Abstract

This study explores a bus-based static volumetric (SV) three-dimensional (3D) active matrix display (AMD) with a one-dimensional (1D) connection. The 1D connection enabled implementation by reducing the physical structure and electrical connection of the 3D display. In the bus-based display system, each light-emitting diode (LED) is turned on or off according to the frame rate of the video. A prototype design demonstrated a system with a controller chip size of 1.1 mm x 0.9 mm manufactured by a 0.35 μm CMOS process, an LED chip size of 1.0 mm x 1.0 mm, and a four-wire bus of 4.4 mm in width and 1.1 mm in thickness.

© 2012 IEEE

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References

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2011 (1)

2009 (1)

2005 (2)

N. A. Dodgson, "Autostereoscopic 3D displays," Computer 8, 31-36 (2005).

G. E. Favalora, "Volumetric 3D displays and application infrastructure," Computer 8, 37-44 (2005).

Computer (2)

N. A. Dodgson, "Autostereoscopic 3D displays," Computer 8, 31-36 (2005).

G. E. Favalora, "Volumetric 3D displays and application infrastructure," Computer 8, 37-44 (2005).

J. Display Technol. (2)

Other (6)

B. G. Blundell, A. J. Schwarz, Volumetric Three-Dimensional Display System (Wiley, 2000).

B. G. Blundell, Enhanced Visualization: Making Space for 3-D Images (Wiley Interscience, 2007).

G. G. Mueller, K. J. Dowling, F. M. Morgan, LED package methods and system U.S. Patent 7?646?029 (2010).

J. S. Callahan, Color tunable illumination device U.S. Patent 7?327?337 (2008).

F. M. Morgan, Methods and apparatus for controlling devices in a networked lighting system U.S. Patent 7?253?566 (2007).

S. Hall, G. Hall, J. McCall, High-Speed Digital System Design, a Handbook of Interconnect Theory and Design Practices (Wiley, 2000).

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