Richard W. Solomon wrote: > I built two of the GPS Stabilized Oscillator circuits (G3RUH as > modified by N1JEZ). They seem to work, except that I still have > not been able to confirm that the 10 MHz XO (FOX) is truly locked > up to the GPS signal. I can verify that the GPS Engine is locked, > but I still cannot prove to myself that the XO is locked. > > I made one up to lock up a 1 GHz PLO that I can use for calibration > of my Service Monitor and the other to use as external references to > a couple of EIP counters. > > Any thoughts or suggestions (other than using the services of NIST !!). > > 73, Dick, W1KSZ > > _______________________________________________ > time-nuts mailing list > [email protected] > https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts > > Richard
You can always measure the frequency of the oscillator by dividing it down and using a time interval counter to measure the time from the GPS output pulse to the next rising edge of the divided down output. If you know the oscillator frequency sufficiently accurately (sufficiently accurately that the number of divided down periods between successive PPS pulses is known to better than 1/4 of a divided down frequency cycle) then you can unwrap the phase measurements and determine the actual frequency from the phase vs time plot using the technique used in the picket fence technique detailed in: /"A Method for Using a Time Interval Counter to Measure Frequency Stability"/ C.A. Greenhall If you know the oscillator frequency to better than say 100ppm then divide it down so there are no more than 2500 cycles of the divided down frequency between successive GPS PPS pulses. Bruce _______________________________________________ time-nuts mailing list [email protected] https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts
