Here is some measured responses for you guys.
This one shows the crossover point between the woofers and tweeter.
The top end is intentionally slightly tipped up as the speaker is meant to be listened to slightly off axis where the response will be flatter. The response also had to be tailored in a way that would give a balanced in room response. To get the flat in room response this meant a tipped up 1 meter measurement.
The adjustable output in the bottom end allowed me to balance the output for my room. My room is 23' by 17' with 9' ceilings and is well treated. Here is the 1 meter measurement after adjustment for my room.
Here is the impedance after these same adjustments.
Adding capacitance to the front woofer to increase the bass response can have an effect on the impedance that looks like this.
Taking away additional capacitance will just raise the impedance further in the 20 to 60Hz range.
Now here is one of the really cool parts. Look how clean the spectral decay is.
Even cooler than that and a real key to why these sound so good, and fill the room so well, is the even power response in all directions.
This is the horizontal off axis response. The Red line is on axis. Orange, Yellow, Green, and Blue are 10, 20, 30, and 40 degrees off axis.
If that wasn't cool enough, check out the vertical off axis responses. These were still taken at 1 meter. The first is the Red line showing the response in line with the tweeter. Next the mic was moved up 4" (Orange line) and there was a very minimum change. Then the mic went up 4" again (Yellow line) and again the response is very smooth. Lastly is the Green line showing yet one more 4" microphone height change, and it looks great. This is only one meter away and 16" above the tweeter level. This is the same angle as being 4 meters away and 64" above the tweeter level. This would be about 8.5 feet off the floor from 4 meters away.
Awesome off axis responses huh?
