I have purchased the latest Linkwitz ASP PCB's with the hope of using them to run my 3 way active speakers that are at the moment supplied by a MiniDSP setup.
Hmm, well maybe I have bitten off more than I can chew, I am hoping you might be able to help me with a few questions.
I have downloaded Linkwitz Filter Circuits Tool V4.1 (LFCT) spreadsheet & studied the schematics, spread sheet, Function Block Diagram etc, & read through the active filter section of the Linkwitz & Elliot Sound Products site. I should mention I know very little about electronics & couldn't cut the mustard when it came to advanced maths at school, just so you know where I'm at.
I figured as a starter I would use the setting I have come up with for the MiniDSP to build the ASP's & then do some experimenting, as necessary. I did the whole speaker measurement thing with the DSP so I have a base to work with & the bits to do the testing when the time comes.
I have been able to work out how to adjust the crossover sections to suit my purposes, but when it comes to the filters I am a little lost. I have listed some starter questions below & hopefully the answers to them will answer other questions I have.
Hmm, well maybe I have bitten off more than I can chew, I am hoping you might be able to help me with a few questions.
I have downloaded Linkwitz Filter Circuits Tool V4.1 (LFCT) spreadsheet & studied the schematics, spread sheet, Function Block Diagram etc, & read through the active filter section of the Linkwitz & Elliot Sound Products site. I should mention I know very little about electronics & couldn't cut the mustard when it came to advanced maths at school, just so you know where I'm at.
I figured as a starter I would use the setting I have come up with for the MiniDSP to build the ASP's & then do some experimenting, as necessary. I did the whole speaker measurement thing with the DSP so I have a base to work with & the bits to do the testing when the time comes.
I have been able to work out how to adjust the crossover sections to suit my purposes, but when it comes to the filters I am a little lost. I have listed some starter questions below & hopefully the answers to them will answer other questions I have.
- My existing DSP has the ability to dial in a Negative Gain Shelving High Pass Filter, which the MiniDSP calls a "High Shelf", but the LFCT spreadsheet, doesn't seem to be able to do "Negative Gain". CAN IT BE DONE? IF SO HOW?, an I missing something? I want to use it to slowly drop the level of the HF, which I do with the MiniDSP
- The LFCT spreadsheet show Inverting & Non Inverting filters, DOES THE INVERTING FILTER CHANGE THE PHASE BY 180 DEGREES? IF NOT, WHAT DOES IT DO?
- WHAT TIME DELAY WOULD A 180 DEGREE PHASE SHIFT CAUSE?
- The MiniDSP allows me to apply a Negative or Positive Notch Filter, which they call a "Peak Filter" CAN A POSITIVE NOTCH FILTER BE DONE WITH THE LFCT spreadsheet? IF SO HOW?
- In the Linkwitz Function Block Diagram and the schematics they have several Shelving filters where the nominated frequency points are outside the drivers frequency range, like a SLP Dipole EQ 30-400 (frequency I assume) that is directly before the Midrange output? when the Mid takes over at 92Hz not 30 Hz, and I assume the 30Hz signal is long gone by the time it gets to that point. I DON'T UNDERSTAND.
The shelving low pass filter extends below the driver's pass-band so that its amplitude and phase response has a minimum impact on the cross-over function.
If it ended at the bottom of the mid-range pass-band instead the mid-range would have a fifth order cross-over slope (due to the 6dB/octave dipole roll-off) that wouldn't sum correctly with the woofers.
Some of the capabilities a DSP gadget like the miniDSP has can't be created with the architecture of the Linkwitz ASP boards.....or must created with an alternative method.
You might take a look on this page for some basic analog building blocks which can be the basis of an ASP for a specific project.
Active Filters
I dare say analog design/implementation of this sort is considered pass'e by many in the DIY audio community nowadays. 🙂
Cheers,
Dave.
You might take a look on this page for some basic analog building blocks which can be the basis of an ASP for a specific project.
Active Filters
I dare say analog design/implementation of this sort is considered pass'e by many in the DIY audio community nowadays. 🙂
Cheers,
Dave.
I'm unclear on why you would want to do this.
The Linkwitz ASP is a very specific solution, not a general purpose crossover.
There was a group buy a couple years ago for some highly configurable general purpose filter boards. If you can find a few of those lying around, it would be a much better solution.
The MiniDSP would be my first recommendation though, why are you dissatisfied with it?
The Linkwitz ASP is a very specific solution, not a general purpose crossover.
There was a group buy a couple years ago for some highly configurable general purpose filter boards. If you can find a few of those lying around, it would be a much better solution.
The MiniDSP would be my first recommendation though, why are you dissatisfied with it?
"GETTING CLOSER ALL THE TIME"
I'm getting there slowly, I'm seriously over measuring & have made the last changes for the time being. The plan now is to finish the second board & spend some time listening.
I have ditched the suggested tabletop PSU & purchased a very nice little XP Power PSU from E14, not cheap, but it is surprisingly small & looks very well made, should fit in the case nicely.
I won't be making the case until I build the Twisted Pear Dac/Preamp, then I will build both cases together.
I'm getting there slowly, I'm seriously over measuring & have made the last changes for the time being. The plan now is to finish the second board & spend some time listening.
I have ditched the suggested tabletop PSU & purchased a very nice little XP Power PSU from E14, not cheap, but it is surprisingly small & looks very well made, should fit in the case nicely.
I won't be making the case until I build the Twisted Pear Dac/Preamp, then I will build both cases together.
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