While working on the vac controls today, I also took care of some of the remaining to-do items. Below is a summary of what was done, and what still remains.
Completed today
- TP2/3 overcurrent interlock raised from 1 to 1.2 A. This was tripping during normal operation as the pump accelerates from low-speed (standby) to normal-speed mode.
- Interlock conditions on VABSSCO/VABSSCI removed. Per discussion with Steve, these are not vent valves, but rather isolation valves between the BS/IOO/OMC annuli. The interlocks were preventing the valves from opening, and hence the IOO and OMC annuli from being pumped.
- Channel exposed for interlocking in-vacuum high-voltage drivers. The channel name is C1:Vac-interlock_high_voltage. The vac interlock service sets this channel's value to 0 when the main volume pressure is in the range 3 mtorr-500 torr, and to 1 otherwise.
- Annuli pumping integrated into the set of recognized states. "Vacuum normal" now refers to TP1 and TP2 pumping on the main volume AND TP3 pumping on all the annuli. The system is currently running in this state.
- TP1 lowered to the nominal speed setting recommended by Steve: 33.6 krpm (560 Hz).
Still remaining
- Implement a "blinker" input-output signal loop between two Acromags to detect hardware failures like the one today.
- Add an AC power monitor to sense extended power losses and automatically put the system into safe shutdown.
- Migrate the RGA to c1vac. Still some issues getting the serial comm working.
- Troubleshoot the SuperBee (backup) main volume Parani gauge. It has not communicated with c1vac since a serial adapter was replaced two weeks ago. Chub thinks the gauge was possibly damaged by arcing during the replacement.
- Scripting for more automated pumpdowns.
- Generate a bootable backup hard drive for c1vac, which could be swapped in on a short time scale after a failure.
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