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More about mounting VFO coils?
A rule of thumb says that the screen around an oscillator coils could
be 3 times the coil diameter, and Radiotron Designer's handbook, 3rd edition, 1941 says that the screen should go at least one coil radius above the coil. But how far from the chassis should the coil winding start? 73 Jan-Martin LA8AK, http://home.online.no/~la8ak/c.htm |
In article , "Jan-Martin Noeding,
LA8AK" writes: A rule of thumb says that the screen around an oscillator coils could be 3 times the coil diameter, and Radiotron Designer's handbook, 3rd edition, 1941 says that the screen should go at least one coil radius above the coil. But how far from the chassis should the coil winding start? About the same distance. :-) The old Radiotron book (I have a CD for one of the editions as a keepsake) has charts showing the inductance reduction and Q reduction for various relative diameters. The closer the enclosure, the more reduction of both values. That sould be accounted for in any resonant applications, especially those for tracking as in superhet or TRF front-ends. The conducting enclosure or shield contains the magnetic field on the coil and, ideally, should have the same clearange from both top and bottom of the winding. It will still work with an assymetric clearance but L and Q are spoiled by the closer spacing. Toroidal cores are much less affected by conducting enclosures due to the magnetic field contained largely IN the torus' core material. Len Anderson retired (from regular hours) electronic engineer person |
In article , "Jan-Martin Noeding,
LA8AK" writes: A rule of thumb says that the screen around an oscillator coils could be 3 times the coil diameter, and Radiotron Designer's handbook, 3rd edition, 1941 says that the screen should go at least one coil radius above the coil. But how far from the chassis should the coil winding start? About the same distance. :-) The old Radiotron book (I have a CD for one of the editions as a keepsake) has charts showing the inductance reduction and Q reduction for various relative diameters. The closer the enclosure, the more reduction of both values. That sould be accounted for in any resonant applications, especially those for tracking as in superhet or TRF front-ends. The conducting enclosure or shield contains the magnetic field on the coil and, ideally, should have the same clearange from both top and bottom of the winding. It will still work with an assymetric clearance but L and Q are spoiled by the closer spacing. Toroidal cores are much less affected by conducting enclosures due to the magnetic field contained largely IN the torus' core material. Len Anderson retired (from regular hours) electronic engineer person |
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