Vacuum control and monitoring of the S800 is provided via NCS application PanelMate, through the S800vac file, in directory \\exp\files\control\ncsdata\General\Qt\Templates. (Analysis line vacuum control pages are also available in the A1900_Vacuum PanelMate.) The vacuum system is divided in consecutive sections separated by gate valves. Each page in S800vac corresponds to a different vacuum section:
The readout from the ion gauges in the S3 vault is available through the control system, but these gauges cannot be turned on and off remotely. They are switched on and off locally by pressing the EMIS button on their controllers, which are located in the S3 vault on the middle level in the electronics racks under the stairs to the top level (see figures below). An ion gauge must be turned off by entering the vault before its beamline section can be vented.
All vacuum sections in the in the S800 have automated control of venting and pumpdown that operates valves and pumps (but not ion gauges) in the right sequence with the appropriate delays. In beamline section containing detectors, this automated control must be coordinated appropriately with steps to protect detectors.
The ion gauge for the Object station chamber vacuum system makes too much light for the object scintillator. This ion gauge I188IG should be left off except when actually monitoring the vacuum level.
As stated above (see figure above), this ion-gauge can only be turned off “locally” by pressing the EMIS button on its controllers, which are located in the S3 vault on the middle level in the electronics racks under the stairs to the top level.
The venting and pumping of the target area vacuum chamber is taken care of by the experimenters. Since this chamber is always shifting between different configurations, the status of the system as displayed on the PanelMate control page may not be reliable at any given time. The readout from the ion gauge should be fed into the PanelMate for either configuration. The state display and the ability to control the two beamline gatevalves, I246GV and I255GV, should also be functioning in PanelMate for either configuration, but the interlock status display and the interlock functionality to protect from opening either gatevalve at the wrong time may not be set up correctly.
Important note: Ensure that the experimenters never pump the chamber down if the spectrograph vacuum section is vented. The pressure gradient between both sections would “push” the structure of the spectrograph beam line towards the target chamber, potentially damaging the bellows of the line.
In order to ensure that the beamline in the target area is properly aligned with respect to the beam axis, it is necessary to install a telescope in between the last two quadrupoles of the analysis line, as well as a “cross hair” plate in between the last quadrupole and the target chamber. Although the alignment of the telescope is done by lab staff (e.g. Dave Sanderson), the user is responsible for removing the gate valve I246GV separating the analysis line and the target area. This of course, requires that the lower-dipole section is properly vented. The venting process is generally done by the device physicist, following the steps:
This system is pumped with cryopumps. Please do not vent this section if the target chamber is under vacuum pressure. The pressure gradient between both sections would “push” the structure of the spectrograph beam line towards the target chamber, potentially damaging the bellows of the line.
Venting, pumping, and opening the Focal Plane Box vacuum system involves too many details required for the protection of critical detectors for it to make sense to distribute these tasks to more than a few people. Ability to carry out these tasks is anyway not needed for routine operation of the S800 for experiments. Thus, these jobs will be reserved for the device owner and the detector lab. This section describes the more general information about this vacuum section that is needed to be an informed user of the system.
If this vacuum chamber is isolated from the rest of the beamline by I246GV being closed, the typical operating vacuum in this chamber is below 5e-5 Torr either with the gas detectors filled or with their bypass valves open to the chamber. With I246GV open, the vacuum should improve because of the better pumping capacity within the spectrograph.
The ion gauge providing pressure information to the control system is the one located on the top of the vacuum chamber just after the last dipole. The nearby ion gauge on the north side of the vacuum assembly is used for the vacuum-based interlock to protect the PMTs for the Focal Plane scintillator.