Patent application number | Description | Published |
20090073638 | CHIP TYPE SOLID ELECTROLYTIC CAPACITOR - A chip type solid electrolytic capacitor includes a capacitor element-laminate. In the capacitor element-laminate, a plurality of capacitor elements, each having an anode portion and a cathode portion, are laminated so that the anode portions of the adjacent capacitor elements are disposed in the direction opposite to each other. Anode lead terminals are joined to the bottom faces of the anode portions of the capacitor elements disposed at both ends of the capacitor element-laminate. A cathode lead terminal is joined to the bottom face of the cathode portion of the capacitor element disposed in the center of the capacitor element-laminate. An Electrically insulating exterior resin coats the capacitor element-laminate so as to expose at least a part of the bottom faces of the anode lead terminals and a part of the cathode lead terminal. | 03-19-2009 |
20090154067 | CHIP-TYPE FILTER - A chip-type filter has a laminated body formed by stacking a plurality of capacitor elements, a pair of positive electrode terminals, a pair of negative electrode terminals, insulating outer resin, and an inductor section. The laminated body includes capacitor elements in a first group and capacitor elements in a second group, the positive electrode sections in both groups are disposed on the opposite sides with respect to the negative electrode sections. Positive electrode terminals are electrically connected to the positive electrode sections of capacitor elements in the first group and those of capacitor elements in the second group, respectively. Negative electrode terminals are electrically connected to the negative electrode sections in the laminated body, and are disposed at both ends of the direction crossing the connecting direction between the positive electrode terminals. The inductor section is insulated from the negative electrode sections and couples the positive electrode terminals. | 06-18-2009 |
20090160579 | DIGITAL SIGNAL PROCESSOR - A digital signal processor includes a component for processing a digital signal, a power line for supplying a power to the component, and a decoupling capacitor connected between the power line and a ground. The decoupling capacitor has an equivalent series resistance larger than zero and not larger than 25 mΩ at 100 kHz and an equivalent series inductance larger than zero and not larger than 800 pH at 500 MHz. This digital signal processor does not generate a lot of digital noise, and has a small, thin size. | 06-25-2009 |
20090174502 | PRINTED BOARD AND FILTER USING THE SAME - A printed board is mounted with a chip-type solid electrolytic capacitor of a four-terminal structure where a pair of positive electrode terminals are disposed at opposite positions and a pair of negative electrode terminals are disposed at opposite positions on a mounting surface. The printed board has a pair of positive electrode patterns and a pair of negative electrode patterns to which the positive electrode terminals and negative electrode terminals of the chip-type solid electrolytic capacitor are connected, respectively. The printed board further has an inductor section that is insulated from the negative electrode patterns, and electrically connects the positive electrode patterns. | 07-09-2009 |
20090296318 | SOLID ELECTROLYTIC CAPACITOR - A solid electrolytic capacitor includes a negative terminal, first to fourth capacitor elements coupled to the negative terminal, first and second positive terminals connected to the first to fourth capacitor elements, and a package resin covering the first to fourth capacitor elements. Each of the first to fourth capacitor elements has a first end and a second end opposite to the first end, and each of the first to fourth capacitor elements includes a negative electrode provided at the first end and a positive electrode provided at the second end. The first to fourth capacitor elements are stacked in this order. The positive electrodes of the first and fourth capacitor elements extend in a first direction from the respective negative electrodes of the first and fourth capacitor elements. The positive electrodes of the second and third capacitor elements extend in a second direction, opposite to the first direction, from the respective negative electrodes of the second and third capacitor elements. This solid electrolytic capacitor has a small leakage current. | 12-03-2009 |
20100214038 | CHIP-TYPE SOLID ELECTROLYTIC CAPACITOR AND CHIP-TYPE FILTER - A solid electrolytic capacitor is formed by stacking flat solid electrolytic capacitor elements. Negative electrode sections of a part of the solid electrolytic capacitor elements and negative electrode sections of the remaining part of the solid electrolytic capacitor elements are led out so as to be faced to each other, and are connected to the first and second negative electrode lead frames which are independent to each other, respectively. Two of negative electrode sections are insulated from each other in the solid electrolytic capacitor. | 08-26-2010 |
20100259868 | CHIP TYPE SOLID ELECTROLYTIC CAPACITOR - A chip type solid electrolytic capacitor includes a capacitor element-laminate. In the capacitor element-laminate, a plurality of capacitor elements, each having an anode portion and a cathode portion, are laminated so that the anode portions of the adjacent capacitor elements are disposed in the direction opposite to each other. Anode lead terminals are joined to the bottom faces of the anode portions of the capacitor elements disposed at both ends of the capacitor element-laminate. A cathode lead terminal is joined to the bottom face of the cathode portion of the capacitor element disposed in the center of the capacitor element-laminate. An Electrically insulating exterior resin coats the capacitor element-laminate so as to expose at least a part of the bottom faces of the anode lead terminals and a part of the cathode lead terminal. | 10-14-2010 |
20110127694 | METHOD OF MANUFACTURING RESIN MOLDED ELECTRONIC COMPONENT (AS AMENDED) - A method of manufacturing a resin molded electronic component using a first mold having a cavity with an open top surface and a second mold combined with the first mold on top includes the following steps: (A) inserting a element of the electronic component and a liquid resin precursor into the cavity of the first mold, the liquid resin precursor having viscosity of 10 Pa·s or lower at 40° C.; (B) arranging the second mold such that the element and the resin precursor are sandwiched after the step (A); and (C) pressing the element and the resin precursor between the first mold and the second mold, and curing the resin precursor by heat from the second mold after the step (B). A temperature of the second mold is set to be higher than that of the first mold. | 06-02-2011 |
20120087062 | SURFACE MOUNT ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - A surface mount electronic component includes an element, an anode terminal, a cathode terminal, and an outer package body. The element has a configuration including an anode, and a cathode formed on a part of the surface of the anode via a dielectric substance. An anode terminal is electrically connected to the anode, and a cathode terminal is electrically connected to the cathode. The outer package body covers an element laminated body such that a part of the anode terminal and a part of the cathode terminal are exposed. The outer package body is made of a norbornene resin. Thus, an electronic component having high reliability can be achieved. | 04-12-2012 |
20130329341 | ELECTROLYTIC CAPACITOR - An electrolytic capacitor includes a multilayered-capacitor-elements unit, a pair of positive electrode terminals, a negative electrode terminal, and an outer-package resin. The multilayered-capacitor-elements unit includes multiple capacitor elements of which positive electrodes are oriented oppositely to each other. The positive electrodes are connected to the positive electrode terminals, respectively, and negative electrodes of the capacitor elements are connected to the negative electrode terminal. Each of the positive electrode terminals includes a bottom section and a double-back section on which the positive electrodes of the capacitor element is disposed. The double-back section is formed by doubling over an end section extending toward the negative electrode. | 12-12-2013 |