ldx implementation
DESCRIPTION
LDX implementation. Progress on action items Progress on installation New topics. BIS beam interlock system. Requirements : Cable length between CIBU and double current loop generation shall not exceed 4 m for electrical signal integrity reason. Experiments to define exact location of CIBU. - PowerPoint PPT PresentationTRANSCRIPT
26 March 2007 LEADE/ D. Swoboda 1
LDX implementation
Progress on action itemsProgress on installationNew topics
26 March 2007 LEADE/ D. Swoboda 2
BIS beam interlock system Requirements:
Cable length between CIBU and double current loop generation shall not exceed 4 m for electrical signal integrity reason.
Experiments to define exact location of CIBU. Experiments to assure that interlock signal integrity at arrival on the CIBU is guaranteed. The
requirements are specified in [1] Chapter 5. The cable length between patch-panel and the associated CIBU must be given to AB/CO to
check the electrical compatibility for the cables from BIC to CIBU. CIBU needs to be connected to safe power source. Actions: B. Puccio will supply proposal for procedure of periodic IL chain tests.
CIBU implementation:
One patch-panel which is installed by AB/CO in the dedicated rack is foreseen between the CIBU and the BIC crate)
ATLAS: all CIBUs (ATLAS, movable devices, magnet,) will be installed in rack Y4.02-03.A1 which is equipped with UPS. Electronics to be installed in rack next to it. No patch-panels required.
LHCf: CIBU will be installed in USA15 rack Y.26-05.A1. Patch-panel required in Y4.02-03.A1. ALICE: CIBU ALICE will be installed in rack UX25/C28. Patch-panels required for Magnet, ALICE
ZDC. CMS: all CIBUs will not be directly cabled but the connection from BIC will be terminated in
patch-panels. The cabling between patch-panel and CIBU will be executed by CMS/Totem following the prescription from AB-CO.
LHCb: all CIBUs will not be directly cabled but the connection from BIC will be terminated in patch-panels. The cabling between patch-panel and CIBU will be executed by LHCb following the prescription from AB-CO.
26 March 2007 LEADE/ D. Swoboda 3
BIS cabling in Experiments
26 March 2007 LEADE/ D. Swoboda 4
TTC
Instrumentation Eqmt. LHC side
Eqmt. EXP Side
Application LHC side
Application EXP Side
cabling
- Rx/Tx-modules (A & D) validated by AB/RF[1]
AB/RF procurement Prod. Apr07RF2TTC proto-module under test (Dec 06)Prod. Feb07
~ 90 D links~ 10 A links
RF2TTC proto ≥ Beg07Fanout avail.
C library now dvpmt 1Q07
Charge of EXPC library now dvpmt
requested fibres installed except SR4,reserved by TS/EL teampatch ≥ Beg07
[1] http://ttc-upgrade.web.cern.ch/ttc-upgrade/New_system/TTCupgrade_System_Test_report.pdfThe acceptance tests of the digital Tx and Rx were done in collaboration with AB/RF end of November 2006Production quantities RF2TTC end of May, Fanout end of May, Tx and Rx probably in July (these ones are in hands of AB/RF)
26 March 2007 LEADE/ D. Swoboda 5
BST
Instrumentation Eqmt. LHC side
Eqmt. EXP Side
Application LHC side
Application EXP Side
cabling
In production Pt 1,51st Q07Pt 2,82nd Q07
DIP DIP done
26 March 2007 LEADE/ D. Swoboda 6
GMT
Instrumentation Eqmt. LHC side
Eqmt. EXP Side
Application LHC side
Application EXP Side
cabling
Available VME (CRTV) available TTL trigger signals
Under way
available configurations(Supply includes CTR card, Driver, Diagnosis S/W)
Platform/OS LynxOS Linux
PC CTR: PCI/PMC CTR: PCI/PMC
CES Power PC (VME) CTR: PMC/VME Not available
1. GMT specific parameters UTC time stamp (25 nsec resolution, < 1μsec accuracy) Safe beam parameters Beam mode
2. maintenance issues version maintenance (driver down load) – responsibility of AB-CO, 24 h piquet support only available for full AB-CO systems.
26 March 2007 LEADE/ D. Swoboda 7
BPTX
Instrumentation Eqmt. LHC side
Eqmt. EXP Side
Application LHC side
Application EXP Side
cabling
Available Pt1_L installedPt1_R pendingPt2 pendingPt5_L installedPt5_R pendingPt8 installed
Pt8 okPt1 L okfollows LHC installation
none Analog signal BPIM[2]
Pt1_L okPt1_R pendingPt2 pendingPt5_L okPt5_R pendingPt8 ok
[2] Proposal for a Beam Phase and Intensity Monitor (LHCb 2006-055)
26 March 2007 LEADE/ D. Swoboda 8
BIC
Instrumentation Eqmt. LHC side
Eqmt. EXP Side
Application LHC side
Application EXP Side
cabling
1st H 07 1st H 07 CIBU avail. for test Mar07
Charge of EXP
Under way
1st H 07 1st H 07 1st H 07 Under way Under way
CIBU delivery to experiments expected now. LHC interlock system test provisionally planned for summer.
If beam permit flag generation not yet operational experiment need to simulate the signal to be sent to the CIBU.
Test requires 2 signals to be changed independently.
26 March 2007 LEADE/ D. Swoboda 9
cable end point in experiments System ALICE ATLAS CMS LHCb Totem LHCf
TTC SR2 (2275) - UX25/C26/36/6 (5+3)
4Y.03-02.A1 (5+2) USC55 (3524)S1E03 (5+2)[1]
UX85/3B09 Sharing CMS
Sharing ATLAS
BST SR2 (2275) (2)UX25/C26/36/6 (2)
4Y.03-02.A1(2*BOBR)
USC55 (3524)S1E03 (4)[2]
UX85/3B09 Sharing CMS
Sharing ATLAS
GMT C28/35 - DCS 4Y.03-02.A1(CTRV)???(CTRP)Y.15-02A1 for R. Spiwoks
USC55 (3524)S2B16 (CTRI)
UX85/3B09 ??? Sharing ATLAS
BPTX UX25/C28 (4x) 4Y.03-02.A1 (4 x) USC55 (3524)S1E08 (4x)
UX85/3B09 ??? Sharing ATLAS
BIS UX25/C28 4Y.03-02.A1 USC55 (3524)S1E08
UX85/3B09 USC55 (3524)S1E08
USA15/Y.26-05.A1 or Y.27-05.A1
MCS/MSS
UX25/C28 4Y.03-02.A1 USC55 (3524)rack tbd (1 CIBU) – Magnet[3]
UX85/3B09 na na
CMS General CommentOptical fibres (TTC, BST) installed by TS-EL-OF generally require a patch panel to terminate them. This cannot go in S1E03, but could
find place in S1E09? The installation of these same fibres have been requested of TS-EL-OF by Sophie Baron (PH/ESS).
[1] TTC Fibres for CMS go directly via the Machine Tunnel from Point 4 to Point 5, they do not pass the CCC/R as for the others[2] BST Fibres are two per ring[3] Original arrangement between B. Puccio (AB/CO) and E. Sbrissa (PH/DT1) was that E. Sbrissa would install the correct cable between the BIC and his CIBU. E. Sbrissa is ok with someone doing it for him, however, and will supply the final rack location ASAP.
26 March 2007 LEADE/ D. Swoboda 10
data exchange H/W in experiments System ALICE ATLAS CMS LHCb Totem LHCf
TTC 4Y.03-02.A1 (5+2) Sharing ATLAS
BST 4Y.03-02.A1(2*BOBR)
2x fanoutODIN
Sharing ATLAS
GMT[1] 1U pp/12lemo
4Y.03-02.A1 1U pp/12lemo1 VME/CTRV???(CTRP)
1U pp/12lemo
1U pp/12lemo1 VME/CTRV
Sharing ATLAS
BPTX 4Y.03-02.A1 (4 x) connectors 1N50PMD
BPIM[2]/3B09
Sharing ATLAS
BRAN DIP DIP DIP
BIS UX25/C28 (1 pp)1+1 CIBU
4Y.03-02.A12+1 CIBU
USC55 (3524)S1E08(1 pp) 1CIBU
UX85/3B09(2 pp)2 CIBU
USC55 (3524)S1E08 (1 CIBU) – XPS1E08 (1 CIBU) – Beam1S1E08 (1 CIBU) – Beam2
USA15/Y.26-05.A1 or Y.27-05.A1(1pp)1 CIBU
MCS/MSS UX25/C28 (1 pp)1 CIBU
4Y.03-02.A11 CIBU
USC55 (3524)(1 pp)1CIBU
UX85/3B09(1 pp)1 CIBU
na na
[1] Termination through 1U pp with 12 Lemo or Canon 9p.[2] Proposal for a Beam Phase and Intensity Monitor (LHCb 2006-055)
26 March 2007 LEADE/ D. Swoboda 11
cost of data exchange systems for experiments
System Eqmt. LHC side Eqmt. XP Side Appl. XP Side cabling
TTC foC Di: 1.3 kCHF/chAn: 8.5 kCHF/ch[1]
NN foC except: Splitting& conx.
BST In TTC In TTC NN foC except: Splitting& conx.
GMT foC xx kCHF (VME fully equipped)< 1kCHF CTR PCB
On request foC in surface bldg.Cu cable to XP rack
BPTX foC na NN foC
BRAN foC foC NN foC
BIS foC foC NN BIC to pp/CIBU = foC
MCS/MSS foC foC foC BIC to pp/CIBU = foC
[1] Computed prices including the price of the transmitters from SR4 to experiments
26 March 2007 LEADE/ D. Swoboda 12
Cabling schedule
[1] Cable type CMC50 replaced by CMA50.
System ALICE ATLAS CMS LHCb Totem
TTC Ok/splitting pending
OkOk/splitting pending
Ok/splitting pending
Sharing CMS
BST Ok/splitting pending
OkOk/splitting pending
Ok/splitting pending
Sharing CMS
GMT 11/06 -> 03/07
11/06 -> 03/07Y.15-02A1 pour Ralph Spiwoks ok
≥03/0710/06 -> 12/06
???
BPTX[1] 11/06 -> 03/07
Ok 10/06 ok ???
BRAN na na na na na
BIS 11/06 -> 03/07
11/06 -> 03/07 Tbd -> 03/0710/06 -> 12/06 03/07
MCS/MSS 11/06 11/06 03/07 10/06 na
Cable test 04/07 04/07 04/07 01/07
26 March 2007 LEADE/ D. Swoboda 13
Update (JC Guillaume 20/03/07)Area Cabling Status
Point 1 1) Câblage BPTX: Terminé.
2) Câblage Timing et BIC:
Câbles tirés, raccordements et tests en cours. / En principe, fini fin mars.
Point 2 1) Câblage ZDC détecteurs câbles CK50:
UA27: Tirage terminé. Connectique à faire / finie fin avril
UA23: Tirage en cours. Connectique à faire / finie fin avril
2) Câblage ZDC Alice:
UA27: Tirage terminé. Connectique à faire / finie mi-avril.
UA23: Tirage en cours. Connectique à faire / Finie fin avril.
3) Câblage BPTX:
UA27: Tirage terminé. Connectique à faire. / finie fin avril
UA23: Tirage terminé. Connectique à faire. / finie fin avril.
4) Câblage timing et BIC:
Câbles tirés; connectique à faire. / finie fin avril.
Point 5 1) Câblage BPTX: Fait par TS-LEA
2) Câblage timing et BIC:
Câbles tirés; connectique en cours. / finie fin avril.
Point 8 1) Tous les câbles demandés ont été tirés et testés.
26 March 2007 LEADE/ D. Swoboda 14
Low β triplet WPS
26 March 2007 LEADE/ D. Swoboda 15
Low β triplet monitoring
26 March 2007 LEADE/ D. Swoboda 16
Low β triplet monitoring detail