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New entries since:Wed Dec 31 16:00:00 1969
ID Date Author Typeup Category Subject
  17155   Fri Sep 23 14:10:19 2022 RadhikaUpdateBHDBH55 RFPD installed - part I

[Radhika, Paco, Anchal]

I placed a lens in the B-beam path to focus the beam spot onto the RFPD [Attachment 1]. To align the beam spot onto the RFPD, Anchal misaligned both ETMs and ITMY so that the AS and LO beams would not interfere, and the PD output would remain at some DC level (not fringing). The RFPD response was then maximized by scanning over pitch and yaw of the final mirror in the beam path (attached to the RFPD).

Later Anchal noticed that there was no RFPD output (C1:LSC-BH55_I_ERR, C1:LSC-BH55_Q_ERR). I took out the RFPD and opened it up, and the RF OUT SMA to PCB connection wire was broken [Attachment 2]. I re-soldered the wire and closed up the box [Attachment 3]. After placing the RFPD back, we noticed spikes in C1:LSC-BH55_I_ERR and C1:LSC-BH55_Q_ERR channels on ndscope. We suspect there is still a loose connection, so I will revisit the RFPD circuit on Monday. 

Attachment 1: IMG_3766.jpeg
IMG_3766.jpeg
Attachment 2: IMG_3770.jpeg
IMG_3770.jpeg
Attachment 3: IMG_3773.jpeg
IMG_3773.jpeg
  17156   Fri Sep 23 18:31:46 2022 ranaUpdateBHDBH55 RFPD installed - part I

A design flaw in these initial LIGO RFPDs is that the SMA connector is not strain releieved by mounting to the case. Since it is only mounted to the tin can, when we attach/remove cables, it bends the connector, causing stress on the joint.

To get around this, for this gold box RFPD, connect the SMA connector to the PCB using a S shaped squiggly wire. Don't use multi-strand: this is usually good, since its more flexible, but in this case it affects the TF too much. Really, it would be best to use a coax cable, but a few-turns cork-screw, or pig-tail of single-core wire should be fine to reduce the stress on the solder joint.

Quote:
 

Later Anchal noticed that there was no RFPD output (C1:LSC-BH55_I_ERR, C1:LSC-BH55_Q_ERR). I took out the RFPD and opened it up, and the RF OUT SMA to PCB connection wire was broken [Attachment 2]. I re-soldered the wire and closed up the box [Attachment 3]. After placing the RFPD back, we noticed spikes in C1:LSC-BH55_I_ERR and C1:LSC-BH55_Q_ERR channels on ndscope. We suspect there is still a loose connection, so I will revisit the RFPD circuit on Monday. 

 

  17157   Fri Sep 23 19:04:12 2022 AnchalUpdateBHDBH55 LSC Model Updates - part III

BH55

I further updated LSC model today with following changes:

  • BH55 whitening switch binary output signal is now routed to correct place.
    • Switching FM1 which carries dewhitening digital filter will always switch on corresponding analog whitening before ADC input.
  • The whitening can be triggered using LSC trigger matrix as well.
  • The ADC_0 input to LSC subsystem is now a single input and channels are separated inside the subsystem.

The model built and installed with no issues.

Further, the slow epics channels for BH55 anti-aliasing switch and whitening switch were added in /cvs/cds/caltech/target/c1iscaux/C1_ISC-AUX_LSCPDs.db


IPC issue resolved

The IPC issue that we were facing earlier is resolved now. The BH55_I and BH55_Q signal after phase rotation is successfully reaching c1hpc model where it can be used to lock LO phase. To resolve this issue, I had to restart all the models. I also power cycled the LSC I/O chassis during this restart as Tega suspected that such a power cycle is required while adding new dolphin channels. But there is no way to find out if that was required or not. Good news is that with the new cds upgrade, restarting rtcds models will be much easier and modular.


ETMY Watchdog Updated

[Anchal, Tega]

Since ETMY does not use HV coil driver anymore, the watchdog on ETMY needs to be similar to other new optics. We made these updated today. Now ETMY watchdog while slowly ramps down the alignment offsets when it is tripped.

  17158   Fri Sep 23 19:07:03 2022 TegaUpdateComputersWork to improve stability of 40m models running on teststand

[Chris, Tega]

Timing glitch investigation:

  • Moved dolphin transmit node from c1sus to c1lsc bcos we suspect that the glitch might be coming from the c1sus machine (earlier c1pem on c1sus was running faster then realtime).
  • Installed and started c1oaf to remove the shared memory IPC error to/from c1lsc model
  • /opt/DIS/sbin/dis_diag gives two warnings on c1sus2
    • [WARN] IXH Adapter 0 - PCIe slot link speed is only Gen1
    • [WARN] Node 28 not reachable, but is an entry in the dishosts.conf file - c1shimmer is currently off, so this is fine.

DAQ network setup:

  • Added the DAQ ethernet MAC address  and fixed IPV4 address for the front-ends to '/etc/dhcp/dhcpd.conf'
  • Added the fixed DAQ IPV4 address and port for all the front-ends to '/etc/advligorts/subscriptions.txt' for `cps_recv` service
  • Edited '/etc/advligorts/master' by including all the iop and user models '.ini' files in '/opt/rtcds/caltech/c1/chans/daq/' containing channel info and the corresponding tespoint files in '/opt/rtcds/caltech/c1/target/gds/param/'
  • Created systemd environment file for each front-end in '/diskless/root/etc/advligorts/' containing the argument for local data concentrator and daq data transmitter (`local_dc_args` and `cps_xmit_args`). We currently have staggered the delay (-D waitValue) times of the front-ends by setting it to the last number in the daq ip address when we were facing timing glitch issues, but should probably set it back to zero to see if it has any effect.

Other:

  • Edited /etc/resolv.conf on fb1 and 'diskless/root' to enable name resolution via for example `host c1shimmer` but the file gets overwritten on chiara for some reason

Issues:

  1. Frame writing is not working at the moment. It did at some point in the past for a couple of days but stopped working earlier today and we can't quite figure out why. 
  2. We can't get data via diaggui or ndscope either. Again, we recall the working in the past too but not sure why it has stopped working now.   
  3. The cpu load on c1su2 is too high so we should split into two models
  4. We still get the occassional IPC glitch both for shared memory and dolphin, see attachments
Attachment 1: dolphin_state_all_green.png
dolphin_state_all_green.png
Attachment 2: dolphin_state_IPC_glitch.png
dolphin_state_IPC_glitch.png
  17159   Mon Sep 26 11:39:37 2022 PacoUpdateBHDBH55 RFPD installed - part II

[Paco, Anchal]

We followed rana's suggestion for stress relief on the SMA joint in the BH55 RFPD that Radhika resoldered. We used a single core, pigtailed wire segment after cleaning up the solder joint on J7 (RF Out) and also soldered the SMA shield to the RF cage (see Attachment #1). This had a really good effect on the rigidity of the connection, so we moved back to the ITMY table.

We measured the TEST in to RF Out transfer function using the Agilent network analyzer, just to see the qualitative features (resonant gain at around 55 MHz and second harmonic suppression at around 110 MHz) shown in Attachment #2. We used 10kOhm series resistance in test input path to calibrate the measured transimpedance in V/A. The RFPD has been installed in the ITMY table and connected to the PD interface box and IQ demod boards in the LSC rack as before.

Measurement files

Attachment 1: PXL_20220926_175010061.MOTION.jpg
PXL_20220926_175010061.MOTION.jpg
Attachment 2: BH55_Transimpedance_Measurement.pdf
BH55_Transimpedance_Measurement.pdf
  17160   Tue Sep 27 10:50:11 2022 PacoUpdateBHDcalibrated LO phase noise

Locked LO phase to ITMX single bounce beam at the AS port, using the DCPD (A-B) error point and actuating on LO1 POS. For this the gain was tuned from 0.6 to 4.0. A rough Michelson fringe calibration gives a counts to meters conversion of ~0.212 nm/count, and the OLTF looks qualitatively like the one in a previous measurement (~ 20 dB at 1 Hz, UGF = 30 Hz). The displacement was then converted to phase using lambda=1e-6; I'm not sure what the requirement is on the LO phase (G1802014 says 1e-4 rad/rtHz at 1 Hz, but our requirement doc says 1 to 20 nrad/rtHz (rms?)... anyways wit this rough calibration we are still off in either case.

The balancing gain is obvious at DC in the individual DCPD spectra, and the common mode rejection in the (A-B) signal is also appreciable. I'll keep working on refining this, and implementing a different control scheme.

Attachment 1: lo_phase_asd.pdf
lo_phase_asd.pdf
  17161   Wed Sep 28 16:37:26 2022 PacoUpdateBHDcalibrated LO phase noise; update

[yuta, paco]

Update; the high frequency ( > 100 Hz) drop is of course not real and comes from a 4th order LP filter in the HPC demod I filter which I haven't accounted for. Furthermore, we have gone through the calibration factors and corrected a factor of 2 in the optical gain. Then, I also added the CLTF to show in loop and out of loop error respectively. The updated plot, though not final, is in Attachment #1.

Attachment 1: lo_phase_asd.pdf
lo_phase_asd.pdf
  17162   Wed Sep 28 19:15:56 2022 KojiUpdateGeneralTesting 950nm laser found in trash pile

I don't know what was wrong with the past setup but the 950nm laser (QPHOTONICS QFLD-950-3S) just worked fine up to ~300MHz with basically the same setup.

A 20dB coupler picks up a small amount of the driving signal from the source signal of the network analyzer. This was fed to CHR. The fiber-coupled NewFocus PD RF output was connected to CHA.
The calibration of the response was done with the thru response (connect the source signal to the CHA via all the long cables).

Attachment 1 shows the response CHA/CHR. The output is somewhat flat up to 20MHz and goes down towards 100MHz, but still active up to 500MHz as long as the normalization with the New Focus PD works.
The structure around 200MHz~300MHz changes with how the wires of the clips are arranged. I have twisted and coiled them as shown and the notch disappeared. For the permanent setup we should keep the lines as short as possible and take care of the stray capacitance and the inductance.

Attachment 2 shows the setup at the network analyzer side. Nothing special.

Attachment 3 shows the setup at the laser side. The DB9 connector on the Jenne's laser has the negative output of the LD driver connected to the coax core and the positive output connected to the shield of the coax. Therefore the coax core (red clip) has to be connected to Pin 9 and the coax shield (black clip) to PIn 5.

Attachment 1: PXL_20220929_013850989.MP.jpg
PXL_20220929_013850989.MP.jpg
Attachment 2: PXL_20220929_013859439.jpg
PXL_20220929_013859439.jpg
Attachment 3: PXL_20220929_013911125.jpg
PXL_20220929_013911125.jpg
  17163   Wed Sep 28 21:54:08 2022 PacoUpdateBHDcalibrated LO phase noise; update

Repeated the LO phase noise measurement, this time with the LO - ITMY single bounce, and a couple of fixes Koji hinted at including:

  1. The DEMOD angle was the missing piece! The previous error point showed lower noise than the individual DCPDs because the demodulation angle had not been checked. I corrected it so that the error point in LO_PHASE control was exactly equal to the LO-ITMY single bounce fringe. With this, the gain on the servo had to be adjusted from 4.00 to 0.12, still using FM4, FM5, and this time also FM8 (BLP600).
  2. Turned off 60 Hz harmonics comb notches on DCPDs, they are unecessary.
  3. Acquired noise spectra down to 0.1 Hz, with 0.03 Hz bin width to increase resolution and identify resonant SUS noise near 1 Hz.

This time, after alignment the fringe amplitude was 500 counts. Attachment #1 shows the updated plot with the calibrated noise spectra for the individual DCPD signals A and B as well as their rms values. Attachment #2 shows the error point, in loop and the estimated out of loop spectra with their rms as well. The peak at ~ 240 Hz is quite noticeable in the error point time series, and dominates the high frequency rms noise. The estimated rms out of loop noise is ~ 9.2 rad, down to 100 mHz.

Attachment 1: dcpd_phase_asd.pdf
dcpd_phase_asd.pdf
Attachment 2: lo_phase_asd.pdf
lo_phase_asd.pdf
  17164   Thu Sep 29 15:12:02 2022 JCUpdateComputersSetup the 6 new front-ends to boot off the FB1 clone

[Jamie, Christopher, JC]

This morning we decided to label the the fiber optic cables. While doing this, we noticed that the ends had different label, 'Host' and 'Target'. Come to find out, the fiber optic cables are directional. Four out of Six of the cables were reversed. Luckily, 1 cable for the 1Y3 IO Chassis has a spare already laid (The cable we are currently using).  Chris, Jamie, and I have begun reversing these cable to there correct position.

Quote:

[Tega, JC]

We laid 4 out of 6 fiber cables today. The remaining 2 cables are for the I/O chassis on the vertex so we would test the cables the lay it tomorrow. We were also able to identify the problems with the 2 supposedly faulty cable, which are not faulty. One of them had a small bend in the connector that I was able to straighten out with a small plier and the other was a loose connection in the switch part. So there was no faulty cable, which is great! Chris wrote a matlab script that does the migration of all the model files. I am going through them, i.e. looking at the CDS parameter block to check that all is well. Next task is to build and install the updated models. Also need to update the '/opt/rtcds' and '/opt/rtapps' directory to the latest in the 40m chiara system.

 

 

  17165   Thu Sep 29 18:01:14 2022 AnchalUpdateBHDBH55 LSC Model Updates - part IV

More model changes

c1lsc:

  • BH55_I and BH55_Q are now being read at ADC_0_14 and ADC_0_15. The ADC_0_20 and ADC_0_21 are bad due to faulty whitening filter board.
  • The whitening switch controls were also shifted accordingly.
  • the slow epics channels for BH55 anti-aliasing switch and whitening switch were added in /cvs/cds/caltech/target/c1iscaux/C1_ISC-AUX_LSCPDs.db

c1mcs:

  • MC1, MC2, and MC3 are running on new suspension models now.

c1hpc:

  • DCPD_A and DCPD_B have been renamed to BHDC_A and BHDC_B following naming convention at other ports.
  • After the input summing matrix, the signals are called BHDC_SUM and BHDC_DIFF now.
  • BHDC_SUM and BHDC_DIFF can be directly using in sensing matrix bypassing the dither demodulation (to be used for DC locking)
  • BH55_I and BH55_Q are also sent for dither demodulation now (to be used in double dither method, RF and audio).
  • SHMEM channel names to c1bac were changed.

c1bac:

  • Conformed with new SHMEM channel names from c1hpc
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