Patent application number | Description | Published |
20080266502 | METHOD OF PRODUCING UV STABLE LIQUID CRYSTAL ALIGNMENT - In a liquid crystal display device, a method for creating desirable pretilt angle by means of topography of the substrates, such as a surface that is sloped with respect to the surface of the electrodes. In combination with a low pretilt but highly photo-stable alignment layer, which may be very resistant to high levels of ultraviolet radiation, a high pretilt and photo-stable alignment structure is generated, by essentially combining two incompatible technical approaches. The ever more stringent requirements for projection displays are met. The methods for producing such sloped surfaces and the considerations related to design of the sloped surfaces are disclosed. | 10-30-2008 |
20090008129 | COOLING OF SUBSTRATE USING INTERPOSER CHANNELS - A structure. The structure includes a substrate and an interposer. The substrate includes a heat source and N continuous substrate channels on a first side of the substrate (N≧2). The interposer includes N continuous interposer channels coupled to the N substrate channels to form M continuous loops (1≦M≦N). Each loop independently consists of K substrate channels and K interposer channels in an alternating sequence. For each loop, K is at least 1 and is subject to an upper limit consistent with a constraint of the M loops collectively consisting of the N interposer channels and the N substrate channels. Each loop is independently open ended or closed. The first side of the substrate is connected to the interposer. The interposer is adapted to be thermally coupled to a heat sink such that the interposer is interposed between the substrate and the heat sink. | 01-08-2009 |
20090008130 | COOLING OF SUBSTRATE USING INTERPOSER CHANNELS - A structure. The structure includes an interposer adapted to be interposed between a heat source and a heat sink and to transfer heat from the heat source to the heat sink. The interposer includes an enclosure that encloses a cavity. The enclosure is made of a thermally conductive material. The cavity includes a thermally conductive foam material. The foam material includes pores and includes at least one serpentine channel. Each serpentine channel has at least two contiguously connected channel segments. Each serpentine channel independently forms a closed loop or an open ended loop. The foam material is adapted to be soaked by a liquid filling the pores. Each serpentine channel is adapted to be partially filled with a fluid that serves to transfer heat from the heat source to the heat sink. | 01-08-2009 |
20090011546 | COOLING OF SUBSTRATE USING INTERPOSER CHANNELS - A method of forming structure. A substrate and an interposer are provided. The substrate includes a heat source and N continuous substrate channels on a first side of the substrate (N≧2). N interposer channels are coupled to the N substrate channels so as to form M continuous loops (1≦M≦N). Each loop independently consists of K substrate channels and K interposer channels in an alternating sequence. For each loop, K is at least 1 and is subject to an upper limit consistent with a constraint of the M loops collectively consisting of the N interposer channels and the N substrate channels. Each loop is independently open ended or closed. The first side of the substrate is connected to the interposer. The interposer is adapted to be thermally coupled to a heat sink such that the interposer is interposed between the substrate and the heat sink. | 01-08-2009 |
20090011547 | COOLING OF SUBSTRATE USING INTERPOSER CHANNELS - A method of forming a structure. An interposer is provided. The interposer is adapted to be interposed between a heat source and a heat sink and to transfer heat from the heat source to the heat sink. The interposer includes an enclosure that encloses a cavity. The enclosure is made of a thermally conductive material. The cavity includes a thermally conductive foam material. The foam material includes pores and includes at least one serpentine channel. Each serpentine channel has at least two contiguously connected channel segments. Each serpentine channel independently forms a closed loop or an open ended loop. The foam material is adapted to be soaked by a liquid filling the pores. Each serpentine channel is adapted to be partially filled with a fluid that serves to transfer heat from the heat source to the heat sink. | 01-08-2009 |
20090016027 | CONDUCTING LIQUID CRYSTAL POLYMER MATRIX COMPRISING CARBON NANOTUBES, USE THEREOF AND METHOD OF FABRICATION - Conducting liquid crystal polymer matrix comprising carbon nanotubes aligned in the matrix is provided, along with use thereof and method of fabrication. | 01-15-2009 |
20090197103 | MODIFICATION OF PB-FREE SOLDER ALLOY COMPOSITIONS TO IMPROVE INTERLAYER DIELECTRIC DELAMINATION IN SILICON DEVICES AND ELECTROMIGRATION RESISTANCE IN SOLDER JOINTS - A solder joint comprising a solder capture pad on a substrate having a circuit; and a lead free solder selected from the group comprising Sn—Ag—Cu solder and Sn—Ag solder adhered to the solder capture pad; the solder selected from the group comprising between 0.1 to 2.0% by weight Sb or Bi, and 0.5 to 3.0% Ag. Formation of voids at an interface between the solder and the solder capture pad is suppressed, by including Zn. Interlayer dielectric delamination is suppressed, and electromigration characteristics are greatly improved. Methods for forming solder joints using the solders. | 08-06-2009 |
20090197114 | MODIFICATION OF PB-FREE SOLDER ALLOY COMPOSITIONS TO IMPROVE INTERLAYER DIELECTRIC DELAMINATION IN SILICON DEVICES AND ELECTROMIGRATION RESISTANCE IN SOLDER JOINTS - A solder joint comprising a solder capture pad on a substrate having a circuit; and a lead free solder selected from the group comprising Sn—Ag—Cu solder and Sn—Ag solder adhered to the solder capture pad; the solder selected from the group comprising between 0.1 to 2.0% by weight Sb or Bi, and 0.5 to 3.0% Ag. Formation of voids at an interface between the solder and the solder capture pad is suppressed, by including Zn. Interlayer dielectric delamination is suppressed, and electromigration characteristics are greatly improved. Methods for forming solder joints using the solders. | 08-06-2009 |
20090258455 | METHOD OF MINIMIZING BEAM BENDING OF MEMS DEVICE BY REDUCING THE INTERFACIAL BONDING STRENGTH BETWEEN SACRIFICIAL LAYER AND MEMS STRUCTURE - The beam bending of a MEMS device is minimized by reducing interfacial strength between a sacrificial layer and a MEMS structure. | 10-15-2009 |
20090266447 | OPTIMIZATION OF METALLURGICAL PROPERTIES OF A SOLDER JOINT - Semiconductor packaging techniques are provided which optimize metallurgical properties of a joint using dissimilar solders. A solder composition for Controlled Collapse Chip Connection processing includes a combination of a tin based lead free solder component designed for a chip and a second solder component designed for a laminate. The total concentration of module Ag after reflow is less than 1.9% by weight. A method of manufacturing a solder component is also provided. | 10-29-2009 |
20090290118 | METHOD AND SYSTEM FOR IMPROVING ION BEAM ALIGNMENT FOR LIQUID CRYSTAL DISPLAYS BY A GROOVING UNDER LAYER - A liquid crystal display (LCD) device comprises a first substrate having a grooved surface profile; an alignment film layer of inorganic material formed on the grooved surface and having the grooved surface profile, the alignment film of inorganic material being aligned in response to an ion beam incident to the grooved surface in a direction parallel to a groove direction; a second substrate aligned opposite the first substrate for forming a plurality of LCD cells having liquid crystal (LC) material deposited therein, wherein LC molecules align parallel to the grooves for enhanced LCD performance. | 11-26-2009 |
20100117209 | MULTIPLE CHIPS ON A SEMICONDUCTOR CHIP WITH COOLING MEANS - The present invention is directed to a method of packaging multiple semiconductor chips on a second semiconductor chips with a built-in efficient cooling means. One embodiment is to place two multiple chip stacks on opposing sides of a vapor chamber for transferring heat away from the semiconductor chips. Another embodiment is to construct a vapor chamber with a substrate such that at least one multiple chip stack is embedded inside the vapor chamber. | 05-13-2010 |
20110063815 | Robust FBEOL and UBM Structure of C4 Interconnects - A microcircuit article of manufacture comprises an electrical conductor electrically connected to both a first microcircuit element at a site comprising a first connector site having a first connector site axis and a second microcircuit element at a site comprising a second connector site having a second connector site axis. The first microcircuit element and the second microcircuit element are separated by and operatively associated with a layer comprising a first electrical insulator, whereas the conductor and the first microcircuit element are separated by and operatively associated with a layer comprising a second electrical insulator. At least one of the first electrical insulator layer and the second electrical insulator layer comprise a polymeric electrical insulator. In another embodiment, both electrical insulator layers comprise polymeric insulator layers. The microcircuit includes a UBM and solder connection to a FBEOL via opening. Sufficiently separating the first connector site axis and the second connector site axis so they are not concentric decouples the UBM and solder connection to the FBEOL via opening to substantially eliminate or minimize inter alia, electromigration and the white bump problem typical of lead free solders employed in C4 systems. A process comprises manufacturing this type of microcircuit article. | 03-17-2011 |
20120103534 | METHOD OF MINIMIZING BEAM BENDING OF MEMS DEVICE BY REDUCING THE INTERFACIAL BONDING STRENGTH BETWEEN SACRIFICIAL LAYER AND MEMS STRUCTURE - The beam bending of a MEMS device is minimized by reducing interfacial strength between a sacrificial layer and a MEMS structure. | 05-03-2012 |
20120328789 | METAL-GRAPHITE FOAM COMPOSITE AND A COOLING APPARATUS FOR USING THE SAME - A method of producing a metal-graphite foam composite, and particularly, the utilization thereof in connection with a cooling apparatus. Also provided is a cooling apparatus, such as a liquid cooler or alternatively, a heat sink for electronic heat-generating components, which employ the metal-graphite foam composite. | 12-27-2012 |
20130321753 | Liquid Crystal Integrated Circuit And Method To Fabricate Same - A structure includes a first substrate having a first surface and a second substrate having a second surface facing the first surface; liquid crystal material disposed between the first and second surfaces; a first upstanding electrode disposed over the first surface and extending into the liquid crystal material towards the second surface; and a first planar electrode disposed upon the first surface and electrically connected with the first upstanding electrode. The first planar electrode at least partially surrounds the first upstanding electrode. A combination of the first upstanding electrode and the first planar electrode forms at least a portion of a pixel of a liquid crystal display. Various methods to fabricate the structure are also disclosed. | 12-05-2013 |
20140262458 | UNDER BALL METALLURGY (UBM) FOR IMPROVED ELECTROMIGRATION - An interconnect structure that includes a substrate having an electrical component present therein, and a under-bump metallurgy (UBM) stack that is present in contact with a contact pad to the electrical component that is present in the substrate. The UBM stack includes a metallic adhesion layer that is direct contact with the contact pad to the electrical component, a copper (Cu) seed layer that is in direct contact with the metallic adhesion layer, a first nickel (Ni) barrier layer that is present in direct contact with copper (Cu) seed layer, and a layered structure of at least one copper (Cu) conductor layer and at least one second nickel (Ni) barrier layer present on the first nickel (Ni) barrier layer. A solder ball may be present on second nickel (Ni) barrier layer. | 09-18-2014 |
20140339699 | UNDER BALL METALLURGY (UBM) FOR IMPROVED ELECTROMIGRATION - An interconnect structure that includes a substrate having an electrical component present therein, and a under-bump metallurgy (UBM) stack that is present in contact with a contact pad to the electrical component that is present in the substrate. The UBM stack includes a metallic adhesion layer that is direct contact with the contact pad to the electrical component, a copper (Cu) seed layer that is in direct contact with the metallic adhesion layer layer, a first nickel (Ni) barrier layer that is present in direct contact with copper (Cu) seed layer, and a layered structure of at least one copper (Cu) conductor layer and at least one second nickel (Ni) barrier layer present on the first nickel (Ni) barrier layer. A solder ball may be present on second nickel (Ni) barrier layer. | 11-20-2014 |
20150029424 | VARIABLE FOCAL LENGTH LENS - An adjustable focal length lens structure comprising a first adjustable focal length lens. The first adjustable focal length lens comprises an inner surface of a first side having a first curvature. The first adjustable focal length lens also comprises a first transparent conducting electrode on the first side. The first adjustable focal length lens also comprises an inner surface of a second side having a second curvature. The first adjustable focal length lens also comprises a second transparent conducting electrode on the second side. The first adjustable focal length lens also comprises one or more layers of a first liquid crystal material disposed between the inner surface of the first side and the inner surface of the second side, wherein the first liquid crystal material has two or more effective indices of refraction. | 01-29-2015 |