CYNTEC CO., LTD. Patent applications |
Patent application number | Title | Published |
20150348801 | STACK FRAME FOR ELECTRICAL CONNECTIONS AND THE METHOD TO FABRICATE THEREOF - A method for forming a conductive structure is disclosed, the method comprising the steps of: forming a metallic frame having a plurality of metal parts separated from each other; forming an insulating layer on the top surface of the plurality of metal parts; and forming a conductive pattern layer on the insulating layer for making electrical connections with at least one portion of the plurality of metal parts. | 12-03-2015 |
20150348707 | MAGNETIC DEVICE AND METHOD OF MANUFACTURING THE SAME - A magnetic device comprises a lead frame, a first core body and a coil. The lead frame has a first portion and a second portion spaced apart from the first portion. A first core body is disposed on the lead frame, wherein the first core body comprises a first through opening and a second through opening. A coil is disposed on the first core body, wherein the coil has a first terminal and a second terminal, wherein the first portion is electrically connected with the first terminal via the first through opening, and the second portion is electrically connected with the second terminal via the second through opening, respectively. | 12-03-2015 |
20150029678 | SUBSTRATELESS DEVICE AND THE METHOD TO FABRICATE THEREOF - A substrateless device comprises a plurality of first conductive elements and an encapsulant. The encapsulant encapsulates the plurality of first conductive elements, wherein the locations of the plurality of first conductive elements are fixed by the encapsulant; and a plurality of terminals of the plurality of first conductive elements are exposed outside the encapsulant, wherein the plurality of first conductive elements are not supported by a substrate. | 01-29-2015 |
20140327031 | CURRENT CONDUCTING ELEMENT - A current conducting element including a substrate, a through hole, an electrode layer and a conductor structure is provided. The through hole is disposed through the substrate and has a first opening. The electrode layer is disposed on the substrate. A portion of the first opening is exposed from the electrode layer. The conductor structure is disposed in the through hole and contacted with the electrode layer. The electrode layer and the conductor structure form a current conducting path. | 11-06-2014 |
20140266568 | CURRENT SENSING RESISTOR - A resistor device includes a resistor plate having opposite first and second surfaces; a first metal layer including first and second portions which are disposed on the first surface of the resistor plate at opposite first and second sides, respectively; and a second metal layer including a first sensing pad, a second sensing pad, a first current pad and a second current pad, separate from one another, wherein the first sensing pad and the first current pad are disposed on the first portion of the first metal layer and the second sensing pad and the second current pad are disposed on the second portion of the first metal layer. A protective layer is preferably provided, overlying the resistor plate and the first metal layer uncovered by the second metal layer. | 09-18-2014 |
20140266533 | ELECTRONIC DEVICE AND MANUFACTURING METHOD THEREOF - An electronic device comprising a first magnetic powder; a second magnetic powder, wherein the mean particle diameter of the first magnetic powder is larger than the mean particle diameter of the second magnetic powder, wherein the ratio of the mean particle diameter of the first magnetic powder to the mean particle diameter of the second magnetic powder is greater than 2, and the first magnetic powder mixes with the second magnetic powder; and a conducting wire buried in the mixture of the first magnetic powder and the second magnetic powder; wherein the mixture of the first magnetic powder and the second magnetic powder and the conducting wire buried therein are combined to form an integral magnetic body at a temperature lower than the melting point of conducting wire. | 09-18-2014 |
20140218157 | MAGNETIC DEVICE WITH HIGH SATURATION CURRENT AND LOW CORE LOSS - A magnetic device includes a T-shaped magnetic core, a wire coil and a magnetic body. The T-shaped magnetic core includes a base and a pillar, and is made of an annealed soft magnetic metal material, a core loss P | 08-07-2014 |
20140133059 | PROTECTIVE DEVICE AND PROTECTIVE MODULE - A protective device includes a substrate, an electrode layer, a metal structure, an outer cover and an arc extinguishing structure. The electrode layer is disposed on the substrate. The electrode layer includes at least one gap. The metal structure is disposed on the electrode layer and located above the gap, and the metal structure has a melting temperature lower than a melting temperature of the electrode layer. The outer cover is disposed on the substrate and covers the metal structure and a portion of the electrode layer. The arc extinguishing structure is disposed between the outer cover and the substrate. A protective module is further provided. | 05-15-2014 |
20140097931 | Choke - An electronic device including a core, at least a wire and a magnetic material is provided. The core includes a pillar, a top board and a bottom board. The pillar is disposed between the top board and the bottom board. An area of the top board is smaller than an area of the bottom board. A winding space is formed among the top board, the bottom board and the pillar. The wire is winded around the pillar and located in the winding space. The magnetic material fills the winding space to encapsulate the wire. The magnetic material includes a resin and a metallic powder, wherein an average particle diameter of the magnetic powder is smaller than 20 μm. | 04-10-2014 |
20140077912 | INDUCTOR - An inductor includes a first core, a conducting wire, a second core and a first lead frame. There is an accommodating space formed on a first side of the first core and there is a recess portion formed on a second side of the first core, wherein the first side is opposite to the second side. The first core has a first height. The conducting wire is disposed in the accommodating space. The second core is disposed on the first side of the first core and covers the accommodating space. The first lead frame has an embedded portion embedded in the recess portion. The embedded portion has a second height. After embedding the embedded portion in the recess portion of the first core, a total height of the embedded portion and the first core is smaller than the sum of the first height and the second height. | 03-20-2014 |
20140055226 | VARIABLE COUPLED INDUCTOR - A variable coupled inductor includes a first core, two conducting wires, a second core and a magnetic structure. The first core includes two first protruding portions, a second protruding portion and two grooves, wherein the second protruding portion is located between the two first protruding portions and each of the grooves is located between one of the first protruding portions and the second protruding portion. Each of the conducting wires is disposed in one of the grooves. The second core is disposed on the first core. A first gap is formed between each of the first protruding portions and the second core and a second gap is formed between the second protruding portion and the second core. The magnetic structure is disposed between the second protruding portion and the second core and distributed symmetrically with respect to a centerline of the second protruding portion. | 02-27-2014 |
20140049350 | METHOD OF PRODUCING AN INDUCTOR WITH A HIGH INDUCTANCE - A method of producing an inductor with high inductance includes forming a removable polymer layer on a temporary carrier; forming a structure including a first coil, a second coil, and a dielectric layer on the removable polymer layer; forming a first magnetic glue layer on the removable polymer layer and the structure; removing the temporary carrier; and forming a second magnetic glue layer below the structure and the first magnetic glue layer. | 02-20-2014 |
20140042610 | PACKAGE STRUCTURE AND THE METHOD TO FABRICATE THEREOF - The invention discloses a package structure with at least one portion of a first conductive element disposed in a through-opening of a first substrate. A conductive structure is disposed on the first substrate and the first conductive element, wherein the conductive structure is electrically connected to the first substrate and said at least one first I/O terminal of the first conductive element. The conductive structure comprises at least one of a second conductive element, a second substrate or a conductive pattern. | 02-13-2014 |
20140016289 | NETWORK COMMUNICATION DEVICE - A network communication device is disclosed. The network communication device includes a circuit board, a network connector, a network chip and a plurality of network magnetic assemblies. The network connector, the network chip and the network magnetic assemblies are disposed on the circuit board. The network magnetic assemblies are electrically connected with the network connector and the network chip, respectively. Each of the network magnetic assemblies includes an Ethernet transformer and at least one inductor. The Ethernet transformer is electrically connected in series with the inductor via a conductive trace of the circuit board. The spaced distance or a path length of the conductive trace between the Ethernet transformer and the inductor of the at least one network magnetic assembly is less than a first specific length. | 01-16-2014 |
20140002227 | MAGNETIC DEVICE AND METHOD OF MANUFACTURING THE SAME | 01-02-2014 |
20130335186 | ELECTROMAGNETIC COMPONENT AND FABRICATION METHOD THEREOF - An electromagnetic component includes a coil portion with a multi-layer stack structure, a molded body encapsulating the coil portion, and two electrodes respectively coupled to two terminals of the coil portion. The coil portion is fabricated using plating, laminating and/or pressing manufacturing techniques. | 12-19-2013 |
20130328653 | CHOKE - A choke includes a single-piece core made of a same material, the single-piece core having a first board, a second board, and a pillar located between the first and second boards, a winding space located among the first board, the second board and the pillar, wherein the pillar has a non-circular and non-rectangular cross section having a first axis and a second axis substantially perpendicularly intersecting with each other at a center of the cross section of the pillar, and wherein a circumference of the cross section of the pillar includes two arc edges, four first substantially straight edges substantially parallel to the first axis, and two second substantially straight edges substantially parallel to the second axis, each of the first substantially straight edges being a joint of and in direct contact with one of the arc edges and one of the second substantially straight edges. | 12-12-2013 |
20130321119 | PROTECTIVE DEVICE - A protective device including a substrate, a conductive section and a bridge element is provided. The conductive section is supported by the substrate, wherein the conductive section comprises a metal element electrically connected between first and second electrodes. The metal element serves as a sacrificial structure having a melting point lower than that of the first and second electrodes. The bridge element spans across the metal element in a direction across direction of current flow in the metal element, wherein the bridge element facilitates breaking of the metal element upon melting. | 12-05-2013 |
20130271251 | Substrate-Less Electronic Component - The present invention discloses a substrate-less electronic component. A conductive element is disposed in the plurality of insulating layers, wherein the plurality of insulating layers are not supported by a substrate. The substrate-less electronic component can be manufactured by performing film process on a plurality of conductive layers or insulating layers on the substrate before the substrate is removed. In one embodiment, a buffer layer can be formed on the substrate. After the process is done, the buffer layer can be easily removed to decouple the substrate from the layers on the substrate. | 10-17-2013 |
20130271241 | BALANCE FILTER - The invention discloses a balance filter formed from a combination of a first circuit and a second circuit, wherein both the first circuit and the second circuit have at least one through-hole via inductor. The balance filter is connected to an IC through a first terminal and a second terminal, wherein a power trace is disposed between the first circuit and the second circuit to deliver the power to the IC. | 10-17-2013 |
20130271240 | THROUGH-HOLE VIA INDUCTOR IN A HIGH-FREQUENCY DEVICE - The invention discloses a high-frequency device having a through-hole via inductor in a substrate. The through-hole via inductor has an integral body. The inductance of the through-hole via inductor is greater than that of the horizontal inductor. The through-hole via inductor comprises at least two materials, wherein one of said at least two materials is a conductive material. The present invention also discloses a method for manufacturing the structure of the high-frequency device, wherein the method mainly includes via-drilling and via-filling in the substrate, and lithography process on the substrate. | 10-17-2013 |
20130250470 | PROTECTIVE DEVICE - A protective device including a substrate, a conductive section and a first auxiliary medium is provided. The conductive section is supported by the substrate, wherein the conductive section comprises a metal element electrically connected between first and second electrodes. The metal element serves as a sacrificial structure having a melting point lower than that of the first and second electrodes. The first auxiliary medium is disposed between the metal element and the substrate, wherein the first auxiliary medium has a melting point lower than that of the metal element. The first auxiliary medium facilitates breaking of the metal element upon melting. | 09-26-2013 |
20130229251 | ELECTRONIC DEVICE AND MANUFACTURING METHOD THEREOF - An electronic device comprising a first magnetic powder, a second magnetic powder and a conducting wire buried in the mixture of the first magnetic powder and the second magnetic powder is provided. The conducting wire comprises an insulating encapsulant and a conducting metal encapsulated by the insulating encapsulant. The Vicker's Hardness of the first magnetic powder is greater than the Vicker's Hardness of the second magnetic powder, and the mean particle diameter of the first magnetic powder is larger than the mean particle diameter of the second magnetic powder. By means of the hardness difference of the first magnetic powder and the second magnetic powder, the mixture of the first magnetic powder and the second magnetic powder and the conducting wire buried therein are combined to form an integral magnetic body at the temperature lower than the melting point of the insulating encapsulant. | 09-05-2013 |
20130213704 | PACKAGE STRUCTURE AND THE METHOD TO FABRICATE THEREOF - The invention discloses a package structure made of the combination of a device carrier and a modifiable substrate. In one embodiment, a recess is formed in the device carrier and a conductive element is disposed on the substrate, wherein the substrate is disposed on the device carrier and the conductive element is located in the recess of the device carrier. The conductive pattern in the substrate is electrically connected to the device carrier and I/O terminals of the first conductive element. The invention also discloses a method for manufacturing a package structure made of the combination of a device carrier and a modifiable substrate. In one embodiment, a portion of the conductive pattern in the substrate can be modified. | 08-22-2013 |
20130146341 | PACKAGE STRUCTURE AND THE METHOD TO MANUFACTURE THEREOF - The invention discloses a package structure with an overlaying metallic material overlaying a solder material. A substrate comprises a first solder pad and a second solder pad thereon. A conductive element on the substrate comprises a first electrode and a second electrode thereon. A solder material electrically connects the first solder pad and the second solder pad to the first electrode and the second electrode respectively. An overlaying metallic material overlays the exposed areas of the solder metallic material, the first solder pad, the second solder pad, the first electrode and the second electrode, wherein the exposed areas comprise metallic material having a lower melting point than the second metallic material. | 06-13-2013 |
20130141886 | ELECTRONIC PACKAGE STRUCTURE - An electronic package structure including at least one first electronic element, a second electronic element and a lead frame is provided. The second electronic element includes a body having a cavity. The first electronic element is disposed in the cavity. The lead frame has a plurality of leads. Each of the leads has a first end and a second end. The first end of at least one of the leads extends to the cavity to electrically connect the first electronic element. | 06-06-2013 |
20130133826 | METHOD OF MANUFACTURING RESISTOR - A method of manufacturing a resistor includes steps of providing a resistance material and two electrode materials, wherein a reflectivity of the resistance material is smaller than a reflectivity of the electrode material; fixing the two electrode materials at opposite sides of the resistance material; and welding two first junctions between the resistance material and the two electrode materials by a first laser from a first side of the resistance material, wherein a beam area from the first laser to the resistance material is larger than a beam area from the first laser to the electrode material. | 05-30-2013 |
20130093069 | PACKAGE STRUCTURE AND THE METHOD TO FABRICATE THEREOF - The invention discloses a package structure made of the combination of a metallic substrate and a lead frame. In one embodiment, a recess is formed in the metallic substrate and a first conductive element having at least one first I/O terminal is bonded in the recess. A lead frame is formed on the metallic substrate and comprises a plurality of electrical connections to connect with said at least one first I/O terminal of the first conductive element. In another embodiment, another conductive element is disposed in the vacancy of the lead frame. The invention also discloses a method for manufacturing a package structure made of the combination of a metallic substrate and a lead frame. | 04-18-2013 |
20130076470 | INDUCTOR - An inductor includes a first core, a conducting wire, a second core and a first lead frame. There is an accommodating space formed on a first side of the first core and there is a recess portion formed on a second side of the first core, wherein the first side is opposite to the second side. The first core has a first height. The conducting wire is disposed in the accommodating space. The second core is disposed on the first side of the first core and covers the accommodating space. The first lead frame has an embedded portion embedded in the recess portion. The embedded portion has a second height. After embedding the embedded portion in the recess portion of the first core, a total height of the embedded portion and the first core is smaller than the sum of the first height and the second height. | 03-28-2013 |
20130025915 | ARESISTIVE DEVICE WITH FLEXIBLE SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - A resistive device includes a resistive layer, a flexible substrate arranged on the resistive layer, and an electrode layer. The electrode layer includes two electrode sections arranged below the resistive layer and separate to each other. Moreover, a method for manufacturing the resistive device with flexible substrate is also disclosed. | 01-31-2013 |
20130001756 | THREE-DIMENSIONAL PACKAGE STRUCTURE - The present invention discloses a three-dimensional package structure. The first conductive element comprises a top surface, a bottom surface and a lateral surface. The conductive pattern disposed on the top surface of the first conductive element. A second conductive element is disposed on the conductive pattern. The first conductive element is electrically connected to the conductive pattern, and the second conductive element is electrically connected to the conductive pattern. In one embodiment, the shielding layer is a portion of the patterned conductive layer. | 01-03-2013 |
20120319258 | STACK FRAME FOR ELECTRICAL CONNECTIONS AND THE METHOD TO FABRICATE THEREOF - A method of forming a conductive pattern on a metallic frame for manufacturing a stack frame for electrical connections is disclosed. In one embodiment, a recess is formed in the metallic frame and a conductive element is bonded in the recess to make a stack frame for electrical connections. In another embodiment, the process can be performed on both top surface and bottom surface of metallic frame to make another stack frame for electrical connections. In yet another embodiment, a package structure and a manufacturing method of forming a conductive pattern on a lead frame for electrical connections are disclosed. | 12-20-2012 |
20120313229 | PACKAGE STRUCTURE AND MANUFACTURING METHOD THEREOF - The invention discloses a package structure for better heat-dissipation or EMI performance. A first conductive element and a second conductive element are both disposed between the top lead frame and the bottom lead frame. The first terminal of the first conductive element is electrically connected to the bottom lead frame, and the second terminal of the first conductive element is electrically connected to the top lead frame. The third terminal of the second conductive element is electrically connected to the bottom lead frame, and the fourth terminal of the second conductive element is electrically connected to the top lead frame. In one embodiment, a heat dissipation device is disposed on the top lead frame. In one embodiment, the molding compound is provided such that the outer leads of the top lead frame are exposed outside the molding compound. | 12-13-2012 |
20120274413 | MONOLITHIC POWER SPLITTER FOR DIFFERENITAL SIGNAL - A monolithic power splitter is used to split a pair of input differential signals into two pairs of output differential signals in the present invention. The monolithic power splitter has two input terminals to receive a pair of input differential signals, and it has two one-by-two power splitters integrated in one single chip to split a pair of input differential signals into two pairs of output differential signals with equal power. And, the monolithic power splitter has four output terminals to output two pairs of output differential signals. In one embodiment, the first one-by-two power splitter and the second one-by-two power splitter are made on the same surface of the substrate. In another embodiment, the first one-by-two power splitter and the second one-by-two power splitter are made on opposite surfaces of the substrate. The monolithic power splitter can be used as a power combiner based on the reciprocal property of the power splitter circuit. | 11-01-2012 |
20120262145 | POWER-SUPPLY MODULE - A power-supply module includes at least one power-supply component, an inductor and a package. The inductor is disposed over the at least one power-supply components, and the at least a power-supply component and the inductor are disposed within the package. Besides, the power-supply module further comprises a printed circuit board, and the at least one power-supply component and the inductor are mounted to the printed circuit board. Moreover, the inductor comprises a plurality of leads that support the inductor over the at least one power-supply component. | 10-18-2012 |
20120236519 | ELECTRONIC PACKAGE STRUCTURE - The present invention discloses an electronic package structure. The body has a top surface with a cavity thereon, the first conductive element is disposed in the cavity, and the second conductive element is disposed in the body. The first external electrode electrically connected to the first conductive element and the second external electrode electrically connected to the second conductive element are both disposed on the top surface of the body or a first surface formed by the top surface of the encapsulation compound and the exposed portions of the top surface of the body which are not covered by the encapsulation compound. | 09-20-2012 |
20120200383 | CURRENT SENSING RESISTOR - A resistor device includes a resistor plate and an electrode structure. The electrode structure includes an electrode layer and an auxiliary layer. The electrode layer is disposed at a first face of the resistor plate and includes a first portion and a second portion overlying a first side and a second side of the resistor plate, respectively, and a current path is conducted between the first portion and the second portion through the resistor plate. The auxiliary layer is disposed at a second face of the resistor plate and includes at least a first block and a second block overlying the first side of the resistor plate, and at least a third block overlying the second side of the resistor plate, wherein the first, second and third blocks of the auxiliary layer are separated from one another so that any current flow among the blocks is blocked. | 08-09-2012 |
20120098620 | FILTER AND LAYOUT STRUCTURE THEREOF - A filter and a layout structure of the filter are provided. The filter includes a substrate, three capacitors, and three inductors. The three capacitors and the first and second inductors are disposed on a top surface of the substrate. The third inductor is disposed on a lateral surface of the substrate. First electrodes of the first and third capacitors and a first terminal of the first inductor are connected to a first I/O terminal of the filter. A first electrode of the second capacitor, a second electrode of the third capacitor and a first terminal of the second inductor are connected to a second I/O terminal of the filter. A first terminal of the third inductor is connected to second electrodes of the first and second capacitors. | 04-26-2012 |
20120069529 | POWER CONVERSION MODULE - A power conversion module includes a circuit carrier board, a semiconductor module and an inductor module. The circuit carrier board has plural bonding pads. The semiconductor module is disposed on a first surface of the circuit carrier board. The inductor module has plural pins. The pins are extended from the inductor module along a first direction and connected with corresponding bonding pads on the circuit carrier board, so that a receptacle is defined between the inductor module and the circuit carrier board for accommodating the semiconductor module. | 03-22-2012 |
20120019343 | COIL DEVICE - A coil device includes a first coil pattern, a second coil pattern, an insulating layer, a magnetic covering element and a number of conductive pillars. The second coil pattern is disposed above the first coil pattern, and is spaced apart from the first coil pattern. The insulating layer covers the first coil pattern and the second coil pattern and defines an opening surrounded by the first coil pattern and the second coil pattern. The magnetic covering element covers the insulating layer and extends into the opening. The conductive pillars are disposed within the magnetic covering element and are exposed from a bottom side of the magnetic covering element. A portion of the conductive pillars are electrically connected to the first coil pattern, and another portion of the conductive pillars are connected to the second coil pattern. The coil device can be easily manufactured. | 01-26-2012 |
20120014079 | ELECTRONIC PACKAGE STRUCTURE - An electronic package structure including at least one first electronic element, a second electronic element and a lead frame is provided. The second electronic element includes a body having a cavity. The first electronic element is disposed in the cavity. The lead frame has a plurality of leads. Each of the leads has a first end and a second end. The first end of at least one of the leads extends to the cavity to electrically connect the first electronic element. | 01-19-2012 |
20110278704 | THREE-DIMENSIONAL PACKAGE STRUCTURE - A three-dimensional package structure includes an energy storage element, a semiconductor package body and a shielding layer. The semiconductor package body has a plurality of second conductive elements and at least one control device inside. The energy storage element is disposed on the semiconductor package body. The energy storage element including a magnetic body is electrically connected to the second conductive elements. The semiconductor package body or the energy storage element has a plurality of first conductive elements to be electrically connected to an outside device. The shielding layer is disposed between the control component and at least part of the magnetic body to inhibit or reduce EMI (Electro-Magnetic Interference) from the energy storage element and to get a tiny package structure. The three-dimensional package structure is applicable to a POL (Point of Load) converter. | 11-17-2011 |
20110199746 | ELECTRONIC SYSTEM WITH A COMPOSITE SUBSTRATE - A composite substrate made of a circuit board mounted on a lead frame is used for an electronic system package. High heat generated electronic components are adapted to mount on the lead frame and relatively low heat generated electronic components are adapted to mount on the circuit board. Metal lines are used for electrical coupling between the circuitry of the IC chip and the circuit board. An electronic system with the composite substrate gains both advantages—good circuitry arrangement capability from the circuit board and good heat distribution from the lead frame. | 08-18-2011 |
20110090648 | ELECTRONIC PACKAGE STRUCTURE - An electronic package structure including at least one first electronic element, a second electronic element and a lead frame is provided. The second electronic element includes a body having a cavity. The first electronic element is disposed in the cavity. The lead frame has a plurality of leads. Each of the leads has a first end and a second end. The first end of at least one of the leads extends to the cavity to electrically connect the first electronic element. | 04-21-2011 |
20110063072 | RESISTOR DEVICE AND METHOD FOR MANUFACTURING SAME - A resistor device includes a resistor plate having a first aperture, a second aperture, a third aperture and a fourth aperture respectively arranged on a first side, a second side, a third side and a fourth side thereof. A first electrode plate is coupled to the first side of the resistor plate and includes a first measurement zone and a second measurement zone disposed at opposite sides of the first aperture; and a second electrode plate is coupled to the third side of the resistor plate and including a third measurement zone and a fourth measurement zone disposed at opposite sides of the third aperture, wherein the first measurement zone and the third measurement zone are disposed at opposite sides of the second aperture, and the second measurement zone and the fourth measurement zone are disposed at opposite sides of the fourth aperture. | 03-17-2011 |
20110058295 | PROTECTIVE DEVICE - A protective device including a substrate, a conductive section and a first auxiliary medium is provided. The conductive section is supported by the substrate, wherein the conductive section comprises a metal element electrically connected between first and second electrodes. The metal element serves as a sacrificial structure having a melting point lower than that of the first and second electrodes. The first auxiliary medium is disposed between the metal element and the substrate, wherein the first auxiliary medium has a melting point lower than that of the metal element. The first auxiliary medium facilitates breaking of the metal element upon melting. | 03-10-2011 |
20110057761 | PROTECTIVE DEVICE - A protective device including a substrate, a conductive section and a bridge element is provided. The conductive section is supported by the substrate, wherein the conductive section comprises a metal element electrically connected between first and second electrodes. The metal element serves as a sacrificial structure having a melting point lower than that of the first and second electrodes. The bridge element spans across the metal element in a direction across direction of current flow in the metal element, wherein the bridge element facilitates breaking of the metal element upon melting. | 03-10-2011 |
20110048797 | SURFACE MOUNTED ELECTRONIC COMPONENT - A surface mounted electronic component is provided. The surface mounted electronic component includes a main body, a circuit element, a conductive electrode, and a virtual electrode. The circuit element is arranged in the main body. The conductive electrode is disposed on an outer surface of the main body, wherein the conductive electrode electrically is connected to the circuit element. The virtual electrode is disposed on the outer surface of the main body, wherein the virtual electrode lies near the conductive electrode. There is a distance between the virtual electrode and the conductive electrode. | 03-03-2011 |
20100309638 | ELECTRONIC ELEMENT PACKAGING MODULE - An electronic element packaging module including a lead frame, an insulating layer and at least one electronic element is provided. The lead frame is a patterned metal sheet and has a first surface, a second surface opposite thereto and a through trench passing from the first surface to the second surface. A substrate portion and a plurality of lead portions around the substrate portion of the lead frame are defined by the through trench. The second surface of the lead frame is exposed outside the electronic element packaging module. The insulating layer disposed in the through trench has a third surface and a forth surface substantially coplanar with the first and the second surfaces, respectively. The electronic element disposed on the first surface is coupled to the lead frame. | 12-09-2010 |
20100308950 | CHOKE - A choke including a core and a hollow coil is provided. The core includes a first core body and a second core body. The first core body includes a pillar. The second core body is a flat plate and has an opening. An end of the pillar is suitable to be disposed in the opening and joined to the same. The hollow coil is fitted on the pillar. | 12-09-2010 |
20100289609 | ELECTRONIC DEVICE AND MANUFACTURING METHOD THEREOF - An electronic device including a magnetic body and a wire is provided. The magnetic body has a first magnetic powder and a second magnetic powder mixed with the first magnetic powder. The Vicker's Hardness of the first magnetic powder is greater than that of the second magnetic powder and the mean particle diameter of the first magnetic powder is greater than that of the second magnetic powder. | 11-18-2010 |
20100219924 | CHOKE - An electronic device including a core, at least a wire and a magnetic material is provided. The core includes a pillar, a top board and a bottom board. The pillar is disposed between the top board and the bottom board. An area of the top board is smaller than an area of the bottom board. A winding space is fanned among the top board, the bottom board and the pillar. The wire is winded around the pillar and located in the winding space. The magnetic material fills the winding space to encapsulate the wire. The magnetic material includes a resin and a metallic powder, wherein an average particle diameter of the magnetic powder is smaller than 20 μm. | 09-02-2010 |
20100182115 | WIRE WOUND TYPE CHOKE COIL - A choke coil including a drum-core and at least one wire is provided. The drum-core includes a pillar, a first board and a second board. Two ends of the pillar are respectively connected to the first board and the second board. A material of the drum-core includes ferrous alloy. The wire has a winding portion wrapped around the pillar. | 07-22-2010 |
20100182114 | METHOD FOR ADJUSTING INDUCTANCE OF CHOKE AND METHOD FOR DESIGNING CHOKE - A method for adjusting the inductance of a choke is provided by the present invention. The method includes with an unchanged structure and unchanged dimensions of the core of the choke, changing the kind of the magnetic materials composing the cores so as to adjust the magnetic permeability of the magnetic material. In addition, the present invention also provides a method for designing a choke, the method includes determining the structure of a first choke and a second choke, determining the dimensions of the cores of the chokes, and selecting magnetic materials composing the cores. | 07-22-2010 |
20100134937 | Over-Voltage Protection Device and Method for Manufacturing thereof - An over-voltage protection device and a method for manufacturing the over-voltage protection device are provided. The over-voltage protection device includes a substrate, a pair of electrode layers, a mask layer, and a sealing layer. The electrode layers are disposed on the substrate, and a gap is formed between the electrode layers. The mask layer is disposed over the gap and a portion of the electrode layers. The sealing layer covers the mask layer and the gap. | 06-03-2010 |
20100117216 | CHIP PACKAGE STRUCTURE - A chip package structure including a substrate, at least one chip, a heat dissipation device, at least one first conductive bar, a molding compound, and at least one second conductive bar is provided. The chip and the heat dissipation device are respectively disposed on a first and a second surface of the substrate. The first conductive bar has two opposite end surfaces, wherein one end surface is disposed on the first surface of the substrate, the other end surface is extended away from the substrate, and a fastening slot is disposed between the two end surfaces and passes through the other end surface. The molding compound encapsulates the substrate, the chip, part of the heat dissipation device, and the first conductive bar. The second conductive bar is disposed on one surface of the molding compound and has a protrusion portion fastened to the fastening slot of the first conductive bar. | 05-13-2010 |
20100059870 | CHIP PACKAGE STRUCTURE - A chip package structure including a substrate, at least one chip, a plurality of leads, a heat dissipation device, a molding compound, and at least one insulating sheet is provided. The chip is disposed on the substrate. The leads are electrically connected to the substrate. The molding compound having a top surface encapsulates the chip, the substrate, and a portion of the leads. The heat dissipation device is disposed on the top surface of the molding compound. The insulating sheet disposed between the heat dissipation device and at least one of the leads has a bending line dividing the insulating sheet into a main body disposed on the molding compound and a bending portion extending from the main body. | 03-11-2010 |
20090295495 | BALUN - A balun includes a first, second, and third metallic layers, a first dielectric layer disposed between the second and third metallic layers, and a dielectric substrate. The second metallic layer includes a first spiral line having sequentially connected first line segments and a second spiral line having sequentially connected second line segments. A first distance between each two opposite sides of a first region encircled by the innermost first line segments is greater than a second distance between each two adjacent parallel first line segments. A third distance between each two opposite sides of a second region encircled by the innermost second line segments is greater than a fourth distance between each two adjacent parallel second line segments. The third metallic layer includes a third and a fourth spiral lines. The first metallic layer and other elements as a whole are disposed on an opposite surface of the dielectric substrate. | 12-03-2009 |
20090231077 | INDUCTOR - An inductor including a coil and an integrated magnetic body is provided. The integrated magnetic body includes a first magnetic body and a second magnetic body. The coil is disposed within the integrated magnetic body. The first magnetic body has a first magnetic property. The second magnetic body has a second magnetic property. The first magnetic property is different from the second magnetic property. | 09-17-2009 |
20090212894 | CHOKE COIL - In one embodiment, a choke coil has a magnetic core, a coil, and magnetic material. The core has a first permeability which is from about 350 to 1200. The coil is wrapped around the core. The magnetic material surrounds the coil and has a second permeability. The first permeability is higher than the second permeability. The second permeability is from about 5 to 30. | 08-27-2009 |
20090207574 | ELECTRONIC PACKAGE STRUCTURE - An electronic package structure including at least one first electronic element, a second electronic element and a lead frame is provided. The second electronic element includes a body having a cavity. The first electronic element is disposed in the cavity. The lead frame has a plurality of leads. Each of the leads has a first end and a second end. The first end of at least one of the leads extends to the cavity to electrically connect the first electronic element. | 08-20-2009 |