5V OCXO CMOS Output Tight Stability
SCOCXOVT
Specifications
Product
Option
Codes
Parameters
SCOCXOVT
Frequency range:
10.0kHz ~ 54.0MHz
Frequency stability:
±0.3ppm max first year
±2.5ppm max in 10 years
±0.1ppm over VDD ±0.2V
±0.01ppm over 10%ꢀchange in load
20.14
±0.08
Short term stability:
1x10-10, τ 0.1 to 30s
5x10-11 typ at 1s
PIN
1
CONNECTION
Freq adjustment
or Ground
12.52
±0.08
7
Ground
Output
Supply
Temperature stability:
8
±0.025ppm max, 0 to +60°C
±0.05ppm max, -20 to +70°C
±0.1ppm max, -40 to +85°C
±0.2ppm max, -55 to +85°C
A
B
C
E
14
7.80
±0.20
0.80
Storage temperature range:
6.35
±0.50
0.46Ø
-55 to +125°C
Output waveform:
CMOS compatible
‘0’=+0.4V max, ‘1’=VDD-0.5V min
40:60 max
1
7
8
7.62
14
Rise/fall times 7ns max (no load)
Load:
3pF min, 47pF max
5ms max
15.24
Start up time:
Frequency adjustment:
±2.5ppm min
Control voltage 0.5~5.0V, pin 1
Variable resistor 0~10kΩ, pins 1 to 7
None (int accuracy ±1.0ppm)
Features
V5
R1
A
Ultra high stability
None (int accuracy ±0.5ppm)
B
Compact 14-pin DIL package (SMDꢀoptional)
5.0V supply voltage
Supply voltage (VDD):
+5.0V (±0.2V)
Input current: 80mA max @ +25°C
CMOSꢀcompatible output
Very fast warmup
120mA max @ -20°C
Warm up time (secs):
current 250mA max @ 25°C
to within ±0.1ppm @ 25°C
10
60
Low power consumption
Phase noise (typ @ꢀ10MHz):
ꢀ-100dBc/Hz @ꢀ10Hz
Wide temperature range available
ꢀ-130dBc/Hz @ꢀ100Hz
ꢀ-140dBc/Hz @ꢀ1kHz
ꢀ-145dBc/Hz @ꢀ10kHz
Standard Frequencies
Shock & vibration:
5,000G, 0.3ms ½-sine
10.0 ~ 2,000Hz, 20G
Frequencies in MHz
10.00000
12.00000
12.80000
14.74560
16.00000
20.00000
26.00000
40.00000
52.00000
54.00000
Package:
Through hole 14 pin DIL
SMD options 1 or 2
specify
Standard. Optional - Please specify required code(s) when ordering
Ordering Information
Product name + option codes + frequency
eg: SCOCXOVT-AR1 10.0MHz
SCOCXOVT-BV5 16.0MHz
Option code X (eg SCOCXOVT/X) denotes a custom spec.
Product is NOT designed to withstand 260°C reflow processing
Tel: +44 1460 256 100
Fax: +44 1460 256 101
E-mail: sales@golledge.com
Web: www.golledge.com
21 Jul 2015