Real-time microvision system with three-dimensional integration structure

A number of two-dimensional LSIs (2D-LSIs) with the thickness of around 30 μm which amplify and convert image signals and perform some arithmetic operations are integrated vertically in order to achieve a real-time microvision system. This microvision system transfers the two-dimensional (2D) image data arrays as it is using high density vertical interconnections. So, the image information signals are processed in parallel in each LSI and the processings are performed in pipelines over all the system. In this study we design the test chip which performs edge detection by Laplacian operator. In CAD simulation, the processing time of the edge detection takes about 10 μsec using 2 μm CMOS design rule. In fabrication, grinding and chemical-mechanical polishing techniques are used to thin the wafer to 30 μm. The thinned wafer with buried interconnections is bonded vertically to a thick wafer through micro-bumps after careful alignment by the newly developed wafer aligner with the alignment tolerance of 1 μm. The microvision system with 3D integration structure can be fabricated by repeating such sequences