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high Le vs. low Le woofers [message #34912] Mon, 28 January 2002 10:12 Go to next message
Sam P. is currently offline  Sam P.
Messages: 307
Registered: May 2009
Grand Master
I noticed that jbl's 2227 has the "shorting ring" deal that gives it a very low Le, as does the 2035 driver. Both seem to exhibit a rising response above 1 kHz to a much greater degree than the 2226's. Does that imply for a given xover freq, that a slightly greater xover L value is needed, or will the nominal 0.7 mH act to cut quicker since it's inductive reactance will be larger proportionally (rising faster?) than the driver's reactance at xover?

I guess I'm really wondering is when using the 2035's, should the LP xover inductor be .7 mH (like w/ 2226) or 1.0 (like w/ 2227)? Sam

Woofer crossover strategies [message #34925 is a reply to message #34912] Tue, 29 January 2002 06:10 Go to previous message
Wayne Parham is currently offline  Wayne Parham
Messages: 18791
Registered: January 2001
Illuminati (33rd Degree)
In my view, there are two different kinds of woofers. One is a single purpose woofer that won't be used above a couple hundred Hertz. Some would call that a subwoofer. It can be that, but it can also be used in a traditional three-way loudspeaker with crossover somewhere below about 500Hz. The second kind of woofer is what I usually call a midwoofer, in that it must work through the midrange band, with crossover somewhere between 1kHz and 5kHz. These are usually used in two-way loudspeakers. Large ones are usually crossed over somewhere between 1kHz and 2kHz, smaller ones maybe as high as 5kHz.

Shorting rings offer several advantages due to the fact that they counter flux modulatuon, the most significant one in my opinion being the reduction of distortion. Another benefit is the reduction of voice coil inductance. Reduced voice coil inductance makes the speaker act more like a pure resistance, which has it's own set of benefits. But my point is that shorting rings can be incorporated in woofers that aren't designed to be used as midwoofers. They aren't used solely to decrease inductance.

That said, voice coil inductance in series with crossover inductance makes a (frequency insensitive) voltage divider. This tends to make the crossover inductance less effective as a low-pass filter. That's why some crossovers use a Zobel conjugate filter, to counteract voice coil inductance. Without it, a series coil will create a stepped response. Sometimes, that's useful too.

Some of my designs have a series coil without a Zobel to get this stepped response on purpose. The idea is to decrease output at the upper end of the response curve and then let the mechanical and electrical characteristics of the woofer roll it off. When a midwoofer is used at high frequency, it become more and more directional, which tends to increase on-axis output. A series coil can be used to create a reduced step to attenuate this rising response to make it level, on-axis. The tweeter horn is brought in at the point where its directivity matches that of the midwoofer, which then begins to rolloff because of its electro-mechanical characteristics. If everything is balanced just right, this makes a DI matched system using a minimum of crossover components, just a small coil in series with the midwoofer.

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