Class / Patent application number | Description | Number of patent applications / Date published |
338322000 | WITH TERMINAL | 24 |
20110309909 | Method, particularly for manufacturing terminals for electric resistors, and the terminal obtained - A method for manufacturing terminals for electric resistors consists in
| 12-22-2011 |
20140176294 | POWER RESISTOR WITH INTEGRATED HEAT SPREADER - An integrated assembly includes a resistor and a heat spreader. The resistor includes a resistive element and terminals. The heat spreader is integrated with the resistor and includes a heat sink of thermally conducting and electrically insulating material and terminations of a thermally conducting material and situated at an edge of the heat sink. At least a portion of a top surface of the resistive element is in thermally conductive contact with the heat sink. Each resistor terminal is in thermally conductive contact with a corresponding termination of the heat sink. A method of fabricating an integrated assembly of a resistor and a heat spreader includes forming the heat spreader, forming the resistor, and joining the heat spreader to the resistor by bonding at least a portion of a top surface of the resistive element to the heat sink and bonding each electrically conducting terminal to a corresponding termination. | 06-26-2014 |
20140218163 | POLYMERIC PTC THERMISTORS - The subject matter of the present application is a curable adhesive composition having PTC characteristics after curing, containing (i) a reactive binder system, based on an epoxy-resin-component and a curing agent-component, (ii) particles of a carbon modification in a range of 0.01 wt % to 15.0 wt %, based on the total weight of the curable adhesive composition, and (iii) copper powder in a range of 0.5 wt % to 5.0 wt %, based on the total weight of the curable adhesive composition, wherein the reactive binder system comprises>70 wt % of all organic polymers of the adhesive composition. | 08-07-2014 |
20150102897 | RESISTOR, PARTICULARLY A LOW-RESISTANCE CURRENT-MEASURING RESISTOR - The invention relates to a resistor, in particular a low-resistance current-measuring resistor, comprising a first connection part ( | 04-16-2015 |
20160133362 | RESISTOR AND METHOD FOR MANUFACTURING SAME - A resistor includes a resistive element, a protective film, and a pair of electrodes. The resistive element is made of a metal plate. The protective film is formed on the upper surface of the resistive element. The plated layers are formed to cover the electrodes. The electrodes are separated from each other with the protective film therebetween and are formed at both ends of the upper surface of the resistive element. The electrodes are formed by printing metal-containing paste. | 05-12-2016 |
338324000 | Diverse terminals | 1 |
20080266048 | RESISTOR - Embodiments of a resistor are disclosed. | 10-30-2008 |
338325000 | With three or more terminals | 4 |
20090085716 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A semiconductor device and a method for manufacturing the same that includes terminal patterns and resistor patterns disposed between and electrically connected to the terminal patterns. The resistor patterns have an electrical resistance higher than the electrical resistance of the terminal patterns and also have a width greater than a width of the terminal patterns | 04-02-2009 |
20110260826 | FOUR-TERMINAL RESISTOR WITH FOUR RESISTORS AND ADJUSTABLE TEMPERATURE COEFFICIENT OF RESISTANCE - Thermally stable four-terminal resistor (current sensor) is characterized by having the capacity to adjust both resistance and temperature coefficient of resistance (TCR), during manufacturing process. The four-terminal resistor includes 3 or 4 elementary resistors R | 10-27-2011 |
20150048923 | RESISTOR AND STRUCTURE FOR MOUNTING SAME - Provided is a resistor for current detection, wherein connection failure etc. due to electro-migration is prevented from being generated in state that the resistor is mounted on a mounting board. The resistor has a resistance body ( | 02-19-2015 |
20160125981 | RESISTOR, METHOD OF MANUFACTURING THE SAME, AND BOARD HAVING THE SAME - A resistor includes: a base substrate; a resistance layer disposed on one surface of the base substrate; first and second electrode layers disposed to be spaced apart from each other and covering portions of the resistance layer; and a third electrode layer disposed between the first and second electrode layers to be spaced apart from the first and second electrode layers and covering a portion of the resistance layer. | 05-05-2016 |
338327000 | Terminal coated on resistance element | 5 |
20090153287 | CHIP RESISTOR AND METHOD OF MAKING THE SAME - A chip resistor includes a metal resistor element made in the form of a chip that includes an upper surface, a lower surface, two end surfaces, and two side surfaces. Two electrodes are formed on the resistor element to be spaced from each other in a longitudinal direction of the resistor element. Each of the electrodes is formed directly on the resistor element and extends continuously from the lower surface onto the upper surface via a corresponding one of the two end surfaces. | 06-18-2009 |
20120223807 | METHOD FOR MANUFACTURING A RESISTOR - To provide manufacturing method for resistor that uses metal plate as resistance body, which can obtain desired accurate resistance value without trimming resistance body even if product becomes small. The method comprises; in method for manufacturing an unit resistor that has a pair of electrodes separated by insulation film, from resistor material that is provided with a metal plate consisting of resistance material, an insulation film pattern formed on the metal plate, and an electrode region formed besides area where insulation film pattern has been formed, by piercing predetermined piercing area, wherein length E of insulation film pattern is longer than width w of piercing area, wherein width L of insulation film pattern extends or narrows along direction of length E of insulation film pattern, and wherein position X of piercing area is adjusted in extent and in direction of length E of insulation film pattern. | 09-06-2012 |
20120299694 | RESISTOR AND METHOD FOR MAKING SAME - A metal strip resistor is provided. The metal strip resistor includes a metal strip forming a resistive element and providing support for the metal strip resistor without use of a separate substrate. There are first and second opposite terminations overlaying the metal strip. There is plating on each of the first and second opposite terminations. There is also an insulating material overlaying the metal strip between the first and second opposite terminations. A method for forming a metal strip resistor wherein a metal strip provides support for the metal strip resistor without use of a separate substrate is provided. The method includes coating an insulative material to the metal strip, applying a lithographic process to form a conductive pattern overlaying the resistive material wherein the conductive pattern includes first and second opposite terminations, electroplating the conductive pattern, and adjusting resistance of the metal strip. | 11-29-2012 |
20140210587 | RESISTOR AND METHOD FOR MAKING SAME - A metal strip resistor is provided. The metal strip resistor includes a metal strip forming a resistive element and providing support for the metal strip resistor without use of a separate substrate. There are first and second opposite terminations overlaying the metal strip. There is plating on each of the first and second opposite terminations. There is also an insulating material overlaying the metal strip between the first and second opposite terminations. A method for forming a metal strip resistor wherein a metal strip provides support for the metal strip resistor without use of a separate substrate is provided. The method includes coating an insulative material to the metal strip, applying a lithographic process to form a conductive pattern overlaying the resistive material wherein the conductive pattern includes first and second opposite terminations, electroplating the conductive pattern, and adjusting resistance of the metal strip. | 07-31-2014 |
20140368310 | AMORPHOUS METAL THIN-FILM NON-LINEAR RESISTOR - An amorphous metal thin-film non-linear resistor (AMNR) is provided. The AMNR is an electronic device possessing symmetric non-linear current-voltage (I-V) characteristics, an exemplary configuration of which may comprise three sequentially deposited layers which include a lower amorphous metal thin-film (AMTF) interconnect, a thin-film insulator located on top of the AMTF interconnect, and two upper conductive contacts located on top of the insulator and disposed in the same physical plane. | 12-18-2014 |
338328000 | Terminal and resistance element disposed in flat layers | 4 |
20100176913 | METHOD FOR MANUFACTURING RECTANGULAR PLATE TYPE CHIP RESISTOR AND RECTANGULAR PLATE TYPE CHIP RESISTOR - There is provided a method for manufacturing rectangular plate type chip resistors which provides easy and convenient control of resistance, and easy and low cost manufacture of rectangular plate type chip resistors having a reliable electrode structure, as well as a rectangular plate type chip resistor obtained by this method and having excellent properties particularly at low resistance. The method includes the steps of (A) providing a resistive alloy plate strip | 07-15-2010 |
20110156860 | SURFACE MOUNT RESISTOR WITH TERMINALS FOR HIGH-POWER DISSIPATION AND METHOD FOR MAKING SAME - A metal strip resistor is provided with a resistive element disposed between a first termination and a second termination. The resistive element, first termination, and second termination form a substantially flat plate. A thermally conductive and electrically non-conductive thermal interface material such as a thermally conductive adhesive is disposed between the resistive element and first and second heat pads that are placed on top of the resistive element and adjacent to the first and second terminations, respectively. | 06-30-2011 |
20140232515 | CHIP RESISTOR AND METHOD FOR MAKING THE SAME - A chip resistor includes first and second electrodes spaced apart from each other, a resistor element arranged on the first and the second electrodes, a bonding layer provided between the resistor element and the two electrodes, and a plating layer electrically connected to the resistor element. The first electrode includes a flat outer side surface, and the resistor element includes a side surface facing in the direction in which the thirst and the second electrodes are spaced. The outer side surface of the first electrode is flush with the side surface of the resistor element. The plating layer covers at least a part of the outer side surface of the first electrode in a manner such that the covering portion of the plating layer extends from one vertical edge of the outer side surface to the other vertical edge. | 08-21-2014 |
20160042844 | CHIP RESISTOR AND METHOD FOR MAKING THE SAME - A chip resistor includes first and second electrodes spaced apart from each other, a resistor element arranged on the first and the second electrodes, a bonding layer provided between the resistor element and the two electrodes, and a plating layer electrically connected to the resistor element. The first electrode includes a flat outer side surface, and the resistor element includes a side surface facing in the direction in which the thirst and the second electrodes are spaced. The outer side surface of the first electrode is flush with the side surface of the resistor element. The plating layer covers at least a part of the outer side surface of the first electrode in a manner such that the covering portion of the plating layer extends from one vertical edge of the outer side surface to the other vertical edge. | 02-11-2016 |
338329000 | Welded or soldered | 1 |
20140015636 | CONNECTION TERMINAL OF SHUNT RESISTOR, AND BATTERY STATE DETECTION DEVICE - It is an object to provide a configuration with an enhanced sensing accuracy, in which a shunt resistance main body and a terminal member are formed as separate pieces. A shunt resistor includes a resistance main body and a terminal member ( | 01-16-2014 |
338331000 | Resistance element surrounds terminal | 1 |
20120293300 | LOW-RESISTANCE CARBON GROUNDING MODULE AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a low-resistance carbon grounding module and a method for manufacturing the same, which can increase strength for durability against external environmental changes by varying the type and mixing ratio of raw materials for a carbon resistor without using any heat source. The low-resistance carbon grounding module comprises a carbon resistor extending in the longitudinal direction thereof and a conductive core bar installed in the center of the transverse section of the carbon resistor, wherein the carbon resistor comprises graphite, cement, and feldspar. Thus, it is possible to prevent the durability from being deteriorated due to external environmental changes, water, or electrical resistance, thus improving the quality and reliability of the product while minimizing the production of CO | 11-22-2012 |
338332000 | Terminal embraces or surrounds resistance element | 3 |
20090195348 | Resistor, and method for making same - A resistor includes a substantially cylindrical resistive element having a resistance of less than about 1 mΩ, a substantially cylindrical first termination electrically connected to the resistive element and a second termination electrically connected to the resistive element. The substantially cylindrical first termination is hollow to allow for accepting a connection such as from a battery cable. In addition there may be sense leads present on the resistor. A method of forming a substantially cylindrical resistor includes forming a hollow cylindrical resistor body by rolling a flat sheet comprising a resistive element and a first termination and a second termination joined on opposite ends of the resistive element. | 08-06-2009 |
20130113600 | RESISTOR AND METHOD FOR MAKING SAME - A resistor includes a substantially cylindrical resistive element having a resistance of less than about 1 mΩ, a substantially cylindrical first termination electrically connected to the resistive element and a second termination electrically connected to the resistive element. The substantially cylindrical first termination is hollow to allow for accepting a connection such as from a battery cable. In addition there may be sense leads present on the resistor. A method of forming a substantially cylindrical resistor includes forming a hollow cylindrical resistor body by rolling a flat sheet comprising a resistive element and a first termination and a second termination joined on opposite ends of the resistive element. | 05-09-2013 |
20140097933 | SHUNT RESISTOR AND METHOD FOR MANUFACTURING THE SAME - Provided is a shunt resistor, which controls an influence of skin effect by high frequency current. The shunt resistor has a rod-shaped resistance body ( | 04-10-2014 |