Patent application number | Description | Published |
20110007452 | Lamellar Stacked Solid Electrolytic Capacitor - A lamellar stacked solid electrolytic capacitor includes a plurality of capacitor units, a substrate unit and a package unit. Each capacitor unit is composed of a negative foil, an isolation paper with conductive polymer substance, a positive foil, an isolation paper with conductive polymer substance and a negative foil that are stacked onto each other in sequence, the positive foils of the capacitor units are electrically connected to each other, the negative foils of the capacitor units are electrically connected to each other, and the positive foils and the negative foils are insulated from each other. The substrate unit has a positive guiding substrate electrically connected to the positive foils of the capacitor units and a negative guiding substrate electrically connected to the negative foils of the capacitor units. The package unit covers the capacitor units and one part of the substrate unit. | 01-13-2011 |
20110216475 | STACKED SOLID-STATE ELECTROLYTIC CAPACITOR WITH MULTI-DIRECTIONAL PRODUCT LEAD FRAME STRUCTURE - A stacked solid-state electrolytic capacitor with multi-directional product lead frame structure includes a plurality of capacitor units, a substrate unit and a package unit. The capacitor units are stacked onto each other. Each capacitor unit has a positive electrode and a negative electrode, the positive electrode of each capacitor unit has a positive pin extended outwards, the positive pins are electrically stacked onto each other, and the negative electrodes are electrically stacked onto each other. The substrate unit has at least one positive guiding substrate electrically connected to the positive pins of the capacitor units and a plurality of negative guiding substrates electrically connected to the negative electrodes of the capacitor units. The package unit covers the capacitor units and one part of the substrate unit in order to expose an end of the at least one positive guiding substrate and an end of each negative guiding substrate. | 09-08-2011 |
20120099247 | SOLID ELECTROLYTIC CAPACITOR HAVING A PROTECTIVE STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - A solid electrolytic capacitor with a protective structure, which includes stacked capacitor elements electrically connected to the positive and negative terminal. A packaging material such as synthetic resin is used to encapsulate the capacitor elements, the positive terminal, and the negative terminal. Before packaging, a protective layer is formed by a colloid material, which covers the main body of the capacitor that includes the capacitor elements, the positive terminal, and the negative terminal. The protective layer provides a better seal and relieves the external pressure exerting on the capacitor during the packaging process. The protection prevents structural damage to the capacitor's main body while reducing the risk of short-circuits and excessive current leakage. | 04-26-2012 |
20130010404 | CAPACITANCE UNIT AND STACKED SOLID ELECTROLYTIC CAPACITOR - A capacitance unit includes an anode portion, an insulating portion, a cathode portion and a colloid portion. The front end of the anode portion extends to from an anode terminal. The insulating portion surrounds the anode portion and covers a first partial surface of the anode portion. The cathode portion is disposed next to the insulating portion, and the cathode portion covers a second partial surface of the anode portion. The colloid portion is disposed next to the insulating portion, and the colloid portion surrounds the cathode portion and covers a partial surface of the cathode portion. | 01-10-2013 |
20130258555 | CAPACITOR UNIT AND STACKED SOLID ELECTROLYTIC CAPACITOR HAVING THE SAME - The present invention relates to a capacitor unit, which includes an anode portion, a cathode portion, and an insulating portion. The insulating portion is provided for in a form of a headband to partially cover the surface of the anode portion to divide the anode and the cathode portions. The cathode portion partially covers the anode portion and is located behind the insulating portion. The cathode portion has at least one conductive layer which is made of a conductive polymer having copper, copper alloy, or a mixture thereof. | 10-03-2013 |
20140071589 | WINDING-TYPE SOLID ELECTROLYTIC CAPACITOR PACKAGE STRUCTURE - A winding-type solid electrolytic capacitor package structure includes a capacitor unit, a package unit and a conductive unit. The conductive unit includes a winding-type capacitor having a first conductive pin and a second conductive pin. The package unit includes a package body for enclosing the capacitor unit. The conductive unit includes a first conductive terminal electrically connected to the first conductive pin and a second conductive terminal electrically connected to the second conductive pin. The first conductive terminal has a first embedded portion contacting the first conductive pin and enclosed by the package body and a first exposed portion connected to the first embedded portion and exposed from the package body. The second conductive terminal has a second embedded portion contacting the second conductive pin and enclosed by the package body and a second exposed portion connected to the second embedded portion and exposed from the package body. | 03-13-2014 |
20140071590 | STACKED-TYPE SOLID ELECTROLYTIC CAPACITOR PACKAGE STRUCTURE - A stacked-type solid electrolytic capacitor package structure includes a capacitor unit, a package unit and a conductive unit. The capacitor unit includes a plurality of capacitors stacked on top of one another. The package unit includes a package body enclosing the capacitors. The package body has a top surface defining a package length, a package width and an effective package, and the package width is substantially between 85% and 95% of the package length. The conductive unit includes a first conductive terminal electrically connected to the positive portion of the capacitor and a second conductive terminal electrically connected to the negative portion of the capacitor. One part of the first conductive terminal and one part of the second conductive terminal are enclosed by the package body, and another part of the first conductive terminal and another part of the second conductive terminal are exposed from the package body. | 03-13-2014 |
20140259580 | METHOD FOR FABRICATING SOLID ELECTROLYTIC CAPACITORS - The instant disclosure relates to an improved method for the production of solid electrolytic capacitor, comprising the following steps. First, provide an insulating substrate. Next, form a plurality of conducting gels including aluminum powder on the insulating substrate. Thirdly, execute a high-temperature sintering process to metalize the conducting gels to form a plurality of aluminum plates. Next, form a dielectric layer on every aluminum plate. Then form an isolation layer on every dielectric layer to define an anodic region and a cathodic region. Lastly, form a conductive layer on the dielectric layer of every cathodic region, thus defining a solid electrolytic capacitor unit. | 09-18-2014 |
20140262459 | WINDING-TYPE SOLID ELECTROLYTIC CAPACITOR PACKAGE STRUCTURE USING A CARRIER BOARD AND METHOD OF MANUFACTURING THE SAME - A winding-type solid electrolytic capacitor package structure includes a substrate body, a winding capacitor, a package body and an electrode unit. The winding capacitor has a winding body, a positive conductive lead pin having a positive end surface, and a negative conductive lead pin having a negative end surface. The package body is disposed on the substrate body to enclose the winding body, and the package body has a first lateral surface substantially flushed with the positive end surface and a second lateral surface substantially flushed with the negative end surface. The electrode unit includes a positive electrode structure for covering the first lateral surface and electrically contacting the positive end surface and a negative electrode structure for covering the second lateral surface and electrically contacting the negative end surface. | 09-18-2014 |
20140268500 | WINDING-TYPE SOLID ELECTROLYTIC CAPACITOR PACKAGE STRUCTURE USING A LEAD FRAME AND METHOD OF MANUFACTURING THE SAME - A winding-type solid electrolytic capacitor package structure includes a winding capacitor unit, a package body and a conductive unit. The winding capacitor has a winding body enclosed by the package body, a positive conductive lead pin having a cutting surface, and a negative conductive lead pin having a grinding surface. The conductive unit includes a positive conductive terminal electrically connected to the positive conductive lead pin and a negative conductive terminal electrically connected to the negative conductive lead pin. The positive conductive terminal has a first embedded portion enclosed by the package body and a first exposed portion exposed outside the package body. The negative conductive terminal has a second embedded portion enclosed by the package body and a second exposed portion exposed outside the package body. The first and the second exposed portions are extended along the outer surface of the package body. | 09-18-2014 |
20140268503 | WINDING-TYPE SOLID ELECTROLYTIC CAPACITOR PACKAGE STRUCTURE WITHOUT USING A LEAD FRAME AND METHOD OF MANUFACTURING THE SAME - A winding-type solid electrolytic capacitor package structure without using any lead frame includes a winding capacitor and a package body. The winding capacitor has a winding body enclosed by the package body, a positive conductive lead pin extended from a first lateral side of the winding body, and a negative conductive lead pin extended from a second lateral side of the winding body. The positive conductive lead pin has a first embedded portion enclosed by the package body and a first exposed portion exposed outside the package body and extended along the first lateral surface and the bottom surface of the package body. The negative conductive lead pin has a second embedded portion enclosed by the package body and a second exposed portion exposed outside the package body and extended along the second lateral surface and the bottom surface of the package body. | 09-18-2014 |
20140307365 | SOLID ELECTROLYTIC CAPACITOR PACKAGE STRUCTURE FOR DECREASING EQUIVALENT SERIES RESISTANCE AND METHOD OF MANUFACTURING THE SAME - A solid electrolytic capacitor package structure for decreasing equivalent series resistance (ESR), includes a capacitor unit, a package unit and a conductive unit. The capacitor unit includes a plurality of first stacked-type capacitors sequentially stacked on top of one another and electrically connected with each other. The package unit includes a package body for enclosing the capacitor unit. The conductive unit includes a first conductive terminal and a second conductive terminal having a through hole, and the stacked-type capacitors are electrically connected between the first and the second conductive terminals. The bottommost first stacked-type capacitor is positioned on the top surface of the second conductive terminal through conductive paste that has a first conductive portion disposed between the bottommost first stacked-type capacitors and the top surface of the second conductive terminal and a second conductive portion filling in the through groove to connect with the first conductive portion. | 10-16-2014 |