1. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 1 EMU Alignment System Analog Data Analysis for ME+1yME+4 Stations Run: Aug 25-28, 2006 Magnetic field up to 4.0 Tesla Contents:  Z-sensors  R-sensors  Proximity sensors  Biaxial Inclinometers  Temperature sensors  Summary, plans Alignment Meeting, CERN Sept.19, 2006

2. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 2 The EMU Alignment Project task is to determine and monitor the position of CSC relative to each other and to the MAB. The alignment uncertainty should be comparable to the chamber resolution and it is defined as 75  m for ME1/2 and 150  m for the others stations. The temperature must be measured with ±0.1° C precision. Cable connection EMU Alignment system

3. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 3 Z-sensors Scale factor: - Z1 (Keyence LB-70) station ME+1 only: 1.01 +/- 0.1 V/ cm - Z1, Z2 (linear potentiometer) 0.93 +/- 0.01 1/ cm  42 Z-sensors: - 6 Keyence laser sensors - 36 potentiometers P1 - 15° P2 - 75° P3 - 135° P4 - 195° P5 - 255° P6 - 315° P1 P2 P3 P6 P5 P4 Z1 Z2 All (12) installed Z1 were broken during the disk closing. Only one Z1 sensor (ME+2, point 5) is probably good Z1 YE+3 YE+2 YE+1 Z2

4. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 4 Z Sensors: ME+1 & ME+2 Stations

5. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 5 Z Sensors: ME+3 & ME+4 Stations No Data

6. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 6 Z-1 Sensors: ME+1 Station 6 laser displacement sensors were mounted on theYE+1 disk but only 3 MABs on YB2. YE+1 ANSYS calculation (EMU TDR, page C7) shows a distortion in Z-direction of endcap disks (outer edges) for about 6 mm that is in good agreement with Z1 laser displacement sensor data for upper point 2 but for lower point 5 and 6 the disk bend deformations are less than predicted. No linear dependence verses magnetic field was observed Z1 P1 P2 P3 P6 P5 P4

7. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 7 Proximity Sensors (ME+1 Station) Pt. 2 Pt. 3 Pt. 4 Pt. 5 Pt. 1 Pt. 6 Proximity sensor Transfer Plate X Y S6 S5 S4 S3 S2 S1 S1-S6 Sectors Px1/1 Px1/2 Px2/1 Px2/2 Px6/1 Px6/2 Px1/1, Px2/1, Px3/1…. 36/1 Outer Ring Px1/2, Px2/2, Px3/2…. 36/2 Inner Ring P1 - 15° P2 - 75° P3 - 135° P4 - 195° P5 - 255° P6 - 315° Scale factor for proximity sensors: 0.918 +/- 0.003 1/ cm All system contain 72 Proximity sensors The first sensors Px1/1 and Px1//2 of Sector 1 mounted near edge of the first ME1/3 chamber at - 5 o

8. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 8 Proximity Sensors: ME+1 Station (Sector1-3) No data

9. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 9 Proximity Sensors: ME+1 Station (Sector4-6) Instability?

10. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 10 Chamber Displacements at 4.0T The distances between ME1/3 chambers increase with magnetic field and reached up to 700  m at 4.0T. A good correlation between aluminum Z-stoppers and proximity sensor positions was found.

11. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 11 Radial Sensors P1 - 15° P2 - 75° P3 - 135° P4 - 195° P5 - 255° P6 - 315° P6 P5 P4 P3 P2 P1 X Y R3 R2 ME1 Station R2 R1 ME2,3,4 Stations  42 R-sensors (LPX-50 potentiometers) Scale factor for R- sensors: 0.180 +/- 0.004 V/ cm

12. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 12 R- Sensors: ME+1 Station

13. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 13 R - Sensors: ME+2 Station

14. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 14 R - Sensors: ME+3 Station

15. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 15 Distance between chambers verses magnetic field At magnetic field of 4.0 T: - the largest displacements between chambers (ME+1 station) do not exceed ~ 700  m - chamber displacement relative to transfer plate is less than 300  m P6 P5 P4 P3 P2 P1 X Y

16. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 16 Inclinometers Scale factor: 0.246 +/- 0.015 V / Arc degree  14.3 mV / mRad  Inclinometers wedge shimmed to approximately Horizontal  +X rotation around a Z - vector  +Y rotation around an R - vector (pointing out) P1 - 15° P2 - 75° P3 - 135° P4 - 195° P5 - 255° P6 - 315° P1 P2 P3 P6 P5 P4 Z When the rotation is less than about 4 degrees, the direction and magnitude of the resultant tilt is quickly obtained from the vector sum of the X and Y tilt measurements. Inclinometer 2 Inclinometer 1 Y X

17. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 17 Inclinometers: ME+1 (Points 1-3)

18. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 18 Inclinometers: ME+1 (Points 4-6)

19. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 19 Inclinometers: ME+2 (Points 1-3)

20. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 20 Inclinometers: ME+2 (Points 4-6)

21. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 21 Inclinometers: ME+3 (Points 1-3)

22. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 22 Inclinometers: ME+3 (Points 4-6)

23. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 23 Inclinometers: ME+4 (Points 1-3)

24. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 24 Inclinometers: ME+4 (Points 4-6)

25. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 25 Inclinometers Results The tilt angle for ME+1 station at Point 2 Is very large (~ 4 mrad). Tilts for point 2 and 5 should be equal but have opposite signs? Need to check inclinometer mounting on the disks P6 P5 P4 P3 P2 P1 X Y Disk Deformation

26. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 26 Inclinometers Results Interpretation P6 P5 P4 P3 P2 P1 X Y Z P1 - 15° P2 - 75° P3 - 135° P4 - 195° P5 - 255° P6 - 315°

27. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 27 Temperature Measurements P1 - 15° P2 - 75° P3 - 135° P4 - 195° P5 - 255° P6 - 315° P1 P2 P3 P6 P5 P4 T1 T2 T3 Slope factor: T sensors: 1 degree K / 10 mV  72 thermocouple T-sensors (AD692) All installed temperature sensors are working and have reasonable data. Temperature variations are similar to day/night ambient temperature and do not exceed 2-3 degrees C. No difference in T1, T2 and T3 data for upper points (1-4) For lower points 5 and 6 (slice test chambers) there is a temperature variation between sensors of 2-3 degrees C and corresponds to a temperature distribution between the disk and the working chambers.

28. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 28 ME+1 Station: Temperature Variations

29. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 29 ME+2 Station: Temperature Measurements

30. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 30 ME+3 Station: Temperature Measurements

31. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 31 ME+4 Station: Temperature Measurements

32. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 32 Comparison Temperature Measurements

33. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 33 PX sensors: Temperature Correlation ME1/3 chamber position drift is about~35  m / o C

34. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 34 Summary  The measured displacement of YE+1 disk in Z direction is about 6 mm for point 2 and agreed with ANSYS calculations. Displacements for point 5 and 6 are lees for 2-3 mm. Non linear dependence displacement verses magnetic field was observed.  The distance between ME1/3 chambers (no overlapping) measured by proximity sensors is increased with field up to 700  m at 4.0 T. ME1/3 chamber position drift at 4.0 T verses of temperature is about of 35  m/ o C.  The R displacement between ME1/2 and ME1/3 chambers at 4.0T is about 600  m and less than 300  m for ME+2, 3 and 4 stations. The chamber displacements relative to transfer plates are small and do not exceed 100 -150  m at 4.0 T for all stations.  The inclinometer data show that tilt angle for station ME+1 measured for the ME1/2 chamber at Point 2 is about 4 mrad. This data need to compare with HSLM DCOPS data. For all inclinometers mounted on the transfer plates data are similar for all stations. Tilt angle for points 2 and 5 have the equal value but have to be opposite signs. Need to check inclinometer mounting position on the transfer plates.  All temperature sensors present similar results. A temperature variation is correlated with ambient day/night temperature and do not exceed of 2-3 C o.

35. Alignment Meeting, CERN, Sept 19, 2006O.Prokofiev 35 Plans for Phase 2 nd of MTCC Tests Hardware:  Restore analog readout to run a system for testing  Repair/replace broken sensors, electronics boards, cables, connectors  Check sensor mapping Software  Develop new software for analog readout and run readout from rack mount computer Data analysis  Continue data analysis for analog sensors.  Making a model of disk deformation, compare with final element analysis data