Hidden hinge digital micromirror device with improved manufacturing yield and improved contrast ratio
First Claim
1. A spatial light modulator fabricated on a substrate, comprising:
- addressing circuitry;
a bias/reset bus having a plurality of landing sites;
a pair of address electrodes coupled to the addressing circuitry, each having a first portion proximate the substrate and coplanar with the bias/reset bus, and having a second portion elevated above the plane of the first portion;
a yoke having a body portion with a first width overlying the first portion of the address electrodes, and having opposing leading edges extending away from the body portion, each leading edge having a pair of springtips, each springtip attached to a distal location of the leading edge of the yoke, and operable to land on an associated landing site, where the pair of springtips are separated by a second width that is less than the first width;
at least one hinge connected to the yoke and supporting the yoke, the hinge permitting tilting of the yoke in response to electrostatic addressing from the address electrodes; and
a mirror elevated above and supported by the yoke, the mirror positioned over the elevated second portions of the address electrodes.
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Accused Products
Abstract
An improved DMD type spatial light modulator having an array of pixels (18). The pixels (18) are of the “hidden hinge” design, each pixel having a mirror (30) supported over a hinged yoke (32). Addressing electrodes (26, 28) on an underlying metallization layer and addressing electrodes (50, 52) at the yoke level provide electrostatic forces that cause the mirrors to tilt and then to return to their flat state. The pixels (18) are designed to provide increased clearance between the leading edge of the yoke (32) and the underlying metallization layer when the mirrors (30) are tilted. Various features of the improved pixel (18) also improve the contrast ratio of images generated by the DMD.
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Citations
5 Claims
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1. A spatial light modulator fabricated on a substrate, comprising:
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addressing circuitry;
a bias/reset bus having a plurality of landing sites;
a pair of address electrodes coupled to the addressing circuitry, each having a first portion proximate the substrate and coplanar with the bias/reset bus, and having a second portion elevated above the plane of the first portion;
a yoke having a body portion with a first width overlying the first portion of the address electrodes, and having opposing leading edges extending away from the body portion, each leading edge having a pair of springtips, each springtip attached to a distal location of the leading edge of the yoke, and operable to land on an associated landing site, where the pair of springtips are separated by a second width that is less than the first width;
at least one hinge connected to the yoke and supporting the yoke, the hinge permitting tilting of the yoke in response to electrostatic addressing from the address electrodes; and
a mirror elevated above and supported by the yoke, the mirror positioned over the elevated second portions of the address electrodes. - View Dependent Claims (2, 3, 4, 5)
a support post, for supporting the second portions of the address electrodes above the plane of the first portions of the address electrodes;
wherein the first portion of the address electrodes comprises a metal area to which the support posts are attached, the metal area being substantially square and only slightly larger than the support post cross-section.
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Specification