Philosophy: Bearing vs. Unipivot


I was looking at the VIV Rigid Float arm on AG today, and a couple of things struck me. Obviously, the primary one is that there is no arm offset on this arm, no overhang, no need for anti-skate. But, secondarily, I can really follow Ivor Tiefenbrun's thoughts on the Linn turntable: any relative motion between the stylus and the groove harms the sound. Stable bearings, whether gimballed or not, solve this situation. But there are so many unipivot arms out that are well-thought-out and well-regarded, including the aforementioned VIV.that there must be something more going on with them than there used to be, because there just HAS to be more relative movement with a unipivot arm than one with bearings. Someone please educate/enlighten me...
benjysch
?? I'd be interesting in seeing how that applies here.

I don't like unipivots because the bearing is so easy to damage. I've never seen an older one come through the shop that did not have a damaged bearing. It is the Achilles heel of unipivots.

Its not like gimballed arms are perfect. Damage to their bearings is a problem too. Some manufacturers solve it by leaving some slop in the bearings, which can cause coloration. Others like SME, use larger bearings that are harder to damage (and have more sticktion). Triplanar uses a small bearing that is ultra-hard, in fact the hardest made, which is why they have consistent performance year in and year out.

I also prefer gimballed arms because they hold the cartridge in better locus with respect to the groove itself.
I want to thank you all, and to Doug have just a couple of comments for clarification. I understand that one part moving on the point of another constitutes a bearing. Perhaps I should have specifically named ball bearings, but then folks may have thought that I didn't know that knife edges were also bearings. Having a stylus captured between both vertical and horizontal ball bearings means to me that, apart from micro movement from bearing slop, the stylus will maintain azimuth, and will not tip to the right or left in the groove. That right or left tip is what I meant by relative movement. The same thing can be said for the old Rabco servo driven arm; it was always in front or behind the angle the groove was cut at. With this relative motion is a loss of information from the groove.
I know that there are many unipivot tonearms that are astonishing, so obviously these problems have been scotched, if not killed. Like you, and architect Mies said, God is in the details.
Benjysch, thanks for clarifying. Parts of my post addressed azimuth instability, so hopefully not a total waste. Some unipivots address this successfully, others not so much.

I'm no van der Rohe (thanks for the comparison) but I am a stickler for details in technical discussions. I draft and negotiate legal contracts for a technically oriented multi-national, where nerdliness is next to godliness!

P.S. You gotta love that Rabco. A fun design, even if it never achieved groove tangency except by random chance. I still have my ST-7 and it works perfec... umm, as well as it ever did.
I owned a Rabco for years. I set it up with an opamp to sense the feeler contacts to reduce noise (I got tired of the feelers not making good contact, which would result in the arm lifting off at random points on the LP...) At the same time I also integrated the output response so it would ramp up slowly and ramp down slowly.

The result is that the motor was always turning. This reduced the "error" (BTW Rabcos have **way** less error than radial tracking arms) by about 1.5 orders of magnitude- the arm would find the horizontal cutting speed of the LP and track with it. It was really easy to do.