I had a plan to construct an "off-air" frequency 10 MHz standard based on the 198 kHz from the Droitwich radio 4 transmitter, just by hooking up various bits of test kit and writing a computer program to control the equipment via GPIB. No electronics, apart from an antenna, would need to be built at all. My thoughts were the following - hopefully it makes sense, if not I could add a drawing.
1) Connect an antenna suitable for 198 kHz into the input terminal of an EG&G 7260 dual-phase lock-in amplifier. http://www.signalrecovery.com/download/190163-A-MNL-D.pdf This is not a very nice lock-in to use interactively, but is okay via GPIB. 2) Set the EG&G lock-in amplifier to use an external reference. 3) Feed the reference input of the lock-in amplifier from a Stanford Research DS345 30 MHz function generator http://www.thinksrs.com/products/DS345.htm which is set to output a 198 kHz square (or sine?) wave. The function generator has a frequency resolution of 1 uHz, and 12 bits of resolution on the DAC. This can produce arbitrary waveforms. This function generator has a 40 MHz crystal, the frequency of which can be set by adjusting the Calbytes via GPIB - similar to the SR620 time-interval counter. Obviously if the frequency of the 40 MHz oscillator is high, so the output frequency will be above 198 kHz. The specification of the oscillator are Frequency: 40 MHz (according to the manual, unless a typo) Type: Ovenized AT-cut oscillator Stability: < 0.01ppm, 20 - 60°C Aging: < 0.001ppm/day Short Term: < 5 x 10-11 1s Allan Variance 4) Use the lock-in as a phase detector, measuring the difference in phase between the function generator and the 198 kHz from Droitwich. The sensitivity of the lock-in, as well as the time-constant of the filters, can be adjusted via GPIB. 5) Write a computer program that tries to set the oscillator in the function generator to exactly 40 MHz via GPIB, based on the rate of change of phase between Droitwich and the function generator. 6) Since the function generator has a 10 MHz reference output, which is derived from the 40 MHz crystal, It should give me a solderless 10 MHz frequency standard. Does this seem viable, or have I overlooked something? I'm not looking to build a lab standard - just have a bit of fun. Does anyone know if regularly writing to the calbytes of the function generator would damage it? Dave _______________________________________________ time-nuts mailing list -- [email protected] To unsubscribe, go to https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts and follow the instructions there.
