XTCAV X-Band Transverse Deflecting Cavity Project Overview
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Transcript of XTCAV X-Band Transverse Deflecting Cavity Project Overview
XTCAVX-Band Transverse Deflecting Cavity Project Overview
Patrick Krejcik
Yuantao Ding, Joe Frisch
Layout of the Undulator to Dump Beam Line
OTRDMP
Simulation example - Yuantao Ding low charge 20pC soft x-rays
head
FEL ON FEL OFF
X-ray “measurement”Current “measurement”
XTCAV Proposed LocationPenetrationPenetration to B921
Conceptual sketch of the x-band structure and
waveguide on the beam line.
Structure Fabrication
• One structure built and tested• Second structure
• Support stand, beam line and vacuum installation
• ~$390k
Item Shop laborDirect labor M&S
Program support Indirects Total
Fab 2nd deflector structure $98,448 $16,800 $10,000 $1,680 $61,743 $188,671 1 m
B921 and undulator tunnel elevation view showing penetration for waveguide to the XTCAV
Excerpt from the floor plan of B921 with proposed modulator and klystron locations
B921 floor space for modulator and klystron
Penetration
B921 cross-section showing available elevation with respect to cable trays and ceiling
Commercially available Modulator installation housing the SLAC XL4 klystron.
• Much better pulse stability than SLAC modulator: 30 ppm versus 100 ppm• Complete system houses klystron, magnet, oil tank and output transformer• EPICS controls interface• “turn-key” system purchase price ~$650k• LCLS motivated to evaluate this modulator for other applications e.g. L1S
• Also purchased by LLNL, Trieste, CLS, CERN …
Output from the klystron goes through a mode converter to circular waveguide for lower power loss
Fabrication and installation of waveguide components: including converters splitters, couplers, loads and vacuum components,
all based on existing SLAC X-band designs
~$365k
LLRF Phase reference– Share the low-noise 476 MHz heliax from the linac
with the beam phase monitor– Beam based feedback corrects slow drifts
476 MHz
Cavity
XTCAV
EPICS Controls• LLRF - (next slide)• Vacuum - status of new pumps, gauges and valves• Profile Monitor OTRDMP - present camera is only 10 Hz (upgrade?)• Feedback
– orbit at BPMUE1, BPMUE2 and BPMUE3 after the XTCAV to stabilize the RF phase of cavity and keep the bunch at the zero phase crossing
• PPS– Modulator interlocked to Access state– Review to show existing BTMs give adequate coverage
• BCS– New spoiler at end of XTCAV– Review to show existing PICs give adequate coverage
• MPS– Set threshold of MPS BLMs lower than BCS PICs
Why PPS, BCS and MPS are important• Beam at the wrong phase can be kicked by up
to 10 mrad– Lowest energy beam, highest amplitude RF, phase at
crest• Beam leaves the beam pipe within the XTCAV
already• Existing safety systems
have large acceptance angle. e.g. BTMs
LLRF EPICS Controls• Use LCLS PADs and PACs with EPICS IOC and BSA• Use either MKSU II for klystron and modulator interlocks, or
Scandinova integrated controls• In the linac CAMAC PDU still provides timing to the modulator
via the PIOP module• Consider the LLRF control system as a whole:
– The XTCAV will be the first stand-alone RF station with EPICS-only controls– There are choices of platforms on which to implement EPICS
• Linac Phase I upgrade with EPICS driver for CAMAC• Replace CAMAC modules with VME modules and EPICS timing, similar to existing EPICS architecture.• Develop a new mTCA platform
– Need to be able to this in < 2 years– The choice we make here will set a precedent for the LCLS-2 injector project
Cost SummarySystem Estimated Cost
Including Indirects
Fabrication of second XTCAV structure $126,928 $188,671
Mechanical and vacuum installation $390,240 $390,240Waveguide system $365,200 $564,900Klystron and focusing magnet $492,227 $690,675Modulator and klystron tank $745,000 $855,000Electrical AC Service $115,000 $168,130Cooling systems $128,000 $157,564LLRF Drive system $271,500 $334,295LLRF controls $352,000 $505,027PPS, BCS and MPS $100,000 $150,000Profile Monitor $20,000 $30,000 Total $3,106,095 $4,034,502Including 25% Contingency $5,043,128