Hi
I have plans to program a loudspeaker filter calculator for free online use on my website.
Anyone know a good source for the theoretical formula's?
All the best from Denmark!
I have plans to program a loudspeaker filter calculator for free online use on my website.
Anyone know a good source for the theoretical formula's?
All the best from Denmark!
Thanks a lot you guys, i programmed the calculator based on your informations.
You can try the calculator here:
http://www.lcaudio.dk/com/passivexover.htm
Hopefully it gives correct results otherwise please let me know.
All the best!
You can try the calculator here:
http://www.lcaudio.dk/com/passivexover.htm
Hopefully it gives correct results otherwise please let me know.
All the best!
Hi Lars,
do you mind if I give my comments?
- the pictures I get when everything is calculated, I think they can be better? Maybe I'm going to far with this, but I see a lot of dots above and under the lines, and around the capacitors etc. (And when I compare it to other pictures on your website, they look better)
- I NEVER use the DC-resistance of the unit to calculate the crossover. It's very important that you use the impedance of the unit at the frequency you want to calculate the crossover for. If the impedancecurve isn't a straight line, and it never is, then you can't use the DC-resistance (the problems are around the impedance peaks you see in the lower frequencies and the impedance curves are going up when the frequency gets higher because of the inductance of the voicecoil.)
Maybe there comments are overdone, but I just wanted to say it 🙂
About the rest of your website: damn, I like the designs, especially the End Millennium amp!!!!
Grtz, Joris
do you mind if I give my comments?
- the pictures I get when everything is calculated, I think they can be better? Maybe I'm going to far with this, but I see a lot of dots above and under the lines, and around the capacitors etc. (And when I compare it to other pictures on your website, they look better)
- I NEVER use the DC-resistance of the unit to calculate the crossover. It's very important that you use the impedance of the unit at the frequency you want to calculate the crossover for. If the impedancecurve isn't a straight line, and it never is, then you can't use the DC-resistance (the problems are around the impedance peaks you see in the lower frequencies and the impedance curves are going up when the frequency gets higher because of the inductance of the voicecoil.)
Maybe there comments are overdone, but I just wanted to say it 🙂
About the rest of your website: damn, I like the designs, especially the End Millennium amp!!!!
Grtz, Joris
Loudspeaker Crossover Design Formulas
Most loudspeaker crossover design formulas prove to be wrong when put to test in a simulator program like Microcap.......
🙄
Most loudspeaker crossover design formulas prove to be wrong when put to test in a simulator program like Microcap.......
🙄
Re: Loudspeaker Crossover Design Formulas
But you have to have a starting point to optimize, in that case the equations mentioned will come in handy.
Elso Kwak said:
But you have to have a starting point to optimize, in that case the equations mentioned will come in handy.
Re: Re: Loudspeaker Crossover Design Formulas
I don't think so. You have the wrong starting point to begin with.
🙄
Hi LaMa,LaMa said:
I don't think so. You have the wrong starting point to begin with.
🙄
Vigier
I have been checking out the impedance curves of several well known drivers in the DIY community. It seems you can always get access to the voicecoil inductance, resonance frequency etc.
Maybe it would be a better idea to let the user select from a number of drivers from a list, so the calculator knows the essential parameters. Then it will also be possible to calculate a RCL network to compensate for the driver's resonance. It would only take a few hours to build into this calculator, and clearly be worthwhile.
I have been checking out the impedance curves of several well known drivers in the DIY community. It seems you can always get access to the voicecoil inductance, resonance frequency etc.
Maybe it would be a better idea to let the user select from a number of drivers from a list, so the calculator knows the essential parameters. Then it will also be possible to calculate a RCL network to compensate for the driver's resonance. It would only take a few hours to build into this calculator, and clearly be worthwhile.
The hardcore loadspeaker designers look like the always measure the T/S parameter of their driver, as they don't expect the datasheet to be right.
- Status
- Not open for further replies.