Patent application number | Description | Published |
20080284309 | Nitride Sintered Body and Method for Manufacturing Thereof - An insulating material high both in thermal conductivity and light reflectance, and a submount high in heat radiatability for mounting an LED element thereon, capable of raising a light utilization factor and quickly radiating heat generated from the element. For example, used as a substrate material of a submount is a nitride sintered body having a reflectance of light in the wavelength region of from 350 nm to 800 nm of 50% or more and a reflectance of light with a wavelength of 700 nm of 60% or more, obtained by sintering a preform consisting of a composition containing 100 parts by mass of aluminum nitride powder and 0.5 to 10 parts by mass of a compound containing an alkaline earth metal such as 3CaO×Al2O3 in an inert atmosphere containing a specific quantity of carbon vapor, or by burning a coat of a nitride paste applied on a base substrate having a heat resistance at a predetermined temperature. | 11-20-2008 |
20100000768 | LEAD-EMBEDDED METALLIZED CERAMICS SUBSTRATE AND PACKAGE - A metallized ceramics substrate including: a ceramics body; a wiring pattern formed on one surface of the ceramics body; and a lead electrically-connected to the wiring pattern. The ceramics body has a through-hole, the lead penetrates the through-hole and sticks out from another surface of the ceramics body, and the lead is fixed by filling an electroconductive filler between the lead and the through-hole for keeping airtightness. The metallized ceramics substrate does not cause a problem of interlayer peeling and is excellent in airtightness and electric conductivity. | 01-07-2010 |
20100012368 | CERAMIC SUBSTRATE MANUFACTURING METHOD AND CERAMIC SUBSTRATE - A method for manufacturing a ceramic substrate having a via hole(s) and a surface wiring pattern electrically connected to the via hole(s). The method includes: preparing a sintered ceramic substrate having a via hole(s); forming over the sintered ceramic substrate a sintered ceramic layer having a hole(s) or opening(s) whose bottom is configured to be at least a part of an exposed end surface of the via hole(s) by post-firing method; forming inside the hole(s) or opening(s) a conductive portion which electrically connects the surface of the sintered ceramic layer and the via hole(s); and forming over the surface of the sintered ceramic layer a surface wiring pattern electrically connected to the conductive portion. | 01-21-2010 |
20100015468 | METHOD FOR MANUFACTURING METALLIZED ALUMINUM NITRIDE SUBSTRATE - A method for manufacturing metallized aluminum nitride substrate. The method includes: Step A for forming a high-melting point metal layer over a sintered aluminum nitride substrate; Step B for forming over the high-melting point metal layer an intermediate metal layer of at least one selected from the group of: nickel, copper, copper-silver, copper-tin, and gold by plate processing; and Step C for forming a surface metal layer containing silver as a main component over the intermediate metal layer by coating a silver paste whose glass component content is 1 mass % or less and firing under nonoxidizing atmosphere. By this method, it is capable of forming a glass component-free silver layer which is adhered at a high degree of adhesion strength onto the high-melting point metal layer formed over the aluminum nitride substrate as a top face by thick-film method using a silver paste which makes thick-membrane forming easier. | 01-21-2010 |
20100065310 | METHOD FOR MANUFACTURING METALLIZED CERAMIC SUBSTRATE CHIP - A method for manufacturing a substrate chip including the steps of: setting the thickness of at least a part of a metal wiring pattern unit provided on the raw substrate to be 0.1 μm to 5 μm; forming a groove for creating at least a crack in the surface of the ceramic substrate along a planned cutting line which passes through the part of the metal wiring pattern unit by using a cutting wheel having a cutter blade being formed into substantially V shape in cross section along the circumferential portion of the disk rotating wheel; and cutting the raw substrate by giving load from just behind of the groove. When manufacturing metallized ceramic substrate chips by cutting (dividing) the ceramic substrate on the surface of which wiring patterns made of a metal film is formed, the method is capable of effectively using the base material, inhibiting defects in the metallized portion, and efficiently manufacturing the substrate chips in high yield. | 03-18-2010 |
20100178461 | METHOD FOR FABRICATING METALLIZED CERAMICS SUBSTRATE, METALLIZED CERAMICS SUBSTRATE FABRICATED BY THE METHOD, AND PACKAGE - A fabrication method for metallized a ceramics substrate including the steps of: forming a first conductive paste layer containing metallic powder on a sintered ceramics substrate; forming a second conductive paste layer containing metallic powder of which average particle diameter is different from that of metallic powder constituting the first conductive paste layer; and forming a first conductive layer and a second conductive paste layer. The surface roughness of the first conductive layer and the second conductive layer is different. By this method, it is possible to secure airtightness of the metallized ceramics substrate even if it is a multilayered substrate having a plurality of metallized layers. | 07-15-2010 |
20100183898 | METALLIZED SUBSTRATE AND METHOD FOR PRODUCING THE SAME - A metallized substrate having, disposed in the order mentioned: a ceramics substrate; a high-melting point metal layer; a base nickel plating layer; a layered nickel-phosphorous plating layer; a diffusion-inhibiting plating layer; and a gold plating layer. The base nickel plating layer being any one of a nickel plating layer, a nickel-boron plating layer, or a nickel-cobalt plating layer. The diffusion-inhibiting plating layer being any one of a columnar nickel-phosphorous plating layer, a palladium-phosphorous plating layer, or a palladium plating layer. According to the above composition, even after heating the semiconductor chips in a mounted state, the metallized substrate can make the connection strength of wire bonding favorable. | 07-22-2010 |
20100259160 | NITRIDE SINTERED BODY AND METHOD FOR MANUFACTURING THEREOF - An insulating material high both in thermal conductivity and light reflectance, and a submount high in heat radiatability for mounting an LED element thereon, capable of raising a light utilization factor and quickly radiating heat generated from the element. For example, used as a substrate material of a submount is a nitride sintered body having a reflectance of light in the wavelength region of from 350 nm to 800 nm of 50% or more and a reflectance of light with a wavelength of 700 nm of 60% or more, obtained by sintering a preform consisting of a composition containing 100 parts by mass of aluminum nitride powder and 0.5 to 10 parts by mass of a compound containing an alkaline earth metal such as 3CaO×Al2O3 in an inert atmosphere containing a specific quantity of carbon vapor, or by burning a coat of a nitride paste applied on a base substrate having a heat resistance at a predetermined temperature. | 10-14-2010 |
20120174390 | METHOD FOR MANUFACTURING METALLIZED CERAMIC SUBSTRATE CHIP - The present invention provides a method for manufacturing a substrate chip including the steps of: setting the thickness of at least a part of a metal wiring pattern unit provided on the raw substrate to be 0.1 μm to 5 μm; forming a groove for creating at least a crack in the surface of the ceramic substrate along a planned cutting line which passes through the part of the metal wiring pattern unit by using a cutting wheel having a cutter blade being formed into substantially V shape in cross section along the circumferential portion of the disk rotating wheel; and cutting the raw substrate by giving load from just behind of the groove. | 07-12-2012 |