hello Joseph
believe that the XLR connection type as you described before works well?
when I proposed such a solution, a sound engineer told me that it was not a viable or feasible.
serves as a transformer microphone attached to pickups
what do you think
thanks

Of course it will work fine. You will get very flat frequency response, maybe or maybe not what you want, but there are multiple methods for adjusting the ff. This method is extremely quiet in regards to electrical noise.

build a pickup with this technique,
However, even now the pickups is extremely quiet, a little background noise.
thanks

The results you get with the present pickup will depend to some extent on the cable's self capacitance and the input impedance of the amp you are plugging into. Going to a low impedance, balanced XLR will allow you to get consistent, quiet results over 30M cable runs if needed.

If you want to go directly into a high impedance (1 Meg ohm, typical) guitar amp all you need is one mic matching transformer with an XLR input and a .25 inch male plug on the amp end. This type is available in many music stores and is similar to a Shure A95U matching transformer. This transformer has about a 1 to 12 turns ratio when going into the low impedance XLR side. Try this with about a maximum of 300 ohms to match the transformer input impedance. For a little more control of your sound, try going into an XLR low impedance mic mixer and then plug the output of the mixer into the guitar amp. This way you can obtain some extra equilization from the tone controls on the mic mixer.

One thing you will notice is that since your design keeps the coil and magnets near the same distance as the guitar top, about .5 inches, the string balance is better than it would be if the strings were closer to the strings as in a electric guitar pickup with staggered magnet heights to match the fingerboard curve. Acoustic strings have another challenge as only their core is ferrous metal. Typically the wound string core thickness is about one half the outside diameter of the wound string. The B string tends to be the loud string and requires some creative ways to obtain a balance. This is typically more of a problem when the magnet and coil is closer to the strings.

Joseph Rogowski

I share your thoughts

I had also thought about building a pickups with the magnets facing the ropes EBGD graduation magnetic higher than the magnet that sees the strings BE
believe that it is valid as an idea

grazie Jaseph

I would try mixing grades of magnetic materials to even out string volumes N35 under the outer strings and N42 or N52 in the center.

Ok thanks,
you're a Great
Mr David

https://www.youtube.com/watch?v=mN-bvwlrYOk