Man, I’m sorry I have to jump in here:
This is too confusing phase angle with polarity. The polarity is either positive or negative. Applying the (+) of a 1.5V battery to the (+) terminal of a driver will result in the driver moving OUT. Reverse the battery and the driver will go IN.
Because drivers as well as their crossovers result in phase angles that may not add up correctly, matching the drivers so their total output adds correctly across the crossover frequency often results in the need to invert the polarity of drivers. Something else not thought about is the time. In a flat baffle, a tweeter arrives about 0.1
My guess is that 99% of two-way systems have the tweeter in negative polarity. This is a good thing, because the alternative would be a deep null.
Designers deal with driver polarity consideirng only a pair of drivers at a time. By convention, the woofer is in positive polarity. Then the woofer/midrange is considered. If necessary, the midrange will be inverted. Based on the phase angles of the midrange and tweeter the polarity of the tweeter is considered. This time the tweeter may or may not be inverted.
The size, depth, placement of the drivers, the angle of the baffle, the order of the filters (1st, 2nd, etc.) all play into whether drivers will need to be inverted.
For goodness sakes, no one should be inverting individual drivers, that way lies madness unless you have the right tools or background information.
There are designers like old Thiel and current VanDerSteen who make polarity and phase coherense an absolute priority, and then buy or have drivers made that can work well in these configurations. It is not rocket-science, but neither is it proven to be desirable above all else, and often has risks associated with it.
Best,
E
In a good many speakers the phase angle is significantly different for the woofers than it is for the midrange and tweeter. If the woofer has a significant negative phase angle while the midrange and tweeter are quite positive, inverting the phase of the woofer will bring them into better coherence.
This is too confusing phase angle with polarity. The polarity is either positive or negative. Applying the (+) of a 1.5V battery to the (+) terminal of a driver will result in the driver moving OUT. Reverse the battery and the driver will go IN.
Because drivers as well as their crossovers result in phase angles that may not add up correctly, matching the drivers so their total output adds correctly across the crossover frequency often results in the need to invert the polarity of drivers. Something else not thought about is the time. In a flat baffle, a tweeter arrives about 0.1
My guess is that 99% of two-way systems have the tweeter in negative polarity. This is a good thing, because the alternative would be a deep null.
Designers deal with driver polarity consideirng only a pair of drivers at a time. By convention, the woofer is in positive polarity. Then the woofer/midrange is considered. If necessary, the midrange will be inverted. Based on the phase angles of the midrange and tweeter the polarity of the tweeter is considered. This time the tweeter may or may not be inverted.
The size, depth, placement of the drivers, the angle of the baffle, the order of the filters (1st, 2nd, etc.) all play into whether drivers will need to be inverted.
For goodness sakes, no one should be inverting individual drivers, that way lies madness unless you have the right tools or background information.
There are designers like old Thiel and current VanDerSteen who make polarity and phase coherense an absolute priority, and then buy or have drivers made that can work well in these configurations. It is not rocket-science, but neither is it proven to be desirable above all else, and often has risks associated with it.
Best,
E