Last night I proceeded with a second, more radical OTA phono cable experiment.
Purpose: the aim of the experiment was to bypass the Simon York output connector plate/bracket (fitted with insulated gold-plated RCA phono sockets) and connect the Simon Yorke tonearm wiring to PhonoCube via an extremely short OTA bridge.
Apparatus: Two OTA phono cables were made up anew. The RCA plugs were positioned on one side; the other side was sculpted/crimped into receiving pins for the SY tonearm wiring clips, taking great care not to tarnish the OTA wire with finger contact. The total length of these phono cables are 4.8 cm measured from the tip of the OTA RCA plug to the free end of the cable. (Imagine an even shorter length of the pre-made OTA RCA plug/wire assemblies that are now packaged in plastic envelopes with the kit.) The PhonoCube was positioned 3 cm away from the SY 9 TT and the SY tonearm wires were clipped to the end of the OTA pin leads, always being cautious of the free-standing nature of PhonoCube.
Observation: Sound quality was even more immediate, dynamic, and faster than the 25 cm OTA lengths I used in the previous experiment. Instrument positioning, focus and outlining was the precisest I have ever heard, and the tonal balance was (and I mean this) utmost neutral. Sound stage was even further extended. The equipment all operated flawlessly, and no difficulties were experienced with RFI.
Reflections: At this point, OTA's main role is to provide a minimal hook-up point for the SY tonearm wire. The comparative lengths (about 50 cm of SY tonearm wire and 4.8 cm of OTA) make it clear that, if cable contributes to sound, then it is the SY tonearm cable that is the major contributor. This internal tonearm wiring is 0.60 mm silver plated copper wire, sheathed in a p.t.f.e. (Teflon) coating. Simon Yorke insists that the phono cable should be of an equal or larger gauge than the tone arm wiring. I do not know why it is such a critical factor that the phono cable be larger than the tonearm wire, but it is, at least for him. However, OTA is 0.20 smaller. Nevertheless, I do not think that this causes the electrons in the SY tonearm wire to slow down when they reach OTA. :-) I can also imagine a further step to this phono cable experiment. With the goal of replacing the SY tonearm wiring altogether and the four clips holding it now to OTA, use an integral run of OTA from cartridge to PhonoCube input, like sead mentions. In this case, I wonder if it would be best to strip off the protective tubing of OTA and Teflon coat four 50 cm lengths of the OFC wire (without any silver-plating). (I got a little lost during the discussion of lacquers on this forum, can anyone tell me how to coat OTA in p.t.f.e. Teflon? or to silver-plate it?) Factors such as sead mentioned with his Koshin 801 tonearm make this project equally difficult with the SY tonearm: I would need to obtain a second SY tonearm. Multiple tonearms are not included, and the one I have is sealed to make tonearm wire replacement impossible. Of course, I could stick to the tonearm I have and run OTA tonarm wire strands outside it... but this would not be as good, mechanically, electronically and cosmetically. It would surprise me if OTA used in this fashion would be an improvement over what I now have, given the superb quality of the SY tonearm wire. However, OTA has a way of astounding you.... A few additional points: twisting the previous 25 cm runs of OTA was not sufficient to prevent all of the RFI and compromised the sound quality slightly (tone was choked, closed off, there was less bi-partite stereo separation, and more line noise and hum). Also, the excess axial force when using twisted strands acted on the PhonoCube input jacks, and I thought this would adversely affect the units longevity, so I disconnected it. I now use the untwisted 25cm runs to connect PhonoCube to the preamp. The idea is the same as the 4.8 cm bridge I just installed: the shorter the run of OTA the better. In fact, in every case when I have used OTA as an analog hook-up, I liked the shortest possibe alternative the best (which is not the case with every cable I have used). Furthermore, short runs break in faster. As far as OTA not being designed to function as a phono cable, I say: listen with your own ears. Once I got it down to 25 cm. it outperformed by a large margin the reference cables I had used in the past. Decreasing it to 4.8 cm brought out the last refinement in focus, neutrality, and speed. But this will not be possible for people with large phono stages (of course, they can go out and buy a smaller one :-) IMO, getting it down to 25-30 cm is sufficiently rewarding. I know that there is a gigantic difference between that and a 1.0m run of OTA (which is a gigantic difference to a 1.0m run of Ortofon, Fadel Art, et. al.). The difference between 25 cm and 4.8 cm is not as gigantic. I even wonder if record producers ever imagined that their recordings would be listened to in this way: gated snare drums shoot by so fast through a 4.8 cm run of OTA that you can hardly register them, and double-tracked vocals (ala George Martin's Beatles recordings) sound embarrassing when you hear them so close up. Finally, I haven't tried OTA on digital yet, nor on loudspeakers. Dekay's digital design (DDD) is on the agenda though.
Purpose: the aim of the experiment was to bypass the Simon York output connector plate/bracket (fitted with insulated gold-plated RCA phono sockets) and connect the Simon Yorke tonearm wiring to PhonoCube via an extremely short OTA bridge.
Apparatus: Two OTA phono cables were made up anew. The RCA plugs were positioned on one side; the other side was sculpted/crimped into receiving pins for the SY tonearm wiring clips, taking great care not to tarnish the OTA wire with finger contact. The total length of these phono cables are 4.8 cm measured from the tip of the OTA RCA plug to the free end of the cable. (Imagine an even shorter length of the pre-made OTA RCA plug/wire assemblies that are now packaged in plastic envelopes with the kit.) The PhonoCube was positioned 3 cm away from the SY 9 TT and the SY tonearm wires were clipped to the end of the OTA pin leads, always being cautious of the free-standing nature of PhonoCube.
Observation: Sound quality was even more immediate, dynamic, and faster than the 25 cm OTA lengths I used in the previous experiment. Instrument positioning, focus and outlining was the precisest I have ever heard, and the tonal balance was (and I mean this) utmost neutral. Sound stage was even further extended. The equipment all operated flawlessly, and no difficulties were experienced with RFI.
Reflections: At this point, OTA's main role is to provide a minimal hook-up point for the SY tonearm wire. The comparative lengths (about 50 cm of SY tonearm wire and 4.8 cm of OTA) make it clear that, if cable contributes to sound, then it is the SY tonearm cable that is the major contributor. This internal tonearm wiring is 0.60 mm silver plated copper wire, sheathed in a p.t.f.e. (Teflon) coating. Simon Yorke insists that the phono cable should be of an equal or larger gauge than the tone arm wiring. I do not know why it is such a critical factor that the phono cable be larger than the tonearm wire, but it is, at least for him. However, OTA is 0.20 smaller. Nevertheless, I do not think that this causes the electrons in the SY tonearm wire to slow down when they reach OTA. :-) I can also imagine a further step to this phono cable experiment. With the goal of replacing the SY tonearm wiring altogether and the four clips holding it now to OTA, use an integral run of OTA from cartridge to PhonoCube input, like sead mentions. In this case, I wonder if it would be best to strip off the protective tubing of OTA and Teflon coat four 50 cm lengths of the OFC wire (without any silver-plating). (I got a little lost during the discussion of lacquers on this forum, can anyone tell me how to coat OTA in p.t.f.e. Teflon? or to silver-plate it?) Factors such as sead mentioned with his Koshin 801 tonearm make this project equally difficult with the SY tonearm: I would need to obtain a second SY tonearm. Multiple tonearms are not included, and the one I have is sealed to make tonearm wire replacement impossible. Of course, I could stick to the tonearm I have and run OTA tonarm wire strands outside it... but this would not be as good, mechanically, electronically and cosmetically. It would surprise me if OTA used in this fashion would be an improvement over what I now have, given the superb quality of the SY tonearm wire. However, OTA has a way of astounding you.... A few additional points: twisting the previous 25 cm runs of OTA was not sufficient to prevent all of the RFI and compromised the sound quality slightly (tone was choked, closed off, there was less bi-partite stereo separation, and more line noise and hum). Also, the excess axial force when using twisted strands acted on the PhonoCube input jacks, and I thought this would adversely affect the units longevity, so I disconnected it. I now use the untwisted 25cm runs to connect PhonoCube to the preamp. The idea is the same as the 4.8 cm bridge I just installed: the shorter the run of OTA the better. In fact, in every case when I have used OTA as an analog hook-up, I liked the shortest possibe alternative the best (which is not the case with every cable I have used). Furthermore, short runs break in faster. As far as OTA not being designed to function as a phono cable, I say: listen with your own ears. Once I got it down to 25 cm. it outperformed by a large margin the reference cables I had used in the past. Decreasing it to 4.8 cm brought out the last refinement in focus, neutrality, and speed. But this will not be possible for people with large phono stages (of course, they can go out and buy a smaller one :-) IMO, getting it down to 25-30 cm is sufficiently rewarding. I know that there is a gigantic difference between that and a 1.0m run of OTA (which is a gigantic difference to a 1.0m run of Ortofon, Fadel Art, et. al.). The difference between 25 cm and 4.8 cm is not as gigantic. I even wonder if record producers ever imagined that their recordings would be listened to in this way: gated snare drums shoot by so fast through a 4.8 cm run of OTA that you can hardly register them, and double-tracked vocals (ala George Martin's Beatles recordings) sound embarrassing when you hear them so close up. Finally, I haven't tried OTA on digital yet, nor on loudspeakers. Dekay's digital design (DDD) is on the agenda though.