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Precision Positioning

The Excessive Humidity Effect on. Capacitive Distance Sensors for. Precision Positioning. June 28 th , 2010. Wijnand Harmsen, PME – Mechatronic System Design. Delft University of Technology. Challenge the future. Precision Positioning. Position sensor Contactless Resolution

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Precision Positioning

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  1. The Excessive Humidity Effect on Capacitive Distance Sensors for Precision Positioning June 28th ,2010 Wijnand Harmsen, PME – Mechatronic System Design Delft University of Technology Challenge the future

  2. Precision Positioning • Position sensor • Contactless • Resolution • Accuracy • Sensor volume Introduction

  3. transmitting electrode 22mm Electrode spacing d50 µm Capacitive Distance Sensor sensing electrode readout Resolution: <1 nm, Accuracy: <10 nm Introduction

  4. transmitting electrode 200-800 nm The Excessive Humidity Effect sensing electrode readout Resolution: <1 nm, Accuracy: <10 nm Introduction

  5. To find a relation between the change in humidity and the readout of the capacitive sensor and to find how this relation depends on the adsorption of water on the capacitive electrodes. Research Goal ? Introduction

  6. Outline • Water layers • Measurement setup • Humidity response • Conclusions & recommendations Water layers / Setup / Humidity response / Conclusions

  7. Water layers Adsorption 0.6 nm www.nasa.gov 0.3 nm sensing electrode Water layers / Setup / Humidity response / Conclusions

  8. Water layers Adsorption transmitting electrode sensing electrode Water layers / Setup / Humidity response / Conclusions

  9. Water layers Measurement Max. water layer thickness • Indirect • Weight 6 nm • Polarization 1 nm • Attraction force 100 nm • Capacitive (el. field) 200-800 nm Worldpress.com Wang & Kido, 2003 Schwartz, 1994 Motschmann & Teppner, 2001 Water layers / Setup / Humidity response / Conclusions

  10. Measurement Setup Requirements Requirement • Offset / gain error • Relative / absolute humidity • Thickness of 1-800 nm • Multiple distances • Different temperatures • 1 nm resolution • 1 nm stability Double measurement setup Sensing el. 25°C 50% RH 35°C 50% RH Transmitting electrode Water layers / Setup / Humidity response / Conclusions

  11. Measurement Setup Capacitive measurement • Multiple distances • Different temperatures • 1 nm resolution • 1 nm stability Transmitting electrode 50 µm Sensing el. Insulator Conductor Water layers / Setup / Humidity response / Conclusions

  12. Measurement Setup Capacitive measurement • Multiple distances • Different temperatures • 1 nm resolution • 1 nm stability Insulator Conductor Water layers / Setup / Humidity response / Conclusions

  13. Measurement Setup Reference measurement • Multiple distances • Different temperatures • 1 nm resolution • 1 nm stability Camera Laser d Water layers / Setup / Humidity response / Conclusions

  14. Measurement Setup Double measurement setup • Multiple distances • Different temperatures • 1 nm resolution • 1 nm stability Camera Laser Water layers / Setup / Humidity response / Conclusions

  15. Measurement Setup Double measurement setup • Multiple distances • Different temperatures • 1 nm resolution • 1 nm stability Water layers / Setup / Humidity response / Conclusions

  16. Measurement Setup Double measurement setup • Multiple distances • Different temperatures • 1 nm resolution • 1 nm stability Camera Laser Water layers / Setup / Humidity response / Conclusions

  17. Humidity response Input Water layers / Setup/ Humidity response / Conclusions

  18. Humidity response Measurements Water layers / Setup/ Humidity response / Conclusions

  19. Humidity response Measurements Water layers / Setup/ Humidity response / Conclusions

  20. Humidity response Water layer presence • Water • Measurement distance • Temperature • Optical measurement • Time response • Water • Optical measurement • Time response Water layers / Setup/ Humidity response / Conclusions

  21. Humidity response Optical measurement • Water • Optical measurement • Time response Water layers / Setup/ Humidity response / Conclusions

  22. Humidity response Optical measurement • Water • Optical measurement • Time response Water layers / Setup/ Humidity response / Conclusions

  23. Humidity response Time response • Water • Optical measurement • Time response Water layers / Setup/ Humidity response / Conclusions

  24. Humidity response Time response • Water • Optical measurement • Time response Water layers / Setup/ Humidity response / Conclusions

  25. Conclusions • Humidity - Capacitive sensor readout • Humidity - Water adsorption • Capacitive precision measurements will be even more precise Water layers / Setup/ Humidity response / Conclusions

  26. Conclusions Recommendations • Different materials • Water layer influence on optical measurement • Nonlinear time dependency Water layers / Setup/ Humidity response / Conclusions

  27. Questions

  28. Marek & Straub, 2001

  29. Water layers / Setup/ Humidity response / Conclusions

  30. Water layers Disturbance

  31. Measurement Setup Reference measurement Water layers / Setup / Humidity response / Conclusions

  32. Material type • Surface roughness • Contamination Water layers / Setup/ Humidity response / Conclusions

  33. Water layers / Setup/ Humidity response / Conclusions

  34. Wang & Kido 2003 Water layers / Setup/ Humidity response / Conclusions

  35. Water layers / Setup/ Humidity response / Conclusions

  36. Humidity response Water layers / Setup/ Humidity response / Conclusions

  37. Drinks: Next Friday 21:00 “De Ruif”

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