These measurements and information was posted quite some time ago.
http://www.zaphaudio.com/surface5test/Here three woofers were tested "HiVi W5 vs GR M130 vs Vifa TC14"
My first issue with this are the comments made about my M-130 woofer.
"GR M130 - coated paper cone, plastic frame w/6 holes, fake phase plug, good motor venting. Breakup node at 5.5kHz with energy storage problem. Strange suckout at 1900hz, not visible in gated or smoothed curves."
First of all the frame is NOT plastic. The frame is a high strength polymer similar to what many pistols are made from. I once watch my 260 pound business partner jump up and down on one of these frames with both feet. It did not bend it or break it. These are really tough frames and have a specific advantage over other types of frames. I'll get to that shortly.
Secondly, the dust cap is NOT a fake phase plug. The shape and type of dust cap was selected for specific reasons. This dust cap was compared to several other types. It added some mass that was desired, and it gave the smoothest response than with others tested.
Thirdly there is NO breakup node at 5.5kHz or energy storage problem in that area. In fact if you look at the cumulative spectral decay of all three woofers tested you will not only see that there is no energy storage problem at 5.5kHz but it is the cleanest in that area of all that were tested.
There is also no strange suck outs at 1900Hz. This may have been an artifact of the way that they were measured (in the near field). If it is there when not gated but not there when gated then it is clearly an artifact of a cancellation from a late arriving reflection.
Then I found this comment particularly humorous.
"I'd pay 10 extra bucks to get a metal frame".
Allow me to educate on this one. All metal frames ring to some degree. All you have to do is play the woofer at the resonance frequency of the frame to excite it. Many people have realized improved sound of their speakers by damping the woofers frame with some type of damping material, lead dots, etc. The high strength polymer does not have this issue to contend with. It also will not transmit a resonance to the front baffle like many metal frame woofers will. If I had an extra ten bucks to spend, I'd get the one with the polymer frame.
The next issue I have had with the posted data on our drivers is the measured T/S parameters posted.
The M-130 measurements are posted at the bottom of the same page.
From the measured T/S parameters I can see that the driver has not been burned in or it was tested in a way that did not accurate reflect the real T/S parameters.
See before and after burn in parameters on an M-130 here:
http://www.gr-research.com/burnin.shtmWhat is perplexing is that someone would go to the trouble of measuring and posting data on a woofer (as if performing some type of service to the DIY community) and not properly burn in the woofer (a disservice). Not only will the T/S parameters be different but it can also have an effect on measured distortion figures as well. This makes those measurements fairly meaningless. Would you rather know what the T/S parameters are on a driver out of the box or after burn in? Since pre-burn in figures are temporary it makes little sense to post parameters of a fresh out of the box woofer.
Similar inaccuracies were posted regarding our M-165X woofer here:
http://www.zaphaudio.com/6.5test/Comments made are below:
Comments: This is a paper cone woofer with a well ventilated plastic frame and Adire's XBL^2 dual-gap, short coil motor design. The response curve is smooth with some mild breakup starting at 3kHz. Harmonic distortion is on the high side, and it's obvious that this motor doesn't have a copper sleeve over the pole piece like the Extremis or AA 6.5 poly. Sensitivity is relatively high, and the motor will remain linear at high output. The suspension is a bit too small to fully support the excursion the motor is capable of.
Again the frame is a high strength polymer and NOT plastic.
The is no breakup in the 3kHz region either. John is confusing an amplitude peak with breakup. The difference can clearly be seen in the spectral decay of his own measurements:
http://www.zaphaudio.com/6.5test/csd.html This is actually the most useful data posted about the drivers tested.
Without properly measured 1 meter measurements on a baffle the response below 400Hz or so is not accurate and of little value. But accurate responses above that range can be accurately made with his measuring methods. The spectral decay is very telling and I will elaborate more on that when I address the value of distortion measurements.
An amplitude peak is in increase in output only. The decay rate should die out just as fast as the response any where else.The amplitude peak that he showed in his measurements are clearly below the level of the graph by less than 2 ms.
Breakup is a resonance issue and it can be identified by a long and continuing decay in the area of the resonance. See the spectral decay of just about every other woofer tested to see what a real breakup resonance looks like.
The M-165X was one of the cleanest woofers tested and had less stored energy issues than any of the other woofers tested. A few others were also very good, but many were horrible.
Again distortion is an area that I will spend more time with in a different segment.
It is also funny that he claims that it is obvious that the motor doesn't have a Copper sleeve over the pole piece when he can't even see the pole piece and has no basis by which to make such statement. It actually does employ the use of a Copper ring.
John's measured T/S parameters of this woofer seen here:
http://www.zaphaudio.com/6.5test/ts.htmlThis also shows that the driver was either not properly burned in before measuring or testing it or it was improperly measured. Posting data and parameters on a woofer that has NOT been burned in for at least 40 to 50 hours will give you data that is of little or no value.
