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Inspired by the Ampeg midrange circuit and the "boost" circuit in early Orange / Matamps, I've been experimenting with adding an inductor to a Marshall-style presence circuit, tuning the inductor and capacitor value to form essentially a bandpass filter that dumps negative feedback signal to ground, increasing the overall gain for the frequencies that it passes.
I couldn't find any recent examples of anyone doing this in their own builds, and I have seen some speculation that this would be impractical or would not work due to the limitations of real life inductors, so I wanted to share my experiences and hopefully clear things up.
I wired up a 25k pot as a variable resistor and placed it in series with a 220nF cap (100v film) and a 150mH inductor (10mm diameter radial with 5mm leads) to provide a center frequency of 876hz. This is wired between the point where the NFB connects to the PI / driver stage and ground, and when turned up the 25k series resistance is eliminated and frequencies within an octave or so of 876hz are shorted to ground.
I have installed this circuit in two very different amps, a 22 watt Orange Matamp type circuit with 6V6s and a 5 watt 5150 lead channel clone with an ECC99 output tube in parallel SE. In both it's very effective at boosting mid frequencies and does not cause oscillation or add any noticeable noise at any setting of the knob. The amount that it is able to boost the mids is limited by the amount of negative feedback in the circuit, so it's more pronounced in the OrMat clone which I have set up with a lot more NFB than the mini 5150.
I have a variety of similar inductors of various values between 1mH and 100mH on their way to experiment with other center frequencies - I know from building effects pedals with gyrator EQs that boosting 1800hz can sound really nice.
I am also planning to do some experiments with using an inductor and cap in series to bypass a cathode resistor. I've seen a thread on here from 2008 (link attached) where it's argued it wouldn't work, but I'm unconvinced and have the means and opportunity to test it experimentally. I'm currently working on a 5 watt mini SLO type thing with a push-pull ECC99 power amp and there's a few spots I plan to test it out in there. I'll report back with an update as things progress.
But yeah I definitely encourage anyone who is interested to try adding an inductor to a presence control. You can use an online calculator to figure out what values you need, but caps between 100n and 1uF and inductors between 22mH and 150mH are the range that seems most ideal.
I couldn't find any recent examples of anyone doing this in their own builds, and I have seen some speculation that this would be impractical or would not work due to the limitations of real life inductors, so I wanted to share my experiences and hopefully clear things up.
I wired up a 25k pot as a variable resistor and placed it in series with a 220nF cap (100v film) and a 150mH inductor (10mm diameter radial with 5mm leads) to provide a center frequency of 876hz. This is wired between the point where the NFB connects to the PI / driver stage and ground, and when turned up the 25k series resistance is eliminated and frequencies within an octave or so of 876hz are shorted to ground.
I have installed this circuit in two very different amps, a 22 watt Orange Matamp type circuit with 6V6s and a 5 watt 5150 lead channel clone with an ECC99 output tube in parallel SE. In both it's very effective at boosting mid frequencies and does not cause oscillation or add any noticeable noise at any setting of the knob. The amount that it is able to boost the mids is limited by the amount of negative feedback in the circuit, so it's more pronounced in the OrMat clone which I have set up with a lot more NFB than the mini 5150.
I have a variety of similar inductors of various values between 1mH and 100mH on their way to experiment with other center frequencies - I know from building effects pedals with gyrator EQs that boosting 1800hz can sound really nice.
I am also planning to do some experiments with using an inductor and cap in series to bypass a cathode resistor. I've seen a thread on here from 2008 (link attached) where it's argued it wouldn't work, but I'm unconvinced and have the means and opportunity to test it experimentally. I'm currently working on a 5 watt mini SLO type thing with a push-pull ECC99 power amp and there's a few spots I plan to test it out in there. I'll report back with an update as things progress.
But yeah I definitely encourage anyone who is interested to try adding an inductor to a presence control. You can use an online calculator to figure out what values you need, but caps between 100n and 1uF and inductors between 22mH and 150mH are the range that seems most ideal.
Best of both worlds?
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