Everything a crossover has to do ...


Gang,


In my continuing efforts to encourage informed dialogue, I want to talk about how much a speaker crossover has to achieve, sometimes simultaneously. A crossover is a component which makes sure that the right frequencies go to the right drivers. That is, tweets should tweet and woofers should boom. Otherwise no sound comes out the woofer, and the tweeter becomes ballistic.


So, with those basics out of the way, here is a not-exhaustive list:


  • Filter. The simplest crossovers are just collections of low and high pass filters. Sometimes just one. Filtering is described above: Getting the right signal to the right component.
  • Level match. Drivers all have different voltage sensitivities, so making sure the drivers are playing uniformly is important. Imagine only seeing red on your TV for instance.
  • Equalize. Most crossovers have some sort of basic tilt built into them. Sometimes through dedicated components, sometimes just by picking the poles judiciously.
  • Impedance correct. Either to make speakers more tube friendly, or to make the filters more effective designers may put in components to solve the impedance problem alone. This alone is not something you find in an active crossover.
  • Temper driver resonances. As an example, lots of mid-woofer designs, even very good ones, have a resonant peak above their useful range. A notch filter can take it out and make the low pass better behaved.
  • Phase match. Below, at and above the crossover point drivers need to work seamlessly. Poor phase matching can cause lobeing, notches and peaks you don’t want. This is also very important in active crossovers, but you can often use digital delays to enhance the ease of the design.
  • Baffle Step compensation. A type of EQ that is the result of the driver/baffle size and arrangement. Yes, active crossovers should do this as well.


The point is, designing a crossover, whether active or passive, is not as simple as often assumed. To design any crossover, active with analog devices, DSP based or passive takes tools and effort to do well.


I hope some of you find this informative, and encourages you to learn more, if not experiment on your own.

Best,

E

erik_squires
So, you've listened to over 2500 different speakers?
I dont need to. I listened to the top 10 of each price range. These included the likes of kef, B&w, focal, dynaudio and others 
Cross overs are electronic devises (bandaids) for problems inherent in dynamic drivers that can not be fixed (made reasonably listenable) any other way introducing a lot of other problems that make dynamic speakers unlistenable.

If crossovers were that bad at what they did, why do the most high end speakers use crossovers?


Thanks @asvjerry -

I just described a type of technology and gave some idea of it's uses and parameters. It's physics, so I'm not really going to engage with the peanut gallery on it. It will be useful to those who like to talk speaker tech and DIYers, and drive the trolls a little nutty.
Best,
E
Group delay, phase response, blending of sound from each driver at the crossover frequencies, and flat frequency response "in your room", are most important IMO!
This could be a very interesting thread. For example: do high order crossovers (24 db/oct.) rob the drivers of speed and dynamics?