Current Status of SUS-C1/C2 Racks vs Final O5 Build

J. Kissel, O. Patane, D. Barker, F. Clara, M. Pirello

Our big SUSB123 and SUSH34 to SUSB13 and SUSB2H34 upgrade last week wasn't the full upgrade for O5.
SUSB13 is fully upgraded to its O5 configuration, but for SUSB2H34, we can't fully upgrade to the final O5 build yet because we still need full control of the BSFM for the February commissioning period, whereas O5 will have the BSFM replaced with the BBSS (with QOSEMs instead of BOSEMs), requiring different electronics. The final O5 build will also include the electronics for the new suspensions LO1 and LO2. Going from the current configuration, which we call the "No QOSEMs/BBSS" configuration, to our final O5 build will require eight new chassis and two new ADC cards.

Since we will be needing to add/change things on the racks, that future upgrade will also come with user model additions/changes.

Table showing comparison diagrams

	Current “No QOSEMs/BBSS” Config	Final O5 Config
Rack overviews	slide31	slide33
DACs	slide10 (excluding BS BOT/LO1/LO2 and AI in U13)	slide10 (everything)
ADCs	slide15	slide16
BIOs	slide21 (excluding BS BOT chans)	slide21 (everything)
AUX ADCs	slide26 (excluding pink)	slide26 (everything)

I've also attached the slides above in pdf form here. The full slides outlining all the changes O4 -> now -> O5 can be found here.

Changes needed to go from current configuration to final O5 configuration:
SUS-C1
    U33:: Remove cable inputs for (BSFM) BS M1 OSEM sensors, re-arrange cable inputs for BS M3 Oplev to make room for (BBSS) BS M3 OSEM sensors, and bring in PR3 M3 Oplev because we can
    U14:: Add (BBSS) BS M3 input for Binary Output
    U13:: Add (BBSS) BS M3 input for Binary Input
    U5 :: New D090006 TACQ Driver for (BBSS) BS M3

SUS-C2
    U22:: Add (BBSS) BS M3 Noisemon and (BBSS) BS M3 SFVmon inputs
    U20:: New D0902783 AA Chassis for LO1 M1 and LO2 M1 HAM-A Coil Driver Volt Monitors
    U16:: New D1300282 AA Chassis for (BBSS) BS M1 QOSEM sensors and LO1 M1 and LO2 M1 OSEM sensors
    U14:: Add (BBSS) BS M3 input to AI chassis
    U13:: New D2500353 AI Chassis for LO1 and LO2 Coil Actuation
    U9 :: New D1100687-v1 (100 Ohm Output Impedance) HAMA Coil Driver for LO1 M1 F1F2F3SD
    U8 :: New D1100687-v1 (100 Ohm Output Impedance) HAMA Coil Driver for LO1 M1 LFRTxxxx
    U6 :: New D1100687-v1 (100 Ohm Output Impedance) HAMA Coil Driver for LO2 M1 F1F2F3SD
    U5 :: New D1100687-v1 (100 Ohm Output Impedance) HAMA Coil Driver for LO1 M1 LFRTxxxx
    
susb2h34 IO Chassis
    Needs an additional ADC Card (and adapter card and internal SCSI cable)

susauxb2h34 IO Chassis
    Needs an additional ADC Card (and adapter card and internal SCSI Cable)

SUS Model Updates: h1susauxb13

Jeff, Oli

We made several updates to multiple SUS simulink models as a continuation of our work converting SUSB123 and SUSH34 into SUSB13 and SUSB2H34 (88765). Our changes were based on our updated G2301306-v10_PARTII - for the conversion from SUSB123 into SUSB13 for SUSAUXB13, we referenced slides 23 and 24. These changes were svn'd as r34396 and were installed and started last week (88781).

These are the changes we had to made for h1susauxb13 (previously called h1susauxb123):

CDS Parameter Block:
- Changed hostname from h1susauxb123 to h1susauxb13
- Removed specific_cpu

Input (before, after):
- Removed BS block
- Removed ADC6 and ADC7
- ADC0 flag going into ITMY block is now in ADC5
- ADC7 flag going into ITMY block is now in ADC0

ITMY block (before, after):
- Removed ADC7
- Everything that was previously ADC0 is now in ADC5
- Everything that was previously ADC7 is now in ADC0

HAM7 progress

[Sheila, Karmeng]

We offloaded the saturation on ZM4 and ZM6 while maintaining the alignment to HAM6 QPDs.

Power budget: we measured 0.75mW at the OPO output, after SFI1, and after thin film polarizer. The power dropped to 0.74mW after BM3. And further to 0.71mW at the viewport/SQZT7 periscope and HD.

Scanned the IR and green transmission of the OPO, the green transmision (orange trace) will need further adjustmnet.

OPS Thursday Day shift summary

TITLE: 01/23 Day Shift: 1530-0030 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: None
SHIFT SUMMARY: HAM7 OPO Laser Hazard work, EOM in the Optics lab, and HAM1 JAC/ISCT1 table work all continued today. VAC start working on the relay tube, they're just waiting on a work permit to remove the viewport from HAM5. 
LOG:                                                                                                                                                                           

Start Time	System	Name	Location	Lazer_Haz	Task	Time End
22:49	SAF	LVEA IS LASER HAZARD	LVEA	YES	LVEA IS LASER HAZARD \u0d26\u0d4d\u0d26\u0d3f(\u239a_\u239a)	16:49
16:01	FAC	Nellie	LVEA	Y	Tech clean	17:06
16:05	FAC	Kim	LVEA	Y	Tech clean	17:06
16:32	SQZ	Sheila	LVEA	Y	HAM7 work cont, OPO	19:55
16:53	FAC	Randy	LVEA	Y	Plug in Scissor lift and forklift	17:11
17:11	PEM	Robert	LVEA	Y	Laser vibrometer work, MCT baffles in and out	19:38
17:16	JOTE	Matt, Sophie	PREP lab	N	JOAT work	19:01
17:43	FAC	Kim	EndX	N	Tech clean	18:24
17:43	SQZ	Kar Meng	LVEA	Y	HAM7 OPO work	19:55
17:46	ISC	Keita, Elenna	Optics lab	LOCAL	EOM work	20:14
18:25	FAC	Kim	Midx	N	Tech clean	18:52
18:33	OPS	Ryans	LVEA	Y	Check with HAM7 crew	18:33
18:34	ISC	Jenne, Jennie	LVEA	Y	HAM1 JAC and ISCT1 work	20:41
18:57	VAC	Jordan	LVEA	Y	Grab some parts	19:05
19:14	EE	Marc	LVEA	Y	PSL racks, power supply swap	19:21
19:14	EE	Daniel	LVEA	Y	HAM6 rack surverying	20:41
19:34	SUS	Jeff	CER	Y	Take rack pictures, upper mezz	19:50
20:49	EE	Marc	LVEA	Y	PZT power supply swap	21:05
20:45	SUS	Jeff	CER	Y	Rack pictures	20:55
21:37	SQZ	Sheila, Kar Meng	LVEA	Y	HAM7 OPO work	22:55
21:58	ISC	Jennie	LVEA	Y	Check on laser	22:07
22:12	JOTE	Matt	PREP lab	N	JOTE work	22:42
22:19	ISC	Jennie	LVEA	Y	Add a connector	22:25
22:23	ISC	Keita, Elenna	Optics lab	LOCAL	EOM work	00:06
22:35	PEM	Robert	LVEA	Y	Laser vibrometry	23:01
23:11	VAC	Jordan	LVEA	Y	Relay tube work, HAM7 area	23:55
00:10	PEM	Robert	LVEA	Y	Laser vibrometer measurments	00:20

HAM7 and SQZT7 iris photos

[Sheila, Karmeng]

We took a bunch of photos on HAM7 and SQZT7 today, the IR-green coalignment is fixed. 

IR-green coalignment: on the iris between ZM3 and FC1 (before and after) and after AM3 (green and red overlap)

Beam position for all 3 irises placed in HAM7:

Iris 1 IR position on the iris placed between ZM1 and ZM2.

Iris 2 IR+green position on the iris placed between ZM3 and FC1.

Iris 3 IR position on the iris placed between BM4 and ZM4, with "RL" on the Thorlabs IR card placed on the iris as a reference to estimate the deviation from the center of the iris.

For 2 irises placed on SQZT7 HD path:

Iris 1 IR position on iris1 on SQZT7.

Iris 2 IR position on iris2 on SQZT7.

We also checked the IR on HAM7 QPDs path, the IR is off centered on the lens (seen from both front and back). This was roughly centered, and will be fine tuned with the picos.

OPO health check TFs

I ran some TFs on the OPO to do a health check, some things to note... The ISI was locked and tripped, we were in air, and the suspension's damping loops were on. I left its CD state as 2 as this SUS has its coil driver jumpered. 

Things look pretty noisy overall so its hard to say, I was struggling a bit to get good coherence without causing overflows, maybe due to the purge air? Especially with my L measurement, the next worse coherence was in T. I also noticed that H3s counts dropped quite a lot 2 days ago, over 10k counts.

I'd like to retake the whole measurment with the purge air turned down.

/ligo/svncommon/SusSVN/sus/trunk/OPOS/H1/OPO/SAGM1/Data
2026-01-22_2000_H1SUSOPO_M1_WhiteNoise_L_0p02to50Hz.xml
2026-01-22_2000_H1SUSOPO_M1_WhiteNoise_P_0p02to50Hz.xml
2026-01-22_2000_H1SUSOPO_M1_WhiteNoise_R_0p02to50Hz.xml
2026-01-22_2000_H1SUSOPO_M1_WhiteNoise_T_0p02to50Hz.xml
2026-01-22_2000_H1SUSOPO_M1_WhiteNoise_V_0p02to50Hz.xml
2026-01-22_2000_H1SUSOPO_M1_WhiteNoise_Y_0p02to50Hz.xml

h1lsc model and DAQ restart

Jennie, Jonathan, Erik, Dave:

The h1lsc model was edited by Jennie to add a fast DQ channel to the DAQ at 2kHz (H1:JAC-TRANS_A_LF_IN1_DQ).

DAQ and EDC were then restarted for:

1. New H1LSC.ini

2. New H1EPICS_CP1.ini (add plotting thermocouple channels)

3. New H1EPICS_ENV.ini (remove MY channels)

4. New daqd code to install duplicate channel checking

The DAQ was restarted in several stages because of the daqd code change.

Cable Label Convention for SUS BIO Cables; Re-labeled susb13's cables and Labeled susb2h34's cables

J. Kissel, O. Patane

In support of last week's CER / Electronics / Rack changes to move the Beam Splitter electronics over from the susb123 / SUS-C5 & C6 system to become a part of the expanded susb2h34 / SUS-C1 & C2 system (LHO:88765) we were re-mapping the beam splitters Binary IO Card system from the former susb123 to the new susb2h34 system.

In the susb123 system, the Beam Splitter shared it's BIO system with the ITMs' TST/L3 stage ESD Drivers. That meant that we couldn't migrate the electronics and cards to susb2h34 like the other parts of the beam splitter control system. So, a new BI and BO chassis were installed in SUS-C1, and a new BIO card was installed into the susb2h34 IO chassis. The 2x PCB100WS (HDRA100 to 2xD37 pigtail) cables that connect to/from the BIO card from/to the BI and BO chassis were also new.

However, the SUS wiring diagrams have never really depicted these BIO cables well, and thus didn't establish a cable naming convention. Worse, even though the PCB100WS pigtail cables connect into different places with different orientations w.r.t. the BIO card (which has two HDRA100 100-pin outputs), the cables themselves are identical. Further, the BIO card ends are in one rack (with the IO chassis) and the BI / BO chassis ends are in an (adjacent, but) different rack. These facts makes it really tough to follow or connect new additions if the existing system is poorly labeled and there's no written-down convention established.

Thankfully, there were hints of a convention on a few cables of the susb123 system, namely 
    SUS_${BI/BO_DestinationRack}_${BI/BO_DestinationUHieght}_${OUT/IN}
BUT -- 
    (1) The labels that were there only labeled one of the two pigtails so which was "CNA" connecting to the Lower 32 Bit BO/BI chassis input and which was"CNB" connecting to the Upper 32 Bits was very unclear, and 
    (2) at some point in their history the BI/BO destination u-heights for the BIO0 and BIO2 cards were flip-flopped.

So, I improved the convention to include the _CNA and _CNB, such that the cable naming convention is now 
    SUS_${BI/BO_DestinationRack}_${BI/BO_DestinationUHieght}_${OUT/IN}_${CNA/CNB}
and drew it up in an Altium-like set of google slides -- see attached "after" BIO diagrams that represent the susb13 and susb2h34 systems now after the 2026-01-13 rack work.

Oli's going to work on adding this convention to all the actual Altium wiring diagrams, D2300401 for susb13 and D2300383 fr susb2h34.

In in the mean time, I spent some quality time with a label maker and re-labeled all the susb13 cables and labeled all the susb2h34 cables. Note -- for the susb13 system, I didn't move any cables, but since I had to relabel the cables anyways to add the CNA/CNB extension, I just relabeled all the cables. As such, the unchanged susb13's BIO cables now match convention again, where the BO/BI chassis destination U-height is correctly assigned to the cable name.

Pictures attached:
susb13:
    SUS-C5_BIOCables_Labeled.jpg # IO Chassis End in SUS-C5
    SUS-C6_BIOCables_Labeled.jpg # BO/BI Chassis End in SUS-C6

susb2h34:
    SUS-C2_BIOCables_Labeled.jpg # IO Chassis End in SUS-C2
    SUS-C1_BIOCables_Labeled.jpg # BO/BI Chassis End in SUS-C1

SUS Model Updates: h1susitmpi

Jeff, Oli

We made several updates to multiple SUS simulink models as a continuation of our work converting SUSB123 and SUSH34 into SUSB13 and SUSB2H34 (88765). Our changes were based on our updated G2301306-v10_PARTII - for the conversion from SUSB123 into SUSB13 for the ITM PI's, we referenced slides 5 and 7. These changes were svn'd as r34388 and were installed and started last week (88781).

These are the changes we had to make for h1susitmpi:

CDS Parameter Block:
- Changed hostname from h1susb123 to h1susb13
- Removed specific_cpu

Output (before, after):
- Change 20 bit DAC into a 28 bit DAC
- Wire up ITMX and ITMY PI OSEM outputs to their corresponding DAC channels

Supporting SUS BS Electronics Moving into SUS-C1: Additional +/-18V DC Power Rail Installed, SUS-C2's Power Supply Feeds It

J. Kissel, F. Clara, M. Pirello
D2300167 Record of LHO DC Power Supply System
S1301897 VDC-C1 Rack S-number
S1301868 SUS-C1 Rack S-number
WP:12962

In support of last week's CER / Electronics / Rack changes to move the Beam Splitter electronics over from the susb123 / SUS-C5 & C6 system to become a part of the expanded susb2h34 / SUS-C1 & C2 system (LHO:88765) we needed more +/-18V DC power to support the incoming chassis into SUS-C1. 

We already knew in 2023 that SUS-C1's +/-18V power supplies in VDC-C1 U2 were already supporting a lot of current draw from the existing MC2, PR2, SR2 chassis in SUS-C1. However, the original 2023 plan (see page 10 of Part II of G2301306-v9) involved stretching power cables across from the chassis in SUS-C1 to the empty spigots available in the relatively unpopulated SUS-C2's +/-18V power rail. But, when the day came, we'd not remembered that plan, and the existing chassis power cables weren't long enough to make the rack jump. 

So, we did a "good enough for now" solution: installed a new +/-18V power rail into SUS-C1, and still powered it with the supplies for SUS-C2 in VDC-C1 U6, but connected the new SUS-C1 rail to it by modifying the junction box on top of the SUS-C2 rack. 

In doing so, we identified that the existing power supplies for SUS-C2 were on the list for replacement, so we replaced the U6 power supplies before making the connection.
               +18V           -18V
Removed       S1201904      S1201905
Installed     S1201909      S1201908

I've updated the VDC-C1 rack S-number, and SUS-C1 rack S-number to reflect these changes, but haven't touched the Record of LHO DC Power Supply System (links to these things above).

Prior to replacement, we measured the voltage supplied to be +18.81 [V] and -18.66 [V], and set the new supplies to that voltage after install. The new supplies measure the current draw what it supplies (All of SUS-C2 and the BIO chassis and Coil Drivers for the Beam Splitter) to be ~10 and 8.5 [A].

Ideally -- and what may be necessary -- is to install a new set of power supplies to support these two racks: we still need one more TACQ driver in SUS-C1 (which will use these VDC-C1 U6 supplies), and the planned, fully outfitted SUS-C2 which includes 7x more chassis. I bet those chassis will draw at least, if not more than, 5 [A] worth of current at +/-18V.

Pictures relevant to this install attached.

Labeled picture of SUS-C1 and SUS-C2 Junction Boxes showing the new SUS-C2 junction box's connection to SUS-C1.

SUS Model Updates: h1susauxb2h34

Jeff, Oli

We made several updates to multiple SUS simulink models as a continuation of our work converting SUSB123 and SUSH34 into SUSB13 and SUSB2H34 (88765). Our changes were based on our updated G2301306-v10_PARTII - for the conversion from SUSH34 into SUSB13 for SUSAUXB2H34, we referenced slides 25 and 26. These changes were svn'd as r34398 and were installed and started last week (88781).

These are the changes we had to made for h1susauxb2h34 (previously called h1susauxh34):

CDS Parameter Block:
- Changed hostname from h1susauxh34 to h1susauxb2h34
- Removed specific_cpu

Input (before, after):
- Added ADC6 and ADC7
- Added BS block (taken from susauxb123)
- Connected ADC6 and ADC7 to BS block

BS Block (after):
- Connected up ADCs according to slide 26

SUS Model Updates: h1susbs

Jeff, Oli

We made several updates to multiple SUS simulink models as a continuation of our work converting SUSB123 and SUSH34 into SUSB13 and SUSB2H34 (88765). Our changes were based on our updated G2301306-v10_PARTII - for the movement of the BS from SUSB123 to SUSB2H34, we referenced slides 5, 10, 12, 15, 18, and 21. These changes were svn'd as r34436 and were installed and started last week (88781).

These are the changes we had to make for h1susbs:

CDS Parameter Block:
- Changed dcuid
- Changed hostname from h1susb123 to h1susb2h34
- Removed specific_cpu

Input (before, after):
- Removed ADC1 since now all OSEM channels are on one ADC (called ADC1 in diagrams)
- Redid ADC to OSEM configuration
- Removed ITMX L3 and ITMY L3 channels from SHMEM that came in for ITM L3 BIO
- Added BS BIO channels for each BS stage (coming in from MC2) to SHMEM since the BS BIO is now on the MC2 model
- Redid BIO MON stage inputs into BS block to now read in values from SHMEM
    - MCDIO_2_BSM3 is terminated since current BS block doesnt have an M3 BIO

Output (before, after):
- Changed DACs from multiple 20 bit DACs to one 28 bit DAC
- Lined up outputs to their corresponding DAC channels
- Removed ITMX and ITMY L3 BIO channels that went out to ITMX and ITMY from SHMEM
- Added BS BIO channels for each BS stage (going out to MC2) to SHMEM since BS BIO is now on the MC2 model
- Redid BIO CTRL OUT outputs from BS block to now go out to SHMEM channels
    - BS M3 has a 0 coming in for now since current BS block doesn't have an M3 BIO

Binary I/O (before, after):
- Removed BIO blocks since BS BIO is now happening in the MC2 model

SUS Model Updates: h1suspr2

Jeff, Oli

We made several updates to multiple SUS simulink models as a continuation of our work converting SUSB123 and SUSH34 into SUSB13 and SUSB2H34 (88765). Our changes were based on our updated G2301306-v10_PARTII - for the conversion from SUSH34 into SUSB2H34 for PR2, we referenced slides 8, 10, 14, 15, 20, and 21. These changes were svn'd as r34387 and were installed and started last week (88781).

These are the changes we had to make for h1suspr2:

CDS Parameter Block:
- Changed hostname from h1sush34 to h1susb2h34
- Removed specific_cpu

Output (before, after):
- Changed DACs from multiple 18 bit DACs to one 20 bit DAC and one 28 bit DAC
- Lined up outputs to their corresponding DAC channels

SUS Model Updates: h1sussr2

Jeff, Oli

We made several updates to multiple SUS simulink models as a continuation of our work converting SUSB123 and SUSH34 into SUSB13 and SUSB2H34 (88765). Our changes were based on our updated G2301306-v10_PARTII - for the conversion from SUSH34 into SUSB2H34 for SR2, we referenced slides 8, 10, 14, 15, 20, and 21. These changes were svn'd as r34385 and were installed and started last week (88781).

These are the changes we had to make for h1sussr2:

CDS Parameter Block:
- Changed hostname from h1sush34 to h1susb2h34
- Removed specific_cpu

Input (before, after):
- Changed ADC to OSEM channels for M1 RT and SD

Output (before, after):
- Changed DACs from multiple 18 and 20 bit DACs to one 20 bit DAC and one 28 bit DAC
- Lined up outputs to their corresponding DAC channels

SUS Model Updates: h1susmc2

Jeff, Oli

We made several updates to multiple SUS simulink models as a continuation of our work converting SUSB123 and SUSH34 into SUSB13 and SUSB2H34 (88765). Our changes were based on our updated G2301306-v10_PARTII - for the conversion from SUSH34 into SUSB2H34 for MC2, we referenced slides 8, 10, 14, 15, 20, and 21. These changes were svn'd as r34384 and were installed and started last week (88781).

These are the changes we had to make for h1susmc2:

CDS Parameter Block:
- Changed hostname from h1sush34 to h1susb2h34
- Removed specific_cpu

Input (before, after):
- Removed ADC1 since now all OSEM channels are on ADC0
- Redid ADC to OSEM configuration
- Added BS BIO channels for each BS stage (coming in from BS) to SHMEM since the BS BIO is now on the MC2 model

Output (before, after):
- Changed DACs from multiple 18 bit DACs to one 28 bit DAC
- Lined up outputs to their corresponding DAC channels
- Added BS BIO channels for each BS stage (going out to BS) to SHMEM
- Changed ADC channels going to SR3 oplev in PCIE

Binary I/O (before, after):
- Added BS to BIO ENCODE and DECODE blocks
- Added BIO cards for BS
- Added inputs and outputs to BIO blocks for BS

SUS Model Updates: h1susitmy

Jeff, Oli

We made several updates to multiple SUS simulink models as a continuation of our work converting SUSB123 and SUSH34 into SUSB13 and SUSB2H34 (88765). Our changes were based on our updated G2301306-v10_PARTII - for the conversion from SUSB123 into SUSB13 for ITMY, we referenced slides 5, 7, 12, 13, 18, and 19. These changes were svn'd as r34388 and were installed and started last week (88781).

These are the changes we had to make for h1susitmy:

CDS Parameter Block:
- Changed hostname from h1susb123 to h1susb13
- Removed specific_cpu

Input (before, after):
- Removed ADC1 since now all OSEM channels are on ADC0
- Redid ADC to OSEM configuration
- Removed ITMY L3 BIO channel (coming from BS) from SHMEM
- Added ITMX L3 BIO channel (coming in from ITMX L3) to SHMEM since the L3 BIO is now on the ITMY model

Output (before, after):
- Changed DACs from several 20 bit DACs to two 28 bit DACs
- Lined up outputs to their corresponding DAC channels
- Lined up ESD bias and ESD sum outputs to their corresponding DAC channels
- Removed ITMY L3 BIO channel (that went out to BS) from SHMEM
- Added ITMX L3 BIO channel (that goes out to ITMX) to SHMEM since L3 BIO is now on the ITMY model

Binary I/O (before, after):
- Added ITMX L3 and ITMY L3 BIO inputs and routing into the ITMY_BIO_ENCODE block
- Added the ITMX L3 and ITMY L3 BIO out cards
- Added ITMX L3 and ITMY L3 BIO routing into the ITMY_BIO_DECODE block and outputs
- Removed the HWWD_CONTROL input from the ITMY_BIO_ENCODE block and removed the wire going into it from the ITMY_HWWD_BIN_OUT block since there is no physical cable there

SUS Model Updates: h1susitmx

Jeff, Oli

We made several updates to multiple SUS simulink models as a continuation of our work converting SUSB123 and SUSH34 into SUSB13 and SUSB2H34 (88765). Our changes were based on our updated G2301306-v10_PARTII - for the conversion from SUSB123 into SUSB13 for ITMX, we referenced slides 5, 7, 12, 13, 18, and 19. These changes were svn'd as r34388 and were installed and started last week (88781).

These are the changes we had to make for h1susitmx:

CDS Parameter Block:
- Changed hostname from h1susb123 to h1susb13
- Removed specific_cpu

Input (before, after):
- Removed ADC1 since now all OSEM channels are on one ADC (called ADC1 in diagrams)
- Redid ADC to OSEM configuration
- Changed name of SHMEM channel that comes in for ITMX L3 BIO
    - Previously was H1:SUS-ITMX_BIO_L3_MON_SHMEM, now is H1:SUSITMY_2_ITMX_L3_BIOMON_SHMEM

Output (before, after):
- Changed DACs from several 20 bit DACs to two 28 bit DACs
- Lined up outputs to their corresponding DAC channels
- Lined up ESD bias and ESD sum outputs to their corresponding DAC channels
- Changed name of SHMEM channel that goes out for ITMX L3 BIO
    - Previously was H1:SUS-ITMX_BIO_L3_CTRL_SHMEM, now is H1:SUSITMY_2_ITMX_L3_BIOCTRL_SHMEM

CER Hardware/Electronics Changes To Convert SUSB123 and SUSH34 to SUSB13 and SUSH34 Complete; User Model Software Changes Commencing

J. Kissel, F. Clara, O. Patane, M. Pirello, D. Barker
ECR E2500296, E2400409
WP 12962
D2300401 (for susb13) and D2300383 (for susb2h34)
G2301306 -- PARTII 2023 plan, PARTII Update 

We've completed all electronics hardware moves, cabling/recabling and new installations that we plan to do on SUS MC2, PR2, SR2, BS, and the future LO1 and LO2 for now.

Given that this change to the electronics is somewhere in between versions of the D2300401 h1susb13 and D2300383 h1susb2h34 wiring diagrams -- the interim configuration we're in now that 

    Does have
        - susb2h34 and susb13, as well as susauxb13 and susauxb2h34 with all their ADC and DAC cards, as they will be in O5.
        - All of the BS electronics have been moved from SUS-C5/SUS-C6 to SUS-C1/SUS-C2, and their CER cabling dragged along with it
        - all AI chassis driven by 28-bit 32CH DACs (7 in total) have been converted from a pair of D1000305 2x8CH DAC AIs to a pair of D2500353 1/2x32CH DAC AIs.
        - ITM AA chassis inputs (both OSEM sensors, optical levers, and CD monitors) and AI chassis outputs have been re-arranged such that the grouping is far more sensibly arranged and modular per QUAD.
    
    Doesn't have 
        - BBSS-like BS TOP mass converted to QOSEMs
        - BBSS-like BS M3 OSEM sensing and actuation electronics
        - Any LO1 or LO2 electronics
        - The BS optical lever in its final AA chassis position (because the BS TOP mass OSEMs still need that spot)
        
        - Any changes to the field cabling
            - the BS M1 satamps, M2 satamps, and M3 optical lever whitening chassis are all still in SUS-R6)
-- we planned /documented all of this work on google slides -- see PARTII Update -- which is linked in the abstract of G2301306.

We'll add more details, gotchas, and pictures below in the comments.