Hello,
I recently finished my first vacuum tube line preamp. Its a simple design, with a regulated power supply and a couple of 6SN7GTs, one for each channel, gain 10. Im very happy with the results, except when Im listening at very low volume, during late night hours. I feel that a loudness control would be helpful in such moments, but I wasnt able to find a suitable circuit anywhere.
Can someone help me and point out a book or website with a schematic or formulae for a simple passive loudness control? Or, even better, for a tube based active variable loudness control?
Thanks in advance,
Norman
I recently finished my first vacuum tube line preamp. Its a simple design, with a regulated power supply and a couple of 6SN7GTs, one for each channel, gain 10. Im very happy with the results, except when Im listening at very low volume, during late night hours. I feel that a loudness control would be helpful in such moments, but I wasnt able to find a suitable circuit anywhere.
Can someone help me and point out a book or website with a schematic or formulae for a simple passive loudness control? Or, even better, for a tube based active variable loudness control?
Thanks in advance,
Norman
This is a link to a page on Steve Bench's site. It includes some circuits, although passive rather than active.
http://members.aol.com/sbench/freqres3.html
http://members.aol.com/sbench/freqres3.html
Thanks Robert, that hit the spot!
The only bad thing is that I use a 100k volume potentiometer, and those circuits expect a 500k pot.
Perhaps someone can help on this subject? Any tips on recalculating those circuits?
Thanks in advance,
Norman
The only bad thing is that I use a 100k volume potentiometer, and those circuits expect a 500k pot.
Perhaps someone can help on this subject? Any tips on recalculating those circuits?
Thanks in advance,
Norman
convert to 100K pot
To convert the designs from a 500K pot to a 100K pot, divide all resistances and inductances by 5, and multiply all capacitances by 5. This will result in a circuit with the same frequency response, but 1/5 the impedance.
To convert the designs from a 500K pot to a 100K pot, divide all resistances and inductances by 5, and multiply all capacitances by 5. This will result in a circuit with the same frequency response, but 1/5 the impedance.
A kluge that has been used with some success in the past is to use a parallel combination of resistor, cap and half of a dpdt switch connected between chassis ground point and the cold (gnd) end of the volume pot.
Start with a resistor of about 10K and a 0.12uF cap, increase cap to lower maximum boost frequency. Adjust both to taste.
Increasing cap value lowers point at which boost ends. F=1/(2piRC)
Larger resistor increases amount of boost, decrease cap value by ratio of r_old/r_new. So double resistor, halve cap value..
Smaller resistor reduces boost, increase cap value as by above. Halve resister, double cap value.
Start with a resistor of about 10K and a 0.12uF cap, increase cap to lower maximum boost frequency. Adjust both to taste.
Increasing cap value lowers point at which boost ends. F=1/(2piRC)
Larger resistor increases amount of boost, decrease cap value by ratio of r_old/r_new. So double resistor, halve cap value..
Smaller resistor reduces boost, increase cap value as by above. Halve resister, double cap value.
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