Cartridge Loading- Low output M/C

Thank you for the nice words, Raul.

As far as the usefulness of an understanding of LOMC capacitive loading is concerned, for one thing it has provided guidance to the OP as to which of the two settings of the capacitive loading switch on his phono stage is likely to provide best results. And that in turn perhaps saves him the trouble of having to evaluate a number of different resistive loading settings twice, once for each of the two capacitance settings.

And the experience reported by Catcher10 certainly serves to illustrate that knowledge of this issue can be helpful to other audiophiles as well.

Finally, while I certainly agree with your concluding statement that...

... I always try to make things in the best way and in an easy way because at the end what I and we want is to enjoy the MUSIC and always is system dependent.

... in a hobby where a lot of audiophiles concern themselves with dubious and unexplainable minutiae such as which way a fuse is oriented an explainable and potentially significant phenomenon such as this seems to me to be a reasonable thing for audiophiles to be aware of.

In any event, thanks again for the nice words.

Regards,
-- Al

Wyn, I note the the simple expedient of putting the 2120 Hz filter first has the effect of reducing RF by 50dB at 1MHz at the first device. Is it your view that an additional pole is required?

Thanks!

@almarg 
... in a hobby where a lot of audiophiles concern themselves with dubious and unexplainable minutiae such as which way a fuse is oriented an explainable and potentially significant phenomenon such as this seems to me to be a reasonable thing for audiophiles to be aware of.

Good Lord, Al, that's physics! It strikes at the heart of all that we stand for! Say 4 Hail Snakeoils and depart!

Use your ears....get the sound that pleases you.   I use 1000 ohms on my Ortofon. 

Whether to use the extra pole is an interesting question.
So, here is some more information, and a repeat of some old information so you can judge for yourself.
1. The additional pole serves not only to reduce the RF but also to reduce the deviation in the RIAA stage noise transfer function at high frequencies. Effectively the noise from the circuit peaks higher than it should at supersonic/lowRF frequencies.  This might not be a problem, but then again any non linearities in the amplification system might serve to mix the noise down to audio bands so why have it?
However, it does come at a small cost as the extra input pole 
rolls the RIAA stage off, making it flat to extended frequencies but does not compensate for the roll off that may be introduced due to a sub optimal loading on the input stage- basically you are tweaking the Q of the input stage load to flatten the response at 20kHz and that is hard to do.
2. Don't forget the MC mechanical characteristic may cause a significant peak. Reducing the input stage Q to be essentially a LR system adds a single pole low pass characteristic which, combined with the resonance, may produce a characteristic that for example might be +/- 1.5dB 20Hz-20kHz with a dip in the 4-10kHz region rather than -1.5dB (due to a 20Hz infrasonic roll off)  to +3dB (due to the resonance peak). 
3. The recording process (particularly analog) imposes restrictions in the frequency response- limiting the HF and LF responses. These restrictions are not set in any standard and are usually due to limitations in the equipment used (Tape recorder and lathe frequency responses and dynamic ranges for examples). Good recording engineers try to minimize the effects, but they still exist.

If you are like me where my HF sensitivity has been reduced by age etc. where I really can't hear above 13kHz, but my response is still excellent below, including down to 20Hz, then making sure that things remain flat to 10kHz or so is what really counts. Thus, over compensating the response to make the measurements have a minimal deviation from nominal over the "full" audio band is probably not the best approach.
Again, listening is best, but be careful not to delude yourself. 
Audiophiles (myself included) tend to get seduced by what are essentially deviations from what the real listening experience provides- such as excessive detail, ability to resolve supposed room artifacts etc. etc. 
These effects, in my substantial experience of live performances, just do not exist in a live listening environment, but what really matters are things like instrumental timbre and dynamics (both micro and macro) and that often gets lost in the shuffle, and in the recording.
Yes, others have emphasized this last point in this thread, but it bears repeating.