hello all,
I'm working my senior project a monobolck caraudio subwoofer amp.
I have just now ran in to a brick wall, the low pass filter.
The problem I have is this; I cannot find a good knowledge sources on active, variable frequency, filter designs. I would like to vary the cut off frequency and the gain. Roughly 50-300Hz for the frequency range, and about 5-10 for the voltage gain.
I'm currently useing the Burrbrown OPA 2132 to acheive this design. (because I've worked with them before and I had a few extras to work with.)
I cannot come up with Ideas on how to achive the variable frequecy with Pots. You are to avoid the use of variable capisitors in audio circuits correct?
I've found a few books and sources on-line but these only seem to deal with set or fixed cutoff frequency designs.
Finally What other characteristics should I be consitering.
I would be grateful if you all could point me in a good direction.
Thanks For your time.
I'm working my senior project a monobolck caraudio subwoofer amp.
I have just now ran in to a brick wall, the low pass filter.
The problem I have is this; I cannot find a good knowledge sources on active, variable frequency, filter designs. I would like to vary the cut off frequency and the gain. Roughly 50-300Hz for the frequency range, and about 5-10 for the voltage gain.
I'm currently useing the Burrbrown OPA 2132 to acheive this design. (because I've worked with them before and I had a few extras to work with.)
I cannot come up with Ideas on how to achive the variable frequecy with Pots. You are to avoid the use of variable capisitors in audio circuits correct?
I've found a few books and sources on-line but these only seem to deal with set or fixed cutoff frequency designs.
Finally What other characteristics should I be consitering.
I would be grateful if you all could point me in a good direction.
Thanks For your time.
here's an idea
This has a hp filter in it two but just pretend that isn't there. Replace the two 5.35k resistances with a dual gang pot. Figure our what gain setting resistors you need in place of the two 1k resistors and you are set. Adjustable lowpass. The pot value you will have to figure. Right now it's set for f-3dB at 3kHz if i remember correctly.
This has a hp filter in it two but just pretend that isn't there. Replace the two 5.35k resistances with a dual gang pot. Figure our what gain setting resistors you need in place of the two 1k resistors and you are set. Adjustable lowpass. The pot value you will have to figure. Right now it's set for f-3dB at 3kHz if i remember correctly.
Attachments
you might also check planet10's site for more in-depth tech info on active/passive filters.
about halfway down the page there's something about the stuff you want.
mind you, there used to be a calculation error somewhere on the page (don't know if he fixed it yet).
/matti
about halfway down the page there's something about the stuff you want.
mind you, there used to be a calculation error somewhere on the page (don't know if he fixed it yet).
/matti
matjans said:about halfway down the page there's something about the stuff you want.
mind you, there used to be a calculation error somewhere on the page (don't know if he fixed it yet).
I think i fixed it... (i'm sooo behind with updates to my site)
there is also a set of active XO links...
http://www.t-linespeakers.org/linx/xolinks.html
dave
I've used this circuit before with TL072/82's and it works nicely.
http://www.users.qwest.net/~ptaylor/Audio/xover-2.jpg
http://www.users.qwest.net/~ptaylor/Audio/xover-2.jpg
There are application notes on both the Analog Devices www.analog.com and Microchip Technologies www.microchip.com websites which specifically address tuneable filters using digital potentiometers -- if you don't want to program the digital pots you can use the Dallas Semiconductor devices which don't require programming.
Here's the link to the Microchip AN737:
http://ww1.microchip.com/downloads/en/AppNotes/00737c.pdf
if you don't want to use a digital potentiometer you can use an inexpensive 8-bit ADC and a bunch of relays to switch values of resistors, proportioned to the transfer function.
One other thing about filters -- don't scrimp on the operational amplifiers -- they need high bandwidth to function properly.
With respect to the digital filters from Linear Tech and Maxim -- there are some with very low noise, low THD. You have to carefully check the specs since some aren't designed for the audio bands.
Here's the link to the Microchip AN737:
http://ww1.microchip.com/downloads/en/AppNotes/00737c.pdf
if you don't want to use a digital potentiometer you can use an inexpensive 8-bit ADC and a bunch of relays to switch values of resistors, proportioned to the transfer function.
One other thing about filters -- don't scrimp on the operational amplifiers -- they need high bandwidth to function properly.
With respect to the digital filters from Linear Tech and Maxim -- there are some with very low noise, low THD. You have to carefully check the specs since some aren't designed for the audio bands.
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