1
Fred E Ashbaugh, Ordean S Anderson, Donald E Anderson, Ramakrishna A Nair, Michael J Riebel: Electromagnetic antenna collimator. Innova, Douglas L Tschida, November 24, 1992: US05166698 (124 worldwide citation)

A dielectric inset mountable within a conical horn antenna for focusing an impinging electromagnetic wave front as a planar wave front at an attached wave guide. In one construction a homogeneous inset having an ellipsoidal forward surface and conical aft surface is fitted into a double flared conic ...


2
Michael J Riebel, Paul L Torgusen, Kenneth D Roos, Donald E Anderson, Carl Gruber: Biocomposite material and method of making. Phenix Biocomposites, Mueting Raasch Gebhardt & Schwappach P A, January 14, 1997: US05593625 (91 worldwide citation)

Fiber-reinforced protein-based biocomposite particulate material containing a legume-based thermosetting resin and cellulosic material, and rigid biocomposite pressure-formed materials produced therefrom, are provided. The particulate material and resultant pressure-formed materials contain the legu ...


3
Ordean S Anderson, Donald E Anderson, Ramakrishna A Nair, Michael J Riebel: Multimode dielectric-loaded double-flare antenna. Microbeam Corporation, D L Tschida, May 26, 1992: US05117240 (34 worldwide citation)

A small aperture horn antenna comprising an outer conical shell and interiorly of which are formed at least first and second conically flared, dielectric-coated stages of differing flare angles which are coupled to one another via an intermediate cylindrical stage. The dielectric coating is applied ...


4
Michael J Riebel, Paul L Torgusen, Kenneth D Roos, Donald E Anderson, Carl Gruber: Biocomposite material and method of making. Phenix Biocomposites, Mueting Raasch Gebhardt & Schwappach P A, June 3, 1997: US05635123 (30 worldwide citation)

Fiber-reinforced protein-based biocomposite particulate material containing a legume-based thermosetting resin and cellulosic material, and rigid biocomposite pressure-formed materials produced therefrom, are provided. The particulate material and resultant pressure-formed materials contain the legu ...


5
Donald E Anderson: Lateral lens arrangement for solar energy conversion devices. Sheldahl, Orrin M Haugen, May 10, 1977: US04022184 (28 worldwide citation)

A solar heat concentrator comprising, in combination, solar radiation concentrator means and absorber means for converting the concentrated solar energy into usable form. The concentrator means is essentially a line focus Fresnel array, and includes a plurality of generally parallelly disposed elong ...


6
Donald E Anderson: Solar concentrator-collector. Suntec Systems, Orrin M Haugen, May 9, 1978: US04088120 (28 worldwide citation)

A solar heat concentrator-collector comprising, in combination, solar radiation concentrator means and collector means for receiving the concentrated solar energy and providing for conversion of the energy into usable or more readily convertable form. The concentrator means may be any of a variety o ...


7
Donald E Anderson, James H Hammar: Wafer holder with spindle assembly and wafer holder actuator. OnTrak Systems, Blakely Sokoloff Taylor & Zafman, December 22, 1998: US05851041 (27 worldwide citation)

An improved wafer holder with spindle assembly and wafer holder actuator is disclosed. In one embodiment, the vertical motion of a shaft drives an arm positioning member in a rotational motion. The arm positioning member is coupled to a first position of an arm such that the arm moves in a horizonta ...


8
Mansour Moinpour, Hoang T Nguyen, Mohsen Salek, Young C Park, Tom Bramblett, John M deLarios, Lynn S Ryle, Donald E Anderson, Wilbur C Krusell: Method and apparatus for cleaning edges of contaminated substrates. OnTrak Systems, Intel Corporation, Blakely Sokoloff Taylor & Zafman, January 19, 1999: US05861066 (27 worldwide citation)

A method and apparatus for cleaning edges of substrates is described. The present invention provides a cleaning mechanism that cleans particles off the edge of the wafer based on friction and/or a difference in tangential velocity at a point of contact between the wafer and the cleaning mechanism.


9
Mansour Moinpour, Hoang T Nguyen, Mohsen Salek, Young C Park, Tom Bramblett, John M deLarios, Lynn S Ryle, Donald E Anderson, Wilbur C Krusell: Apparatus for cleaning edges of contaminated substrates. Lam Research Corporation, Martine & Penilla, January 1, 2002: US06334229 (26 worldwide citation)

An apparatus for cleaning edges of substrates is described. The present invention provides a cleaning mechanism that cleans particles off the edge of the wafer based on friction and/or a difference in tangential velocity at a point of contact between the wafer and the cleaning mechanism.


10
Donald E Anderson, Mark E Anderson, Glenn M Anderson, Kang S Lim: Apparatus for creating a pathway in an animal and methods therefor. Pathway Technologies, Lawrence N Ginsberg, March 1, 2005: US06860235 (21 worldwide citation)

A method and apparatus for safer and more effective deep trans-cervical intra-uterine artificial insemination (AI) is provided. Such a deep AI catheter causes minimal discomfort and risk of trauma, and does not require the services of a highly trained AI professional. First, a catheter is inserted i ...



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