The Carver Amp Challenge and the 21st Century and it's Failure


Some of you may be old enough to remember this article from Stereophile. Bob Carver claimed he could make an amplifier audibly indistinguishable from some of the best from Conrad Johnson. A high efficiency (not class D), solid state linear amp vs. a linear tube amplifier.


https://www.stereophile.com/content/carver-challenge


Carver's approach was to feed a speaker via both amps at the same time using opposite terminals. The speaker itself was the measure of accuracy. Any difference in output between the two amplifiers would cause audible output.


What's super important here is Carver invented a new way to measure the relative difference of amplifiers with a real load.


That's kind of revolutionary from the standpoint of commonly published measurements of amplifiers before. Steady state, frequency sweeps, THD, IM and S/N all failed (to my ears) to express human experience and preference. I remember a reviewer for Audio, I think Julian Hiirsch, who claimed that these primitive measures were enough to tell you what an amplifier sounds like. The man had no ear at all, in my mind.  More here:


https://www.soundandvision.com/content/reconsidering-julian-hirsch

And here was Carver in 1985 cleverly showing that two amplifiers which measured reasonably well, sounded differently. We should also be in awe of Carver's ability to shape the transfer function on the fly. That's pretty remarkable too but not the scope of this post.


My point is, really, Carver showed us a revolutionary way to examine differences between gear in 1985 and yet ... it did  not become widespread.  << insert endless screaming here >>


As far as I know (and that is very little) no manufacturer of any bit of kit or cable took this technique up. We are still stuck in 1985 for specifications, measurements and lack of understanding of what measures cause what effects and end up cycling through cables and amps based on a great deal of uncertainty.


My points, in summary:

  • Most of what we consider state-of-the-art measurements are stuck in the 1970s.
  • There are a number of ways to improve upon them
  • No one has.
  • We should be a little more humble when asserting if it can't be measured it isn't audible because our measurements are not nearly comprehensive
  • I look forward to manufacturers or hobbyists taking modern equipment to pursue new measurement and new insights into our hobby.


Best,
E


erik_squires
It started with a bold claim from Carver stating his amplifier was indistinguishable from a tube unit.

His first claim was he could make it indistinguishable. Not that it started there. After that he produced amps such as the M500t. He may have produced others on this same idea, and it's arguable how well he succeeded.

His amp may ONLY have been an accurate reproduction of the CJ amp with 1 particular speaker. In any event, I don't claim his success, but I do claim his revolutionary way to evaluate equipment has not carried us forward, and that's disappointing.

one of which was increasing its current capacity significantly 

Not my understanding. Among other things, Carver increased output impedance, going the opposite way.


don't agree that most of our measurements are stuck in 1970 technology. The test equipment we have today is like comparing a Lotus to a Model T

Which has not actually revolutionized our understanding. We, the buying public, read reviews and measurements taken with test gear which can add more zeroes to the distortion measurements and more dB to the S/N measurements compared to that in the 1970s but we are not presented with revolutionary ways of understanding the performance of electronics and their audibility. 


Likewise, I don't agree that no one has made improvements in measurements.   Folks have, I just don't see them dumping their IP into public domain for their competitors to use.


It's quite plausible this is true, and that leaves us, again the buyers, in exactly the same place as if it didn't exist. We as consumers are stuck with 1970s definitions of electronics measurements, despite vastly superior measurement possibilities, disk storage space, CPU power to now investigate the dynamic performance of gear in entirely new ways.


Best,

E
PS, you may be a little confused since I think Carver may have used the term "current source" to describe the difference. That  doesn't mean more current. It's a different operating principle than a voltage source.
Good thread, Erik, and good points in your OP!

To clarify some historical facts about the "Carver Challenge":

Aczel’s preprint of the amp matching effort Carver performed under his auspices was written sometime prior to January, 1983, while the Stereophile article appeared in October, 1985. So Carver’s effort with Aczel was performed well before the one with Stereophile, although the people at Stereophile were apparently unaware of it when their article was written.

Also, "The Audio Critic" didn’t quite go defunct; it resumed publication in late 1987, after a lapse of about six years during which time Aczel served as president of the Fourier Loudspeaker company (which did go defunct during that time, for a variety of reasons Aczel later described in TAC as including inadequate capitalization, too few dealerships, and a warehouse fire).

The target amp that was the subject of the Stereophile article, as stated in footnote 3 on the first page of the article Erik linked to, was a Conrad-Johnson Premier Four tube amp. The target amp that was the subject of Aczel’s article was a Mark Levinson ML-2, a very highly regarded and very expensive solid state pure Class A monoblock amplifier of the time, rated at about 25 watts into 8 ohms but capable of providing huge amounts of current and much greater power into low impedances.

The null test, as described by Aczel, was performed by connecting Carver’s amp and the target amp in the normal manner to speakers that were at inaudible locations, and connecting a monitor speaker and/or a meter at an audible location between the + terminals of the two amps, both amps being provided with identical inputs.

Although Carver was able to tweak his amps to obtain a remarkable null of 70 db or so in those efforts, as I recall he pretty much admitted in an interview with "The Absolute Sound" about 7 or 8 years ago that he couldn’t come close to maintaining that deep a null in production. And as Erik pointed out, the null was achieved with one specific speaker load.

I owned both the original M400, the cube-shaped amplifier in which Carver introduced his magnetic field power supply technology but which was not "transfer function modified" to emulate a different amp, and the subsequent M400t version which was designed to emulate the ML-2.

IME the original M400 sounded very poor, with a strange glare often being present. The M400t sounded surprisingly good, and was certainly an excellent value in relation to its price and its 200 wpc power capability. The most significant weakness in my experience with the M400t, using it with fairly easy-to-drive 7 ohm 90 db speakers, was that the size of the image it projected seemed somewhat constricted. But based on my experience with the two amps it would certainly seem that Carver’s efforts to emulate the sonics of the ML-2, and the technique he used in that process, provided considerable benefit.

Regards,
-- Al
Thanks for the clarifications, @almarg I was not aware of the earlier testing with the ML, so my thinking about the current improvements was probably not accurate.

I appreciate your detailed and informative corrections!

What this keeps tickling me of is the Technics digitally controlled Class D amplifier. They use DSP to pre-correct issues the amplifier has with the load. Amplitude and phase issues Class D amps tend to have in the top octaves.

I wonder if today we couldn't make better models, or get a better idea of what amps are doing, in such a way that would allow us to pick a sound.

Best,

E
@spatialking Apologies, I seem to have been very much in error. You were right. I was wrong.

Best,
E