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FTVOGUE Adjustable Oscillator Module OCXO 10MHz Frequency Standard Reference Module Crystal Oscillator Constant Temperature Board, Module

4.9 (4) Write Review
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$12.72

$ 5 .99 $5.99

In Stock
  • The reference source module has SMA female interface, with ultra low phase noise, connection and stable performance.
  • The reference source module has SMA female interface, with ultra low phase noise, connection and stable performance.
  • To replace the old, broken or damaged one with this crystal oscillator frequency reference board, to ensure stable of the device.
  • Suitable for instrument standard such as audio system, decoder, shortwave radio, frequency meter, source, etc., convenient and practical.
  • Using excellent PCB component, this OCXO frequency module has high calibration accuracy, good frequency stability and low loss.


Product Description

1013220123111-1

FTVOGUE Adjustable Oscillator Module OCXO 10MHz Frequency Standard Reference Module Crystal Oscillator Constant Temperature Board, Module

YT


To replace the old, broken or damaged one with this crystal oscillator frequency reference board, to ensure stable of the device.


Using excellent PCB component, this OCXO frequency module has high calibration accuracy, good frequency stability and low loss.


Suitable for instrument standard such as audio system, decoder, shortwave radio, frequency meter, source, etc., convenient and practical.

1

1013220123111-2

1013220123111-3

1

1013220123111-2

1013220123111-3


Specification:


Item Type: Frequency Standard Reference Module


Current Consumption: Preheating stage <750mA, working stage <300mA


Warm Up Time: About 5 minutes


Calibration Accuracy: ±0.01Hz


Frequency Stability: 5e-12


Output Level:


DBm: 10dBm±2dBm at 50Ω;


VRMS: 0.7071V at 50Ω;


VPeak: 1.0V at 50Ω;


P: 2.0V at 50Ω


Output Impedance: 50Ω


Interface Type: SMA Female


Product Use: Constant temperature 10MHz, ultra low phase noise, frequency reference module, frequency reference source, OCXO frequency reference source, used for instrument benchmarks such as audio systems, decoders, shortwave radios, frequency meters, sources, etc.



Package List:


1 x Module


1 x Cable



Just Another Dev
2025-08-07 16:17:14
A few other reviews mention these are unstable. If you power the device with your average wall wart, you’re going to have a bad time. Power it with a decent quality linear supply and you’ll likely have much better results!One thing to note, it looks like these units are populated with used oscillators (not at all a shock given the price), so you’re rolling the dice buying these. I happened to get lucky and get an _extremely_ stable unit, it’s solid out to the 10nV region according to my Fluke PM6690.Also of note, when the picture was taken, the oscillator had been on for approximately 5 hours (as had PM6690) and I’d kept it tucked under the counter to lower the chance of air currents affecting it.
Richard G.
2025-05-07 15:08:57
I tested this reference againt a GPSDO and found it to be almost 5 Hz off frequency. It could not be adusted any closer using the trim potentiometer.
M. Millard
2025-04-30 11:30:55
My Rigol 300 MHz oscilliscope has trouble triggering on the output?It's almost as if the output is not very stable.Granted - I've had little time to investigate it, but never had this trigger problem with any other oscillator or circuit. I'll try to remember to report back if I get to the bottom of it. Just be aware there "could" be a problem with these. Check / verify them when they arrive. (Don't wait until after the return policy expires.)
Dr. D. Rossbach
2025-02-04 13:55:42
Very impressive. Was less than 1/2Hz from WWV as delivered and untouched. The trimmer puts it on frequency to 1/10 Hz easily and possibly better provided you are willing to spend the time monitoring the beat on a signal strength meter. Very stable. I am putting this in a shielded box as stray capacity does affect it ... (minor effect, but if you want this kind of accuracy the shielding is needed or you are wasting your time synchronizing it closer than 1 Hz). The sine output is best for synching. The square wave output is handy for producing odd harmonics at higher frequencies. If you want to use this like the classical 1000kHz or 100kHz frequency standards you will need to add divide by 10 and/or 100 to the square wave output.