The design of linear-phase crossover networks has until now necessitated the use of crossovers at least one of whose outputs suffers from either frequency response ripple in the passband or low rolloff rate in the stopband. It may be desirable, at least for experimental purposes, to construct a high-quality loudspeaker which avoids the all-pass phase characteristic exhibited by the best of conventional Butterworth or Thiele-Linkwitz-Riley-derived high-slope crossovers, because such phase distortion can subtly degrade some program signals. This paper generalizes a recent suggestion and shows how, by introducing a suitable time delay into the signal path, a family of complementary constant-voltage crossovers can be synthesized with high slopes in both low-pass and high-pass outputs. Such crossovers are also applicable more widely, for example in bandsplitting companders, limiters and signal processors of various kinds. The performance of the new crossover design for different low-pass alignments is discussed in some detail.
Click to purchase paper as a non-member or you can login as an AES member to see more options.
No AES members have commented on this paper yet.
To be notified of new comments on this paper you can
subscribe to this RSS feed.
Forum users should login to see additional options.
If you are not yet an AES member and have something important to say about this paper then we urge you to join the AES today and make your voice heard. You can join online today by clicking here.
