Clock Oscillators
Find
Here
Clock Oscillators Surface Mount Type
Clock Z-Series “X” type (Short LT type)
×
×
×
×
×
CMOS/ 1.8V, 2.5V, 3.3V / 2.0 1.6, 2.5 2.0, 3.2 2.5, 5.0 3.2, 7.0 5.0mm
Features
How to Order
• Frequency Range 0.5 to 170 MHz
• CMOS Output
□□□□
①
□
X 00
KC
Z
25.0000 C
1
②
③ ④ ⑤ ⑥ ⑦
• Short Lead Time
• Heat resistant up to 125 C
Series
①
+
°
KC2016Z 2016 Size KC2520Z 2520 Size
KC3225Z 3225 Size KC5032Z 5032 Size
KC7050Z 7050 Size
Applications
• Consumer/ Networking/ Industrial/ Amuse
Table 1
Output Frequency (25.0000 : 25MHz)
Output Type (C : CMOS)
②
③
Operating
Freq. Tol.
Temperature
Note
−
6
×
Code
10
°
Range ( C)
Supply Voltage
④ꢀ
±
S
30
(1 : 1.8V/ 2.5V/ 3.3V Compatible)
Frequency Tolerance (See Table 1)
±
±
±
±
±
±
±
±
±
−
+
U
W
G
H
J
25 10 to 70
⑤
20
50
30
⑥Symmetry/ INH Function
RoHS Compliant
X
45/ 55%
−
+
For additional
stabillity, please
contact us.
25 40 to 85
Individual Specification
(STD Specification is “00”.)
⑦
K
20
15
50
30
100
L
6
−
+
40 to 105
5
Packaging Tape&Reel
±
X
KC7050Z/ KC5032Z
KC3225Z/ KC2520Z/ KC2016Z
1000 pcs./ reel
2000 pcs./ reel
±
±
−
+
Z
50 40 to 125
30
9
Specifications
Item
Symbol
fo
Conditions
Min.
0.5
Max.
170
Unit
MHz
Output Frequency Range
Frequency Tolerance
Initial tolerance, Operating temperature range, Rated power supply voltage
f_tol
See Table 1.
°
change, Load change, Aging (1 year @25 C), Shock and vibration
°
C
Storage Temperature Range
Operating Temperature Range
Max. Supply Voltage
T_stg
T_use
—
−55
150
See Table 1.
4.5
−0.3
1.71
—
V
Supply Voltage
VCC
3.63
5.2
V
≤
0.5 fo<5MHz
≤
5 fo<15MHz
—
5.8
≤
15 fo<30MHz
—
6.2
≤
30 fo<50MHz
—
6.8
Current Consumption
≤ ≤
50 fo 60MHz
60<fo<75MHz
—
6.8
ICC
ICC
ICC
≤
≤
—
9
(Noload/ 1.71 VCC 2.25)
≤
75 fo<105MHz
—
10
≤
105 fo<130MHz
—
10.5
11.5
12.5
5.5
≤
130 fo<160MHz
—
≤
≤
160 fo 170MHz
—
≤
0.5 fo<5MHz
—
≤
5 fo<15MHz
—
6
≤
15 fo<30MHz
—
6.5
≤
30 fo<50MHz
—
7.2
Current Consumption
≤
≤
50 fo 60MHz
—
7.4
mA
<
≤
60<fo<75MHz
—
10
(Noload/ 2.25 VCC 2.8)
≤
75 fo<105MHz
—
11.5
12.5
14
≤
105 fo<130MHz
—
≤
130 fo<160MHz
—
≤
≤
160 fo 170MHz
—
15
≤
0.5 fo<5MHz
—
5.8
≤
5 fo<15MHz
—
6.5
≤
15 fo<30MHz
—
7.3
≤
30 fo<50MHz
—
8
Current Consumption
≤
≤
50 fo 60MHz
—
8.5
<
≤
60<fo<75MHz
—
12.5
14.5
15.5
18
(Noload/ 2.8 VCC 3.63)
≤
75 fo<105MHz
—
≤
105 fo<130MHz
—
≤
130 fo<160MHz
—
≤
≤
160 fo 170MHz
—
19.5
5
Stand-by Current
Symmetry
I_std
—
µA
%
SYM
@50% VCC
45
—
55
≤
≤
Loaded/ 1.71 VCC 2.25
4
≤
≤
≤
0.5 fo 60MHz
Loaded/ 2.25<VCC 2.8
—
3
Rise/ Fall Time
(20% to 80% Output Level)
≤
Loaded/ 2.8<VCC 3.63
—
2.5
Tr/ Tf
ns
≤
≤
Loaded/ 1.71 VCC 2.25
—
1.5
≤
≤
60<fo 170MHz
Loaded/ 2.25<VCC 2.8
—
1.3
≤
Loaded/ 2.8<VCC 3.63
—
1
=
Low Level Output Voltage
High Level Output Voltage
Output Load (CMOS)
Low Level Input Voltage
High Level Input Voltage
Disable Time
VOL
VOH
IOL 5mA
—
10% VCC
—
V
V
=
IOH ꢀ−5mA
90% VCC
—
L_CMOS
VIL
15
pF
V
—
30% VCC
—
VIH
70% VCC
—
V
t_dis
200
5
ns
ms
ms
Enable Time
t_ena
t_str
—
Start-up Time
@Minimum operating voltage to be 0 sec.
—
5
All electrical characteristics are defined at the maximum load and operating temperature range.
As of October 16, 2023
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