Update on the rebuild:
I noted in my write-up that the diaphragm coating did not extend over the spars, as it was visually evident that the area over the spars, and about 3/16" on either side of the spars, had been masked-off before the coating was applied.
I figured ML had a reason for this, so I did the same.
At first I pondered that perhaps the adhesive tape doesn't adhere well to the coating so ML omitting it over the spars to facilitate a better bond between the spars and diaphragm, but I've since had an epiphany about another possible reason.
See the attached sketch.
Unlike a flat-panel ESL which can be fully symmetric in its construction, a curved panel can't be symmetric because it can't constrain the diaphragm equidistant from both stators.
Specifically; the diaphragm's tension parallel to the curve pulls it toward the rear stator. This is visually evident by the diaphragm taking a "saddle" shape between the spars.
The reason for the spacer asymmetry is easy to see but that doesn't explain why the diaphragm coating was omitted over and near the spars. But I think I know why... charge migration.
Ideally we want the ESL operating in "constant charge mode". That is; all those electrons dancing on the diaphragm remaining stationary, but those electrons are attracted to areas on the diaphragm that are closest to a stator. Hence; those areas collect greater charge, and become more strongly driven than the areas with less charge.
Areas with greater charge and closer proximity to a stator are more prone to arcing. Typically, diaphragm areas between the spars would be less anchored by a spar and freer to move closer to a stator. This is certainly the case with a flat panel ESL but an asymmetric curved panel with saddle-shaped distortions in the diaphragm between spars presents a different condition.
I'm thinking the diaphragm's conductive coating was omitted over and near the spars because of their closer proximity to the front stator, which would otherwise strongly attract charge to those areas-- resulting in not only unequal charge across the diaphragm but a higher probability or arcing to the front stator.
This condition would be compounded by a high conductance/low resistance coating, and the coating on that Theater panel diaphragm was about 3X more conductive than the Licron Crystal that I put on the new diaphragm.
Hey, my 2 cents.
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