systemtruck
Well-known member
Hey all,
So here’s a pipe dream.
I’ve got an RCA BA-2 built, schematic below, and will be building a handful of them as channels in a mini console. I deleted the EQ, so you can just ignore/jump R11+C8.
I want to insert two shelf EQ’s between V1 and V2. It would be a shelf reduction of highs on one pot, and a shelf reduction of lows on another pot. No need for gain/boost of either range.
I believe I would be putting these on rotary switches so that you can adjust the capacitor values to select different frequencies instead of changing the resistor values for each frequency. That way the resistor values can always be stable, which in my mind sounds like a better situation for consistency of volume/loads, but I could be totally wrong of course.
It seems pretty straight forward to insert a single RC low pass shelf and a single CR high pass shelf.. choose values that work best for loads and the least insertion loss overall, and that’s that. But i would like to make each filter have more poles so that the function is a more powerful db/octave. 4 poles each would be the goal, so 24dB/octave. So this introduces some complication obviously….
I worked up something that seems to deliver, without much gain loss. A couple values are insane, and the frequencies and cap values chosen are just examples, 80Hz and 1.5k. But with these example values there is only 3.67dB of insertion loss even with both filters engaged. You can see the frequency that’s being measured at the top of the slopes, which is 360Hz, having -3.67dB. Bypassing the filters there is 0.5 dB of insertion loss still.
I changed the pot value to 1M, and inserted the low pass in the first half and high pass is second half since that made for better load relationships overall. I also multiplied each consecutive stage by 10x so that each stage doesn’t load down its preceding stage too much and cause weird performance. The original pot alone is 100K, so that’s the load that’s originally handing on the V1 output. This setup, I believe, loads V1 down to around 91K instead of 100K.
Is this just completely going to perform badly? What are the issues?
Like what about that first set of components… 10R and 10uF seems heavy or weird but i don’t know.
Is this approach just sheer madness???
Anybody else ever design a good 4-pole passive shelf situation? Let alone a DUAL one?
I would consider adding a cathode follower type tube stage into this if that is what allows me to make this happen best, but it seems like this is possible passively.
So here’s a pipe dream.
I’ve got an RCA BA-2 built, schematic below, and will be building a handful of them as channels in a mini console. I deleted the EQ, so you can just ignore/jump R11+C8.
I want to insert two shelf EQ’s between V1 and V2. It would be a shelf reduction of highs on one pot, and a shelf reduction of lows on another pot. No need for gain/boost of either range.
I believe I would be putting these on rotary switches so that you can adjust the capacitor values to select different frequencies instead of changing the resistor values for each frequency. That way the resistor values can always be stable, which in my mind sounds like a better situation for consistency of volume/loads, but I could be totally wrong of course.
It seems pretty straight forward to insert a single RC low pass shelf and a single CR high pass shelf.. choose values that work best for loads and the least insertion loss overall, and that’s that. But i would like to make each filter have more poles so that the function is a more powerful db/octave. 4 poles each would be the goal, so 24dB/octave. So this introduces some complication obviously….
I worked up something that seems to deliver, without much gain loss. A couple values are insane, and the frequencies and cap values chosen are just examples, 80Hz and 1.5k. But with these example values there is only 3.67dB of insertion loss even with both filters engaged. You can see the frequency that’s being measured at the top of the slopes, which is 360Hz, having -3.67dB. Bypassing the filters there is 0.5 dB of insertion loss still.
I changed the pot value to 1M, and inserted the low pass in the first half and high pass is second half since that made for better load relationships overall. I also multiplied each consecutive stage by 10x so that each stage doesn’t load down its preceding stage too much and cause weird performance. The original pot alone is 100K, so that’s the load that’s originally handing on the V1 output. This setup, I believe, loads V1 down to around 91K instead of 100K.
Is this just completely going to perform badly? What are the issues?
Like what about that first set of components… 10R and 10uF seems heavy or weird but i don’t know.
Is this approach just sheer madness???
Anybody else ever design a good 4-pole passive shelf situation? Let alone a DUAL one?
I would consider adding a cathode follower type tube stage into this if that is what allows me to make this happen best, but it seems like this is possible passively.
which probably because you are tryiing to make the poles coincident.
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