### Measuring on MW ferrite antenna (FA)

Round FA #1 Dependency of the inductivity from the placement of the winding from one border to center (23 mm).
distance from the border of the ferrite rod [mm] 0246 8101214 161820 22
measured inductivity L(µH) 500558624668708746 773795813824832834
difference between two adjacent values ΔL(µH)  5866444038 2722181182
calculated res. freq. with C=20pF [kHz] 159015101420138013401300 128012601250124012301230
calculated res. freq. with C=160pF [kHz] 563533503487473461 453446441438436436

This experiment measures the dependency of the inductivity on the position of the winding on the ferritte rod of antena FA #1 and makes some comparisons to FA #2. For tuning an MW receiver is usefull to know, how sensible is the position of the winding on FA.

On the lower frequency border of MW (531 kHz) we have to shift the winding on ferrite in order to adjust the input circuit with oscillator circuit so, that the resonance frequencies difference of both will be the intermediate frequency (IF) of the radio receiver.

We do it obviously in some distance of the low frequency border to achieve best collaterality in the whole frequency range. (At the higher frequency border we use tunig capacitors - again at some lower frequency - 2 tuning points.)

The IF could be 455, but also 460, 465 or 468 kHz, other IF's are also possible. Therefore on the selected frequency we use to shift the winding into the best position to gain the maximum signal on the diode output under assumption, that intermediate frequency filters are correctly adjusted.

#### Another measurements:

Inductance of FA#2: (L=425 µH - winding placed as on the picture, - winding at the border-distance 0 mm:L=320 µH)
Inductance of FA#1 is higher as the inductance of FA#2.

Inductance of the winding without ferrite FA#1(round): 86 µH, FA#2(flat): 18 µH.

Inductance of 10 windings on FA#1(round): 7 µH, on FA#2(flat): 5 µH.

Own resonance frequency with ferrite (without any external capacitor)
FA#1(round): 1.53 MHz, FA#2(flat): 1.94 MHz; (winding placed as on the picture).