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I have been tinkering with guitars and pickups for many years. One day I was looking at how ribbon microphones work and saw that the ribbon acts as both the mic diaphragm as well as part or a very low impedance input circuit.
Then I thought how might a guitar string be similar to to ribbon in the mic? I used small audio transformer rated a 8 Ohms to 10K ohms. The turns ratio is calculates by dividing the primary into the secondary with 10,000 by 8 being 1250, then take the square root of 1250 being 35.35. Whatever voltage is induced in the vibrating string with a magnet below the string is boosted by the transformer turns ratio. A 1 mv string induced signal would come out of the transformer as about 35 mv according to theory. Practical matching concepts for such a low input impedance as a string resistance requires these considerations.
1. Reduce the resistance of the connection between the string ends and the transformer input connections to reduce resistive losses.
2. The length of the magnet under the string with longer magnetic fields under the string creating a higher output.
3. How to integrate the above constraints into a guitar design.
1. Use a copper nut with a low resistance connection to the neck truss rod to act as a common ground return to bring the nut end of all the strings inside the guitar body near the bridge where the hot end of each string gets connected to an individual transformer with the lowest resistance to minimize resistive input signal losses.
2. When experimenting with this concept, alligator clip the 8 ohm side of the transformer across the same metal string behind the nut and behind the bridge. I used a .25 inch wide by 2 inch long magnet across all the strings and listened to the output. Then, I turned the magnet to go lengthwise under the one string that was connected to the transformer and the output level was louder.
3. The implementation of this pickup concept is not as simple as just installing a pickup as a separate device but requires a guitar builder to use the neck truss rod as a low resistance string end ground to return to the guitar body with the string ends being behind the bridge as being the individual inputs to each 8 ohm side of the six transformers. The six transformers can be wired in series with a small pot with a screwdriver activation to adjust the level of each string individually and passively.
Once I got my prototype working, I wired the hot output from each transformer located near the bridge to a 8 pin connector with one pin being the common ground and six other pins for the hot connection from each string. Then I made a breakout cable using the 8 pin matching connection to the guitar 8 pin connection mounted on the guitar body with 6 conductor shielded cable and each strand attached to a breakout connection with 6 quarter inch plugs that I could plug into a 6 channel mixer to adjust the volume and tone of each individual string. This really works!
This idea is not good for pickup makers but is a good concept for those who make both guitars and pickups as it requires modifying the truss rod to become a ground return to bring a low resistance connecting back inside the guitar body where the six individual string transformers are located and then reach out to the individual string outputs going to a six channel mixer.
I hope this gives some guitar builders or some pickup tinkerers something to try to get another perspective on how pickups work or might evolve to in the future.
Joseph J. Rogowski
Then I thought how might a guitar string be similar to to ribbon in the mic? I used small audio transformer rated a 8 Ohms to 10K ohms. The turns ratio is calculates by dividing the primary into the secondary with 10,000 by 8 being 1250, then take the square root of 1250 being 35.35. Whatever voltage is induced in the vibrating string with a magnet below the string is boosted by the transformer turns ratio. A 1 mv string induced signal would come out of the transformer as about 35 mv according to theory. Practical matching concepts for such a low input impedance as a string resistance requires these considerations.
1. Reduce the resistance of the connection between the string ends and the transformer input connections to reduce resistive losses.
2. The length of the magnet under the string with longer magnetic fields under the string creating a higher output.
3. How to integrate the above constraints into a guitar design.
1. Use a copper nut with a low resistance connection to the neck truss rod to act as a common ground return to bring the nut end of all the strings inside the guitar body near the bridge where the hot end of each string gets connected to an individual transformer with the lowest resistance to minimize resistive input signal losses.
2. When experimenting with this concept, alligator clip the 8 ohm side of the transformer across the same metal string behind the nut and behind the bridge. I used a .25 inch wide by 2 inch long magnet across all the strings and listened to the output. Then, I turned the magnet to go lengthwise under the one string that was connected to the transformer and the output level was louder.
3. The implementation of this pickup concept is not as simple as just installing a pickup as a separate device but requires a guitar builder to use the neck truss rod as a low resistance string end ground to return to the guitar body with the string ends being behind the bridge as being the individual inputs to each 8 ohm side of the six transformers. The six transformers can be wired in series with a small pot with a screwdriver activation to adjust the level of each string individually and passively.
Once I got my prototype working, I wired the hot output from each transformer located near the bridge to a 8 pin connector with one pin being the common ground and six other pins for the hot connection from each string. Then I made a breakout cable using the 8 pin matching connection to the guitar 8 pin connection mounted on the guitar body with 6 conductor shielded cable and each strand attached to a breakout connection with 6 quarter inch plugs that I could plug into a 6 channel mixer to adjust the volume and tone of each individual string. This really works!
This idea is not good for pickup makers but is a good concept for those who make both guitars and pickups as it requires modifying the truss rod to become a ground return to bring a low resistance connecting back inside the guitar body where the six individual string transformers are located and then reach out to the individual string outputs going to a six channel mixer.
I hope this gives some guitar builders or some pickup tinkerers something to try to get another perspective on how pickups work or might evolve to in the future.
Joseph J. Rogowski
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