The 120ft cable H2:TCS-HWS_EY_CAB13 was strung between the D1200168 Beckhoff breakout box situated above the in-air ALS table (first picture) and the D1100682 EtherCAT Chassis in the CDS high bay (second picture). Thomas and I tested the pin-outs and confirmed that there was approximately 115 Ohms across pins 1 and 20 and pins 2 and 21 from the first 4-wire RTD and roughly 120 Ohms across pins 3 and 22 and pins 4 and 23 from the second 4-wire RTD on the in-air table. This cable was plugged into the back of the EtherCAT chassis in the TCS/Hartmann Sensor slot. 

When the TwinCAT System Manager software is fired up for this EtherCAT chassis, we can see the temperatures for the two sensors reported in Terminal "H2 End Station 2 L16 (EL3202-0010)" in channels 1 and 2, approximately 20.90C and 31.86C, the table and Hartmann sensor camera temperatures, respectively.

(Corey, Eric, Jim)

Stage-0 Moved On To Test Stand

Positioned via threaded rods on Test Stand (we DID NOT put nuts on these).  Dowel pins installed on Support Posts; still need to break tangs off of helicoils on Posts.

Stage-1 Moved On To Test Stand

Starting to helicoil it.

Prepping/Building Stage-1 Walls

These Walls need helicoils installed and dowel pins pressed.

Last night, a set of transfer functions was measured on ISI-BSC8 (the first time since the QUAD was reinstalled). The plant is unchanged and instruments don't show abnormal behavior. However, we can notice a couple of new resonances probably from the QUAD (17.2Hz and 26Hz) on the stage 2 transfer functions (see attachment).

H2 ITMY in-chamber work by the SUS crew.

ETMY work on ALS table 

H1 PSL de-install.  A dust monitor inside the enclosure was moved.  The exact details are unclear to me.

A few contractors and visitors arrived on-site throughout the day. 

PSL installation team

May, 3rd 2012:

The IP adresses for the Beckhoff Computer had been changed. 
The channel names had been changed from H2 to H1. 
The Interlocks had been tested.

We started with the multimode alignment of the high power oscillator (see user manual for details on the alignment procedure).

The boxes with PSL components, stored in the mid station had been inspected. We did not open the boxes 3 and 4, since parts, which are stored in these boxes are supposed to be shipped to india. For all the other boxes we rearranged components, going either to india or to LLO as spare parts, which means that some of the sealed bags had been opened.
We stacked some of the boxes in order to get more space in the VEA.

Report for 03 May 2012
The brushing was completed today using a total of 8 drills with 2 still running (again one of these is the fin and ring with flat brush drill).  The upper chamber is almost done with 1st vacuuming.  There is one nozzle opening left and then the bellows protection will come off and will need to be vacuumed. 

Cyrus, Jim, Dave.

H2: installed the Hartmann sensor computer in the EY station on the H2 slow controls network. Changed the EPICS database from CIT to H2 channels, installed medm, connected fiber link to the ALS table in the VEA.

H1: Dan installed the H1 MSR QFS writer and its SATABOY raid system. Cyrus installed the fibre patch panels from MSR to H1EE_ROOM and installed the network switch in H1EE. Jim installed the h1boot file system, h1build, and the DAQ data concentrators.

FMCS network link to LSB was disrupted by an accidental hub power down. This was restored.

Cyrus, Jim, Dave.

H2: installed the Hartmann sensor computer in the EY station on the H2 slow controls network. Changed the EPICS database from CIT to H2 channels, installed medm, connected fiber link to the ALS table in the VEA.

H1: Dan installed the H1 MSR QFS writer and its SATABOY raid system. Cyrus installed the fibre patch panels from MSR to H1EE_ROOM and installed the network switch in H1EE. Jim installed the h1boot file system, h1build, and the DAQ data concentrators.

FMCS network link to LSB was disrupted by an accidental hub power down. This was restored.

Thomas and I (with help from Dave Barker) got all the power and data cables hooked up between the Hartmann sensor camera on the ALS table (H2 End-Y) and the HWS computer (h2hwsey) outside the VEA at End-Y. After a couple of false starts where various power cables weren't plugged in, we got the camera turned on and we able to see it and control/access it on 'h2hwsey'.  

Also, the 120ft 37-pin TCS cable for the end-station EtherCAT chassis was installed but as I failed to indicate which end was which, it actually went in back to front with the male end in the VEA and the female end outside. We fixed this with a couple of gender changers on the cable rather spending a couple of hours pulling it out and swapping it around.

We installed a Digikey Thermal pad (BER208-ND) under the table temperature sensor to improve the thermal contact with the table. We'll assess whether this helps or hinders once the slow controls are installed.

The attached images show:
1. The fully connected TCS feedthrough panel
2. The back of the Hartmann camera showing the status lights for the camera and the RCX C-Link FiberOptic-to-CameraLink converter as ON.
3. The 37-pin EtherCAT cable with a gender changer attached plugged into the HWS EtherCAT cable splitter on the ALS table

The measurements on H2 SUS FMY begun last night completed but with data gathered from a tripped watchdog state on FMY M1.  The script to collect the tfs calls upon a function to generate the time-series for the excitations.  This function also monitors the watchdog state of whatever system it is actuating upon.  When a watchdog is triggered, the script automatically resets the Epics channel "H2:SUS-FMY_M1_WD_RSET" to reset the watchdog state.  The attached image shows this script may have been a bit trigger-happy with the "*RSET" button during last night's measurements.  The "H2:SUS-FMY_M1_WDMON_CURRENTTRIG","H2:SUS-FMY_M1_WDMON_STATE", and "H2:SUS-FMY_M1_WDMON_FIRSTTRIG" values were all at either "0" or "1" during a "clean" period of nearly three hours.  The attached image is a dataviewer plot of the full data.  The "H2:SUS-FMY_M1_WD_RSET" channel was oscillating between "0" and "1" at least eleven times during this (supposedly) "clean" period.  This is very concerning as our watchdogs are not correctly displaying our watchdog levels.  Or this could be an issue with the function monitoring the wrong channel or channel value.  Investigations are ensuing, but this is highly suspicious and inexplainable as of now.

BSC6 Work

• Actuator work for the HEPI (Greg/Jim)
• ALS Table work (Aiden, Thomas)
• Keita transitioned VEA to Laser Hazard

MISC

• Have had minor Dust alarms at EY

Jim W Greg G

BSC 6 has had the NW and NE vertical and horizontal actuators mounted to the foot. The SW and SE corners have only had the vertical actuators mounted while the horizontals have yet to be mounted. The lack of room and a few technical issues have made the work a little frustrating. We should be able to finish as soon as End Y returns to laser safe.

(Corey, Eric, Hugo)

HAM ISI #5

Hugo is running various measurements on the system.  We moved a 10kg mass to every corner of table so time series could be recorded at different tip angles.  (this is all to check the effects of a tipped table on the GS13s.

HAM ISI #6

Continued work on the Stage-0 Assembly.  The Support Posts, & Gussets were installed.  Stage-0 can now be moved to the Test Stand (and Stage-1 floor can then be moved to the Assembly stand).  Background activity is that small parts were helicoiled.

I am updating the configuration of the aLOG server tonight prior to the recently announced (via mail to lsc-all) maintenance announcement on the ligo login server.

The configuration changes are already made, the software simply needs to be restarted for them to take effect.  Users who are logged into the system will be asked to log in again.

Any interruption will be on the order of seconds.

As always before maintenance please save your posts to a draft or post them to the logbook.

This report is a synopsis of the ICC in BSC3 up to this point: alogging has not been a priority while I'm on travel. 


30 April 2012
The west door was removed using the engine hoist (that had been flown into the "Beer Garden". The crew went and retrieved  a couple of foil glove packets that we (Cheryl and I ) left in BSC2 while we were working on the optics extract. (Note to self: DO NOT LEAVE ITEMS IN CHAMBER!!!!). The condition of the chamber was documented and pictures taken, dust covers installed, and support tubes were inspected, plucked, and wrapped. 


01 May 2012
The Collar and Upper sections were brushed along with 3 of the 4 nozzles.  Three drills were used to "death" with the fourth one still running. 



02 May 2012
Today the crew:
1. Finished brushing the upper chamber
2. Removed part of the flooring to begin work on the lower chamber and
3. Cleaned up loose bristles on floor.
Progress was a little slow because Mark L. was in morning conference call about the proposed wipe-down of BSC8 prior to close-up and then buttoning up early to attend safety meeting at 3.

Five drills were used today with the 4th and 5th ones still running (5th one was drill with flat brush to get around the fins).

PSL installation team

The fiber bundles are now reassembled to the high power oscillator and the beam path through the high power oscillator box had been aligned. All laser crystals had been cleaned (we found minor dust particles, which could easily be removed). Crystal #3 had been replaced with a spare part, because a spot had been found on the pump side. (NOTE: The LRA must sit at it's reference position, if the oscillator and/or the frontend is turned on.)
We reinstalled the laser crystals after cleaning, but the system had not been turned on yet.

Measurements on H2SUSFMY began at ~19:33 PST [GPS(approx.): 1020047651] on "opsws1" in the Control Room.  These should be completed by midnight PST. 

Travis S., Jeff G.

H2 ITMY R0 transfer function measurements were taken this morning for the Transverse DoF after mechanical adjustments on the R0 top mass. The flag in the R0 "SD" OSEM was observed to be grazing the OSEM housing.  The OSEM housing was re-positioned laterally to center the flag.  After this adjustment,  the attached measurement was taken with a white noise excitation on the R0 Trans. test excitation channel.  The blue trace is the measurement this morning, while the black is a reference trace from Monday.  This DoF appears to be free again with the resonances clearly visible.

The SEI test stand daqd process was failing because the /frames disk was full.  To correct, removed oldest full, minute trend, and second trend files.  This should be done automatically, need to investigate.  Also corrected port number of NDSSERVER environment variable for seiteststand2.

GregG & HughR
Greg went in chamber and added the screws to the ISC Cables that had none.  These were reconnected and are now secure to the FeedThru.  These were the ISC Transmon 532nm & Beam Diverter cables.
Also, Greg connected the one still dangling cable to F3-3C2 (D1003085), presumably this is the TCS-Ring Heater cable.

Next we took some level shots on the Optical Table and saw +-0.2mm level.  We made some slight HEPI tweaks and using the dial indicators as a guide to what we did, we now have the level to +-0.1mm.  So this should be good.

We'll make the Actuator Connections next.