Class / Patent application number | Description | Number of patent applications / Date published |
029623000 | Fuse making | 11 |
20080222880 | SURGE PROTECTOR - A surge protector coated with an oxide layer having an excellent chemical stability at the high temperature range and excellent adherence with respect to main discharge electrodes. The surge protector includes a column-shaped ceramic member that has a conductive film divided by a discharge gap interposed therebetween; a pair of main discharge electrode members opposite to each other on both ends of the column-shaped ceramic member to come in contact with the conductive film; and a cylindrical ceramic tube which is fitted to the pair of main discharge electrode members opposite to each other to seal both the column-shaped ceramic member and sealing gas inside thereof. Oxide films are formed on main discharge surfaces of at least the protrusive supporting portions of the pair of main discharge electrode members opposite to each other, by performing an oxidation treatment, respectively. | 09-18-2008 |
20090025206 | Connection Grid With Integrated Fuse, Method For The Production Thereof And System For Implementing This Method - The invention provides a connection grid, comprising at least a pair of arms for fixing a fuse to the grid via its longitudinal ends. Each of the arms comprises a concave portion forming a cradle for receiving one of the longitudinal ends of the fuse. A method for producing this grid and a device for implementing this method are also provided. | 01-29-2009 |
20100005649 | ELECTRICAL FUSE HAVING SUBLITHOGRAPHIC CAVITIES THEREUPON - An electrical fuse and a first dielectric layer thereupon are formed on a semiconductor substrate. Self-assembling block copolymers containing two or more different polymeric block components are applied into a recessed region surrounded by a dielectric template layer. The self-assembling block copolymers are then annealed to form a pattern of multiple circles having a sublithographic diameter. The pattern of multiple circles is transferred into the first dielectric layer by a reactive ion etch, wherein the portion of the first dielectric layer above the fuselink has a honeycomb pattern comprising multiple circular cylindrical holes. A second dielectric layer is formed over the circular cylindrical holes by a non-conformal chemical vapor deposition and sublithographic cavities are formed on the fuselink. The sublithographic cavities provide enhanced thermal insulation relative to dielectric materials to the fuselink so that the electrical fuse may be programmed with less programming current. | 01-14-2010 |
20100037454 | METHOD FOR CUTTING ELECTRIC FUSE - A semiconductor device includes an electric fuse formed on a semiconductor substrate and composed of an electric conductor. The electric fuse includes an upper layer interconnect, a via coupled to the upper interconnect and a lower layer interconnect coupled to the via, which are formed in different layers, respectively, in a condition before cutting the electric fuse, and wherein the electric fuse includes a flowing-out region formed of the electric conductor being flowed toward outside from the second interconnect and a void region formed between the first interconnect and the via or in the via, in a condition after cutting the electric fuse. | 02-18-2010 |
20100107403 | SEMICONDUCTOR DEVICE COMPRISING eFUSES OF ENHANCED PROGRAMMING EFFICIENCY - In sophisticated integrated circuits, an electronic fuse may be formed such that an increased sensitivity to electromigration may be accomplished by including at least one region of increased current density. This may be accomplished by forming a corresponding fuse region as a non-linear configuration, wherein at corresponding connection portions of linear segments, the desired enhanced current crowding may occur during the application of the programming voltage. Hence, increased reliability and more space-efficient layout of the electronic fuses may be accomplished. | 05-06-2010 |
20120073125 | COMPLEX TYPE FUSIBLE LINK, FUSE BOX, AND MANUFACTURING METHOD THEREOF - The present invention provides a complex type fusible link which includes an insulative block base including a plurality of cavities; a conductive connecting plate which is integrally embedded in the insulative block base, a part of the conductive connecting plate being exposed to at least one of the cavities; a plurality of fusible elements each of which is accommodated in corresponding one of the cavities and includes a first end which is connected to the part of the conductive connecting plate and a second end; and a plurality of terminals each of which is integrally embedded in the insulative block base and includes a first end which is connected to the second end of corresponding one of the fusible elements and a second end which is exposed from the insulative block base. | 03-29-2012 |
20120255162 | TEMPERATURE-SENSITIVE PELLET TYPE THERMAL FUSE - The present invention provides a temperature-sensitive pellet type thermal fuse, a manufacturing method of the temperature-sensitive pellet type thermal fuse and a mounting method of the temperature-sensitive pellet type thermal fuse which, when the fuse is mounted on a temperature control target object having a planar portion, can ensure a high heat response speed, can decrease the difference in a heat response time for every product, can ensure high operational reliability, reduces the number of parts, and can reduce a manufacturing cost. A temperature-sensitive pellet type thermal fuse includes: an elongated case which has a hollow portion in the inside thereof; a first lead line which is arranged on one longitudinal end portion side of the elongated case along the longitudinal direction; a second lead line which is arranged on the other longitudinal end portion side of the elongated case along the longitudinal direction; and a movable contact which is arranged in the hollow portion and is brought into contact with the second lead line which is always biased in the move-away direction by way of a molten pellet arranged in contact with the first lead line, the movable contact being movable away from the second lead line due to a biasing force when a temperature of a temperature control target object arrives at a predetermined temperature or more and the molten pellet is melted thus cutting off a power source circuit, wherein the elongated case includes a planar portion which is brought into face contact with a planar portion of the temperature control target object. | 10-11-2012 |
20130047421 | Reflowable Thermal Fuse - A reflowable thermal fuse includes a positive-temperature-coefficient (PTC) device that defines a first end and a second end, a conduction element that defines a first end and a second end in electrical communication with the second end of the PTC device, and a restraining element that defines a first end in electrical communication with the first end of the PTC device and a second end, in electrical communication with a second end of the conduction element. The restraining element is adapted to prevent the conduction element from coming out of electrical communication with the PTC device in an installation state of the thermal fuse. During a fault condition, heat applied to the thermal fuse diverts current flowing between the first end of the PTC device and the second end of the conduction element to the restraining element, causing the restraining element to release the conduction element and activate the fuse. | 02-28-2013 |
20130118004 | SMALL FUSE AND MANUFACTURING METHOD THEREOF - Disclosed are a small fuse and a method of manufacturing the same. A cover made from thermosetting resin is coupled with is a base to receive a fusing element therein. The fusing element does not cause damage to the cover even if the fusing element makes contact with an inner wall of the cover due to size reduction of the cover. | 05-16-2013 |
20130212874 | METHOD OF MANUFACTURING FUSE ASSEMBLY - A method of manufacturing a fuse assembly having a main body, two metal legs, and a meltable rod, the meltable rod having two outer ends connected with two inner ends of the metal legs, consisting of following steps: pre-coating a tin layer on an inner surface of respective one of the inner ends of the metal legs; winding the upper ends of the metal legs around the outer ends of the meltable rod; and applying predetermined temperature and pressure on both sides of the inner ends of the metal legs thereby melting the tin layer and completely filling the tin layer between the upper ends of the metal legs and the outer ends of the meltable rod without any space. | 08-22-2013 |
20150082619 | METHOD OF MANUFACTURING A COMPLEX FUSIBLE LINK - A manufacturing method of a complex type fusible link. The manufacturing method includes hollowing out a metal plate into a link-like conductor including a connecting plate and a terminal, cutting out the link-like conductor so as to separate the connecting plate and the terminal, forming, by insert molding, a block base including a cavity after setting the connecting plate and the terminal in a mold, and directly connecting a fusible element to an exposed portion of the connecting plate and an exposed portion of the terminal. | 03-26-2015 |