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In article , Roy Lewallen
writes: Thanks for the link. That picture brought back vivid memories of times outdoors in the Rockies in some really attention-getting weather. Whoa, mama, time to be lookin' for some cover! Roy Lewallen, W7EL Avery Fineman wrote: For those interested in getting full and complete details of WWVB, go to: http://www.boulder.nist.gov/timefreq/stations/wwvb.htm I'm sure the photographer for NIST was counting on that attention-getting weather for the WWVB page's photogenic qualities. :-) A link on the WWVB page has some typical field strengths given for various locations in the USA along with a tabulation of daily changes in that field strength level. There's also a log of outages of WWVB for those who want to check if they are on when you want them to be. Almost any Internet search engine will turn up a surprising number of links to 60 KHz loop antennas built by all sorts of electronic hobbyists. I did that search a year ago when preparing to build my WWVB loop receiver and phase-locker for the frequency counter timebase standard. One of the most innovative in my estimation was the loop built on an unused bicycle wheel rim (spokes removed). A couple of cuts of a hacksaw put the gap in the wheel rim to prevent the "shorted turn effect" from happening. The wheel rim should be a very sturdy former for winding heavy coil wire around it. A strip of plastic provided mechanical support for the gap in the wheel. If memory serves, it was done in San Diego, CA, area and mounted outside under a patio cover. My own loop is 58 1/2 turns of #14 AWG THHN electrical wire self- supporting with a mean diameter of 2 feet, 8 inches, then bound with cheap twine that was well varnished with McCloskey's "Gym-Seal" floor varnish. The electrostatic shielding was provided by heavy-grade kitchen aluminum foil (with a gap, of course) that was bound with a second application of twine, then varnished. Q at resonance is about 44, good enough for about 1.4 KHz BW by itself. With 58 1/2 turns, inductance is 5.6 to 5.7 milliHenry. Distributed capacity is about 390 pFd, not too bad considering that winding took all but 9 feet of a 500 foot spool (purchased at Home Depot for $14). The loop is mounted in the attic space above the center room of the house with half of that room as the workshop. That attic space is closed off from the rest of the attic by recent roof remodeling so it has become essentially waterproof now...construction was originally done to work in direct rain, tested only with liberal garden hose sprinkling and measuring of characteristics. The loop connections are balanced above ground with the electrostatic shield at ground potential and two 12 foot RG-59 TV cables are used something like Twinax to a balanced input FET differential amplifier stage below in the workshop. Resonating at 60 KHz is done with a sacrificed dual variable capacitor in the differential FET amplifier. Worked out well and I can't observe any funny spikes from appliances or other non-WWVB signal things after the FET stage. 60 KHz signal voltage across the loop at resonance is estimated at about 90 to 120 microVolts. Location here is northern Los Angeles in the Verdugo Hills (a mile of hills between here and Boulder, CO).. There are two Oregon Scientific radio clocks in the house, a small one about 4 years old that indicates it has solid automatic updating. Has a small "loopstick" like gizmo inside as the antenna. A large one in the office room, very visible from 12 feet, 1 year old, misses a midnight update about once every two weeks. The small one is "solid copy" all the time. Don't know what the large one uses for a loopstick antenna...wife won't let me open it up to look. :-) Ferrite/powdered-iron core "antennas" used in consumer market radio clocks seem to work very well. Neither is very directional. The little radio clock was $20 retail and the big one about $25. Battery life is over a year, closer to two years. Both have built- in calendars (leap year is probably derived directly from WWVB data coding). Len Anderson retired (from regular hours) electronic engineer person |
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