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Experience on Vibration Isolation System R. Sugahara KEK and Mika Masuzawa (1), Hiroshi Yamaoka (1), Yasuo Higashi (1) Yuichi Morita (2) and Satoru Yamashita.

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Presentation on theme: "Experience on Vibration Isolation System R. Sugahara KEK and Mika Masuzawa (1), Hiroshi Yamaoka (1), Yasuo Higashi (1) Yuichi Morita (2) and Satoru Yamashita."— Presentation transcript:

1 Experience on Vibration Isolation System R. Sugahara KEK and Mika Masuzawa (1), Hiroshi Yamaoka (1), Yasuo Higashi (1) Yuichi Morita (2) and Satoru Yamashita (2), (1) High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki (2) International Center for Elementary Particle Physics (ICEPP), Tokyo University ILC S&A Group Meeting at DESY 29 May, 2007

2 1. Introduction (ground motion at ILC site) 2. Vibration isolation table commercially available 3. Vibration isolation table developed at KEK 4. Summary

3 Beam size at ILC-IP (nominal value) is 6 nm in vertical direction and 640 nm in horizontal direction --> Stability of final quadrupole magnets should be 1nm or higher in vertical direction Amplitude of ground motion is bigger than 1nm in low frequency region --> What is the frequency region we should care? 1. Introduction

4 (1) KEK site..... soft ground - Diluvium in Kanto plane (alternative layers of sand, gravels and clay) - Measured on the ground surface and in the KEKB accelerator tunnel (10m deep underground) - There is a main public road about 1km far from the measurement place. (2) SPring-8 (8 GeV synchrotron light source lab.)..... constructed on hard bedrock - Kamigori metagabbro rock area - Measured on the bedrock near to the accelerator ring 1-1. Ground motion in various grounds (See Paper [1] in detail)

5 (3) Mitsuse road tunnel in Sefri area..... granite rock area - Penetrating Sefuri mountain chain (granite rock) - Located in border between Fukuoka and Saga prefectures - Measured at a point about 10m far from near edge of the road on the concrete floor in a shelter area, which is located about 800m inner from the entrance of the tunnel. (4) Esashi area..... granite rock area - Measured in Mizusawa Earth Tide Observatory About 150m long horizontal tunnel constructed in Abara mountain (granite rock) - Measuremed on a granite base plate fixed on the bedrock.

6 Fig.1 PSD (Power Spectrum Density) measured in 5 areas. Fig.2 Integrated PSD measured in 5 areas. (a)(b) (c)(d) 2. Ground Motion in Various Grounds Daytime Night-time

7 ( From TESLA TDR ) PSD Integrated PSD HERA, KEK SLAC CERN, ILC site candidates in Japan Main Linac BDS area Site GM C is OK C/3 or 3*B Mechanical noise < 30nm < 10nm

8 - An active vibration isolation system was made at KEK in order to have some experience on vibration isolation technique. One of essential techniques to future linear colliders. - Principle of control is almost the same to those commercially sold 1200x1200 mm 2 and 497mm high Weight is 1300 kg. It can bear 500kg. 2. Vibration isolation table-I (See Paper [2] in detail)

9 - A pair of horizontal and vertical actuators are installed to each of four pillars as shown by violet arrows. Two actuators for X-movement, two for Y and four for Z. - Those actuators can control not only parallel movements but also rotations around X, Y and Z axis. - Those actuators are pneumatic control valve type with 0.3 MPa air.

10 Six acceleration sensors to table (shown by red arrows) One for X, two for Y and three for Z Six displacement sensors to measure relative displacement between table and base (shown by black arrows) One for X, two for Y and three for Z Three acceleration sensors to base Each for X, Y and Z. ----- Acceleration sensors have resolution 0.1 mGal and frequency range 0.1 - 200Hz Displacement sensors have resolution 5  m. Sensors:

11 Vibration of floor and table (a) Floor (b) Without air spring (c) With air spring (passive mode) (d) Active mode X Y Z X Y Z X Y Z X Y Z

12 (a) Without air spring (b) With air spring (passive mode) (c) Active mode X Y Z X Y Z X Y Z PSD ratio of vibration of table to that of floor

13 As the feedback is based on the signal from seismometers, slow speed displacement cannot be eliminated. The system itself sometimes causes drift. This system is very sensitive to sound noise. --> How about the feedback system based on the signal from displacement sensors having speed about 10 Hz and the resolution 1nm? Problems

14 CAM Mover Stage PIEZO Mover Stage 3. Vibration isolation table-II (See Paper [3] in detail) X Y V Beam direction

15 Specification Mass350 kg MaterialSUS303 Load limit700 kg Two stage mover to achieve wide moving range and extra-high precision CAM mover stage -3 CAM shafts with motors -Moving direction3 directions (X, V and  y) -Moving range4.5mm -Precision0.1  m Piezo mover stage -6 piezoelectric transducers 3 for vertical and 3 for horizontal direction --> Able to adjust X, Y, V,  x,  y and  v -Moving range0.4  m -Resolution1 nm

16 Connecting arm 3 motors Shafts with offsets motor X V Top table moves in X, V and  y directions Rotation axis Center of the CAM shaft Cam mover

17 stoppers Cam mover stage lower the natural frequency to 45Hz Stoppers were installed to make it more rigid Problem!

18 Natural frequency with/without of stoppers Vertical directionX direction Vertical direction Red: on the table Blue: on the floor With stoppers Without stoppers 30, 50, 60Hz 65Hz 50, 60Hz over 100Hz Cam mover stage became more rigid!

19 3 piezos for vertical motion and 3 piezos for horizontal motion Table moves in X, Y, V,  x,  y and  v directions Cross sectional view at W-W spring structure Piezoelectric mover Enlarged view W W

20 12nm Resolution 1 or 2nm can be expected Time (sec) Movement of table (  m) Response speed of piezoelectric transducer is 56 nm/msec Piezo resolution and response speed

21 Summary Stabilization of 1nm level is required for final quadrupole magnets at ILC-IP Amplitude of GM exceeds 1nm in the frequency region less than about 10Hz at the ILC candidate sites except for DESY site Vibration isolation table (VIT) was fabricated and its performance was tested In this test following problems were found: (1) VIT cannot do anythig for low frequency movement, because VIT utilizes seismometers in its feedback or feed forward system. (2) VIT itself drifts sometimes (3) VIT is sensitive to sound. System has to be covered with acoustic material. Instead of VIT, high speed and high resolution mover was developed to damp GM in the frequency region lower than 10Hz Resolution of 1nm level and speed of 1kHz can be expected. More study is going on.

22 [1] "Ground Motion Measurement and Vibration Suppression at KEK", Ryuhei Sugahara et al. KEK-PREPRINT-2005-77, Nov 2005. 13pp; Contributed to the Workshop on Ambient Ground Motion and Civil Engineering for Low Electron Storage Ring, NSRRC, Hsinchu, Taiwan, July 21-22, 2005. [2] "PERFORMANCE OF AN ACTIVE VIBRATION ISOLATION SYSTEM", R. Sugahara, M. Masuzawa, H. Yamaoka, 8th International Workshop on Accelerator Alignment, CERN, Geneva, Switzerland, October 4-7, 2004; KEK-PREPRINT-2004-64, Nov 2004. 9pp. [3] "Development of a mover having one nanometer precision and 4mm moving range" Y. Morita, S. Yamashita (Tokyo U., ICEPP), Y. Higashi, M. Masuzawa, R. Sugahara, H. Yamaoka (KEK, Tsukuba), KEK-PREPRINT- 2006-42, Nov 2006, 11pp; Proceedings of 9th International Workshop on Accelerator Alignment (IWAA 06), California, U.S.A. 26-29 Sep 2006, pp TH003. References

23 >>

24 Instruments VSE355G2 of Tokyo Sokushin Co., Ltd. Velocity sensor Used in KEK and SPring-8 areas f-range 0.012 - 70Hz Output 2.5V/kine STS-2 of Streckeisen Velocity sensor Used in Sefuri and Esashi areas f-range 0.008 - 50Hz Output 15V/kine * kine = cm/sec

25 (a) Time series plot for floor (b) Time series plot for table in passive mode with G# sounds (f=415.3Hz) (c) PSD for vibration of table X Y Z X Y Z X Y Z

26 Sampling rate is 2.54kHz For 10 seconds Standard deviation is 2.4nm A capacitive sensor is used to examine the property of the piezoelectric transducers Capacitive sensor Noise of the capacitive sensor

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