Hi all,
I am an audio enthusiast and I really like to experiment with my system to seek an increasingly engaging but also technically more perfect experience. It's a bit like my hobby, let's say.
I currently own KEF R3 Meta and two amplifiers, a Hypex NC252MP and a Neurochrome Modulus 86 (old model with single-ended output).
I also have two 10" subs with NC502MP amp and multichannel audio interface with FIR filtering on PC (Acourate).
I had taken the Neurochrome to biamp the old DIY speakers, which I then sold. So now I have this amp and I'm thinking of using it to biamp the R3s, and use digital filters to better linearize phase and magnitude in the crossover region.
The R3 already have double binding posts, one for the LF driver and the other for the Uni-Q (MF+HF), therefore the most practical option would be to dedicate the Neurochrome to the Uni-Q driver. but it has "only" 65W on 4 ohms and from the measurements of the R3 it seems that the passive crossover between LF and MF already works perfectly, both for FR, PR and DI.
What seems to be sub optimal is the transition between MF and HF, that involves a good PR, but to the detriment of FR and DI (this is also confirmed as a trade off by KEF in its white paper).
Now, in practical terms, it would not be a problem to disconnect the HF driver from the passive crossover to connect it directly to the Neurochrome (I could temporarily pass the cable in the reflex port). Without changing the passive crossover, however, the LPF filter of the MF driver would remain, which would limit the possibility of playing with digital crossover a little.
Surely I could better linearize phase and FR in the region, and I could also use much steeper filters to better separate the bands (considering also the drivers of the Uni-Q are at opposite polarity, therefore integration worsens by moving away from the crossover point).
The main doubt is in terms of PR and DI, which I have no way of measuring too easily / precisely.
On Erin's website there are the Uni-Q measurements of the R300s including off-axis at 30 and 60 deg, which show a rather uniform directivity. That unit should not be very different from that of the R3 Meta, so this makes me think that playing with a digital crossover I could improve the performance a bit.
I'm not sure which approach to use though.
What would you do?
Can anyone give any suggestions or ideas about this?
Keep in mind, as I said at the beginning, this is a bit of a hobby for me. I'm not thinking that R3s have a problem to solve, nor that any audible improvements can come out. It is only to pursue technical improvements, fun and even peace of mind!
I am an audio enthusiast and I really like to experiment with my system to seek an increasingly engaging but also technically more perfect experience. It's a bit like my hobby, let's say.
I currently own KEF R3 Meta and two amplifiers, a Hypex NC252MP and a Neurochrome Modulus 86 (old model with single-ended output).
I also have two 10" subs with NC502MP amp and multichannel audio interface with FIR filtering on PC (Acourate).
I had taken the Neurochrome to biamp the old DIY speakers, which I then sold. So now I have this amp and I'm thinking of using it to biamp the R3s, and use digital filters to better linearize phase and magnitude in the crossover region.
The R3 already have double binding posts, one for the LF driver and the other for the Uni-Q (MF+HF), therefore the most practical option would be to dedicate the Neurochrome to the Uni-Q driver. but it has "only" 65W on 4 ohms and from the measurements of the R3 it seems that the passive crossover between LF and MF already works perfectly, both for FR, PR and DI.
What seems to be sub optimal is the transition between MF and HF, that involves a good PR, but to the detriment of FR and DI (this is also confirmed as a trade off by KEF in its white paper).
Now, in practical terms, it would not be a problem to disconnect the HF driver from the passive crossover to connect it directly to the Neurochrome (I could temporarily pass the cable in the reflex port). Without changing the passive crossover, however, the LPF filter of the MF driver would remain, which would limit the possibility of playing with digital crossover a little.
Surely I could better linearize phase and FR in the region, and I could also use much steeper filters to better separate the bands (considering also the drivers of the Uni-Q are at opposite polarity, therefore integration worsens by moving away from the crossover point).
The main doubt is in terms of PR and DI, which I have no way of measuring too easily / precisely.
On Erin's website there are the Uni-Q measurements of the R300s including off-axis at 30 and 60 deg, which show a rather uniform directivity. That unit should not be very different from that of the R3 Meta, so this makes me think that playing with a digital crossover I could improve the performance a bit.
I'm not sure which approach to use though.
What would you do?
Can anyone give any suggestions or ideas about this?
Keep in mind, as I said at the beginning, this is a bit of a hobby for me. I'm not thinking that R3s have a problem to solve, nor that any audible improvements can come out. It is only to pursue technical improvements, fun and even peace of mind!
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