In one embodiment, a fluid ejection device comprises a substrate having a fluid slot defined from a first surface through to a second opposite surface; an ejection element formed over the first surface and that ejects fluid therefrom; and a filter having feed holes positioned over the fluid slot near the first surface. Fluid moves from the second surface through the feed holes to the ejection element. In a particular embodiment, the filter is formed of a first material that is surrounded by a second material. In another particular embodiment, the filter is formed from the back side and is formed of the same material as the substrate.
%0 Generic
%1 citeulike:6601752
%A Donaldson, Jeremy
%A Kawamura, Naoto A.
%A Kearl, Daniel A.
%A Milligan, Donald J.
%A Smith, Daniel J.
%A Truninger, Martha A.
%A Lai, Diane
%A Johnson, Norman L.
%A Edwards, William
%A Bengali, Sadiq
%A Emery, Timothy R.
%D 2004
%K particle-tolerant-architecture 76t20-suspensions microhydraulics contamination
%T Particle Tolerant Architecture for Feed Holes and Method of Manufacturing
%U http://www.freepatentsonline.com/6764605.html
%X In one embodiment, a fluid ejection device comprises a substrate having a fluid slot defined from a first surface through to a second opposite surface; an ejection element formed over the first surface and that ejects fluid therefrom; and a filter having feed holes positioned over the fluid slot near the first surface. Fluid moves from the second surface through the feed holes to the ejection element. In a particular embodiment, the filter is formed of a first material that is surrounded by a second material. In another particular embodiment, the filter is formed from the back side and is formed of the same material as the substrate.
@misc{citeulike:6601752,
abstract = {{In one embodiment, a fluid ejection device comprises a substrate having a fluid slot defined from a first surface through to a second opposite surface; an ejection element formed over the first surface and that ejects fluid therefrom; and a filter having feed holes positioned over the fluid slot near the first surface. Fluid moves from the second surface through the feed holes to the ejection element. In a particular embodiment, the filter is formed of a first material that is surrounded by a second material. In another particular embodiment, the filter is formed from the back side and is formed of the same material as the substrate.}},
added-at = {2017-06-29T07:13:07.000+0200},
author = {Donaldson, Jeremy and Kawamura, Naoto A. and Kearl, Daniel A. and Milligan, Donald J. and Smith, Daniel J. and Truninger, Martha A. and Lai, Diane and Johnson, Norman L. and Edwards, William and Bengali, Sadiq and Emery, Timothy R.},
biburl = {https://www.bibsonomy.org/bibtex/27f2da6e354c2d44c0905597bbe9497cc/gdmcbain},
citeulike-article-id = {6601752},
citeulike-linkout-0 = {http://www.freepatentsonline.com/6764605.html},
howpublished = {United States Patent 6,764,605},
interhash = {fa3cf851ac044162ede3e9b5aa6fce35},
intrahash = {7f2da6e354c2d44c0905597bbe9497cc},
keywords = {particle-tolerant-architecture 76t20-suspensions microhydraulics contamination},
posted-at = {2010-01-29 00:57:34},
priority = {2},
timestamp = {2020-11-09T00:32:55.000+0100},
title = {{Particle Tolerant Architecture for Feed Holes and Method of Manufacturing}},
url = {http://www.freepatentsonline.com/6764605.html},
year = 2004
}