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Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 20061
Control System OverviewOctober 12, 2006
Hamid Shoaeefor the
LCLS Controls Group
OutlineGoals & Commissioning Schedule Injector Control System InstallationResponses to FAC ConcernsStatus updateSummary
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 20062
The focus in the past six months has been timely installation of the injector Controls
Complete the design of critical systems and follow through with system productionAccelerate procurement activities to ensure availability for installationAlign cable plant design and procurement with the project-wide installation scheduleCollaborate with the physicists to ensure the availability of required software tools for machine commissioning
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 20063
LCLS Electron Commissioning Schedule
July 24July 24 S20 ready for laser installationS20 ready for laser installationAug 29Aug 29 Laser installation completeLaser installation completeDec 18Dec 18 Virtual cathode fully characterized (ready to install gun)Virtual cathode fully characterized (ready to install gun)Dec 19Dec 19 RF gun installation starts (10 days) + pre-beam checkoutRF gun installation starts (10 days) + pre-beam checkoutDec 18-Jan 1Dec 18-Jan 1 HolidaysHolidaysJan 2Jan 2 VVS’s switched on (RF power available)VVS’s switched on (RF power available)Jan 12Jan 12 First laser UV-light on cathodeFirst laser UV-light on cathodeJan 12-Feb 4Jan 12-Feb 4 Electron commissioning in GTL and gun-spectrometer onlyElectron commissioning in GTL and gun-spectrometer onlyJan 12-Feb 4Jan 12-Feb 4 RF processing L0a, L0b, Tcav (and gun: already processed)RF processing L0a, L0b, Tcav (and gun: already processed)Feb 4Feb 4 Latest start for L1 and X-band processing (assumed 15 days)Latest start for L1 and X-band processing (assumed 15 days)Feb 5Feb 5 Beam into L0a, L0b and down to SAB – Beam into L0a, L0b and down to SAB – L0a,b proc. completeL0a,b proc. completeFeb 20Feb 20 Beam into L1 linac (to TD11 dump) - Beam into L1 linac (to TD11 dump) - L1, X-band proc. completeL1, X-band proc. complete~June~June Take beam down full linac (to BSY SL2 stopper)Take beam down full linac (to BSY SL2 stopper)
From P. Emma
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 20064
LCLS Accelerator and Compressor Schematic
SLAC linac tunnelSLAC linac tunnel research yardresearch yard
Linac-0Linac-0L L =6 m=6 m
Linac-1Linac-1L L 9 m9 m
rf rf 25°25°
Linac-2Linac-2L L 330 m330 mrf rf 41°41°
Linac-3Linac-3L L 550 m550 mrf rf 0° 0°
BC1BC1L L 6 m6 m
RR5656 39 mm39 mm
BC2BC2L L 22 m22 m
RR5656 25 mm25 mm DL2 DL2 L L =275 m=275 mRR56 56 0 0
DL1DL1L L 12 m12 mRR56 56 0 0
undulatorundulatorL L =130 m=130 m
6 MeV6 MeVz z 0.83 mm 0.83 mm 0.05 %0.05 %
135 MeV135 MeVz z 0.83 mm 0.83 mm 0.10 %0.10 %
250 MeV250 MeVz z 0.19 mm 0.19 mm 1.6 %1.6 %
4.30 GeV4.30 GeVz z 0.022 mm 0.022 mm 0.71 %0.71 %
13.6 GeV13.6 GeVz z 0.022 mm 0.022 mm 0.01 %0.01 %
Linac-Linac-XXL L =0.6 m=0.6 mrfrf= =
21-1b,c,d
...existinglinac
L0-a,b
rfrfgungun
21-3b24-6dX
25-1a30-8c
Commission in Jan. 2007Commission in Jan. 2007 Commission in Jan. 2008Commission in Jan. 2008
From P. Emma
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 20065
Pre-Beam Checkouts
Vault/Linac CheckoutsPower on access: Check polarity of magnets Read-backs , Motion controller: Exercise motion-control YAG/OTR camera images: Use Alignment laser to define screen center
Pre-Beam preparation Laser stabilization system Fiducializing of real cathode location w.r.t virtual cathode LLRF for Gun, L0a, L0b (Volt. feedback, Phase Lock) Start conditioning (Gun, L0a, L0b) if PPS ready
Dark current measurement if FC1 ready Vacuum pumps and gauges reading available
Feedback loops for gun temperature stabilization
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 20066
Injector Control System Installation Plan
Controls installation has taken place in several stages including:
Design, procurement and installation of the cable plant including trays, long haul DC and I&C cables, terminations, etc.
Phase 1 (Apr. ’06 thru Jun. ’06)Phase II (Aug. ’06 thru Dec. ’06)
Procurement, preparation and installation of the electronics racks.
Installation of electronics chassis, modules, and intra-rack wiring
Installation of the Controls software on the production servers
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 20067
Phase I Cable including Laser Room & LIT-01 Rack
-Terminate Cables
Phase II Cable Plant
-Install Trays, Cable
-Terminate Cable
..to BC1 Area
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 20068
Phase II Installation Scope - Gun to TD11
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 20069
Linac/ BC1 Housing Area
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200610
Phase I Cable/Tray was successfully completed
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200611
Cable Plant Phase II, Racks, Crates, etc.
Phase II cable plant has been successfully designed and documented
Davis-Bacon contract has been awarded.
The procurement and installation is currently in progress
All electronics racks have been received and installed in the field
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200612
PS Racks B024 Assembly Area
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200613
Vacuum Controls Racks in Sector 20
Most equipment has been installed in racks in Sector 20
All long haul cables installed and most connectors installed
Remaining work: PLC programming and EPICS databases – in progress
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200614
PPS/LSS Rack Field Installation
PPS/Laser Safety System (LSS) Field Installation (S20)
LSS active for Laser room.
PPS installation in process
CertificationDecember 18-24
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200615
Installation details will be presented in the breakout session
With a few exceptions the procurement of control components has been completedWhile the majority of subsystems will be installed on time, a few will be just in time delivery, including BPMs and Toroids electronics.Systems are typically checked out on test stands, and field installation will be done by Davis-Bacon contractors.
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200616
MCC, Networks, Servers, & Workstations
Production Systems DeliveredNetworks at S20 RF Hut & MCC: physical and wireless
LCLSDMZ, LCLS private, wirelessMCC infrastructure built: power & racksFirst group of LINUX RHEL4 Servers:
2 applications, 2 EPICS archiver
Control Room Linux Workstation – 4 (24-inch) monitor & 2 monitor configurations
Control Room StationsS20 Laser Room is actively in use to commission laserMain Control Center (MCC) Control Room space is allocated, installing 3 Workstations & laptop work areasMCC Foyer: space for SUNray & laptop work areas
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200618
Control Room Infrastructure
Working on applications and migrating to production environments.Error LogsArtemis LCLS area existsOperations and Physics E-logs createdCyber Security Protection Program (CSPP) Update Completed – MCC enclave included LCLS accelerator controlsAIP network upgrade at MCC for gigabit traffic to support digital control room
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200619
FAC Response 1 – MPS
The controls group made the wise decision to extend the 1553 MPS system for the injector turn-on and will later continue development of the newer MPS system (which is needed to respond in 1 pulse rather than the 3 pulse response time of the 1553 MPS system). An update on MPS progress should be presented at the next FAC meeting. In addition to implementing the 1553 system, further work should be done on the new system.
There will be a presentation on the MPS in the breakout session.
Work has been done on the design of the linac MPS and a design review will be held in November
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200620
FAC Response 2 – BPM
They still have a tight schedule. There has been progress since the last review, but no decision has been taken on which digitizer to use yet. This decision should be taken very soon.
The schedule is still very tight. However we have selected a digitizer and the details will be presented at the breakout session
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200621
FAC Response 3 – Cost, Schedule, cable plant concerns
Management has changed. [Hamid] has made some changes and does think they can support an on time injector commissioning with some temporary solutions. We agree with the latter statement and believe the schedule will be very tight. Particular attention is needed for the cables in the linac which must be installed in the coming shutdown. We support Hamid’s plan to rework the schedule and cost estimates.
Linac Cable plant installation is proceeding well and will be completed during the shutdown.
There has been a bottom up cost estimate of the control system
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200622
FAC Response 4 – Use of commercial solutions
It seems like now there is less emphasis on using COTS solutions. Increase that emphasis please. For example the plan has been to use a commercial card for the timing system, but now they are thinking of getting rights to the design and modifying it to remove unused functionality and reduce cost. We highly doubt this would be worth the engineering effort.
All timing system electronics have been procured from the manufacturer. There are no plans to produce them locally.
With a few exceptions, most of the controls electronics consist of commercial boards: exceptions include BPM & Toroid AFE, LLRF.
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200623
FAC Response 5 – Embedded IOC
Different groups may be using different embedded IOCs. See if they can be standardized. Don’t do this if it is so late in the development cycle that the change would be highly disruptive.
A single embedded IOC board is being used on a number of systems including BPM, Toroid, BLM, LLRF
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200624
FAC Response 6 – Management
Controls would benefit from a full time deputy and designated technical leads for each technical area. The latter would be people who spend 25% of their time on management and do technical work the rest of the time.
The recently revised controls budget includes a deputy position which will be posted shortly.
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200625
Update April 2006 – October 2006 (1)
Long Haul cable plant design is complete and reviewed. Installation is in progress.
Magnet Controls & PS HW & SW StatusFinal Design Review conducted successfully6 new racks Installed in Sector 20: Sep 24, 2006
EPICS Software Almost all functionality is implemented and tested
SLC-aware magnet control and monitor - done
provides interface between magnet devices and the legacy control system
System Integration on Nov 10, 2006
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200626
Magnet Control Display
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200627
Update April 2006 – October 2006Safety Systems
PPSLCLS Injector PPS Reviews are CompleteRSC ‘conditional approval’ obtainedHardware drawings, wiring diagrams are complete; installation in progress
BCSPrevents radiation from ‘escaping’ the shielding enclosureDirect measurements of radiation or beam lossProtection of safety-critical collimators and stoppers Hardware is nearing readiness for installationOriginal ‘Mode-switching’ BCS proposal has been sidelined for nowPropose an ‘Interim BCS’ where conservatively “All BCS faults shut-off all Guns.”
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200628
Update April 2006 – October 2006Safety Systems
Interim MPS Using existing linac infrastructure (1553 MPS)Adding new signals and devicesInterim MPS will be used for gating beam
Single Shot ModeBurst Mode
MPS algorithm is responsible for both LCLS and CID beamPockels cell and MPS mechanical shutter limit laser rate on cathodeHardware procurement is almost complete and installation will be completed in early December
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200629
The injector laser stabilization system includes two feedback loops
The first loop includes two mirrors, each with two actuators and one camera. It stabilizes laser traveling through a 10-meter tubeThe second loop includes one mirror with two actuators and adjusts the laser position on the cathode.
The IOC reads the image from camera, calculates the laser’s position error and applies a correction to the actuators.The loop operates @ 1 Hz, and the camera is synced to 120Hz.
The prototype of the first loop has been tested for several months and works well.
Injection Laser Control System
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200630
The first loop
Actuator A1
Camera A
Laser
Actuator A2
Actuator B1
Actuator B2
Camera B
Spiricon
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200631
Motion: Newport XPSC8 Motion Controller
Pentium 4 PC basedvxWorks poweredSupport up to eight motorsEthernet control interfaceDigital I/O and analog I/O built-in
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200632
Image Acquisition
PULNiX TM-6710CL cameraCCD: 1/2”
Shutter: Full Frame
UV option: Yes
Resolution: 648x484
Progressive: Yes
External Trigger: Yes
Full scan: 120Hz
Analog Output: Yes
Cameralink: Yes
EDT PMC DV C-LinkCameralink compatible32bit/66MHz PCI
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200633
Snapshot
EDM screen of two cameras
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200634
OTR/YAG systemsWe have a total of 21 OTR/YAGs of which 14 are needed for commissioning
The equipment consists ofUniqVision UP900CL-12B camera
EDT PMC Cameralink® interface
EDT RCX Cameralink®/Fiber converter
Profile Monitor Controller is built in SLAC to handle pneumatic, filter, lens and bulbs
Acromag Digital I/O module IP445/440 are used in IOC to interface with Profile Monitor Controller.
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200635
Toroid/Faraday Cup
We have a total 14 Toroids and 2 Faraday cups of which 6 Toroids and 2 Faraday cups are needed for commissioning
Beam Charge Monitor Chassis is built in SLAC to handle signal conditioning, integration and MPS interface.
Acromag IP330 ADC is used in IOC to interface with Beam Charge Monitor Chassis. Since the existing EPICS driver did not match our requirement, a brand new driver developed.
4-Channel fast ADC is built at SLAC to image dark current for FC01, FCG1 and IM01, IM02(optional).
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200636
Bunch Length Monitor
There are 2 Bunch Length Monitors needed for commissioning
BL11, BL12
The amplifier is built in SLAC to handle signal conditioning.
4-Channel fast ADC is built in SLAC to read the signal.
A Solenoid Controller is built in SLAC to handle filters and pneumatic actuators.
Acromag Digital I/O module IP445/440 are used in IOC to interface with Solenoid Controller.
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200637
Wire Scanner Detector Locations
7 Wire Scanners for Injection CommissioningHardware Assembled, Tested (without beam), Calibrated, and currently being installedSoftware is 80% completeRequire further testing of PMTs and Ion Chambers for acquisition of Wire data
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200638
Injection Wire Scanners after Assembly
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200639
Wire Scanner Operator Displays
Scanner ControlOptions
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200640
LLRF Distribution Schedule
Racks to be installed in RF Hut – next week
RF Cables (On-site) to be pulled – mid October
RF Chassis – 50% complete10 more chassis required for turn on, to be installed by December
Remainder by March 2007
Testing of RF distribution system - DecemberPhase measurements of cables / looped
Ready for turn-on – Mid December
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200641
LLRF Distribution Scope of Work – Injector Turn-on
Sector 20 RF distribution systemPhase and Amplitude Controllers (PACs) – 5 unitsPhase and Amplitude Detectors (PAD) – 2 unitsPhased Locked Oscillator – Use SPPS unit for Turn OnLO Generator – Complete - 50% tested – looks good so farMultiplier – 476MHz to 2856MHz – Complete 75% Tested4 distribution chassis – Complete 102MHz, 2056MHz, 2830.5MHzLaser Phase Measurement – in Design, diagnostic, not required for turn on – Laser group wants it next week. Distribution Amplifiers – 10W, 2850MHz due Oct 25, 102MHz Amp being built
LLRF Control and Monitor System1 kW Solid State S-Band Amplifiers – 5 units – Design Complete, In FabPAD – 12 units – 6 required for turn on PAC – 6 unitsBunch Length Monitor Interface – awaiting Specs
Beam Phase CavityWill use single channel of PAD ChassisPill box cavity with 2 probes and 4 tuners – 2805MHz 3 units Complete
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200642
High Level Applications
Through interactions with LCLS physicists we have tried to identify the required software for injector commissioning
Prio
rity
Injector Devices to be Scanned by
Correlation Plots
1 Magnet settings (BDES) XCOR, YCOR,
SOLN, QUAD, BEND, BTRM, LGPS
1 RF phase settings (PDES?) for gun, L0a,
L0b, L1, Lx, and TCAV0
1 RF amplitude settings (VDES?) for gun,
L0a, L0b, L1, Lx, and TCAV0
1 Drive-laser x, y pointing on cathode (or
feedback set-point)?
2 BC1 chicane-mover setting
2 BC1 collimator (CE11) jaw settings
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200643
High Level Applications
Required high level applications softwareCorrelation PlotsBuffered AcquisitionOrbit Applications MultiknobImage ManagementEmittance, Slice Emittance, Beta MatchingEnergy Spread and Slice Energy SpreadBunch Length MeasurementOn-line model Configuration management
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200644
Many application are available from the legacy control system
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200645
Applications provided by the SCP
A large suite of applications are available from the SLC control program including correlations plot, orbit control, modeling, etc.
The SLC-aware IOC provides beam synchronous data to Buffered Acquisition and Correlation Plots from a number of sources including
BPM, BLEN, PMT, LLRF, Faraday Cups, Toroids, some Laser devices
Applications provided in MATLABImage ManagementBunch Length MeasurementEmittance and Energy Application
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200647
Next Six MonthsLinac MPS designCable plantPS procurementLinac BPMXESLUSI
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200648
Breakout Session 4 – CONTROLSLocation – Redwood C, Bldg 48
11:30am Controls Organization Overview H. Shoaee12:00pm Injector/Linac Controls Installation R. Fuller12:30 Lunch (FAC members only) 1:30pm High-Level Applications & Feedback D. Fairley 2:00pm Timing Systems Update P. Krejcik 2:30pm PLC-based PPS M. Saleski 3:00pm BPM Update S. Smith 3:30pm Break 4:00pm Machine Protection System S. Norum
Hamid Shoaee
LCLS Facility Advisory Committee [email protected]
October 200649
ConclusionsGreat progress has been made in the past six months towards readiness for injector installationWhile the majority of Controls subsystems will be installed on time, a few will be just in time deliveryAn ETC exercise has identified and fixed a number shortcomings in the baseline budgetThe collaboration with other departments at SLAC has proven very productiveWhile commissioning the injector, we need to be aware of the installation schedule for the rest of the machine including the experimental areasThrough collaboration with the physics group are ensuring the availability of required applications software for injector commissioning.