OCO-M20AS Through hole OCXO Sine wave Features Applications: CDMA, 3G, networking, instrumentation High frequency stability vs. temperature Wide operating temperature range: -40 up to +85 °C Low aging Parameter Frequency range Standard frequencies Frequency stability vs. operating temperature range vs. supply voltage change vs. load change vs. aging.
Applications: CDMA, 3G, networking, instrumentation High frequency stability vs. temperature Wide operating temperature range: -40 up to +85 °C Low aging
Parameter
Frequency range Standard frequencies Frequency stability vs. operating temperature range vs. supply voltage change vs. load change vs. aging after 30 days of operation Short term stability Output waveform Output load Supply voltage Steady-state current consumption @ +25 °C Warm-up time Frequency pulling range Vcontrol (Vc) via external voltage Vcontrol (Vc) via external potentiometer Reference voltage output (Vref) Phase no.
No. | Partie # | Fabricant | Description | Fiche Technique |
---|---|---|---|---|
1 | OCO-M20AH |
QUARTZCOM the communications |
Through hole OCXO HCMOS | |
2 | OCO-M20BH |
QUARTZCOM the communications |
Through hole OCXO HCMOS | |
3 | OCO-M25BS |
QUARTZCOM the communications |
High frequency through hole OCXO Sine wave | |
4 | OCO-M14H |
QUARTZCOM the communications |
Through hole OCXO HCMOS | |
5 | OCO-M14S |
QUARTZCOM the communications |
Through hole OCXO Sine wave | |
6 | OCO-M36ADS |
QUARTZCOM the communications |
Double oven through hole OCXO Sine wave | |
7 | OCO-M36AGS |
QUARTZCOM the communications |
Low G-sensitivity OCXO Sine wave | |
8 | OCO-M36AH |
QUARTZCOM the communications |
Through hole OCXO HCMOS | |
9 | OCO-M36AS |
QUARTZCOM the communications |
Through hole OCXO Sine wave | |
10 | OCO-M36BS |
QUARTZCOM the communications |
Through hole OCXO Sine wave | |
11 | OCO-M36CEH |
QUARTZCOM the communications |
Through hole OCXO HCMOS | |
12 | OCO-M36CEH |
QUARTZCOM the communications |
Through hole OCXO HCMOS Sine wave |