Patent application number | Description | Published |
20080261398 | Semiconductor device having oxidized metal film and manufacture method of the same - A method for manufacturing a semiconductor device includes heating a substrate having an insulation film thereon to a first substrate temperature so that oxidizing species are emitted from the insulating film, the insulating film having a recessed portion formed in a surface thereof, forming a metal film on the insulating film at a second substrate temperature lower than the first substrate temperature, and oxidizing at least part of the metal film with oxidizing species remaining in the insulating film. | 10-23-2008 |
20100301472 | ELECTRONIC COMPONENT AND MANUFACTURING METHOD THEREOF - An electronic component in which an element is formed on a chip includes: a pad that is made of a conductive material and that is formed in a first bump formation region that is two-dimensionally arranged in center of one principle face and in a second bump formation region that is linearly arranged at peripheral border of the principle face; a passivation film that is formed on the principle face to cover portion except a formation position of the pad; a metal layer that is formed on the pad; and a bump that is made of a conductive material and that is formed on the metal layer by plating, wherein radius of the metal layer in the second bump formation region is smaller than radius of at least some of the metal layer in the first bump formation region. | 12-02-2010 |
20110024901 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - According to one embodiment, a manufacturing method of a semiconductor device attained as follows. A dielectric layer having a first opening and a second opening reaching an electrode terminal is formed by modifying a photosensitive resin film on a substrate on which the electrode terminal of a first conductive layer is provided. Next, a second conductive layer that is electrically connected to the electrode terminal is formed on the dielectric layer that includes inside of the first opening, and a third conductive layer that has an oxidation-reduction potential of which difference from the oxidation-reduction potential of the first conductive layer is smaller than a difference of the oxidation-reduction potential between the first conductive layer and the second conductive layer is formed on the second conductive layer. Next, a dielectric layer having a third opening reaching the third conductive layer and a fourth opening reaching the electrode terminal via the second opening is formed by modifying a photosensitive resin film, and a bump that is electrically connected to the third conductive layer is formed. | 02-03-2011 |
20110049707 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SEMICONDUCTOR DEVICE - According to one embodiment, a semiconductor device includes an electrode pad, a protective layer, a bump, and a resin layer. The electrode pad is formed on a semiconductor substrate. The protective layer includes a pad opening formed in the position of the electrode pad. The bump is formed in the pad opening and electrically connected to the electrode pad. The resin layer has a space provided between the resin layer and the bump and is formed on the protective layer via a metal layer. The resin layer is formed by using an adhesive resin material. | 03-03-2011 |
20120056320 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - According to one embodiment, a semiconductor substrate, a metal film, a surface modifying layer, and a redistribution trace are provided. On the semiconductor substrate, a wire and a pad electrode are formed. The metal film is formed over the semiconductor substrate. The surface modifying layer is formed on a surface layer of the metal film and improves the adhesion with a resist pattern. The redistribution trace is formed on the metal film via the surface modifying layer. | 03-08-2012 |
20120068334 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - Semiconductor devices of embodiments include a plurality of solder bumps electrically connected on a plurality of electrode pads disposed on a semiconductor substrate in parallel at a pitch of 40 μm or less via under bump metals. The ratio of the diameter (the top diameter) of the portion of each solder bump most away from the semiconductor substrate and the diameter (the bottom diameter) of the bottom side of each solder bump is 1:1 to 1:4. | 03-22-2012 |
20120152168 | SEMICONDUCTOR DEVICE HAVING OXIDIZED METAL FILM AND MANUFACTURE METHOD OF THE SAME - A method for manufacturing a semiconductor device includes heating a substrate having an insulation film thereon to a first substrate temperature so that oxidizing species are emitted from the insulating film, the insulating film having a recessed portion formed in a surface thereof, forming a metal film on the insulating film at a second substrate temperature lower than the first substrate temperature, and oxidizing at least part of the metal film with oxidizing species remaining in the insulating film. | 06-21-2012 |
20140284772 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND SEMICONDUCTOR DEVICE THEREOF - According to one embodiment, a semiconductor device manufacturing method provides filling a through-hole which penetrates through a first side of substrate to a second side thereof. A seed film including copper is formed on the inner wall surface of the through-hole. A first metal layer including copper is grown bottom-up from one end of the through-hole toward the other end thereof, to partially fill the through-hole, leaving a space having a depth less than the radius of the through-hole as measured from the second side surface of the substrate. A second metal layer including nickel is conformally grown in the space from the inner peripheral surface of the through-hole to a height having a summit surface protruding from the second side surface of the substrate. A third metal layer is formed on the summit surface of the second metal layer. | 09-25-2014 |