H
@
6
5
°
C
,
1
0
c
y
c
l
e
s
1
0
°
C
t
o
6
5
°
C
.
Su gges t ed P ad L ayou t
Keep Ou t Ar ea
S
o
l
d
e
r
P
r
o
f
i
l
e
.8 3 0
(2 1 .0 8 mm)
.5 6 5
(1 4 .3 5 mm)
O
u
t
p
u
t
W
a
v
e
f
o
r
m
Pin C on n ection s
P
i
n
Fu n ct i on
OC XO – N /C
VCO CXO - Vo lt a g e C o n t ro l
Gr ou n d ( C a se )
Ou t pu t
90%
50%
10%
1
7
8
Ta pe a nd Reel In f or m a tion
1
4
V
c
c
T
e
s
t
C
i
r
c
u
i
t
1
4
8
7
1 5 p F
1
O
C
X
O
-
O
N
-
/C
VC
V
C
O
C
X
B
u
l
l
e
t
i
n
C
x
1
2
3
4
3
US Headquarters:
6 3 0 - 8 5 1 - 4 7 2 2
European Headquarters:
+ 3 5 3 -6 1 - 4 7 2 2 2 1
P
a
g
e
4
o
f
R
e
v
i
s
i
o
n
P
0
D
a
t
e
0
8
O
c
t
2
0
0
7
S
p
e
c
i
f
i
c
a
t
i
o
n
s
s
u
b
j
e
c
t
t
o
c
h
a
n
g
e
w
i
t
h
o
u
t
n
o
t
i
c
e
.
A
l
l
d
i
m
e
n
s
i
o
n
s
i
n
i
n
c
h
e
s
.
©
C
o
p
y
r
i
g
h
t
2
0
0
7
T
h
e
C
o
n
n
o
r
-
W
i
n
f
i
e
l
d
C
o
r
p
o
r
a
t
i
o
n
相关型号:
PF250LF-004.096M
LVCMOS Output Clock Oscillator, 4.096MHz Nom, ROHS COMPLIANT PACKAGE-4
CONNOR-WINFIE
PF250LF-008.192M
LVCMOS Output Clock Oscillator, 8.192MHz Nom, ROHS COMPLIANT PACKAGE-4
CONNOR-WINFIE
PF250LF-010.0M
Oven Controlled Crystal Oscillators 3.3V / 5.0V Series LVCMOS / HCMOS Series VCOCXO / OCXO
CONNOR-WINFIE
©2020 ICPDF网 联系我们和版权申明