wpm & hls status and schedule franz peters, georg gassner slac / met
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Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 20081
WPM & HLS Status and ScheduleFranz Peters, Georg Gassner SLAC / MET
WPM & HLS Status and ScheduleFranz Peters, Georg Gassner SLAC / MET
Reminder Hardware Status Schedule
Reminder Hardware Status Schedule
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 20082
Reminder
Undulator Length = 132 Meter plus…
33 U-Segments need to be stable in a line within a few microns
X & Y- Motion of single U - Segments could be larger, eventually…
Vertical U-Position = f (Support temperature) = ~ 15 Micron/ºC
Unpredictable motions may occur by several reasons, as …
Undulator Length = 132 Meter plus…
33 U-Segments need to be stable in a line within a few microns
X & Y- Motion of single U - Segments could be larger, eventually…
Vertical U-Position = f (Support temperature) = ~ 15 Micron/ºC
Unpredictable motions may occur by several reasons, as …
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 20083
WPM = Wire Position Monitor
HLS = Hydro Leveling System
Conductive wire is stretched (140 m) inside a conductive tube (8 mm)
RF Signal (CW) is transmitted along this air isolated “coaxial cable”
RF loops inside the tube. Loop currents determines the wire position
Conductive wire is stretched (140 m) inside a conductive tube (8 mm)
RF Signal (CW) is transmitted along this air isolated “coaxial cable”
RF loops inside the tube. Loop currents determines the wire position
Pipe ½ filled with water. Water surface used as common reference
Capacitive sensors measure the distances to this common reference
Ultrasonic sensor detects distance of surface to under water plains
Pipe ½ filled with water. Water surface used as common reference
Capacitive sensors measure the distances to this common reference
Ultrasonic sensor detects distance of surface to under water plains
Reminder
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 20084
WPM measures:X & Y- Positions relative to two stretched wires
HLS measures:Y - Positions relative to the water surface
Common Task: X & Y Positon monitoring of U-Segments Resolution: < Micrometer Data rate: Every few minutes Operation: Continously, no drifts
116 mm111 mm
265 mmGoal: One micrometer stabilityThermally driven:15 micrometer / K
260
mm
245
mm
1400
mm
WPM & HLS will operate as one Alignment Diagnostic System, ADS
Reminder
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 20085
Reminder
ADS Position sensors at the girders
360
562
375
130
26
0
90
265
550
60
470
80
93
60
Girder Girder
HLS pots
WPM supports
2" Pipe
115
Quadrupole
Beam
H2O Level
50
M10
M6M6
170
245 245
245
Upper wire
Lower wire
Wire position monitor
Left Right
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 20086
ADS SensorsLeft to right:Wire Position Monitor- Four loops with SMA con.
Field distribution- 4 Loops around the wire
WPM gap view- Gap = 8 x 8 mm
Left to right:HLS Capacitive sensor- Shown, down side up
HLS Pot & Sensor- Pot with pipe adapter- Bracket to the girder- Sensor on top, ready to go
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 20087
HLS Hardware
Water pipes and pots
Bellows
Ultrasonic sensor
Capacitive sensor
Water pipe inside girder
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 20088
HLS Hardware
Integration of LTU beam line monitors Water refill station
Undulator
HLS Sensors
HLS Pipe
Beam dump
LTU beam line
WPM End station
Top view
HLS Sensors
HLS Pipe
Beam dump
LTU beam line
WPM End station
Undulator
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 20089
WPM Hardware
Monitors at a short break sectionWire tube support system
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 200810
WPM Hardware
Monitor cablingElectronics sub-station Wire position monitorMonitor signal cabling
U-1U-33
WPM Section 140 m
Undulator Segments Electronic Substation Initial Trajectory Section
E-2
Undulator Section 132 m
End Station
Beam direction
E-1
1 65
BPM s
123456
Signal cabling
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 200811
WPM Hardware
Wire End Station< Wire terminals< Aluminum supports Anocast stands (Granite + Epoxy)
Wire vibration needs to be minimized! First harmonic frequency ~ 0.5 Hz Coupling to the ground is crucial…
Dis
tanc
e to
flo
or 1
400
mm
Beam pipe
265
265
140 m wires
SideView
FrontView
TOPView
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 200812
HLS Status
HardwareLevel sensors 100% completed
Tube system 90% completed
Network & cables 80% completed
Sensor calibration 70% completed
HardwareLevel sensors 100% completed
Tube system 90% completed
Network & cables 80% completed
Sensor calibration 70% completed
SoftwareInterface with sensors completed and tested
Interface with LCLS controls defined and tested
Data exchange between data dump and analysis computer tested
Data analysis theory defined, but not coded
SoftwareInterface with sensors completed and tested
Interface with LCLS controls defined and tested
Data exchange between data dump and analysis computer tested
Data analysis theory defined, but not coded
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 200813
WPM Status
Wire tube support system 100% completed
Local computers & ADC Interfaces 100% completed
Monitor signal cable assemblies 100% completed
Wire end stations & terminals 90 % completed
Wire position monitors 90% completed
Wire tubes & tube connections 90% completed
Local electronics stations 80% completed
Signal processing & Data acquisition 70% completed
Software, Application & Analysis 50 % completed
Wire tube support system 100% completed
Local computers & ADC Interfaces 100% completed
Monitor signal cable assemblies 100% completed
Wire end stations & terminals 90 % completed
Wire position monitors 90% completed
Wire tubes & tube connections 90% completed
Local electronics stations 80% completed
Signal processing & Data acquisition 70% completed
Software, Application & Analysis 50 % completed
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 200814
ADS Schedule
Water tube system comes assembled with girders, installation June to 25/10/08
Installation of sensors and cable connections July to 25/10/08
HLS will be commissioned partly in sections of some girder July to November
Commissioning of entire HLS needs time after last girder is placed.
Water tube system comes assembled with girders, installation June to 25/10/08
Installation of sensors and cable connections July to 25/10/08
HLS will be commissioned partly in sections of some girder July to November
Commissioning of entire HLS needs time after last girder is placed.
HLS
Girders has to be in place, before wire tube installation can start June to 25/10/08
Installation of substations and cabling can be done any time July to 25/10/08
Due to stretched wires are needed, commissioning starts November 08
Pre-checks of the system will minimize, but not wipe out time for commissioning.
Girders has to be in place, before wire tube installation can start June to 25/10/08
Installation of substations and cabling can be done any time July to 25/10/08
Due to stretched wires are needed, commissioning starts November 08
Pre-checks of the system will minimize, but not wipe out time for commissioning.
WPM
In general
Schedule needs to be synchronized with installation of the Undulator SegmentsSchedule needs to be synchronized with installation of the Undulator Segments
Franz Peters, Georg GassnerWPM/HLS Status and Schedule fpet@slac.stanford.edu
June 17th, 200815
End of Presentation
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