ELOG ligo-ex

Updated FROSTI Analysis 10/02/2024

TCS

Attached below are updates on current FROSTI prototype analysis.

457

Wed Oct 9 13:52:31 2024

Tyler

TCS

RIN Update 10/09/2024

I tried adjusting the gain settings on the photodetectors to check if this would help improve the RIN spectra measurements. Overall, it doesn't look like it does, and if anything, looks worse. I assume this is so because as the gain is lowered, the amount of detectable signal from the FROSTI becomes smaller and smaller.

466

Tue Oct 29 16:37:35 2024

The Red Pitaya ecosystem has been upgraded to OS 2.00-35, with a key feature being greater freedom in adjusting the sampling frequency for signal analysis. Before, decimation factors could only be applied if they were a power of 2 (i.e 2,4,8,16,...) up to 65536. Now, the factors can be any power of two up to 16, and any whole number greater than 16 up to 65536. Further information can be found here.

470

Wed Nov 13 14:03:32 2024

[Tyler]

We've added two low-pass filters in hopes of reducing any potential aliasing that may be introducing additional noise into the power spectra for the RIN measurements. It still looks like the noise levels are too high. Attached below are some recent measurements taken with the FROSTI powered on and off.

477

Wed Nov 20 12:59:37 2024

I went ahead and compared the noise spectrum of the ADC to those of the photodetectors with the FROSTI on and off. As discussed last meeting, it looks like the measurements with the Red Pitaya (RP) are limited by the ADC noise floor. Another avenue to explore in this measurement could be switching to the cymac ADCs.

134

Tue Jun 27 14:04:42 2023

Sophia A.

Measuring Noise in Interferometer

Interferometer set up and connection to red pitaya

Today we (Sophia and Tyler) constructed the set-up for the electrical noise calculation that I will be conducting this summer. I have included images of the setup below. Our system is effectively a green laser, that feeds into a type of polarizer, then into a beam splitter which sends the laser light down two arms into detectors. We started by connecting the detectors to an oscilloscope to determine whether the signal will exceed 1V, as the red pitaya (our planned data collection device) cannot receive signals with a higher voltage than 1V. We spent most of our time calibrating the oscilloscope and fine-tuning the set-up so that we would have approximately equal voltages in each arm of the interferometer. Once confirming that the output voltage would not meet or exceed 1V, we switched from an oscilloscope to the red pitaya for our measurements. Now that the system is set up, we will be able to run code in the red pitaya interface that will run an FFT on the signal, and then do noise analysis from there.

162

Tue Jul 18 14:13:46 2023

Update on Laser Noise Data Collection and Analysis

We [Sophia and Tyler] have found a code which will partition our data and generate PSD's and CSD's automatically. We are now in the stage of writing this into a dynamic code, which so far has been fast-paced because of the framework we have built for it over the past few weeks. Something to note is that we have found, especially over long periods of time, the laser goes through periods of extreme noise and the signals often cross from where we set them at some point throughout our data collection. We have made the assumption that this is something to do with the laser itself, and not our setup or surrounding space because of both the times that these noise/intensity spikes took place and the duration of the spikes (1.5-2.5 hours). To try and correct for this, we have been "cutting" the noise, and just looking at sections which don't include these big fluctuations. An example of the "noise cut data" is shown in the graph titled "Signals Over Time 7-18-23 Noise Cut Data" and all of the PSD/CSD graphs have been made using only these "noise cut" regions.

174

Thu Jul 27 11:28:36 2023

Update on Laser Noise Data Collection and Analysis: Dynamic CSD and PSD Plots

This week I have successfully been able to implement our dynamic CSD and PSD plotting code, but along the way I encountered a few challenges which I will outline in this elog post. Challenges: 1. Once I was able to plot the data through time, I produced a graph of the raw data (shown below in the top to images) which showed pulsed data instead of a continuous stream. On Tuesday (26th of July) Tyler and I fixed this issue, realizing that calling the starting the trigger in the red pitaya was the issue. When I commented that line of code out, it immediately started plotting continuously. 2. When that issue was solved, We then started having problems with the automatically generated lines in the python program which would double back on each new iteration. I am still dealing with this issue, because the line likes to follow the progression of the data intake instead of through the plot. Currently, I am trying to plot the data as a scatter plot and then add the line as this might make it care only about the data's distribution instead of the order of the points in the list, but I am still unsure. I might try out np.sort (or some equivalent to sort the entire data set before plotting) as well.

175

Thu Jul 27 14:11:42 2023

Update on Laser Noise Data Collection and Analysis: Dynamic CSD and PSD Plots

Here's a screen recording of the dynamic raw data and PSD/CSD plots as they are now. Will begin working on implementing a code to generate the statistical estimator for the CSD uncertainty now. (Will talk to Tyler more about whether I can get the lines to happen or not)

183

Mon Jul 31 19:27:30 2023

Update on Laser Noise Data Collection and Analysis: Dynamic CSD and PSD Plots

An update on the CSD/PSD code: The code is now taking a dynamic average of the points, and that has significantly reduced the noise that we were reading and the issues I was having with the lines in the plots. The graph for the CSD is still putting up a fight though, and amassing many lines that do not appear when just scatter plotted. I plan to fix that tomorrow, alongside inserting my own generated signal into the data. I have plotted the coherence alongside these graphs (as shown in the first screen recording and in one of the images), and it is significantly less than 1-- starting at or below 10^(-1). As a note, I am unsure of why the raw data looks like this-- the laser goes through periods of extreme noise and I think this data was taken during one of them.

186

Tue Aug 1 15:44:31 2023

Update on Laser Noise Data Collection and Analysis: Dynamic CSD and PSD Plots

We have identified two problems facing the intensity noise calculations, which we are working to solve. The first of these problems, is that the red pitaya appears to be taking data approximately 4 times faster than we would expect from the decimation rate based on how quickly it runs. To see if this was affecting our data, we plugged the red pitaya into a function generator. We found that my code is able to identify the driving frequency, but consistently gives predictions that are roughly 7% greater than we expect. When we drive at 100 Hz, the plot says the peak is at 107 Hz, when driven at 400 Hz, we see between 422-427 Hz, etc. While this implies that the red pitaya is not taking data at a faster rate than we would expect (if it did we would anticipate a lower than expected frequency, by a factor of roughly 4), it does imply some intrinsic issue with either the red pitaya or with the code. To fix this, I am going to use my code on artificially generated signals and see if we still observe these issues.

194

Mon Aug 7 15:36:18 2023

Update on Laser Noise Data Collection and Analysis: Dynamic CSD and PSD Plots

Today I was able to fix the red pitaya's plotting problem, and get my code to recognize driving frequencies from the function generator to within a 0.5 Hz estimation. The sinusoidal plots I have included are from sending a 1 Hz signal into the red pitaya to see the signal in real time. This allowed me to see exactly where the system was messing up, and fix from the ground up. Once I had that working, I began to test sending in frequencies in the range that my PSD/CSD code could observe and I was able to identify each driving frequency within 0.5 Hz. My code was able to correctly identify a 500 Hz signal, while other analyzed frequencies in the observable range have fallen lower than the sent in frequency by a less than 0.5 Hz. I believe this issue comes from the strange speed that the red pitaya is still acquiring data, even with my fixing it to now observe a continuous signal.

196

Tue Aug 8 16:47:11 2023

Update on Dynamic CSD and PSD Plots

We have fixed our rapid plotting error, and realized that this has not been affecting our data intake! Below is a video of the code progressing, alongside grabbed images of the raw data. The data is now continuous, and performs as we expect. Next, I plan to add a widget which will dynamically show the peak values instead of them just being printed in the terminal after each iteration. (Ignore the red box-- it was from me struggling with a now fixed issue).

206

Tue Aug 15 10:35:00 2023

Update on Laser Noise Data Collection and Analysis: Dynamic CSD and PSD Plots

I have successfully added a button to my graphics, but it has posed a strange issue with the CSD and PSD values. When I plot my original code, I still see the pretty peaks that I was getting originally, while my new code (as shown in the video and in the last screenshot) is giving me more of a line. In my code that gives the peak values, the CSD values also tend to fluctuate in this new code as well (shown in the first screenshot), before returning to the real value. I think that there is a problem with the averaging and am hoping to solve this issue today with Tyler. This is good progress though!

207

Tue Aug 15 13:32:37 2023

Update on Laser Noise Data Collection and Analysis: Dynamic CSD and PSD Plots

I have now fixed all issues that I was having this morning, and have added text boxes which show the peak values of both PSD's and the CSD alongside the graphs. They also update continuously with the graph. This is shown in the top image. The laser was driven at 400Hz, and had 0.5V peak to peak voltage, both of which appear correctly in the below graphs. Now that the code is almost fully working (we will finish debugging the screenshot method later today), our plan tomorrow is to drive the laser and see how the code performs with it. The below graph is from us driving the function generator at 100Hz to test the range. Update: Bottom graph is new version of graphs with better distribution of both graphs.

391

Mon Jul 1 11:45:45 2024

Sid

Interferometer Simulations

Progress update: Most of last week was spent getting set up with SIS, and learning how to do basic simulations. The goal for this week is to begin reproducing the methodology from T2000338. I have begun with studying perturbations to mirror curvature and position in a simple FP cavity, but thus far have been unable to get the same results.

259

Thu Nov 9 13:57:58 2023

Shane, Luis, Aiden, Tyler

cleanroom cleaning and particle count

[Aiden, Shane, Luis, Tyler]

cleaning cleanroom and particle count

12:30 pm: Tyler and Aiden started organizing cables in cleanroom
12:35 pm: started particle count in flow bench

0.3 u: 11681
0.5 u: 3284
1.0 u: 1039

12:50 pm: started cleanroom particle count
- zone 3:
  - 0.3 u: 14549
  - 0.5 u: 10351
  - 1.0 u: 6194

zone 4:
- 0.3 u: 10808
- 0.5 u: 4655
- 1.0 u: 1953

1:07 pm: began surface check and wipedown, including softwalls
1:19 pm: started vacuuming the floor
1:28 pm: finished vacuuming the floor
1:29 pm: started mopping the floor
1:33 pm: finished mopping the floor
1:34 pm: started cleaning the buckets
1:37 pm: started mopping with IPA wipes
1:39 pm: finished mopping with IPA wipes
1:40 pm: changed sticky floor mats
1:41 pm: started particle count
- zone 3:
  - 0.3 u: 8397
  - 0.5 u: 5071
  - 1.0 u: 2618

zone 4:
- 0.3 u: 6651
- 0.5 u: 4323
- 1.0 u: 2120

290

Mon Dec 11 12:58:57 2023

Shane, Luis

DAC-ADC loopback test debugging

[Luis, Shane] Working on debugging last week's weird results for the ADC-DAC loopback test for channels 14 and 15. With DAC output channels 12-15 connected to ADC input channels 12-15: tried setting matrix coefficients for channels 12-15 to 1, and as with last week's results, DAC is outputting as expected for all three channels and ADC is not reading in the signal (hovering around -4,-5) for channels 14 and 15. Channels 12 and 13 still reading in correctly. Tried switching DAC output plug into channels 0-3, with ADC input plugged into channels 12-15, and all input/output signals were reading correctly. Then switched to plugging in DAC output to channels 12-15 and ADC input to channels 0-3, and saw that channels 0-3 were only able to receive the first two ADC input values. This shows that channels 12-15 are capable of receiving the correct inputs from other channels, but are failing to produce outputs for channels 14 and 15.

254

Thu Nov 2 17:14:36 2023

CyMAC set up permanentized

CyMAC connections have been finalized and made permanent. Also tested voltages, which are all looking good. Warning: power is on. Do not touch power supply terminals or screws connected to grounding cables (see attached images 4 and 5; green wires on back of power supply with black and yellow covers, and exposed positive and negative terminals on back of power supply).
Also established connections from Anti-Aliasing chassis to ADC adapter board, Anti-Imaging chassis to DAC adapter board, and binary in/out chassis to BIO card, all mounted within Cymac host computer. Turned on CyMAC and ran test model, received error message likely pointing to timing signal not being successfully passed to the adapter boards. Next steps are checking to make sure correct timing signal is actually being output, and then checking internal ribbon cable in host chassis, which is another potential cause of the error.

171

Mon Jul 24 16:19:29 2023

Chassis semi-assembled and moved

Electronics

Began assembly on AA and AI chassis today, moved them both to top work bench shelf (image attached). They are delicate so please do not disturb them or put anything on top of them.

176

Thu Jul 27 14:46:55 2023

AA chassis DC on/off switch assembled

Electronics

Made the first DC on/off switch assembly today and installed in anti-aliasing chassis. Second switch assembly to be completed later.

191

Thu Aug 3 18:03:42 2023

Anti-Aliasing chassis complete

We finished installing the internal power supply cables in the anti-aliasing chassis today, which concludes its assembly. Work on AI, BI, BO chassis still underway.

197

Tue Aug 8 17:03:22 2023

Binary input chassis finished

Finished assembly of the binary input chassis today, including DC on/off switch and LED installation. external cable assemblies still needed, but internal work done.

210

Wed Aug 16 16:55:40 2023

external power supply cables finished

All four external power supply cables for the CyMAC chassis are now assembled. Using them now to test if chassis power up correctly.

211

Wed Aug 16 17:17:02 2023

Binary input chassis powering correctly

Binary input chassis passed power-on test, and is lighting up as expected. Binary output chassis also successfully powered on. AA and AI chassis not powering on correctly, need to do some debugging to find the problem.

225

Thu Sep 14 17:05:38 2023

Timing chassis setup and testing

Tested the setup today for the timing chassis (intended to provide the timing reference for the CyMAC). Was able to read the correct frequency, but voltage was significantly lower than needed. Still identifying source of problem, and looking into the relationship between the supportable ohm load and the voltage.

231

Fri Sep 29 17:27:30 2023

Timing chassis assembly progress (CyMAC)

Worked on timing chassis assembly today for the CyMAC, settled on layout (see attachment 1). Frequency synthesizer and frequency divider tentatively mounted. Next steps involve putting together and installing an LED and DC on/off switch assembly like the one in the binary input chassis (attachment 2 for comparison; orange and black wires in BI chassis analogous to red and black wires in timing chassis). Will also use front and back panels of BI chassis as a template for the timing chassis panels, with the following alterations: two SMB feedthroughs in place of the ribbon cable connections shown on the back panel, the addition of an LED on the front panel to indicate power, and potentially a spot on the front panel for usb connection to programmable frequency synthesizer.

236

Mon Oct 9 16:59:21 2023

timing chassis power cable and AI chassis testing for CyMAC

[Shane, Jon]

Today's CyMAC work:

Finished assembling external power supply cable for the timing chassis (see attached image)
Also did some debugging of AA and AI chassis re: power issues. After testing voltages at various test points on the power regulator board (TP1-TP6) in the AA chassis, it seems like it's the source of the problem. Used bench DC power supply to test, running 15V, and the correct voltage is coming in to the board but something significantly smaller is being output. We're also getting unexpected negative signs on voltage at certain test points, with leads in correct positions
Upon further examination, it looks like the lights on the filter boards are actually turning on (in both the AA and AI chassis), though it's only 2/4 lights on each board and they are very faint
Corrected DC on/off switch spade lug orientation in AI chassis.
Tested AI chassis power regulator board to see if the problem was the same, and found again that voltage coming in was correct, and voltage going out was not.
In case of interest in exact numbers, results were as follows:
- Voltage difference between TP1(+Vin) and TP6(-Vin) is ~30V
- Voltage difference between grounded chassis wall and TP1 (+Vin) is ~15V
- Voltage difference between grounded chassis wall and TP6(-Vin) is ~-15 V
- voltage difference between TP2(+Vout) and TP5(-Vout) is ~3V
- Voltage difference between TP3 (gnd) and TP2(+Vout) is -0.065V
- Voltage difference between TP5(-Vout) and ground is ~3V

244

Mon Oct 23 18:02:23 2023

Timing chassis assembly complete

Concluded assembly of timing chassis for CyMAC today; see attachment 1 for interior set up of chassis. Installed front and rear panels, wired on/off switch and LED assembly, and tested to confirm everything is powering on correctly. Also tested the outputted timing reference that will go to DAC and ADC adapter boards (see attachment 2 for output 1 and attachment 3 for output 2).

137

Wed Jun 28 15:58:56 2023

Shane, Cao

Infrastructure

VAC

Power trip problem remains, source of smoke is insulation

[Shane, Cao]

With the new change in wiring configuration described in elog 136, we tried to power up the heaters for baking the vacuum chamber again.

Given that we were worried about the turbo pump overheats, we set the setpoints of of bother high temperature controller and PID controller to be 120 deg C before turning the heaters on

1. Evidence of smoke originating from CoolSkin insulation

We then removed most of the CoolSkin insulation on the Pump and RGA lines ( apart from the one around the flexible bypass line connecting the two ) (see image Pumpline_afterRemoveInsul and RGAline_afterRemoeInsul) . Upon removal of the insulation, we noticed that the insulating foam melted onto the heating tape (see image MeltedInsulation1 and MeltedInsulation2). This is the first indication that the smoke had most likely coming from the insulating foam itself

Once we started baking, upon reaching 80 degree range. We observed no smoke at the location that we removed the insulation. However, We observed smoked coming from underneath the insulation around the flexible pipe, and not from the velcro areas.

What could be causing this, given that the maximum operating temperature of the insulation is 200 deg C? Most likely, the heating tape is much hotter than we think it is. But given that the temperature sensor readout is much lower than 200 deg C, it's likely that this is due to poor thermal contact and it takes a while for sensor to reach a thermal equilibrium with the heating tape. Here, I suggest we should implement the following:

We should look into usingsome form of thermal tape (if possible to secure the temperature sensors)

Unfortunately or controller does not allow programming process, we will have to implement manual temperature stepping, emulating ramping process over the first hour, until slowly reach 120 deg C

OR Tune the PID controller coeffs, especially P and I for longer rise time and settling time

2. The heaters still trip our power

Upon reaching 80 deg C,our main power trip. Unfortunately I don't know how to reset this. Do we need to contact facility on this? Reading elog 136, I noticed that both controllers are connected to the same circuit LP3B 6, which is the same circuit the some of the fan-filters and LED light panels of the cleanroom connected to. From the elog, the circuit has a 20 A limit . An max operation, the 2 heater controllers draw 30 Amps, approx 7 Amps for the fan-filters, and another 1.5 A for LED panel. The combination of these equipment must have overload the circuit and tripped it . Currently half the fans + lights are off in the cleanroom are off due to power trip. Here, I would make a suggestion that each heater controller should be connected to a separate circuit . Currently we LP3B 7 (same side next to LB3B 6) and LB3B 4 (opposite side of the rail) having no equipemts connected to them, but will require cable extensions.

177

Fri Jul 28 13:07:39 2023

Shane, Aiden

cleanroom cleaning and particle count

[Aiden, Shane]

cleaning cleanroom and particle count

11:08 am: started particle count
- zone 3:
  - 0.3 u: 4198
  - 0.5 u: 1080
  - 1.0 u: 581

zone 4:
- 0.3 u: 1247
- 0.5 u: 623
- 1.0 u: 415

11:24 am: break for removal of vac chamber insulation (pictures attached), with counts before removal as seen above, and counts after removal/replacement for zone 3 as follows:
- zone 3:
  - 0.3 u: 2993
  - 0.5 u: 415
  - 1.0 u: 207
12:02 pm: began surface check and wipedown
12:13 pm: started vacuuming the floor
12:25 pm: finished vacuuming the floor
12:26 pm: started mopping the floor
12:32 pm: finished mopping the floor
12:32 pm: started cleaning the buckets
12:37 pm: started mopping with IPA wipes
12:43 pm: finished mopping with IPA wipes
12:45 pm: changed sticky floor mats
12:47 pm: started particle count
- zone 3:
  - 0.3 u: 2951
  - 0.5 u: 290
  - 1.0 u: 41

zone 4:
- 0.3 u: 290
- 0.5 u: 0
- 1.0 u: 0

228

Fri Sep 29 11:22:33 2023

Shane, Aiden

cleaning and particle count

[Aiden, Shane]

cleaning cleanroom and particle count

10:06 am: ran zero count test on particle counter
10:07 am: started particle count
- zone 3:
  - 0.3 u: 2203
  - 0.5 u: 831
  - 1.0 u: 540

zone 4:
- 0.3 u: 374
- 0.5 u: 124
- 1.0 u: 124

10:25 am: began surface check and wipedown
10:34 am: started vacuuming the floor
10:44 am: finished vacuuming the floor
10:45 am: started mopping the floor
10:49 am: finished mopping the floor
10:50 am: started cleaning the buckets
10:57 am: started mopping with IPA wipes
11:01 am: finished mopping with IPA wipes
11:02 am: changed sticky floor mats
11:03 am: started particle count
- zone 3:
  - 0.3 u: 2535
  - 0.5 u: 374
  - 1.0 u: 166

zone 4:
- 0.3 u: 581
- 0.5 u: 41
- 1.0 u: 0

241

Fri Oct 20 16:38:02 2023

Shane, Aiden

Cleanrooom cleaning and particle count

[Aiden, Shane]

cleaning cleanroom and particle count

3:16 pm: started particle count. NOTE: we are not within the ISO class 5 standard for any size ranges in zone 3. ~6000 above limit in 0.3 u, ~2000 above in 0.5, ~200 above in 1.0
- zone 3:
  - 0.3 u: 16,711
  - 0.5 u: 5612
  - 1.0 u: 1039

zone 4:
- 0.3 u: 6817
- 0.5 u: 2369
- 1.0 u: 249

3:35 pm: began surface check and wipedown, including softwalls
3:50 pm: started vacuuming the floor
4:00 pm: finished vacuuming the floor
4:01 pm: started mopping the floor
4:06 pm: finished mopping the floor
4:07 pm: started cleaning the buckets
4:08 pm: started mopping with IPA wipes
4:14 pm: finished mopping with IPA wipes
4:15 pm: changed sticky floor mats
4:18 pm: started particle count
- zone 3:
  - 0.3 u: 23,113
  - 0.5 u: 9686
  - 1.0 u: 1371

zone 4:
- 0.3 u: 7191
- 0.5 u: 2951
- 1.0 u: 290

Sat Feb 11 17:09:29 2023

clean room particle counts 2/10/23

Took a round of clean room counts after the latest clean of vacuum chamber on Feb 10. Used 60 second sample time, 5 samples for each of the 5 zones. Plots attached for both occupied clean room (one person inside, attachment 1) and unoccupied clean room (empty attachment 2), as well as the raw data from the particle counter (attachment 3).

Thu Feb 23 13:32:55 2023

Clean room floor particle counts

Here are the counts from the clean room floor today. The counts should be dated- the ones from today (2/23/23) are the last 8 in the chart. The first set of 2 measurements from today were under the table by the clean room entrance, the next two were under the table by the vacuum chamber, the next two were on the floor by the vacuum chamber lid, and the last two were on top of the table for comparison. All measurements were taken using 2 minute sample time.

Thu Mar 9 13:51:42 2023

Clean room counts 3/9/23

Here's the clean room counts from this morning. Also attached is rough diagram of where the five zones are in the clean room. Counts taken with 2 minute sample time, three samples in each zone.

Wed Mar 22 15:25:00 2023

Clean room recertification particle counts

Attached are the five zone particle measurements for the clean room now that the fan speeds have been set to MEDIUM. 2 min sample time, 3 samples per zone. The occupied clean room measurements were unusual in that they generally got larger towards minute 6 instead of settling and going to zero, and for this reason didn't stay beneath the class 5 requirement at the end of the samples. The unoccupied counts look more similar to what was expected, and generally settle under the class five requirement.

110

Wed May 31 12:16:28 2023

cleanroom particle counts (full 5 zone measurement)

Attached is the full 5 zone particle measurement for the cleanroom after this week's cleaning, 5/31/23.

133

Tue Jun 27 12:09:37 2023

cleanroom 5 zone particle count measurement

Attached is 5 zone measurement for cleanroom particulate count. Zone 3 (in front of vacuum chamber) higher than usual, likely due to recent vac work. Slightly above ISO class 5 standard in 1.0 micron range, measuring 997 particles/cubic meter while ISO standard is 832 particles/cubic meter in this range. Zero count test on particle counter performed prior to today's measurement.

172

Tue Jul 25 15:35:14 2023

Finished basic assembly of binary input and output chassis today, and moved one to top shelf of work bench. The other is in corner of work bench (image attached). They are delicate, so please do not move them or place anything on top of them.

182

Mon Jul 31 12:39:01 2023

LED cable assemblies installed

Electronics

Today I put together the two LED cable assemblies for the CyMAC and mounted them in the anti-aliasing and anti-imaging chassis.

199

Wed Aug 9 17:35:26 2023

Binary output chassis finished

Finished the internal wiring for the binary output chassis today, which completes its assembly. Also secured ribbon cables and chassis lid with their respective screws. Note: one of the spade lugs' internal metal piece is a little loose and had to be reinserted after falling out once. Seemed secure after this, and I checked continuity on everything and it was all good.

230

Fri Sep 29 11:53:54 2023

5 zone particle count measurement in cleanroom

Today's 5 zone measurement of cleanroom particulate concentration is attached

247

Fri Oct 27 15:28:30 2023

AA and AI chassis for CyMAC powered on and functional

CyMAC updates: Switched out the faulty power regulator boards in the Anti-Aliasing and Anti-Imaging chassis. Both chassis are now powering up correctly with lights on and the correct voltages in/out of the power regulator board. Images attached. All chassis for the CyMAC now functional, so next step is mounting everything in the rack.

250

Mon Oct 30 18:15:13 2023

CyMAC chassis mounted and progress on power connections

All CyMAC chassis mounted in electronics rack today, and shelf for monitor also mounted. Images attached. Assembled grounding cables for power connections, and attached the timing chassis to power & gnd. Powered on successfully with correct voltages in expected places. After power test, everything was turned off and unplugged. Next steps: attach grounding cables to other four power supply chassis. Also attach anti-aliasing, anti-imaging, binary input and binary output chassis to power supply.

252

Wed Nov 1 18:24:01 2023

CyMAC Power connections made

Finished power connections today for the CyMAC chassis. Images attached. Had to switch the shrink fork terminals on the power supply cables to shrink ring terminals, but was able to get everything connected and secured. Upcoming work: turning on power supply and testing voltages/checking everything is turning on and lighting up correctly. Configuration is as follows:

Topmost Sorensen: +24V (reserved for FROSTI)
- Positive terminal:
- Negative terminal: [negative terminal is grounded]
Sorensen 2nd from the top: +18V
- Positive terminal:
- Negative terminal: [negative terminal is grounded]
Sorensen 3rd from the top: -18V
- Positive terminal:[positive terminal is grounded]
- Negative terminal:
Bottommost Sorensen: +6V
- Positive terminal:
- Negative terminal: [negative terminal is grounded]

270

Fri Nov 17 14:06:01 2023

5 zone particle count

Here's today's 5 zone particle count measurement for the cleanroom. Zone 5 (closest to back wall by fire cabinet) is still above the limit for the larger size ranges; everything else is in good shape and roughly 10 times under the limit. Not sure why zone 5 is still so dirty (maybe some of the electronics being stored in bags/bins on the upper shelf of the desk aren't clean?) but will focus cleaning efforts on this zone next time.

276

Wed Nov 22 15:46:50 2023

DB25 signal connections for FROSTI heaters

[Shane, Jon]

Installed new DC smart switch in electronics rack, configured power connections. Images attached. Attached is a diagram of the male DB25 signal connections to be used for FROSTI heaters. Also included below is table detailing pin and signal configuration.

Pin	Signal
1	V+ Heater 1
2	V+ Heater 2
3	V+ Heater 3
4	V+ Heater 4
5	V+ Heater 5
6	V+ Heater 6
7	V+ Heater 7
8	V+ Heater 8
9	N/C
10	N/C
11	N/C
12	N/C
13	N/C
14	RTN heater 1
15	RTN heater 2
16	RTN heater 3
17	RTN heater 4
18	RTN heater 5
19	RTN heater 6
20	RTN heater 7
21	RTN heater 8
22	N/C
23	N/C
24	N/C
25	N/C

285

Mon Dec 4 21:27:53 2023

ADC-DAC loopback test results

Here are the test results from today's ADC-DAC loopback tests. Channels 14 and 15 were the only ones behaving abnormally. Not sure what the issue is, but needs further debugging. The DAC output was as expected for both of them, but the corresponding ADC inputs were the same regardless of what offset was used (hovering around values of -4 and -5). NOTE: all measurements listed in the attached table are 'averages' in the sense that the ADC inputs and DAC outputs hovered around the listed values, changing by +1 or -1.

287

Thu Dec 7 14:13:15 2023