Patent application number | Description | Published |
20090139871 | Plating apparatus and plating method - A plating apparatus can form a bump having a flat top or can form a metal film having a good in-plane uniformity even when the plating of a plating object (substrate) is carried out under high-current density conditions. The plating apparatus includes a plating tank for holding a plating solution; an anode to be immersed in the plating solution in the plating tank; a holder for holding a plating object and disposing the plating object at a position opposite the anode; a paddle, disposed between the anode and the plating object held by the holder, which reciprocates parallel to the plating object to stir the plating solution; and a control section for controlling a paddle drive section which drives the paddle. The control section controls the paddle drive section so that the paddle moves at a velocity whose average absolute value is 70 cm/sec to 100 cm/sec. | 06-04-2009 |
20120043200 | SUBSTRATE HOLDER AND PLATING APPARATUS - A substrate holder enables easy maintenance, especially easy replacement of seal members. The substrate holder includes a fixed holding member and a movable holding member for detachably holding a substrate by gripping a peripheral portion of the substrate therebetween, and an inner seal member and an outer seal member which are fixed to the movable holding member and which, when the substrate is held by the movable holding member and the fixed holding member, seal the connection between the movable holding member and a peripheral portion of the substrate and the connection between the movable holding member and the fixed holding member, respectively. The movable holding member includes a seal holder, and the inner seal member and the outer seal member are fixed between the seal holder and a fixing ring secured to the seal holder. | 02-23-2012 |
20120160696 | ELECTROPLATING METHOD - A substrate with a through-hole is immersed in a plating solution in a plating tank. A pair of anodes are disposed in the plating solution in the plating tank in facing relation to face and reverse sides, respectively, of the substrate in the plating solution. A plurality of plating processes are performed on the face and reverse sides by supplying pulsed currents respectively between the face side of the substrate and one of the anodes which faces the face side of the substrate, and between the reverse side of the substrate and the other anode which faces the reverse side of the substrate. A reverse electrolyzing process is performed on the face and reverse sides between adjacent plating processes by supplying currents in an opposite direction to the pulsed currents respectively between the face side of the substrate and one of the anodes, and between the reverse side of the substrate and the other anode. | 06-28-2012 |
20120193220 | PLATING APPARATUS AND PLATING METHOD - A plating apparatus can form a bump having a flat top or can form a metal film having a good in-plane uniformity even when the plating of a plating object (substrate) is carried out under high-current density conditions. The plating apparatus includes a plating tank for holding a plating solution; an anode to be immersed in the plating solution in the plating tank; a holder for holding a plating object and disposing the plating object at a position opposite the anode; a paddle, disposed between the anode and the plating object held by the holder, which reciprocates parallel to the plating object to stir the plating solution; and a control section for controlling a paddle drive section which drives the paddle. The control section controls the paddle drive section so that the paddle moves at a velocity whose average absolute value is 70 cm/sec to 100 cm/sec. | 08-02-2012 |
20130192983 | SUBSTRATE HOLDER AND PLATING APPARATUS - There is provided a substrate holder which can absorb a change in the thickness between substrates and can hold a substrate while preventing deflection of the substrate and keeping the amount of compression of a substrate sealing member within a certain narrow range. The substrate holder includes a first holding member and a second holding member, both for detachably holding a substrate by holding a peripheral portion of the substrate therebetween; and a substrate sealing member, mounted to the second holding member, for sealing the peripheral portion of the substrate along a substrate sealing line. The first holding member has a thickness absorbing mechanism which biases the substrate toward the second holding member at positions along the substrate sealing line. | 08-01-2013 |
20130220383 | SUBSTRATE CLEANING APPARATUS AND SUBSTRATE CLEANING METHOD - A substrate cleaning apparatus for cleaning a substrate is provided. The apparatus includes a cleaning bath in which a substrate holder holding a substrate is disposed in a vertical position, the substrate holder having a sealing member contacting a periphery of a surface of the substrate to seal a gap between the substrate and the substrate holder, and cleaning nozzles each configured to supply a jet of cleaning water to the substrate holder. The cleaning nozzles are disposed in the cleaning bath and arranged concentrically with a contact portion of the substrate surface contacting the sealing member and located at such positions that the jet of cleaning water impinges on the contact portion or its vicinity in an upper half of the substrate. | 08-29-2013 |
20130255360 | PLATING METHOD AND PLATING APPARATUS - A plating method includes holding a substrate with a substrate holder while bringing a sealing member into pressure contact with a peripheral portion of the substrate to form an enclosed internal space in the substrate holder; performing a first-stage leakage test of the substrate holder by producing a vacuum in the internal space and checking whether pressure in the internal space reaches a predetermined vacuum pressure within a certain period of time; and if the substrate holder has passed the first-stage leakage test, performing a second-stage leakage test of the substrate holder by closing off the internal space after producing the vacuum therein and checking whether a change in the pressure in the internal space reaches a predetermined value within a certain period of time. | 10-03-2013 |
20140020720 | PLATING APPARATUS AND METHOD OF CLEANING SUBSTRATE HOLDER - A plating apparatus includes: a plating bath configured to store a plating solution therein; a substrate transport device configured to remove a substrate before plating from a substrate cassette and return the substrate after plating to the substrate cassette; a substrate holder configured to detachably hold the substrate with a sealing member sealing a peripheral portion of the substrate and immerse the substrate in the plating solution in the plating bath; a dummy substrate arranged in a position accessible by the substrate transport device; and a substrate holder cleaning bath configured to immerse the substrate holder in a cleaning liquid to clean the substrate holder when holding the dummy substrate with the sealing member sealing a peripheral portion of the dummy substrate. | 01-23-2014 |
20140042032 | ELECTROPLATING METHOD AND ELECTROPLATING APPARATUS FOR THROUGH-HOLE - There is provided an electroplating method for a through-hole. The method includes: a first plating process, a second plating process, and a third plating process. The first plating process is a plating process of forming a metal film with a uniform thickness in the through-hole to reduce a diameter of the through-hole, the second plating process is a plating process of blocking up a central portion of the through-hole with the metal film using a PR pulsed current, and the third plating process is a plating process of completely filling the through-hole with the metal film using the plating current whose value is equal to or larger than a forward-current value of the PR pulsed current used in the second plating process. | 02-13-2014 |
20140166492 | Sn ALLOY PLATING APPARATUS AND METHOD - An Sn alloy plating apparatus includes: a plating bath having a cathode chamber for holding therein an Sn alloy plating solution in which the substrate is to be immersed and an anode chamber for holding therein an anolyte containing Sn ions and an acid; an Sn anode located in the anode chamber; and an electrolytic solution supply line configured to supply an electrolytic solution containing the acid into the anode chamber such that a Sn ion concentration of the anolyte in the anode chamber is kept not less than a predetermined value and a concentration of the acid in the anolyte is kept not less than a predetermined acceptable value. The electrolytic solution supply line supplies the electrolytic solution into the anode chamber to increase an amount of the anolyte in the anode chamber and supply the anolyte into the Sn alloy plating solution by the increased amount. | 06-19-2014 |