Update: No change after pumping down (alog 62092).

The weird readings Keita and Betsy saw when looking for grounded pins are due to stray electrical potentials (either thermally driven via dissimilar metals, or some facility related potential).  You see this on a typical Fluke ohm-meter as positive or negative resistances when the meter leads are reversed during a measurement.  By taking the rough average of the two (sometimes a bit unstable) readings, you can reasonably gauge if there's a short for cases where a connection is supposed to be open.

The PZT connection issue for the OMC manifests as an unexplained extra ground for a portion of the OMC PZT cable shield inside the vacuum system.  There was a diagram linked in a March 2019 alog detailing the issue.  I have no idea where this problem is generated, but I would be suspicious of the in-vacuum Dsubs just inside the feedthrough for this chain.  Screws sticking out, or inappropriate connector metalization are possible candidates.

A related issue that makes this even more confusing is that there is a break in the in-vacuum shield for this cable run.  Nobody has any idea how or why this exists, but it could be an avenue for noise coupling if the shield break is substantial or if there are multiple in-vacuum chamber shorts creating a ground loop.

Attached is a picture of the earlier "fix" by Keita on OM2 whereby he used some foil as a shim to lift the BOSEM connector to open up the gap where the ground loop was observed to be a problem.  These have been left in place on OM2.

OMC PZT cable fixed its grounding on its own.

Very unsatisfactory.

As of now, after dicsonnecting in-air cable from the feedthrough for OMC DCPD (D6 F1), OMC PZT (D6 F2) and OMC QPD (D6 F3) on HAM6, measured from outside of the chamber, OMC PZT pin 13 (connected to DB25-DB25  in-chamber shielding) is

1. NOT connected to the chamber ground,
2. connected to OMC QPD pin 13 (DB25-DB25 in-chamber shielding) because the shielding is connected to the DB25-MightyMouse cable shielding and because of unintended design feature that all MightyMouse connector shells are tied together on a bracket,
3. connected to OMC DCPD pin 15 and 16 (signal ground of one of the DCPD preamps in chamber on DB25-DB25) because that ground is connected to the shielding of MightyMouse-DB25 and because of unintended design "feature" mentioned above,
   • same thing should be going on for the other DCPD but I didn't check,
4. NOT connected to OMC DCPD pin 13 (DB25-D3B25 in-chamber shielding).

Attached is the summary of the above.

This is different from Rich's alog from March 2019 and his extremely helpful diagram in that there's no short of OMC PZT shielding to the chamber ground, and there's no mystery break of the shielding.

The most unsatisfying thing is that the in-chamber DB25-DB25 PZT cable absolutely had the ground problem on Tuesday, but it was somehow good today. I know this because, on Tuesday, I completely disconnected the DB25-DB25 PZT cable from both ends. The connector at one end of the cable was put on a clean Vectra wipe so that it won't touch the ISI surface, the other end was hand-held by me, and there was a connection from pin 1 (which is connected to the shield) to the chamber ground as well as the connector shell. After that measurement I connected both ends back and left.

Today I disconnected all three relevant in-air cables from the feedthrough, then disconnected the DB25-DB25 PZT cable from the cable bracket on top of the OMC cage, did some measurements to check DB25-MM section and nothing was wrong. Just because I could, I checked the connection from the connector shell of DB25-DB25 to the chamber ground while one end was still connected to the feedthrough, and to my surprise there was no connection.

Everything was connected back again (except that I forgot to connect the HV supply cable back to the PZT driver).

The problem might have solved itself but it could come back if you look at it funny or something. We'll still have to do the ground check again before closing HAM6.