Patent application number | Description | Published |
20100282495 | BONDING WIRE FOR SEMICONDUCTOR DEVICE - An object of the present invention is to provide a high-performance bonding wire that is suitable for semiconductor mounting technology, such as stacked chip bonding, thinning, and fine pitch mounting, where wire lean (leaning) at an upright position of a ball and spring failure can be suppressed and loop linearity and loop height stability are excellent. This bonding wire for a semiconductor device includes a core material made of a conductive metal, and a skin layer formed on the core material and containing a metal different from the core material as a main component; wherein a relationship between an average size (a) of crystal grains in the skin layer on a wire surface along a wire circumferential direction and an average size (b) of crystal grains in the core material on a normal cross section, the normal cross section being a cross section normal to a wire axis, satisfies an inequality of a/b≦0.7. | 11-11-2010 |
20100294532 | BONDING WIRE FOR SEMICONDUCTOR DEVICES - It is an object of the present invention to provide a highly-functional bonding wire which has good wire-surface nature, loop linearity, stability of loop heights, and stability of a wire bonding shape, and which can cope with semiconductor packaging technologies, such as thinning, achievement of a fine pitch, achievement of a long span, and three-dimensional packaging. A semiconductor-device bonding wire comprises a core member formed of an electrically-conductive metal, and a skin layer mainly composed of a face-centered cubic metal different from the core member and formed thereon. The percentage of <100> orientations in crystalline orientations in the lengthwise direction in the surface of the skin layer is greater than or equal to 50%. | 11-25-2010 |
20100327450 | SEMICONDUCTOR DEVICE BONDING WIRE AND WIRE BONDING METHOD - It is an object of the present invention to provide a copper-based bonding wire whose material cost is low, having excellent ball bondability, reliability in a heat cycle test or reflow test, and storage life, enabling an application to thinning of a wire used for fine pitch connection. The bonding wire includes a core material having copper as a main component and an outer layer which is provided on the core material and contains a metal M and copper, in which the metal M differs from the core material in one or both of components and composition. The outer layer is 0.021 to 0.12 μm in thickness. | 12-30-2010 |
20110011618 | COPPER ALLOY BONDING WIRE FOR SEMICONDUCTOR DEVICE - The present invention provides a semiconductor-device copper-alloy bonding wire which has an inexpensive material cost, ensures a superior ball joining shape, wire joining characteristic, and the like, and a good loop formation characteristic, and a superior mass productivity. The semiconductor-device copper-alloy bonding wire contains at least one of Mg and P in total of 10 to 700 mass ppm, and oxygen within a range from 6 to 30 mass ppm. | 01-20-2011 |
20110011619 | BONDING WIRE FOR SEMICONDUCTOR DEVICES - It is an object of the present invention to provide a highly-functional bonding wire which can reduce damages at a neck part, has good linearity of loops, stability of loop heights, and stability of bonded shape of a bonding wire, and can cope with semiconductor packaging techniques, such as low looping, thinning, achievement of a fine pitch, and three-dimensional packaging. A semiconductor-device bonding wire comprises a core member formed of an electrically-conductive metal, and a skin layer mainly composed of a face-centered cubic metal different from the core member and formed thereon. The percentage of <100> orientations in crystalline orientations in the lengthwise direction in the surface of the skin layer is greater than or equal to 50%. | 01-20-2011 |
20120104613 | BONDING WIRE FOR SEMICONDUCTOR DEVICE - It is an object of the present invention to provide a copper-based bonding wire whose material cost is low, having excellent ball bondability, reliability in a heat cycle test or reflow test, and storage life, enabling an application to thinning of a wire used for fine pitch connection. The bonding wire includes a core material having copper as a main component and an outer layer which is provided on the core material and contains a metal M and copper, in which the metal M differs from the core material in one or both of components and composition. The outer layer is 0.021 to 0.12 μm in thickness. | 05-03-2012 |
20140109962 | INTERCONNECTOR FOR SOLAR CELLS, AND SOLAR CELL MODULE - The purpose of the present invention is to provide an interconnector for solar cells, which reduces the stress acting on a solar cell and suppresses warping and cracking of the solar cell. An interconnector for solar cells of the present invention is characterized by comprising an electrically conductive wire part and a surface layer that is formed on at least one wide surface of the electrically conductive wire part. The interconnector for solar cells is also characterized in that the surface layer has a function of reducing the stress that is caused by the difference between the thermal expansion coefficient of the electrically conductive part and the thermal expansion coefficient of a solar cell, said stress being generated when the interconnector is joined to the solar cell. | 04-24-2014 |
20140254114 | FLEXIBLE CIRCUIT BOARD AND METHOD FOR PRODUCING SAME AND BEND STRUCTURE OF FLEXIBLE CIRCUIT BOARD - Provided are a flexible circuit board with excellent bendability and durability against hard conditions particularly in a repeated bend portion having a small curvature radius, and a method of producing the same. The flexible circuit board includes a resin layer and a wiring formed of a metal foil and is used with a bend portion provided at at least one position of the wiring. The metal foil is made of a metal having a cubic crystal structure, and a cross section of the wiring cut in a thickness direction from a ridge line in the bend portion forms a principal orientation on any one of planes within a range of (20 1 0) to (1 20 0) in a rotation direction from (100) to (110) with [001] set as a zone axis. The wiring is formed so that the metal foil is made of a metal having a cubic crystal structure, and that the ridge line in the bend portion has an angle in a range of 2.9° to 87.1° relative to one of fundamental crystal axes <100> in a surface of the metal foil. | 09-11-2014 |