Laser material removal methods and apparatus
First Claim
1. An apparatus for material removal, comprising:
- a first robot configured to transfer a substrate having a dielectric layer deposited on a first surface thereof from an input region to one of a plurality of support features on a substrate transport surface;
a vision system configured to detect an actual position of the substrate and communicate information regarding the actual position to a system controller;
a first laser scanner positioned to remove a portion of the dielectric layer in a desired pattern, wherein the system controller is configured to determine an offset of the actual position with respect to an expected position of the substrate and adjust either the first robot or the laser scanner to correct for the offset; and
an automation system configured to transport the substrate having a patterned dielectric layer from the first laser scanner to a deposition chamber configured to deposit a conducting layer over the dielectric layer.
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Accused Products
Abstract
Embodiments of the present invention generally provide methods and apparatus for material removal using lasers in the fabrication of solar cells. In one embodiment, an apparatus is provided that precisely removes portions of a dielectric layer deposited on a solar cell substrate according to a desired pattern and deposits a conductive layer over the patterned dielectric layer. In one embodiment, the apparatus also removes portions of the conductive layer in a desired pattern. In certain embodiments, methods for removing a portion of a material via a laser without damaging the underlying substrate are provided. In one embodiment, the intensity profile of the beam is adjusted so that the difference between the maximum and minimum intensity within a spot formed on a substrate surface is reduced to an optimum range. In one example, the substrate is positioned such that the peak intensity at the center versus the periphery of the substrate is lowered. In one embodiment, the pulse energy is improved to provide thermal stress and physical lift-off of a desired portion of a dielectric layer.
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Citations
17 Claims
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1. An apparatus for material removal, comprising:
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a first robot configured to transfer a substrate having a dielectric layer deposited on a first surface thereof from an input region to one of a plurality of support features on a substrate transport surface; a vision system configured to detect an actual position of the substrate and communicate information regarding the actual position to a system controller; a first laser scanner positioned to remove a portion of the dielectric layer in a desired pattern, wherein the system controller is configured to determine an offset of the actual position with respect to an expected position of the substrate and adjust either the first robot or the laser scanner to correct for the offset; and an automation system configured to transport the substrate having a patterned dielectric layer from the first laser scanner to a deposition chamber configured to deposit a conducting layer over the dielectric layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A processing apparatus, comprising:
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a first robot configured to transfer a substrate from an input region to one of a plurality of support features on a substrate transport surface; a vision system configured to detect an actual position of the substrate and communicate information regarding the actual position to a system controller; a first deposition chamber configured to deposit a dielectric layer onto the substrate; a first laser scanner positioned to remove a portion of the dielectric layer from the substrate in a desired pattern while the substrate is positioned on the substrate transport surface, wherein the system controller is configured to determine an offset of the actual position with respect to an expected position of the substrate and adjust the laser scanner to correct for the offset; a second deposition chamber configured to deposit a conducting layer over the patterned dielectric layer; and an automation system configured to transport the substrate between the first deposition chamber, the first laser scanner, and the second deposition chamber. - View Dependent Claims (14, 15, 16, 17)
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Specification