Support

If you have a problem or need to report a bug please email : support@dsprobotics.com

There are 3 sections to this support area:

DOWNLOADS: access to product manuals, support files and drivers

HELP & INFORMATION: tutorials and example files for learning or finding pre-made modules for your projects

USER FORUMS: meet with other users and exchange ideas, you can also get help and assistance here

NEW REGISTRATIONS - please contact us if you wish to register on the forum

Users are reminded of the forum rules they sign up to which prohibits any activity that violates any laws including posting material covered by copyright

XOVER Linkwitz-Riley

Post any examples or modules that you want to share here

XOVER Linkwitz-Riley

Postby steph_tsf » Wed Jul 17, 2013 3:38 pm

This is a typical application of the 4-channel FFT-based Audio Analyzer and IIR BiQuad filters. See the attached .fsm

ch1 : reference channel (no need to graph it)
ch2 : lowpass signal
ch3 : highpass signal
ch4 : reconstruction (lowpass + higpass)

reference : ch1
impulse response graph : ch4 (we can also graph ch2 or ch3 impulse response)

For implementing a crossover operating at 2 kHz, we need to configure the LR Xover :
2000 Hz
2nd-order (actually each speaker is going to be filtered 4th-order, as there are two Butterworth cells in series)

The resulting graph illustrates the LR Xover behaviour and properties.
The Lowpass slope in the transition band looks adequate.
The -6 dB point of the Lowpass is 2 kHz.
The Highpass slope looks adequate.
The -6 dB point of the Highpass is 2 kHz.

The Lowpass phase is a typical double Butterworth one, far from linear.
The Highpass phase looks essentially the same as the Lowpass. This guarantees that the speaker drivers operate in-phase from DC to 20 kHz. The multiway loudspeaker wont "beam" particular frequencies at particular angles. The radiation pattern stays homogeneous.

The Lowpass + Highpass sum delivers a signal exhibiting a distorted phase inherited from the twin Butterworth. The magnitude is flat from DC to 22 kHz. Such Xover produces a severe phase distortion. A pulse signal won't show as a pulse signal after the crossover. A pulse signal will appear as a burst extending over time. This is the green curve obtained from channel 4 setup as the Lowpass + Highpass sum. Such phase distortion is a serious disadvantage compared a Lipshitz-Vanderkooy Xover relying on a Bessel Lowpass inside.

The Lipshitz-Vanderkooy Xover is illustrated here http://www.dsprobotics.com/support/viewtopic.php?f=3&t=1505

Cheers,
Steph
Attachments
XOVER 2-way mono Linkwitz-Riley (2 kHz - Twin Butterworth 2nd Order).fsm
(1.95 MiB) Downloaded 1298 times
XOVER 2-way mono Linkwitz-Riley (2 kHz - Twin Butterworth 2nd Order) (600).png
XOVER 2-way mono Linkwitz-Riley (2 kHz - Twin Butterworth 2nd Order) (600).png (78.23 KiB) Viewed 11474 times
Last edited by steph_tsf on Sat Aug 10, 2013 10:31 pm, edited 1 time in total.
steph_tsf
 
Posts: 249
Joined: Sun Aug 15, 2010 10:26 pm

Re: XOVER Linkwitz-Riley

Postby jjs » Thu Jul 18, 2013 6:28 am

Great, thanks !
User avatar
jjs
 
Posts: 142
Joined: Thu Jun 09, 2011 12:15 pm


Return to User Examples

Who is online

Users browsing this forum: Google [Bot] and 77 guests