> > 
> > We have dismounted the AIDA stack and bPlast and realigned the cables so that they can fit into the adapters.
> > 
> > The plan for the next couple days is the following:
> > 
> > - Alignment -- done
> > - Remount cable -- done
> > - Fix position w/o bPlast mounted -- done
> > - Remount bracket for the last stage -- done
> > - Remount AIDA 1 & 2 and the 207Bi source with the source holder -- done
> > - Mount the snout and take data -- we wait till next week Monday when the heat exchanger is active again. (ongoing)
> > 
> > The current setup at the end of work is that the snout is mount with a bPlast (uncabled) and 2 AIDA layers at the regular spaced position with a 207Bi source down stream, as can be seen in the previous elog. The source is ~1 cm away from the middle AIDA wafer.
> > 
> > Currently what is cabled:
> > 
> > - Signal out from the detector
> > - Bias daisy chain
> > 
> > Still to be cabled:
> > 
> > - HV cable
> > - Grounding
> > - Pulser
> > 
> > Additional info on the source position:
> > - the source is at ~9.6 mm distance from the downstream detector
> > - the source is placed at the centre of the middle wafer: 12.25 cm in x, 4.75 cm in y
> > - the radius of the source is ~1.5 mm
> 
> The Messhuette has been cleaned and equipment has been rearranged. If there are any broken or missing components be sure to follow up with the FRS group (as I believe they have been cleaning here).
> 
> We are resuming the work on the source measurements as the cooling water is back. Some of the valves still look closed so we are investigating if the water is flowing to the setup.
> 
> 14:31 Temperature on start up OK - attachment 2.
> 
> 15:41 We reset the ASIC control registers to a setup used in Feb 2024 (2025Feb24-17.14.52) to match the full AIDA setup (it was using BB7 initially in aida10).
> 
> The old bias scheme is obsolete and the bias is now done via the Ohmic side.
> 
> 16:47 We have look at some initial spectra with the 207Bi 3-8 shows the ADC channels and waveforms of the n+n and p+n sides. Bias and grounding developed by Nabiel have been done.
> 
> We are going to wait for the system to stabilise over night so that we start taking data tomorrow. Then we can analyse the results and see what we get :) Some channels are clearly broken which can be seen in the waveforms eg. aida16.

11:31 The detector was turned off last night to put it into a safe state. We return to make some comparison of the noise w.r.t the tests performed by Nabil and co. 

email snippet:

"
I would suggest that you first quantify current noise performance (slow comparators -> 0x64 to reduce rate, measure pulser peak width) for each FEE64 (use layouts 3 and 4) and compare to Nabil's most recent test results. Looking at last night's 1.8.W spectra I would assume that they would be significantly worse but best to check.

I would then suggest you carefully check

    Grounding configuration (both internal and external to the snout) used Nabil's most recent tests has actually been re-established
    Grounding of the bPlas cabling
"

We are going to restart the DAQ and set the LEC thresholds to 0x64 and compare the peak FWHM with a pulser.

11:50 We started up the DAQ temps and bias look OK.

12:00 We set the thresholds on each ASIC in the slow comparator LEC to 0x64. This should correspond to a high threshold. For some reason the y-strips are still noisy (wrong polarity in the register ?)

19.45 Remote system check

      DSSSD bias & leakage currents OK - attachment 1

      FEE64 temperatures OK - attachment 2
       aida02 ASIC temperature often reporting zero but sometimes a sensible value - presumably PT100 fault

      ADC data item stats - attachment 3
       all FEE64s at high/very high rates - only 3x of 16x FEE64s < 100k
       ASIC settings per aida01-aida04
        p+n FEE64s slow comparator 0xa, n+n FEE64s 0xf cf. 0x64 used for previous tests by Nabil? 

      per FEE64 Rate spectra - attachment 4

      per FEE64 1.8.W spectra - 20us FSR - attachments 5-6


19.55 Switch to safe state (FEE64 power OFF, DSSSD HV OFF) overnight as appears to be unattended/not monitored overnight.

      Tomorrow I would suggest resuming tests (using slow comparator 0x64) and checking per FEE64 pulser peak width for comparison with previous tests by Nabil. If 
unable to reproduce previous tests (or previous AIDA performance) you will need to check setup/reduce noise to be able to perform measurements using the 207Bi source.

> 
> We have dismounted the AIDA stack and bPlast and realigned the cables so that they can fit into the adapters.
> 
> The plan for the next couple days is the following:
> 
> - Alignment -- done
> - Remount cable -- done
> - Fix position w/o bPlast mounted -- done
> - Remount bracket for the last stage -- done
> - Remount AIDA 1 & 2 and the 207Bi source with the source holder -- done
> - Mount the snout and take data -- we wait till next week Monday when the heat exchanger is active again. (ongoing)
> 
> The current setup at the end of work is that the snout is mount with a bPlast (uncabled) and 2 AIDA layers at the regular spaced position with a 207Bi source down stream, as can be seen in the previous elog. The source is ~1 cm away from the middle AIDA wafer.
> 
> Currently what is cabled:
> 
> - Signal out from the detector
> - Bias daisy chain
> 
> Still to be cabled:
> 
> - HV cable
> - Grounding
> - Pulser
> 
> Additional info on the source position:
> - the source is at ~9.6 mm distance from the downstream detector
> - the source is placed at the centre of the middle wafer: 12.25 cm in x, 4.75 cm in y
> - the radius of the source is ~1.5 mm

The Messhuette has been cleaned and equipment has been rearranged. If there are any broken or missing components be sure to follow up with the FRS group (as I believe they have been cleaning here).

We are resuming the work on the source measurements as the cooling water is back. Some of the valves still look closed so we are investigating if the water is flowing to the setup.

14:31 Temperature on start up OK - attachment 2.

15:41 We reset the ASIC control registers to a setup used in Feb 2024 (2025Feb24-17.14.52) to match the full AIDA setup (it was using BB7 initially in aida10).

The old bias scheme is obsolete and the bias is now done via the Ohmic side.

16:47 We have look at some initial spectra with the 207Bi 3-8 shows the ADC channels and waveforms of the n+n and p+n sides. Bias and grounding developed by Nabiel have been done.

We are going to wait for the system to stabilise over night so that we start taking data tomorrow. Then we can analyse the results and see what we get :) Some channels are clearly broken which can be seen in the waveforms eg. aida16.

We have dismounted the AIDA stack and bPlast and realigned the cables so that they can fit into the adapters.

The plan for the next couple days is the following:

- Alignment -- done
- Remount cable -- done
- Fix position w/o bPlast mounted -- done
- Remount bracket for the last stage -- done
- Remount AIDA 1 & 2 and the 207Bi source with the source holder -- done
- Mount the snout and take data -- we wait till next week Monday when the heat exchanger is active again. (ongoing)

The current setup at the end of work is that the snout is mount with a bPlast (uncabled) and 2 AIDA layers at the regular spaced position with a 207Bi source down stream, as can be seen in the previous elog. The source is ~1 cm away from the middle AIDA wafer.

Currently what is cabled:

- Signal out from the detector
- Bias daisy chain

Still to be cabled:

- HV cable
- Grounding
- Pulser

Additional info on the source position:
- the source is at ~9.6 mm distance from the downstream detector
- the source is placed at the centre of the middle wafer: 12.25 cm in x, 4.75 cm in y
- the radius of the source is ~1.5 mm

We have dismounted the AIDA stack and bPlast and realigned the cables so that they can fit into the adaptors.

The plan for the next couple days is the following:

- Alignment -- done
- Remount cable -- ongoing
- Fix position w/o bPlast mounted -- 
- Remount bracket for the last stage -- 
- Remount AIDA 1 & 2 and the 207Bi source with the source holder -- 
- Mount the snout and take data --

The tests we want to perform are the following:

- Energy distribution in x and y for ADC items and cluster
- The cluster size from conversion electrons
- ADC offsets with the 207Bi source after performing a pulser walkthrough
- Threshold test /w a 207Bi source - varying the threshold as while the source is in place and seeing when the 207Bi peaks are cut off. 
- Background run without the 207Bi source (after the above tests)
- Possible test with a 152Eu source as well to measure conversion electrons from Eu could also be an option but we would need to discuss how to do this since all the 152Eu source are closed. We could possibly measure the compton edge from this 
data.

HT of upstream AIDA from iseg, HT cable shielded, 100V, 17 uA. HT of downstream AIDA from CAEN, AIDA#0. Both channel 0 and 1 of CAEN are on, even though there is just one channel connected. DEGAS platform closed. The crates of BB7 and bplast have been put to the ground of the AIDA's structure (cupper sheet)

Attachment 1: TEST1: BB7 fully connected = 2 tiles of BB7 have been connected to the mesytec preamps. BB7 is not biased. The mesytec preamps have been fully connected and supplied but 6/8 black cables are not connected on the other side. 4X and 4Y are connected to the 2 FEBEX cards. The cables of BB7 right between the snout and the preamps are shielded.

AIDA05.1.8L --> FWHM 76-80 channels

Attachment 2: TEST2: BB7 fully disconnected

AIDA05.1.8L --> FWHM 71 channels

Attachment 3: TEST3: BB7 fully disconnected, TAMEX crate unbiased, BB7 NIM crate turned off

AIDA05.1.8L --> FWHM 67 channels

Attachment 4: AIDA01.1.0 --> FWHM 171 channels --> same detector, also biased with iseg but bad results

HT cable shielded, HT of upstream AIDA from iseg, HT of downstream AIDA from CAEN. Both channel 0 and 1 of CAEN are on, even though there is just one channel connected. During this test, some parallele tests are being done on BB7 Mesytec. In general, middle tile: detector disconnected from preamps but preamps connected on the other side.  Right tile: detector connected to preamps, cable shielded but preamps disconnected on the other side (supplied, one output is plugged). Those conditions may have changed during the test. The BB7 and bplast crates are also being connected to the cupper sheet of AIDA's structure to be grounded, the carton pieces under the crates have been removed.

AIDA05 connected, HT 0V

Attachment 1: AIDA05.1.8L --> FWHM 1907 channels

Attachment 2: AIDA09.1.9L --> FWHM 1467 channels

AIDA05 connected, HT 100V

Attachment 3: AIDA05.1.8L --> FWHM 74 channels

Attachment 4: AIDA09.1.8L --> FWHM 79 channels

Attachment 5: AIDA13.1.8L --> FWHM 250 channels

AIDA05 disconnected, HT 0V (cable between the detector and the adaptor board)

Attachment 6: AIDA05.1.8L --> FWHM 16 channels

AIDA05 disconnected, HT 100V

Attachment 7: AIDA05.1.8L --> FWHM 16 channels

Attachment 8: AIDA09.1.8L --> FWHM 87 channels

Attachment 9: AIDA13.1.8L --> FWHM 234 channels

Attachment 10: AIDA12.1.8L --> FWHM 116 channels (bplast cable side disconnected) to be compared to 117 channels (screenshot forgotten to be saved but tags left 21600 and 21171) --> no effect

BB7 is still connected but not biased (same configuration as the previous elog). The channel of the CAEN power supply #0 is connected to ASIC08 and biased at 100V. The channel of the CAEN power supply #1 is disconnected but still biased at 100V. AIDA04 (chained to AIDA05) is biased via an unshielded cable to an iseg NHQ 246L power supplied, biased at 100 V with 15 uA.

All the outside drain wires of bplast are now taped to the snout.

The red markers of the cursors of the previous test have been left for ease of comparison.

Attachment 1: AIDA05.1.8L --> FWHM 67 channels

Attachment 2: AIDA05.1.1L --> FWHM 69 channels

Attachment 3: AIDA05.1.4L --> FWHM 79 channels

Attachment 4: AIDA05.1.12L --> FWHM 79 channels

Attachment 5: AIDA05.1.15L --> FWHM 79 channels

Attachment 6: AIDA13.1.8L --> FWHM 236 channels, chosen because same place than AIDA05 but for the dowstream detector that is still biased with the CAEN module

Attachment 7: AIDA12.1.8L --> FWHM 91 channels, chosen because same place than AIDA05 but of the bottom of upstream detector that is still biased with the iseg module

Attachment 8: AIDA16.1.8L --> FWHM 143 channels, chosen because same place than AIDA05 of the bottom of dowstream detector that is still biased with the CAEN module. This curve has 2 humps

BB7 is still connected but not biased (same configuration as the previous elog). The channel of the CAEN power supply #0 is connected to ASIC08 and biased at 100V. The channel of the CAEN power supply #1 is disconnected but still biased at 100V. AIDA04 (chained to AIDA05) is biased via a shielded cable to an iseg NHQ 246L power supplied, biased at 101 V with 16 uA.

All the outside drain wires of bplast are now taped to the snout.

Attachment 1: AIDA05.1.8L --> FWHM 60 channels

Attachment 2: AIDA05.1.1L --> FWHM 51 channels

Attachment 3: AIDA05.1.4L --> FWHM 57 channels

Attachment 4: AIDA05.1.12L --> FWHM 65 channels

Attachment 5: AIDA05.1.15L --> FWHM 69 channels

Attachment 6: AIDA13.1.8L --> FWHM 277 channels, chosen because same place than AIDA05 but for the dowstream detector that is still biased with the CAEN module

Attachment 7: AIDA12.1.8L --> FWHM 88 channels, chosen because same place than AIDA05 but of the bottom of upstream detector that is still biased with the iseg module

Attachment 8: AIDA16.1.8L --> FWHM 133 channels, chosen because same place than AIDA05 of the bottom of dowstream detector that is still biased with the CAEN module. This curve has 2 humps

Attachment1: AIDA05.1.8L when AIDA05 connected, biased at 101 V with shielded cables. BB7 is still connected but not biased (same configuration as the previous elog). The channel of the CAEN power supply #0 is connected to ASIC08 and biased at 100V. The channel of the CAEN power supply #1 is disconnected but still biased at 100V. AIDA04 (chained to AIDA05) is biased via a shielded cable to an iseg NHQ 246L power supplied, biased at 101 V with 16 uA.

All the outside drain wires of bplast are now taped to the snout.

The red markers of the cursors of the previous test have been left for ease of comparison.

FWHM: 21699-21644 = 55 channels (to be compared with the previous elogs between 73 channels and 79 channels)

Conclusion: a significant improvement can be observed with a cleaner power supply.

Attachment1: AIDA05.1.8L when AIDA05 connected, biased at 100 V with not-shielded cables, after the DEGAS platform has been closed, the 2 tiles of BB7 have been connected to the mesytec preamps. BB7 is not biased. The mesytec preamps have been fully connected and supplied but 6/8 black cables are not connected on the other side. 4X and 4Y are connected to the 2 FEBEX cards.

The 2 drain wires of bplast that were hanging on the bottom are now taped to the snout, not making any antena effect anymore.

FWHM: 79 channels (to be compared with the previous elogs between 73 channels and 76 channels)

Conclusion: no significant differences can be observed when BB7 is connected. The tail on the left side of the spectrum in twice as small, most likely because on the now-taped drain wires of bplast

Attachment1: AIDA05.1.8L when AIDA05 connected, biased at 100 V with not-shielded cables, CAEN HT,  after the base of the snout (screws) has been connected to the ground via cupper sheets

FWHM: 76 channels (to be compared with the 2 previous elogs 73 channels and 75 channels)

Conclusion: no differences can be observed.

Biased at 100, AIDA05 connected, HT cables not shielded CAEN HT

Attachment 1: AIDA05.1.8L --> FWHM 75 channels

Attachment 2: AIDA05.1.1L --> FWHM 70 channels; peak of the pulser shifted to the right (red lines on the left: cursor for the 1.8L)

Attachment 3: AIDA05.1.4L --> FWHM 85 channels; peak of the pulser completely shifted to the left (10 000 on the left)

Attachment 4: AIDA05.1.12L --> FWHM 78 channels

Attachment 5: AIDA05.1.15L --> FWHM 79 channels, peak the most shifted to the right of the 5 curves tested

This elog is the first reliable. Before, the histograms have not been zero'd

Each test are done and compared for AIDA05.1.8L, compared with the pulser (caracteristics, see attachment1)

Test 1: with HT cables shielded

Attachment 2: HT = 100V; cable AIDA05 connected --> FWHM = 77 channels (= 51.3 keV) with a top of the curve at 100 cts (AIDA9.1.8L has also been checked and was at 89 channels)

Attachment 3: HT = 0V; cable AIDA05 connected --> FWHM = 1757 channels with a top of the curve at 15 cts after almost 40 min because the noise had a baseline of 6500 channels

Attachment 4: HT = 0V; cable AIDA05 disconnected --> FWHM = 16 channels with a top of the curve at 110 cts

Attachment 5: HT = 100V; cable AIDA05 disconnected --> FWHM = 17 channels with a top of the curve at 110 cts

Test 2: with HT cables not shielded

Attachment 6: HT = 0V; cable AIDA05 connected --> FWHM = 1452 channels (968 keV) with a top of the curve at 23 cts after 1:15 hours because the noise had a baseline of 7000 channels

Attachment 7: HT = 100V; cable AIDA05 connected --> FWHM = 73 channels with a top of the curve at 100 cts

Attachment 8: HT = 0V; cable AIDA05 disconnected --> FWHM = 15 channels with a top of the curve at 120 cts

Attachment 9: HT = 100V; cable AIDA05 disconnected --> FWHM = 16 channels with a top of the curve at 125 cts

Conclusion: with shielded or unshielded cables, the noise situation seems to be the same, proving that mot of the noise don't come from the cables

Other thing that have been noticed is that the peak of the pulser is shifted when the cables are connected compared to when they are not connected: connected: peak at around channel 21675; disconnected: peak at around channel 21925

AIDA05 completely disconnected, all the others FEEs64 are fully connected

Attachment 1: aida05, FWHM= 95 ch, 63 keV

Attachment 2: aida15, FWHM= 108 ch, 74 keV

Test with shielded HV cables for both detectors.

The FWHM for ch1 is now 184 ch.

Yesterday cables for cards 5, 6, 10, 11, 12, 14, 16 were partially connected (only 1 out of 2 flat cables was in), now both are connected.

Status before grounding checks

11.45 DSSSD bias & leakage current - attachment 1
      FEE64 temps OK - attachment 2
      All system wide checks OK *except* WR decoder status aida02 - attachment 3
      WR timestamps OK - attachment 4
      ADC data item stats - attachment 5

      per FEE64 Rate spectra - attachments 6-7
       note ASICs with per channel rates of 22Hz (pulser)
       note *all* FEE64 slow comparator 0x64
       note ignore aida10 - connected to MSL type BB7 - not biased yet

      per p+n FEE64 1.8.L spectra - attachment 8-9
       pulser peak widths
        aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
        aida15 c. 137 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests

      per p+n FEE64 1.8.W spectra - 20us FSR - attachments 10
      per p+n FEE64 1.8.W spectra - 20us FSR - expanded y-scale = 2000 x 122uV/LSB = 0.244V FSR - attachment 11

      per n+n FEE64 1.8.W spectra - 20us FSR - attachments 12


15.20 Data suggests 2x (of 6x) Si wafers are not biased - aida11 & aida05-aida12 - J2 cable disconnected

      Switch from negative to positive bias polarity

      CAEN N1419ET channels 1 and 2 switched from negative to positive polarity
      Note internal LK fitted - HV outputs *not* floating

      Channel 1 -> DSSSD#0 from aida12 to aida04 (HV daisy chain aida12-aida03-aida15 *not* removed)
      Channel 2 -> DSSSD#1 from aida16 to aida08 (HV daisy chain aida16-aida07-aida11 *not* removed)

      LK1 removed from adaptor PCBs for aida02. aida04, aida06, aaida08

      LK1 fitted aida05, aida13, aida10, aida09, aida15, aida11

      LK3 *no* change

      DSSSD bias & leakage current - attachment 13
       note increase in leakage current for DSSSD#0 but not DSSSD#1
       - indicating DSSSD#0 has all Si wafers biased
       - all wafers of DSSSD#1 not biased => damaged adaptor PCB and/or cabling, misaligned ribbon cable/Kapton PCB connection within snout
      FEE64 temps OK - attachment 14
      ADC data item stats - attachment 15

      per FEE64 Rate spectra - attachments 16-17
       note ASICs with per channel rates of 22Hz (pulser)
       note *all* FEE64 slow comparator 0x64
       note ignore aida10 - connected to MSL type BB7 - not biased yet

      per p+n FEE64 1.8.L spectra - attachment 18-19
       pulser peak widths
        aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
        aida15 c. 108 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests

      per p+n FEE64 1.8.W spectra - 20us FSR - attachments 20
      per p+n FEE64 1.8.W spectra - 20us FSR - expanded y-scale = 2000 x 122uV/LSB = 0.244V FSR - attachment 21

      per n+n FEE64 1.8.W spectra - 20us FSR - attachments 22


16.40 Add LK1 to aida03, aida07

      DSSSD bias & leakage current - attachment 23
       no change

      ADC data item stats - attachment 24

      per p+n FEE64 1.8.L spectra - attachment 25-26
       pulser peak widths
        aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
        aida15 c. 117 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests

      per p+n FEE64 1.8.W spectra - 20us FSR - attachments 27
       no change

16.50 Increase DSSSD#0 bias from +100V to +120V

      DSSSD bias & leakage current - attachment 28

      per p+n FEE64 1.8.L spectra - attachment 29-30
       pulser peak widths
        aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
        aida15 c. 70 ch FWHM - electronic noise c. 1.2-2x worse than configuration used for 2023/4 tests

      per FEE64 Rate spectra - attachments 31-32

      per FEE64 1.8.W spectra - 20us FSR - attachments 33-36
       aida02 & aida04 stabilised but still very noisy

      Switch BNC PB-5 Pulser polarity + to - and connect test- test daisy chain

      ADC data item stats - attachment 37

      per FEE64 Rate spectra - attachments 38-39
       aida02 & aida04 rates significantly lower but not 25Hz expected

      per n+n FEE64 1.8.L spectra - attachment 40
       pulser peak width aida02 c. 700 ch FWHM - very noisy!

      per n+n FEE64 1.8.W spectra 20us FSR - attachment 41 

*** Summary

    DSSSD#0
    3x Si wafers biased OK
    p+n junction side electronic noise c. 1.2-2x 2023/4 configuration
    n+n Ohmic side very noisy - increased detector HV to stabilise => increased capacitative load cf. 2023/4 configuration?

    DSSSD#1
    2x Si wafers biased OK, 1x probably not biased
    p+n junction side electronic noise > 4x 2023/4 configuration
    n+n Ohmic side very noisy/unstable - increased detector HV not attempted due to issues with biasing all 3x Si wafers

    MSL type BB7 
    not biased yet

    To Do
    Complete connection and grounding of Bplas detectors

12.21 BNC PB-5 settings
      Amplitude 1.0V
      Attenuator x1
      Frequency 22Hz
      Polarity +
      Tau_d 1ms
      Tail pulse
      Clamp ON
      Pulser output connected to p+n test daisy chain - n+n test daisy chain not connected 

      per DSSSD green/yellow ground daisy chain was removed yesterday

      FEE64 adaptor PCB grounds connected by heavy duty braid wrapped in copper foil to AIDA support assembly frame
      Snout connected to AIDA support assembly frame by heavy duty braid bolted to frame and connected to snout by adhesive copper foil.

      DSSSD - FEE64 adaptor PCB cabling (cannot connect some ribbon cables because cable flipped and connector key now incorrectly oriented)

                    aida10 aida14 aida13
                      ox     xo     oo
                    aida09 aida01 aida05
                      oo     oo     xo
      aida06 aida02                      aida04 aida08    *Beam into screen*
        ox     oo                          oo     oo
                    aida15 aida03 aida12
                      oo     oo     ox
                    aida11 aida07 aida16 
                      ox     oo     xo

      o = connected
      x = not connected
      e.g. J1 J2 connected = oo, J1 only connected = ox

      Adaptor PCB top/component side
      E     J1
      R
      N
      I     J2

      Adaptor PCB 
       LK1 fitted aida02, aida04, aida06, aida08
       LK3 fitted aida03, aida07

      DSSSD bias & leakage current - attachment 1
      FEE64 temps OK - attachment 2
      All system wide checks OK *except* WR decoder status aida02 - attachment 3
      WR timestamps OK - attachment 4
      ADC data item stats - attachment 5

      per FEE64 Rate spectra - attachments 6-7
       note ASICs with per channel rates of 22Hz (pulser)
       note *all* FEE64 slow comparator 0x64 ( *note* subsequently found ASIC #2-4 of a number of FEE64s were set to 0x0 )

      per p+n FEE64 1.8.W spectra - 20us, 200us, 2ms and 20ms FSR - attachments 8-11
      per p+n FEE64 1.8.W spectra - 20ms FSR - expanded y-scale = 2000 x 122uV/LSB = 0.244V FSR - attachment 12

      per n+n FEE64 1.8.W spectra - 20ms, 2ms, 200us and 20us FSR - attachments 13-16

      per p+n FEE64 1.8.L spectra - attachment 17
       pulser peak widths
        aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
        aida09 c. 120 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests
        all other FEE64s *very* noisy/unstable


14.45 Found some FEE64s with slow comparator 0x64 for ASIC#1 and 0x0 for ASICs #2-4
      Slow comparator 0x64 now set for all ASICs of all FEE64s

      ASIC settings saved to 2025Jun14-15.00.09

      ADC data item stats - attachment 18

      per FEE64 Rate spectra - attachments 19-20
       note ASICs with per channel rates of 22Hz (pulser)
       note *all* FEE64 slow comparator 0x64
       note aida10 to be connected to MSL type BB7 - ignore for time being

      per FEE64 1.8.W spectra - 20us FSR - attachments 21-22

      per p+n FEE64 1.8.L spectra - attachments 23-24
       pulser peak widths
        aida05, aida14, aida16 c. 20 ch FWHM - cable from DSSSD not connected to adaptor PCB
        aida09 c. 120 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests

13.42 ASIC settings 2025Jun12-13.53.04
      *all* FEE64s slow comparator 0x64
                   all fast disc outputs disabled
      p+n FEE64s waveform threshold 7000, n+n FEE64s 9000

      CC grounding ribbon cable heavy duty braid to adaptor PCB and AIDA support assembly ground
       'top' p+n FEE64s and snout to be completed
      
16.00 DSSSD bias & leakage current - attachment 1
      FEE64 temps OK - attachment 2
      All system wide checks OK *except* WR decoder status aida02 and aida06 - attachment 3
      WR timestamps OK - attachment 4
      ADC data item stats - attachment 5
      per FEE64 Rate spectra - attachment 6
      per p+n FEE64 1.8.L spectra - attachment 7
       aida09 pulser peak width 117 ch FWHM - no change since yesterday
      per FEE64 1.8.W spectra - 20us FSR - attachments 8-10