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= VIS Type B Near Term To-Do List = | = VIS Type B BS Near Term To-Do List = |
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2017-04-03 | [[../ToDoOldBS|Archived BS To-Do Items]] |
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== Facilities (mostly full team) == * Clean up after floor work. |
[[../ToDoSR|SR To-Do Items]] [[#EveryWeek |Every Week]] [[#ComingWeeks |Coming Weeks]] <<Anchor(EveryWeek)>> == Every Week == === Facilities === |
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* Get stuff from [[../WishList]] | |
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== PI Move == * General prep * Decide if air shower needs to be moved. * Triple-check dimensions around second-floor parking spot for PI; decide best place for pallet. * Check for obstacles along path around -X side of cleanbooth. * Find/clean Saito-sensei's PI lifting adapter and any needed fasteners. * Check both crane remote controls (clean and dirty) are charged. * Prepare PI for moving. * Remove accelerometers and store safely. * Remove large weights. (How? With forklift at last minute? Where to?) * Remove arc weights (move some to second floor, wrap rest for storage). * Attach lifting plates. * Wrap with clingwrap, cover with spare cleanbag. * Remove old cabling from PI to rack. * Prepare second floor for receiving PI. * Clean and clingwrap pallet. * Find metal plates and/or duckboards for on top of pallets. * Move BS cables on -Y side of tank off top of beam. * Find shims (about 75 mm high) to put on beam where cables were, to help support pallet. * Clear path to remove PI with forklift. * Move any obstacles identified previously. * Shutdown BS/PR2 racks and move electrical cables. * Move any stored items on -Y side of portable cleanroom. * Move portable cleanroom towards -Y. * Move worktables from next to BS/PR2 racks. * Move PI * Disconnect fan cables, curtain (Miyoki-san). * Unzip ceiling panel. * Crane pallet into cleanbooth. * Lay foil on pallet. * Forklift PI to -X,+Y corner of cleanbooth * Crane PI into clean booth. * Cleanup * Zip up ceiling panel. * Reconnect fan cables, curtain (Miyoki-san). * Replace tables near BS/PR2 racks * Move portable cleanroom back to original spot. * Re-lay electrical cables. * Power up racks. |
<<Anchor(ComingWeeks)>> == 2017-09-11 == |
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== Continue PI Prep == * Finish reattaching repaired LVDT coil(s) and redoing connectors with correct gender. * Install fishing rod. * Find table, weights, etc for use with LBB blade bending jigs. * Install LLB blades. * Install LLB blade units in PI. |
=== Main Assembly Sequence === * Debug BF LVDT actuation. * --(Debug other actuation.)-- * --(Remove F0-SF rod and reinstall with hex cable clamp.)-- * --(Route cables up past hex cable clamps.)-- * --(Adjust SF trim mass for pitch/roll/vertical.)-- * --(Route all SF/... cables through to the flange and test.)-- * --(Cable all PI items through to the flange.)-- * --(Disconnect the SS from the AF.)-- * --(Recheck/adjust SF/... yaw.)-- * --(Roughly level the PI so as to make the SS vertical.)-- * --(Unlock the IP and adjust the level of the PI and the horizontal FRs to center the IP.)-- * Check F0 yoke height (top of coil former should be 6 mm above top of baseplate). * Test all PI items: * Yaw stepper. * F0 LVDT sensing * F0 LVDT actuation * --(Horizontal steppers)-- * Horizontal LVDT sensing * Horizontal LVDT actuation * --(Geophones)-- (except one cable broken: #1) * Lock the F0 and SF keystones and measure the resonance frequency of the BF GAS. * --(Lock the F0 and BF keystones and measure the resonance frequency of the SF GAS.)-- 425 mHz * Lock the SF and BF keystones and measure the resonance frequency of the F0 GAS. |
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== Hanging BF/IRM/IM/RM/BS (mostly Mark, Fabian, Perry) == * Reroute in-vacuum cables up to SF level; add in-vacuum extension cables if necessary. * Test SF LVDT. * Test SF fishing rod stepper. |
=== In parallel, time permitting === * --(Fix links to ADC_MONITOR screens.)-- * --(Check that all Take/Restore Safe.snap buttons work.)-- * --(Check that we still have all LBB parts (there was an issue with borrowed lock nuts).)-- * --(Wipe LLB damper parts with ethanol.)-- * Figure out how to tighten PI yaw return spring. * --(Install LBB Cu damper ring in tank (less Cu for now).)-- * --(Apply magnets to LBB Magnet rings.)-- * --(Clean rust from screw holes in LBB magnet ring.)-- * Fix #1 geophone adapter cable. * Fix broken pico adapter cable. |
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== Electronics (mostly Enzo, Mark) == * Make more anti-feedthrough adapters. * Add retaining screws to cables at feedthroughs (mostly done, needs finishing). * Work with Miyo-kun to get pico drivers added to BS rack and screens * Update E1503600 with DIO card for HPCDs, etc, etc. * Decide final length for BS OSEM cables (Enzo, Mark, Fabian) * Send list of required in-vacuum cables to Takahashi-san |
== 2017-09-19 == (No work Monday 9/18) * Attach Cu segments to LBB damper ring - needs Cu segments and BUMAX countersunk screws, expected 9/20. * Pass halves of LBB magnet ring into tank, join, and make sandwich for craning. * Crane tank lid off. * Crane LBB damper rings to top of tank and suspend. * Remove geophones for craning. === Main Assembly Sequence === == Dates == * BUMAX countersunk screws for LBB Cu (by 9/20) * SDC screws for LBB half rings: 9/15 (Fri) (have Ag-coated as backup) * LBB Cu segments: 9/19-20 <<Anchor(RealBSHang)>> == Tasks Not To Forget == === Major Tasks === * Update BS Install Procedure with screenshots from new on-assembly-frame 3D CAD. * Finish assembly drawing for LBB and LBB damper ring and post on JGWDoc (Hirata-san). * Get pico drive screens fixed (Miyo-kun) === Minor Tasks === ==== Mechanical ==== * Get clean bag laundered. * Put pointy-tipped screw in RM trolley for BS * Return/replace borrowed parts: * Lock washers for LBB dampers * Temporary ballast mass (dog clamps) in BF. * Swap in new F0-SF maraging rod (with 8-mm heads) and new receptacles to match. ==== Electrical ==== * Decide final in-vacuum and in-air cable routing (Enzo). * Calibrate all LVDTs (Enzo, Mark). --(BF)--, --(SF)--, PI-GAS, PI-H1, PI-H2, PI-H3 * Adjust yoke on PI to put top of secondary at TBD mm above top of baseplate (or to give ≈0 counts at nominal height). ==== Real-time and SUMCON models ==== * Create SUMCON models for full BS and major installation milestones. * Create controls design description (cf [[https://dcc.ligo.org/LIGO-T1100378/public|LIGO-T1100378]]). |
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* Make spreadsheet on Google Docs or the like with in-vacuum cable inventory (Hirata) == Real-time and SUMCON models (mostly Perry, Mark) == * Get Perry (and Enzo) set up with SUMCON. * Update SUMCON model of full BS. * Do cut-down SUMCON model of just payload hanging from fixed BS. * Compare measured TFs to cut-down model(s). * Create a proper DAC Monitor MEDM screen. * Improve ADC Monitor MEDM screen. |
* Understand/document/debug Kokeyama-san's DIO stuff. * Measure LPCD and HPCD output filter response. * Design and install software compensation filters for LPCD and HPCD output filters. * Design and install GAS drift compensation filters. |
VIS Type B BS Near Term To-Do List
Every Week
Facilities
- Vacuum and roll floor.
- Wipe ladders.
- Tidy tools, parts.
Get stuff from ../WishList
2017-09-11
Main Assembly Sequence
- Debug BF LVDT actuation.
Debug other actuation.
Remove F0-SF rod and reinstall with hex cable clamp.
Route cables up past hex cable clamps.
Adjust SF trim mass for pitch/roll/vertical.
Route all SF/... cables through to the flange and test.
Cable all PI items through to the flange.
Disconnect the SS from the AF.
Recheck/adjust SF/... yaw.
Roughly level the PI so as to make the SS vertical.
Unlock the IP and adjust the level of the PI and the horizontal FRs to center the IP.
- Check F0 yoke height (top of coil former should be 6 mm above top of baseplate).
- Test all PI items:
- Yaw stepper.
- F0 LVDT sensing
- F0 LVDT actuation
Horizontal steppers
- Horizontal LVDT sensing
- Horizontal LVDT actuation
Geophones (except one cable broken: #1)
- Lock the F0 and SF keystones and measure the resonance frequency of the BF GAS.
Lock the F0 and BF keystones and measure the resonance frequency of the SF GAS. 425 mHz
- Lock the SF and BF keystones and measure the resonance frequency of the F0 GAS.
In parallel, time permitting
Fix links to ADC_MONITOR screens.
Check that all Take/Restore Safe.snap buttons work.
Check that we still have all LBB parts (there was an issue with borrowed lock nuts).
Wipe LLB damper parts with ethanol.
- Figure out how to tighten PI yaw return spring.
Install LBB Cu damper ring in tank (less Cu for now).
Apply magnets to LBB Magnet rings.
Clean rust from screw holes in LBB magnet ring.
- Fix #1 geophone adapter cable.
- Fix broken pico adapter cable.
2017-09-19
(No work Monday 9/18)
- Attach Cu segments to LBB damper ring - needs Cu segments and BUMAX countersunk screws, expected 9/20.
- Pass halves of LBB magnet ring into tank, join, and make sandwich for craning.
- Crane tank lid off.
- Crane LBB damper rings to top of tank and suspend.
- Remove geophones for craning.
Main Assembly Sequence
Dates
- BUMAX countersunk screws for LBB Cu (by 9/20)
- SDC screws for LBB half rings: 9/15 (Fri) (have Ag-coated as backup)
- LBB Cu segments: 9/19-20
Tasks Not To Forget
Major Tasks
- Update BS Install Procedure with screenshots from new on-assembly-frame 3D CAD.
- Finish assembly drawing for LBB and LBB damper ring and post on JGWDoc (Hirata-san).
- Get pico drive screens fixed (Miyo-kun)
Minor Tasks
Mechanical
- Get clean bag laundered.
- Put pointy-tipped screw in RM trolley for BS
- Return/replace borrowed parts:
- Lock washers for LBB dampers
- Temporary ballast mass (dog clamps) in BF.
- Swap in new F0-SF maraging rod (with 8-mm heads) and new receptacles to match.
Electrical
- Decide final in-vacuum and in-air cable routing (Enzo).
Calibrate all LVDTs (Enzo, Mark). BF, SF, PI-GAS, PI-H1, PI-H2, PI-H3
- Adjust yoke on PI to put top of secondary at TBD mm above top of baseplate (or to give ≈0 counts at nominal height).
Real-time and SUMCON models
- Create SUMCON models for full BS and major installation milestones.
Create controls design description (cf LIGO-T1100378).
- Make table of ADC/DAC assignments and check for consistency with D1503600 and k1visbs (Enzo, Mark)
- Understand/document/debug Kokeyama-san's DIO stuff.
- Measure LPCD and HPCD output filter response.
- Design and install software compensation filters for LPCD and HPCD output filters.
- Design and install GAS drift compensation filters.