T623-012.80M [CONNOR-WINFIELD]
Clipped Sine Output Oscillator, 12.8MHz Nom, ROHS COMPLIANT, CERAMIC PACKAGE-10;
| 型号: | T623-012.80M |
| 厂家: | 
CONNOR-WINFIELD CORPORATION |
| 描述: | Clipped Sine Output Oscillator, 12.8MHz Nom, ROHS COMPLIANT, CERAMIC PACKAGE-10 机械 振荡器 |
| 文件: | 总4页 (文件大小:412K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
5.0 x 7.0mm
S
u
r
f
a
c
e
M
o
u
n
t
P
a
c
k
a
g
e
L
V
C
M
O
S
,
C
l
i
p
p
e
d
S
i
n
e
w
a
v
e
T
5
x
x
S
e
r
i
e
s
a
n
d
T
6
x
x
S
e
r
i
e
s
T
C
X
O
/
V
C
V
C
X
O
F
e
a
t
u
r
e
s
:
D
e
e
0
o
o
C
m
o
s
r
o
l
s
c
C
7
p
r
i
o
0
e
l
p
n
m
n
l
s
t
i
n
o
o
m
a
d
r
u
d
n
r
2
1
1
1
C
o
m
p
r
l
e
h
e
n
s
i
v
e
D
r
i
v
e
T
C
X
O
o
r
V
C
T
C
X
O
T
5
h
.
-
W
i
n
f
i
e
l
d
A
u
r
o
r
a
,
I
l
i
n
o
i
s
6
0
5
0
5
3
.
3
V
O
p
e
r
a
t
i
o
n
x
m
n
X
.
Temp era t ur e
e
P
h
o
n
e
:
6
3
0
-
8
5
1
-
4
0
7
2
2
L
V
C
M
O
S
o
y
T
r
C
l
i
p
p
e
d
S
i
n
e
w
a
v
e
O
u
t
p
u
t
Lo
g
i
c
C
C
s
t
O
d
C
r
a
y
s
t
a
l
s
l
s
s
3
n
e
F
a
x
:
6
3
0
-
8
5
1
-
5
4
0
F
r
e
q
u
e
n
c
S
t
a
b
i
l
i
t
i
e
s
A
v
a
i
l
a
b
l
e
:
t
r
o
O
e
o
e
s
c
i
l
l
t
o
r
o
w
w
w
.
c
o
n
w
i
n
.
c
o
m
T
5
0
x
/
/
/
6
0
x
:
:
:
±
0
.
2
8
p
p
p
p
p
p
m
m
m
i
(
T
e
t
i
e
s
)
a
o
n
m
d
V
t
a
a
V
T
g
e
d
T
e
g
e
C
C
C
o
r
X
m
m
c
o
n
y
O
t
s
r
t
o
a
l
l
l
e
d
T
T
m
5
5
p
1
x
T
6
1
x
±
0
.
5
0
0
U
S
H
e
a
-
d
5
e
q
1
u
-
a
a
4
d
r
t
e
r
s
:
6
e
3
0
8
H
7
2
2
2
x
T
6
2
x
±
1
.
0
T
e
p
r
a
r
e
C
s
p
e
n
t
e
E
u
r
o
p
a
n
q
u
a
r
t
e
r
s
:
T
e
e
r
a
t
u
r
e
R
a
n
0
g
e
s
A
v
a
l
a
b
l
e
:
C
n
i
o
m
t
r
l
l
e
d
O
o
e
t
c
i
l
l
a
t
o
r
S
A
d
(
C
s
e
r
i
e
s
)
a
r
n
e
s
+
3
5
3
-
6
1
-
4
7
2
2
2
1
T
5
6
x
x
x
x
t
S
S
e
e
r
i
i
e
s
:
t
o
7
0
°
C
d
T
e
h
g
u
p
i
n
e
h
n
f
r
u
s
e
e
t
p
i
n
e
l
c
o
a
p
p
l
t
l
h
i
c
a
t
i
o
.
T
r
e
s
:
-
4
0
t
o
8
5
°
C
g
e
g
t
h
a
u
s
o
f
a
l
o
c
T
e
p
e
r
a
b
t
u
e
e
r
e
o
L
o
w
J
i
t
e
r
<
1
p
S
R
M
S
C
s
i
o
n
,
p
h
i
s
v
i
i
s
a
v
p
e
a
r
f
T
r
i
-
S
t
a
t
e
E
M
n
a
b
l
e
/
D
i
s
a
b
l
e
h
o
d
n
s
u
b
1
-
m
s
t
a
b
i
l
i
t
i
e
s
S
u
r
f
a
c
e
o
u
n
t
P
a
c
k
a
g
e
c
o
m
m
e
r
c
i
a
l
o
r
t
h
e
i
n
d
u
s
t
r
i
a
l
t
e
m
p
e
r
a
t
u
r
e
T
a
p
e
a
n
d
R
e
e
l
P
a
c
k
i
n
g
r
a
a
c
n
c
g
u
e
s
c
.
A
l
s
l
m
o
r
d
e
l
e
s
n
m
e
y
e
e
t
a
+
/
.
-
4
.
6
p
p
m
L
R
e
a
d
F
r
e
e
o
H
S
C
o
m
p
l
i
a
n
t
r
a
i
e
f
o
t
w
t
y
r
s
Pi n C o n n e ct io n s
P
a
c
k
a
g
e
L
a
y
o
u
t
0
.
0
7
9
M
a
x
.
0
.
2
7
7
6
±
0
.
0
0
6
(
2
.
0
m
m
)
(
.
0
m
m
)
1
2
3
4
5
6
7
8
9
1
D
D
D
o
o
o
n
n
n
o
o
o
t
t
t
c
c
c
o
o
o
n
n
n
n
n
n
e
e
e
c
t
ct
0
.
1
9
7
T
5
0
4
0
7
0
2
±
0
.
0
0
6
ct
(
5
.
0
m
m
)
1
9
.4
4
M
H
z
G
O
r
o
u
n
d
u
o
o
t
p
u
t
t
t
0
.
0
2
5
(
6
P
l
a
c
e
s
)
P
i
n
1
D
D
n
n
o
o
c
c
e
o
o
E
n
n
n
n
n
a
e
e
b
c
t
(
0
.
6
3
5
m
m
)
0
.
0
4
0
c
t
(
1
.0
2
m
m
)
1
2
3
(
6
P
l
a
c
e
s
)
1
0
4
T
S
V
r
i
u
o
-
p
s
t
a
t
l
e
/
D
i
s
a
b
l
e
0
.
0
3
0
0
.
.
1
0
0
B
o
t
t
o
m
p
l
y
,
V
c
c
(
0
.
7
6
2
m
m
)
(
2
5
4
m
m
)
V
i
e
w
(
4
P
l
a
c
e
s
)
0
l
C
t
a
g
e
C
C
o
n
)
t
r
o
l
(
V
C
T
C
X
O
)
9
5
6
7
8
N
/
(
T
X
O
D
i
m
e
5
n
s
i
o
n
a
l
T
o
l
)
)
e
r
a
n
c
e
:
0
.
6
0
3
8
±
.
.
0
0
2
(
.
1
5
2
7
m
m
0
.
1
0
0
m
(
0
(
.
9
5
a
m
m
)
±
0
(
.
0
8
m
m
(
2
.
5
4
m
)
4
P
l
c
e
s
)
S
t
a
n
d
a
r
d
F
r
e
q
u
e
n
c
i
e
s
A
v
a
i
l
a
b
l
e
*
O
r
d
e
r
i
n
g
I
n
f
o
r
m
a
t
i
o
n
6
.
.
4
8
M
M
H
H
z
z
9
.
7
2
4
M
M
H
H
z
z
1
2
0
0
.
0
M
M
H
h
z
z
T
5
0
4
-
0
1
9
.
4
4
M
T
C
X
O
C E NT E R
FR E QU EN CY
1
2
1
9
.
4
.
0
S
E
R
I
E
S
*
q
v
n
a
t
i
i
l
t
a
y
b
o
l
f
r
e
e
r
q
s
u
o
e
r
n
q
c
u
i
s
k
f
r
d
o
e
t
e
h
r
e
y
f
.
a
A
c
d
t
d
o
i
r
t
f
n
o
a
r
s
m
a
l
l
E
x
a
m
p
l
e
P
a
r
t
N
u
m
b
e
r
l
f
r
e
q
u
e
n
c
i
e
s
a
r
e
a
v
a
i
l
a
b
l
e
.
S
t
a
n
d
a
r
d
M
o
d
e
l
s
N
u
m
b
e
r
s
A
v
a
i
l
a
b
l
e
T
a
b
l
e
1
.
0
L
V
C
M
O
S
M
o
d
e
l
C
l
i
p
p
e
d
S
i
n
e
w
a
v
e
F
r
e
q
u
e
n
c
y
F
r
e
q
u
e
n
c
y
T
e
m
p
e
r
a
t
u
r
e
T
C
X
O
N
u
m
b
e
r
M
o
d
e
l
N
u
3
m
b
e
r
R
a
2
n
g
7
7
7
7
0
0
0
0
2
2
2
2
e
M
S
t
a
8
b
i
p
l
i
p
t
y
R
a
n
7
8
7
8
7
8
7
8
7
8
7
g
0
5
0
5
0
5
0
5
0
5
0
e
V
C
T
C
X
O
T
T
T
T
T
T
T
T
T
T
T
T
5
6
5
6
5
6
5
6
5
6
5
6
0
0
0
0
1
1
1
1
2
2
2
2
2
2
4
4
2
2
4
4
2
2
4
4
T
T
T
T
T
T
T
T
T
T
T
T
5
6
5
6
5
6
5
6
5
6
5
6
0
0
0
0
1
1
1
1
2
2
2
2
6
6
6
6
6
6
6
6
6
6
6
6
.
.
.
.
.
.
.
.
.
.
.
.
4
4
t
t
t
t
t
t
t
t
t
t
t
t
o
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
±
±
±
±
±
±
±
±
±
±
±
±
0
0
0
0
0
0
0
0
1
1
1
1
.
.
.
.
.
.
.
.
.
.
.
.
2
2
2
2
5
5
5
5
0
0
0
0
m
m
m
m
m
m
m
m
m
m
m
m
0
t
o
°
C
T
T
C
C
X
X
O
O
3
5
5
3
3
5
5
3
3
5
5
o
o
o
o
o
o
o
o
o
o
o
2
2
2
4
4
4
4
5
5
5
5
M
M
M
M
M
M
M
M
M
M
M
8
8
8
0
0
0
0
0
0
0
0
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
p
-
-
-
-
-
-
4
0
t
o
°
C
4
4
4
4
4
4
4
4
4
4
0
0
0
0
0
0
0
0
t
t
t
t
t
o
°
C
V
V
C
C
T
T
C
C
X
X
O
O
4
t
o
°
C
o
°
C
T
T
C
X
O
O
4
t
o
°
C
C
X
o
°
C
V
V
C
C
T
T
C
C
X
X
O
O
4
t
o
°
C
B
u
l
l
e
t
i
n
T
1
x
o
1
f
0
7
6
4
3
o
°
C
T
T
C
C
X
X
O
O
4
t
o
°
C
P
a
g
e
0
o
°
C
V
V
C
C
T
T
C
C
X
X
O
O
R
e
v
i
s
i
o
n
4
0
t
o
8
5
°
C
D
a
t
e
0
8
M
a
r
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
1
9
9
8
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
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
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
A
b
s
o
l
u
t
e
M
a
x
i
m
u
m
R
a
t
i
n
g
s
Tab le 2. 0
P
a
r
a
m
e
t
e
r
M
i
n
i
m
u
m
N
o
m
-
-
i
n
a
l
M
a
x
i
m
u
m
U
n
i
t
s
No t e s
S
S
t
o
r
a
g
e
T
e
m
p
g
e
e
r
(
a
V
t
u
c
r
c
e
)
-
5
5
1
2
5
° C
u
p
p
l
y
Vo
l
t
a
-
0
.
5
6
c
.
0
V d c
I
n
p
u
t
Vo
l
t
a
g
e
(
V
c
c
)
-
0
.
5
-
V
c
+
0
.
6
V d c
M
o
d
e
l
S
p
e
c
i
f
i
c
a
t
i
o
n
s
Ta b le 3. 0
No t es
M o de l Nu mb er
Ou tp u t Typ e
T CX O / V C TCX O
Fr e qu en c y R ang e
Fr e qu en c y Stab ility
S u pp ly Vol tage
T5 02
LV C MOS
TC XO
T5 03
C li pped S inew av e
TC XO
T5 04
LVC MO S
VC TC XO
T5 05
C li pped Sinewa v e
VC TC XO
6. 4 to 27 MH z
± 0. 2 8p pm
3. 3 Vdc
1
F
e
a
t
u
r
e
s
T em pe r ature R ang e
H ol do v er Stab ility
0 t o 7 0 °C
± 0. 3 2p pm
2
TC
XO
Ta b le 4. 0
No t es
V CTCXO
3 .3V Ope rati on
M o de l Nu mb er
Ou tp u t Typ e
T CX O / V C TCX O
Fr e qu en c y R ang e
Fr e qu en c y Stab ility
S u pp ly Volt age
T6 02
LV C MOS
TC XO
T6 03
T6 04
T6 05
C li pped Sinewa v e
VC TC XO
C li pped S inew av e
TC XO
LVC MO S
VC TC XO
L
V
C
i
M
p
u
5
5
5
O
e
e
0
1
2
S
O
u
e
t
x
x
x
t
w
a
S
-
-
p
a
b
e
S
S
u
v
i
r
e
e
t
6. 4 to 2 7 MHz
± 0. 2 8ppm
3. 3 Vdc
- 4 0 to 8 5° C
± 0. 3 2p pm
C
F
l
p
q
T
T
T
d
S
y
T
T
T
i
n
S
e
O
:
u
t
p
u
t
1
2
r
e
n
c
l
i
ty
x
x
x
/
/
/
6
6
6
0
1
2
i
r
r
e
s
s
s
±
±
±
0
.
2
.
.
8
5
0
p
p
p
p
p
p
m
m
m
T em pe r ature R ang e
H ol do v er Stab ility
i
i
e
e
0
1
0
0
Te
m
T
T
p
5
6
e
r
a
t
u
e
e
r
r
r
e
R
s
s
a
0
-
n
t
4
g
o
0
e
7
:
x
x
x
x
-
S
S
i
i
e
e
0
8
°
5
C
°
Ta b le 5. 0
No t es
-
to
C
M o de l Nu mb er
Ou tp u t Typ e
T5 12
LV C MOS
TC XO
T5 13
C li pped S inew av e
TC XO
T5 14
LVC MO S
VC TC XO
T5 15
C li pped Sinewa v e
VC TC XO
L
o
i
u
p
o
w
J
i
t
t
e
e
n
t
e
E
M
d
r
<
1
p
S
R
M
S
T
r
-
r
S
t
a
c
n
o
ab le /D is a bl e
unt Pa ck ag e
T CX O / V CTC X O
Fr e qu en c y R ang e
Fr e qu en c y Stab ility
S u pp ly Vol tage
T em pe r ature R ang e
S
f
a
6
.
4
t
o
4
0
M
H
z
T
a
e
H
a
S
R
p
e
e
l
a
P
n
a
c
L
k
i
e
n
a
g
d
± 0. 5 0ppm
3.3 Vdc
0 t o 7 0 °C
1
R
C
o
m
l
i
t
/
F
r
e
e
Ta b le 6. 0
No t es
M o de l Nu mb er
Ou tp u t Typ e
T6 12
LV C MOS
TC XO
T6 13
C li pped S inew av e
TC XO
T6 14
LVC MO S
VC TC XO
T6 15
C li pped Sinewa v e
VC TC XO
T CX O / V C TCX O
Fr e qu en c y R ang e
Fr e qu en c y Stab ility
S u pp ly Vol tage
T em pe r ature R ang e
6. 4 to 4 0 MHz
± 0. 5 0ppm
3. 3 Vdc
LV
C
M
O
S
Te
s
t
C
i
r
c
u
i
t
1
-
4
0
t
o
8
5
°
C
DN C
D N C
DN C
1
2
3
N /C - TCXO
VC - VC TCXO
10
9
4
5
Ta b le 7. 0
No t es
Vc c
Su p ply
Volt ag e
M o de l Nu mb er
Ou tp u t Typ e
T5 22
LV C MOS
TC XO
T5 23
C li pped S inew av e
TC XO
T5 24
LVC MO S
VC TC XO
T5 25
C li pped Sinewa v e
VC TC XO
O u t put
8
7
6
.01 u F
B y p as s
15 p F
T CX O / V C TCX O
Fre q ue n cy Rang e
Fr e qu en c y Stab ility
S u pp ly Vol tage
T em pe r ature R ang e
D N C DN C
E /D
6
.
4
t
o
5
2
M
H
z
± 1. 0 0ppm
3.3 Vdc
0 t o 7 0 °C
1
Ta b le 8. 0
No t es
M o de l Nu mb er
Ou tp u t Typ e
T6 2 2
LV C MOS
TC XO
T6 23
C li pped S inew av e
TC XO
T6 24
LVC MO S
VC TC XO
T6 25
C li pped Sinewa v e
VC TC XO
T CX O / V C TCX O
Fr e qu en c y R ang e
Fr e qu en c y Stab ility
S u pp ly Vol tage
T em pe r ature R ang e
US Headquarters:
6 3 0 - 8 5 1- 47 22
European Headquarters:
+ 3 5 3 -6 1- 47 22 21
6. 4 to 5 2 MHz
± 1. 0 0ppm
3. 3 Vd c
1
-
4
0
t
o
8
5
°
C
N
o
t
e
s
:
Bu ll et in
Page
T
x
1
7
6
1
2
)
)
F
r
c
e
l
q
u
u
s
e
n
e
c
o
y
f
s
f
t
r
a
e
b
q
i
u
l
i
e
t
y
n
v
c
s
y
.
c
h
a
a
b
n
g
e
,
i
s
n
u
t
p
e
p
m
p
e
r
a
t
a
u
g
r
e
e
.
[
c
±
(
n
F
g
m
e
a
(
x
±
–
1
F
%
m
i
n
a
)
g
/
2
.
F
g
o
,
]
f
.
o
2 o f 4
0 3
I
n
i
v
s
t
i
l
i
t
y
l
y
v
o
l
t
h
a
)
,
i
n
r
2
4
h
o
u
r
s
.
Rev is io n
Date
0
8
M
a
r
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
1
9
9
8
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
El ec t r ic al Sp ec if ic at io ns f o r a ll M o d e ls
OP E R A T I N G S P EC I FIC AT IO N S
Tab l e 9 .0
P AR AME TE R
M INI MU M
N OMI N AL
MA X IM UM
UN I TS
N ot es
T
T
C
X
O
F
r
e
q
u
e
n
c
y
C
a
l
i
b
r
a
t
i
o
n
@
2
5
C
-
-
1
4
.
.
0
0
0
-
-
1
4
.
.
0
6
0
0
p
p
p
p
m
m
1
2
3
o
t
a
l
F
r
e
q
u
e
n
c
y
T
o
l
e
r
a
n
c
e
6
S
S
u
u
p
p
e
p
p
r
l
l
y
y
V
o
l
t
a
g
e
(
V
c
c
)
3
.
1
-
-
-
-
-
-
-
-
3
5
3
.
3
3
.
4
6
5
V
d
c
C
u
r
r
e
n
t
(
I
c
c
)
6
-
1
0
m
A
J
J
i
t
t
(
(
B
W
=
1
1
0
2
H
z
t
o
2
0
M
H
z
)
5
p
p
s
s
r
r
m
m
s
s
i
t
t
er
B
W
=
k
H
z
t
o
2
0
M
H
z
)
-
1
S
S
S
S
S
S
S
S
S
S
B
B
B
B
B
P
P
P
P
P
h
a
s
s
s
s
s
e
N
N
N
N
N
o
o
o
o
o
i
i
i
i
i
s
s
s
s
s
e
e
e
e
e
a
t
1
0
0
H
z
o
f
f
s
e
t
-
8
0
-
7
0
d
d
d
d
d
B
B
B
B
B
c
c
c
c
c
/
H
z
z
z
z
z
h
h
h
h
a
a
a
a
e
e
e
e
a
t
1
1
0
H
z
o
f
f
s
e
t
-
-
-
-
1
1
1
1
1
3
5
5
0
5
0
0
-
-
-
-
1
1
1
1
0
3
4
5
0
/
/
/
/
H
H
H
H
a
t
K
H
z
o
f
f
s
e
t
0
5
0
a
t
>
1
1
0
0
K
H
z
o
f
f
s
e
t
a
t
>
0
K
H
z
o
f
f
s
e
t
F
e
a
t
u
r
e
s
I
N
P
U
T
C
H
A
R
A
C
T
E
R
I
S
T
I
C
S
f
o
r
E
N
A
B
L
E
/
D
I
S
A
B
L
E
F
U
N
C
T
I
O
N
(
P
i
n
8
)
Tab l e 10.0
N ot es
4
T
V
CXO
CTCXO
P
A
R
A
M
E
T
E
R
M
I
N
I
M
U
M
N
O
M
I
N
A
L
MA X IM UM
UN I TS
E
n
a
b
l
e
V
o
l
t
a
g
e
(
H
i
g
h
)
o
r
o
p
e
n
c
i
r
c
u
i
t
(
V
i
h
)
7
0
%
V
d
d
-
-
-
V
V
d
d
c
c
3 .3V Ope rati on
LV
D
i
s
a
b
l
e
V
o
l
t
a
g
e
(
L
o
w
)
O
u
t
p
u
t
T
r
i
-
s
t
a
t
e
d
(
V
i
l
)
-
3
0
%
V
d
d
C
M
O
S
O
u
t
p
u
t
v
C
l
i
p
p
e
d
S
i
n
e
w
a
e
O
u
t
p
u
t
I
N
P
U
T
C
H
A
R
A
C
T
E
R
I
S
T
I
C
S
f
o
r
V
O
L
T
A
G
E
C
O
N
T
R
O
L
(
P
i
n
1
0
)
Tab l e 11.0
N ot e s
F
r
e
q
u
e
x
x
x
r
x
x
n
c
y
S
t
a
S
S
S
i
r
l
i
r
r
i
e
t
y
s
:
±
s
s
P AR AME TE R
M INI MU M
N OMI N AL
MA X IM UM
UN I TS
T
T
T
m
T
5
5
5
p
5
0
1
2
e
x
x
/
/
/
T
T
T
6
6
6
r
e
e
0
1
2
x
x
x
.
8
0
0
p
p
p
p
p
p
m
m
m
-
-
R
s
i
i
e
e
C
o
n
t
r
o
l
V
o
l
t
a
g
e
R
a
ng
e
(
V
c
c
=
3
.3
V)
(
V
c
)
0
.
3
1
.
6
5
3
.
0
V dc
F
r
e
q
u
e
n
cy
T
u
n
i
n
g
±
1
0
-
-
-
-
p
p
m
5
Te
a
t
u
e
g
t
0
e
:
L
i
n
e
a
r
i
t
y
±
5
%
-
-
S
S
r
r
i
i
e
e
o
7
o
C
5
S
l
o
p
e
P
o
s
i
t
i
v
e
T
6
s
4
t
C
L
o
i
u
p
o
i
t
t
e
e
n
t
e
E
M
d
r
1
p
S
R
M
S
L VC M O S O U T P U T CH AR AC TE R IS TI C S
P AR AME TE R
Tab l e 12.0
N ot es
T
r
M
I
N
I
M
U
M
N
O
M
I
N
A
L
M
A
X
I
M
U
M
UN I TS
S
T
a
e
l
a
P
n
a
c
L
k
i
e
n
a
g
d
L
O
A
D
-
-
-
-
-
-
1
5
p
F
R
C
o
m
l
i
t
/
Fr
e
e
V
o
l
t
a
g
e
(
H
i
g
h
)
(
V
o
h
)
9
0
%
V
c
c
-
V
d
c
c
(
L
o
w
)
(
V
o
l
)
-
1
0
%
V
c
c
V
d
C
u
r
r
e
n
t
(
H
i
g
h
)
(
I
o
h
)
-
4
-
m
m
A
A
(
L
o
w
)
(
I
o
l)
-
4
D
u
t
y
C
y
c
l
e
a
t
5
0
%
o
f
V
c
c
4
5
5
0
5
5
%
R
i
s
e
/
F
a
l
l
T
i
m
e
1
0
%
t
o
9
0
%
-
-
8
n
s
C
l
i
p
p
e
d
S
i
n
e
w
a
v
e
T
e
s
t
C
i
r
c
u
i
t
C
L
I
P
P
E
D
S
I
N
E
W
A
V
E
O
U
T
P
U
T
C
H
A
R
A
C
T
E
R
I
S
T
I
C
S
Tab l e 13.0
N ot es
6
DN C
D N C
DN C
P
A
R
A
M
E
T
E
R
M
I
N
I
M
U
M
N
O
M
I
N
A
L
M
A
X
I
M
U
M
U
N
I
T
S
L
o
a
d
-
1
0
K
O
h
m
-
/
/
1
0
p
F
-
-
-
2
3
1
Volt ag e
Con t rol
10
4
O
O
u
u
t
t
p
p
u
t
t
V
V
o
o
l
l
t
t
a
a
g
e
e
(
(
<
>
4
0
0
M
H
z
)
)
1
0
.
.
0
0
0
V
V
p
p
k
k
-
-
p
p
k
k
Vc c
Su p ply
Volt ag e
9
5
O u t p ut
10 p F
u
g
4
M
H
z
8
-
8
7
6
N
o
t
e
s
:
.01 u F
B y p as s
10Kohm
1
2
)
)
T
C
u
c
X
r
O
s
:
o
v
I
f
e
n
o
i
t
p
i
a
e
c
l
l
o
i
b
n
r
.
a
t
i
o
n
@
2
5
C
.
S
p
e
c
i
f
i
c
a
t
i
o
n
s
a
t
t
i
m
e
o
f
t
s
h
i
p
m
e
n
t
a
f
t
e
r
4
8
D N C D N C
E /D
h
o
I
n
l
u
s
i
o
f
r
a
t
i
o
n
@
2
5
C
,
f
r
e
q
u
e
n
c
y
v
s
.
c
h
a
n
g
e
i
n
e
m
p
e
r
a
t
u
r
e
,
c
h
a
n
g
e
i
n
s
y
u
e
p
p
s
l
y
a
v
g
o
l
t
g
a
.
g
e
(
±
5
%
)
,
l
o
a
d
c
h
a
n
g
e
(
±
5
%
)
,
r
e
f
l
o
w
s
o
l
d
e
r
i
n
g
p
r
o
c
e
s
s
a
n
d
2
0
a
r
i
n
3
)
F
o
u
e
r
b
e
e
s
i
a
a
t
s
i
n
c
a
p
p
a
l
l
i
.
c
a
S
a
t
i
e
d
i
o
l
i
e
n
e
n
n
p
e
a
v
o
r
n
o
f
o
e
r
m
a
e
n
c
a
e
o
e
l
g
,
c
a
g
t
a
r
u
e
l
f
a
n
d
u
t
l
o
t
l
s
r
e
t
e
l
h
r
e
a
a
v
c
t
n
o
t
i
m
o
n
e
,
g
o
f
s
i
n
a
o
n
r
l
e
e
x
x
t
c
c
e
e
u
e
r
n
e
a
s
a
d
c
l
s
p
t
o
o
w
e
l
r
l
s
s
o
p
r
c
r
i
t
i
c
c
t
x
t
r
n
r
e
e
t
f
o
o
w
i
n
g
c
i
f
i
c
t
i
o
n
e
s
c
r
e
g
r
g
l
t
a
g
e
r
n
u
l
a
i
o
o
l
c
l
e
a
i
n
t
i
a
a
e
c
r
n
y
,
US Headquarters:
6 3 0 - 8 5 1- 47 22
European Headquarters:
+ 3 5 3 -6 1 - 47 22 21
t
e
m
p
e
r
t
u
r
o
e
f
f
i
c
t
,
v
l
t
a
g
e
i
s
e
,
n
o
w
t
e
o
i
s
d
i
t
y
.
Fa c t ory T e s t C o nd i t io ns :
I
=
i
d
n
i
t
i
5
n
a
0
a
l
A
c
/
c
s
/
u
q
d
u
r
r
a
t
c
H
a
y
z
b
e
±
2
e
f
s
m
m
v
p
c
,
N
o
a
n
r
i
t
s
u
e
(
0
C
o
c
.
1
o
r
m
H
z
t
c
u
e
o
1
n
0
t
.
t
K
<
W
H
5
h
z
p
e
c
)
p
1
m
n
5
°
u
V
.
p
-
p
,
V
o
l
t
a
g
e
8
o
N
o
i
s
e
D
e
n
s
i
t
y
n
V
,
T
e
r
r
e
e
f
f
i
i
e
C
-
4
)
L
e
a
a
v
e
d
P
a
h
d
e
u
n
p
c
u
o
t
n
n
a
e
g
c
e
t
e
i
d
s
f
e
b
l
e
d
i
s
l
e
u
n
t
i
o
i
s
n
t
o
e
q
p
i
r
e
d
t
r
i
s
t
t
e
,
t
u
t
s
t
i
s
a
b
l
e
b
t
t
h
o
c
i
l
l
a
t
o
a
n
d
n
s
a
i
o
n
i
r
c
u
i
t
a
A
r
d
f
u
e
d
o
t
s
t
i
i
o
l
l
n
a
a
c
l
n
A
t
p
i
v
u
.
e
l
(
l
u
n
r
r
g
e
e
n
s
t
o
e
n
a
s
p
a
t
b
i
n
;
1
a
A
c
)
.
o
Bu ll et in
Page
T
x
1
7
6
5
6
)
)
i
t
n
t
a
c
t
t
h
e
f
a
c
t
o
r
y
f
o
r
a
d
d
i
t
i
o
n
a
l
3 o f 4
0 3
i
n
r
m
a
t
t
i
o
Rev is io n
Date
O
p
u
i
s
C
c
o
p
l
e
d
.
0
8
M
a
r
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
i
m
e
n
s
i
o
i
n
i
n
c
©
C
p
h
t
1
8
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
P
a
c
k
a
g
e
C
h
a
r
a
c
t
e
r
i
s
t
i
c
s
D
e
s
i
g
n
R
e
c
o
m
m
e
n
d
a
t
i
o
n
s
T able 1 4. 0
T ab le 1 5. 0
Pa ck ag e
C era mi c Su rfa c e Mo un t Pac kage .
Vc c, sh o uld h ave
a la r g e c opper
ar e a fo r r ed uce d
in du c t an ce.
Co n ne ct a 0. 0 1u F
by pas s c apacit o r
< 0. 1”(2. 54mm)
fr o m t he p ad .
E
n
v
i
r
o
n
m
e
n
t
a
l
C
h
a
r
a
c
t
e
r
i
s
t
i
c
s
0. 010 ”( 0. 254 mm)
Recomme nded
clea r an ce
5 0 Oh m t ra ce
< 1”b y d es ig n
V c c
V i br a ti o n:
S ho ck :
V i br a ti o n pe r Mi l S t d 8 83 E M et ho d 20 07.3 Te st Cond it io n A
Me cha n i ca l Sho ck pe r Mi l St d 8 8 3E M et hod 200 2. 4 Te st Con d it io n B.
S MD pr o duc t sui t ab le fo r Co nve cti o n Re fl ow sol de ri ng. Pe a k
t em pe r a tu re 2 60C. M a xim um time a b ove 22 0C, 60 se con d s.
S ol de r a bi l i ty pe r M i l St d 8 8 3E Me th od 2 003
in duct a nce
S ol de r i ng :
8
1
6
3
f or int er n al
5
9
Bu ffer
cop per f lood .
S
o
l
d
e
r
a
b
i
l
i
t
y
4
1 0
G
r
o
u
n
d
G
r
o
u
n
d
,
s houl d ha ve
a la r g e copper
ar ea f or r e duced
in duct an ce.
S
u
g
g
e
s
t
e
d
P
a
d
L
a
y
o
u
t
G
r
o
u
n
d
T
o
p
V
i
e
w
T
o
p
V
i
e
w
0
.
2
9
5
(
7
.
4
9
m
m
)
0 .0 5 1
(1 .2 8 mm )
0 .0 3 0
(0 .7 6 mm )
5
0
O
h
m
T
r
a
c
e
O
S
C
W i th o u t
V ia s
O u tp u t
B uf fe r
0 .0 3 7
(0 .9 4 mm )
TO P L AYE R
GRO U N D L AYE R
K
e
e
p
O
u
t
A
r
e
a
T
o
p
V
i
e
w
0 .2 1 5
(5 .4 6 mm)
0 .0 5 1
(1 .2 8 mm)
1
B
O
T
T
O
M
L
A
Y
E
R
D
i
m
e
n
s
i
o
n
a
l
T
o
l
e
r
a
n
c
e
:
±
.
0
0
5
(
.
1
5
2
7
m
m
)
)
±
.
0
2
(
.
0
8
m
m
T
y
p
i
c
a
l
P
h
a
s
e
N
o
i
s
e
S
o
l
d
e
r
P
r
o
f
i
l
e
M
o
d
e
l
T
5
0
4
-
0
1
9
.
4
4
M
H
z
T
e
m
p
e
r
a
t
u
r
e
2
6
0
°
C
2
6
0
°
C
2
2
0
0
0
°
°
°
C
C
C
1
1
8
5
1
2
0
°C
0
Ti m e
1
2
0
S
1
0
S
M
a x .
6
0
a
S
M
x
.
3
6
0
S
e
c.
Ma
x.
LV
C
M
O
S
O
u
t
p
u
t
Wa
v
e
f
o
r
m
90
%
50
%
1
0
%
Ta
p
e
a
n
d
R
e
e
l
S
p
e
c
i
f
i
c
a
t
i
o
n
s
C
l
i
p
p
e
d
S
i
n
e
w
a
v
e
O
u
t
p
u
t
Wa
v
e
f
o
r
m
0
1
2
0
0
m
V
/
D
i
v
US Headquarters:
6 3 0 - 8 5 1- 47 22
European H eadquarters:
+ 3 5 3 - 6 1- 47 22 21
Bu ll et in
Page
T
x
1
7
6
4 o f 4
0 3
R
e
v
i
s
i
o
n
D
a
t
e
0
8
M
a
r
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
1
9
9
8
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:
T623-012.8M
Clipped Sine Output OscillatorWarning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
CONNOR-WINFIE
T623-019.44M
Telecom Performance TCXO / VCTCXOWarning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
CONNOR-WINFIE
T623-020.00M
Clipped Sine Output Oscillator, 20MHz Nom, ROHS COMPLIANT, CERAMIC PACKAGE-10Warning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
CONNOR-WINFIE
T623-040.000M
OscillatorWarning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
CONNOR-WINFIE
T623-FREQ1
Clipped Sine Output Oscillator, 6.4MHz Min, 40MHz Max, ROHS COMPLIANT, CERAMIC PACKAGE-10Warning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
CONNOR-WINFIE
T623-FREQ2
Clipped Sine Output Oscillator, 40MHz Min, 52MHz Max, ROHS COMPLIANT, CERAMIC PACKAGE-10Warning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
CONNOR-WINFIE
T6230B
Active Single channel Analog signal Isolation barrierWarning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
MORNSUN
T6230D/S
ACTIVE SIGNAL AMPLIFIERWarning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
MORNSUN
T6233B
Active Single channel Analog signal Isolation barrierWarning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
MORNSUN
T6233D/S
ACTIVE SIGNAL AMPLIFIERWarning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
MORNSUN
T6235B
Active Single channel Analog signal Isolation barrierWarning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
MORNSUN
T6235D/S
ACTIVE SIGNAL AMPLIFIERWarning: Undefined variable $rtag in /www/wwwroot/website_ic37/www.icpdf.com/pdf/pdf/index.php on line 217
-
MORNSUN
©2020 ICPDF网 联系我们和版权申明