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A Military Application of CMOS Digital X-ray for High-Energy, High-Resolution and VERY LARGE Format

ASNT FALL CONFERENCE 2006. A Military Application of CMOS Digital X-ray for High-Energy, High-Resolution and VERY LARGE Format. John Pursley Envision Product Design LLC. Acknowledgements. John P. Cope US ARMY REDSTONE ARSENAL L&W RESEARCH. 1993 Image Intensifier with vidicon.

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A Military Application of CMOS Digital X-ray for High-Energy, High-Resolution and VERY LARGE Format

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  1. ASNT FALL CONFERENCE 2006 A Military Application of CMOS Digital X-ray for High-Energy, High-Resolution and VERY LARGE Format John Pursley Envision Product Design LLC

  2. Acknowledgements • John P. Cope • US ARMY REDSTONE ARSENAL • L&W RESEARCH

  3. 1993 Image Intensifier with vidicon 1995 MCP & cooled CCD imager 13 Year’s of Innovations in Digital X-Ray Imaging 1998 Amorphous silicon panel 2000 CMOS flat panel 2001 CMOS linear array 2002 CMOS scanners 2003 Real-time CMOS 2004 High-energy CMOS 2006 No Parallax CMOS Panel

  4. Redstone Arsenal Requirements High Energy Digital X-ray Imaging System Capable of handling and inspecting test items up to 16,000 pounds and up to 20 feet in length High output X-ray generator capable of adequate flux for imaging through 54” of solid propellant Capable of producing images with a spatial resolution of 80 microns

  5. Variety of Test Items 7” dia 13’ long 350 # POLARIS Stage 2 AMRAAM PAC 3 THAAD PATRIOT ATACMS 10” dia 17’ long 700 # 13” dia 20’ long 2000 # 16” dia 17’ long 2000 # 24” dia 13’ long 3700 # 54” dia 8’ long 9400 #

  6. X-ray Options • X-ray film • Image Intensifier (CCD) • Linear diode array (LDA) • Storage-phosphor plate (CR) • aSi Flat panel (DR) • CMOS linear array (DR) • CMOS flat panel (DR)

  7. CMOS Linear Array Characteristics for Rocket Inspection Project: • Unlimited image format • Performance at 9 Mv • High spatial resolution – 80 micron • Slot collimated for scatter rejection • Out-of-the-beam detector = long service life

  8. An Example of CMOS Service Life 2,500,000 large parts inspected at 350kv 14ma Over 10,000 hours of X-ray ON time

  9. Large Format, High Resolution, High Energy and No Parallax 3 “ to 5” carbon steel 15” x 96” object shot at 6 MV

  10. System Components • 9 MV Linear Accelerator • 36” CMOS Special High Energy Array • Rotating Precision Motion Stage for Array • Moving Platforms for Accelerator & Array • Rocket Handling System • Rotating Belts that conform to item size • Lifting Stands with precision movement • Imaging & Control Workstation

  11. 9 MV Linear Accelerator

  12. 36” CMOS High Energy Array

  13. Rotating Precision Motion Stage for CMOS Array

  14. Platforms for Linear Accelerator & Imaging SystemSkids moveable to change distance between source, object and detector

  15. Rocket Handling SystemRotating Belts & Lifting StandsStands moveable to accommodate rocket length and obstacles such as fins

  16. Synchronized ScanningVertical CMOS array and fan beam collimation

  17. Tangential Scanning in 36” incrementsHorizontal CMOS linear array and fan beam collimation

  18. Imaging & Control Workstation

  19. Conclusions • CMOS linear array technology provides Large Format and High Energy digital x-ray imaging in real-time. • Material handling systems can be integrated to accommodate items in a broad range of sizes and weights. • High spatial and contrast resolution meet the most demanding image quality requirements in some cases down to 1/1T. • Lack of parallax in the digital image allows accurate dimensional measurements and simplifies the application of automatic defect recognition (ADR) software. • Out-of-the-beam detector geometry extends detector life up to 20,000 hours service life, greatly reducing the total cost of ownership for the Q/A inspection system which then contributes to U.S. manufacturing competitiveness.

  20. Visit our web site for pictures, specifications, and sample images from CMOS systems. Also... some cool Alaska links! www.cmosxray.com

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