What defines a good tonearm


I'm in the market for a very good tonearm as an upgrade from an SME 345 (309). Most of the tonearms I have used in the past are fixed bearing except for my Grace 704 unipivot. I dont have a problem with the "wobble" of a unipivot, and they seem the simplest to build, so if they are generally at least as good as a fixed pivot, why wouldnt everyone use a unipivot and put their efforts into developing easier vta, azimuth and vtf adjustments, and better arm materials. Or is there some inherent benefit to fixed pivot that makes them worth the extra effort to design and manufacture
manitunc
I remember using a Pickering table that had a unipiviot arm consisting of a large steel needle which fit into the bottom of a plastic cup on the tonearm. Did it work? Sure. Did it sound like modern arms? Hell no! The question is , what do YOU find acceptable! Just because it is a unipiviot does not mean that it the equal of a GOOD unipiviot. My Graham arm is a unipiviot and cost considerably more then $5, as do the VPIs that I am a dealer for. If you cannot hear the difference between arms then get the cheapest one you can. If you can get the best you can afford. No one can prove to you using logic that a good tonearm is a necessity, only your ears can tell you the answer. I am constantly amazed by what SOME of the DIYers think is acceptable; others are among the most sophisticated of audiophiles. Many of the expensive arms on the market were designed by individuals who were dissatisfied with the commercially available ones, starting with SME and on through Graham, Basis, etc. I am a great believer in saving money but an even greater believer in good sound; just like in every other sphere in life, while money is no guarantee of quality, good costs more than bad when everything is taken into consideration.
I'll vote with Sgunther for the Trans-Fi Terminator and submit the following list as ideal criteria for a tonearm:

1. Linear tracker for perfect tangency. It's disingenuous to suggest that small errors in tangency of pivot arms are of neglible significance. If this were so there would be no market for 12" arms. IIRC, extrapolating from a Bob Graham paper, the average percentage reduction in tracking angle error in going from a 12" arm to a linear arm, is greater than the reduction in error in going from a 9" arm to a 12" arm. You can hear this difference.

2. Low pressure soft air bearing(1-2 psi) eliminates bearing chatter created by air turbulence in high-pressure bearings of Kuzma, Walker, etc.

3. Wand is mechanically coupled by point bearings to a moveable carriage of sufficient mass to absorb excess cartridge body energy, while still being completely isolated from external plinth vibrations on an air cushion.

3. Separately adjustable vertical and horizontal inertial mass accomodates cartridges of widely varying compliance. As close as it can be to a universal tonearm.

4. Short wand for maximum stability and neglible mechanical resonance associated with wand composition. On this arm I've tried short wands using various custom wood, alloy, and carbon fiber constructions-- they all sound very close in character. Arms like Reed suggest that comparing woods is like choosing a golf club. The short arm takes this sport out of the equation-- which some owners may miss. The short wands are cheap and swappable--avoiding the mechanical impedance barrier introduced by removeable headshells or detachable arm wands.

5. Uninterrupted shielded wiring from cartridge pins to phono stage-- minimal signal degredation and virtual elimination of RFI/EMI issues. Anyone who has tried uninterupted wiring will also discover that many hum problems are introduced at the mechanical junctions of wiring. The best solution is to get rid of the junctions.

Most of the above points are outside the common vocabulary of discussion about tonearms. The only quibble concerns the matter of the short 2" wand. Since the Trans-Fi's short flat wand can be loaded for variable inertial mass in both horizontal and vertical planes, the issue is not about the short wand's dynamic behavior in combination with cartridge compliance. The matter boils down to changes in geometry over warps. IMO putting this little point aside, the Trans-Fi is the least burdened of any tonearm by the theoretical compromises that lead most designers to increasingly elegant and expensive workarounds.

Stanwal,
Don't misunderstand me, I think the ingenuity and craftsmanship that goes into something like a triplanar or graham or schroeder or any of the other high end arms is well worth the money spent. Much like sophisticated medical or lab equipment, these low volume works of machine art are expensive to create and duplicate. This isnt stamping a shape out of a piece of tin, but real machineing of different metals pieced together to form a working product.
My question is more why is there two basic lines of thought on how to make a pivoted tonearm. Either unipivot or captured bearing and what is the inherent deficiency in each that the other is trying to fix.
My assumption is that a unipivot is more free to move in all directions, and is therefore more likely to track the groove accurately. I also assume that a captured bearing is less likely to allow a cartridge to chatter or bounce around outside where it is supposed to be. And then we have the Townshend silicone trough to damp all this motion, which does seem to work from my experience, although I havent tried it with a unipivot.
Is it your opinion that either of the two pivoting tonearm types is the right answer, and that the other type, while it can be made to sound great, has an inherent impediment to perfection, if that was achievable.
I think we had a similar thread which was deleted. Unfortunately, because it had everything, from the idea of an enthusiast with a knife in the left hand and a piece of wood in the right one up to engineered knowledge about geometry.
but whenever someone feels to make something, analog equipment is the future.
Personally I like those who did not sleep the last 5 years because they made research to serve the discriminated Audiophile. Unfortunately they don't do it for free. A pity.
All mechanical systems have deficiencies and designers take different paths to alleviate them. I disagree with your major premiss that one or the other arm designs MUST be superior to the other; the critical part of your statement is "if that were achievable". It is not! We do not live in Plato's ideal world but in one where the ideal does not exist. I have had , sold, set up , more arms than I can possibly remember and found that there are good arms of all major types. Worrying about which arm more closely approaches the IDEAL arm is much less fruitful than simply listening and deciding which one reproduces music in the way you think it should be reproduced.