Patent application number | Description | Published |
20090008656 | Penetrating hole type LED chip package structure using a ceramic material as a substrate and method for manufacturing the same - An LED chip package structure includes a ceramic substrate, a conductive unit, a hollow ceramic casing, many LED chips, and a package colloid. The ceramic substrate has a main body, many protrusions extended from the main body, many penetrating holes respectively penetrating through the protrusions, and many half through holes formed on a lateral side of the main body and respectively formed between each two protrusions. The conductive unit has many first conductive layers respectively formed on the protrusions, many second conductive layers respectively formed on inner surfaces of the half through holes and a bottom face of the main body, and many third conductive layers respectively filled in the penetrating holes. The hollow ceramic casing is fixed on the main body to form a receiving space. The LED chips is received in the receiving space. The package colloid is filled in the receiving space for covering the LED chips. | 01-08-2009 |
20090009999 | LED lamp structure and system with high-efficiency heat-dissipating function - An LED lamp structure with high-efficiency heat-dissipating function includes a heat-dissipating module, a light-emitting module, a power-transmitting module, and a casing module. The heat-dissipating module has a plurality of heat-dissipating fins, and the heat-dissipating fins are combined together to form a radial shape and a receiving space. The light-emitting module is received in the receiving space of the heat-dissipating module. The power-transmitting module is electrically connected with the light-emitting module. The casing module has a top board body, a bottom board body mated with the top board body, and a joint board body disposed between the top board body and the heat-dissipating fins. Both the top board body and the joint board body have an opening for exposing the light-emitting module. Each heat-dissipating fin has a top side contacted with the joint board body and a bottom side separated from the bottom board body by a predetermined distance. | 01-08-2009 |
20090020770 | LED CHIP PACKAGE STRUCTURE WITH HIGH-EFFICIENCY LIGHT-EMITTING EFFECT AND METHOD OF PACKAGING THE SAME - An LED chip package structure with high-efficiency light-emitting effect includes a substrate unit, a light-emitting unit, and a package colloid unit. The substrate unit has a substrate body, and a positive electrode trace and a negative electrode trace respectively formed on the substrate body. The light-emitting unit has a plurality of LED chips arranged on the substrate body, and each LED chip has a positive electrode side and a negative electrode side respectively and electrically connected with the positive electrode trace and the negative electrode trace of the substrate unit. The package colloid unit has a plurality of package colloids respectively covered on the LED chips. | 01-22-2009 |
20090050922 | Front and rear covering type LED package structure and method for packaging the same - A front and rear covering type LED package structure includes an insulating body, a substrate unit, at least one light-emitting element, and a package colloid. The insulating body has a receiving space. The substrate unit has two electrode pins separated from each other. Each electrode pin has one side covered by the insulating body. Each electrode pin has another side bent into a U-shape and exposed outside the insulating body in order to cover two opposite lateral sides and front and rear sides of the insulating body by a front and rear covering method. The at least one light-emitting element is received in the receiving space and electrically connected with the two electrode pins of the substrate unit. The package colloid is filled into the receiving space of the insulating body. | 02-26-2009 |
20090065789 | LED chip package structure with high-efficiency light-emitting effect and method of packing the same - An LED chip package structure with high-efficiency light-emitting effect includes a substrate unit, a light-emitting unit, and a package colloid unit. The substrate unit has a substrate body, and a positive electrode trace and a negative electrode trace respectively formed on the substrate body. The light-emitting unit has a plurality of LED chips arranged on the substrate body. Each LED chip has a positive electrode side and a negative electrode side respectively and electrically connected with the positive electrode trace and the negative electrode trace of the substrate unit. The package colloid unit has a plurality of package colloids respectively covered on the LED chips. Each package colloid has a colloid cambered surface and a colloid light-emitting surface respectively formed on a top surface and a front surface thereof. | 03-12-2009 |
20090096462 | Wafer testing method - A wafer testing method for wafer testing system comprises the steps: loading a wafer and then positioning the wafer relatively to a map file image stored in a map file. The map file is of a first file type. The next step is inspecting the appearance of the wafer. When the user detects defects on the wafer, the positions of the defects are directly recorded in the map file and then the modified map file is saved. The map file can be directly modified when the wafer is in the testing procedure so that the testing time is reduced. Furthermore, the precision of the testing is improved. | 04-16-2009 |
20090124032 | Penetrating hole type LED chip package structure using a ceramic material as a substrate and method for manufacturing the same - An LED chip package structure includes a ceramic substrate, a conductive unit, a hollow ceramic casing, many LED chips, and a package colloid. The ceramic substrate has a main body, many protrusions extended from the main body, many penetrating holes respectively penetrating through the protrusions, and many half through holes formed on a lateral side of the main body and respectively formed between each two protrusions. The conductive unit has many first conductive layers respectively formed on the protrusions, many second conductive layers respectively formed on inner surfaces of the half through holes and a bottom face of the main body, and many third conductive layers respectively filled in the penetrating holes. The hollow ceramic casing is fixed on the main body to form a receiving space. The LED chips is received in the receiving space. The package colloid is filled in the receiving space for covering the LED chips. | 05-14-2009 |
20090146156 | Led chip package structure with high-efficiency light-emitting effect and method for making the same - An LED chip package structure with high-efficiency light-emitting effect includes a substrate unit, a light-emitting unit, a package colloid unit, and a frame unit. The light-emitting unit has a plurality of LED chips electrically arranged on the substrate unit. The package colloid unit has a longitudinal package colloid covering the LED chips, and the longitudinal package colloid has a cambered colloid surface and a light-emitting colloid surface respectively formed on its top surface and a lateral surface thereof. The frame unit that is a frame layer covering the substrate unit and disposed around a lateral side of the longitudinal package colloid for exposing the light-emitting colloid surface of the longitudinal package colloid. | 06-11-2009 |
20090152570 | LED chip package structure with high-efficiency light emission by rough surfaces and method of making the same - An LED chip package structure with high-efficiency light emission by rough surfaces includes a substrate unit, a light-emitting unit, and a package colloid unit. The substrate unit has a substrate body, and a positive electrode trace and a negative electrode trace respectively formed on the substrate body. The light-emitting unit has a plurality of LED chips arranged on the substrate body. Each LED chip has a positive electrode side and a negative electrode side respectively and electrically connected with the positive electrode trace and the negative electrode trace of the substrate unit. The package colloid unit has a plurality of package colloids respectively covering the LED chips. Each package colloid has a cambered colloid surface and a light-emitting colloid surface respectively formed on its top surface and a lateral surface thereof. | 06-18-2009 |
20090186434 | Led chip package structre with a plurality of thick guiding and a method for manufactruing the same - An LED chip package structure with thick guiding pin includes a plurality of conductive pins separated from each other, an insulative casing, a plurality of LED chips, and a packaging colloid. The insulative casing covers a bottom side of each conductive pin to form an injection concave groove for exposing a top surface of each conductive pin. Two lateral sides of each conductive pin are extended outward from the insulative casing. The LED chips are arranged in the injection concave groove, and each LED chip has a positive electrode side and a negative electrode side respectively and electrically connected with different conductive pins. In addition, the packaging colloid is filled into the injection concave groove for covering the LED chips. | 07-23-2009 |
20090206350 | LED chip package structure with different LED spacings and a method for making the same - An LED chip package structure with different LED spacing includes a substrate unit, a light-emitting unit, and a package colloid unit. The light-emitting unit has a plurality of LED chips electrically arranged on the substrate unit, and the LEDs are separated from each other by totally different spacing or partially different spacing. For example, the spacings between each two LED chips are from rarefaction to condensation, from condensation to rarefaction, from center rarefaction to outer condensation, from center condensation to outer rarefaction, alternate rarefaction and condensation, or alternate condensation and rarefaction. The package colloid unit covers the LED chips. | 08-20-2009 |
20090206465 | SEMICONDUCTOR CHIP PACKAGE STRUCTURE FOR ACHIEVING ELECTRICAL CONNECTION WITHOUT USING A WIRE-BONDING PROCESS AND METHOD FOR MAKING THE SAME - A semiconductor chip package structure for achieving electrical connection without using a wire-bonding process includes: a package unit, a semiconductor chip, a first insulative layer, first conductive layers, a second insulative layer, and second conductive layers. The package unit has a receiving groove. The semiconductor chip receives in the receiving groove and has a plurality of conductive pads disposed on its top surface. The first insulative layer is formed among the conductive pads in order to insulate the conductive pads from each other. The first conductive layers are formed on the first insulative layer, and one side of each first conductive layer is electrically connected to the corresponding conductive pad. The second insulative layer is formed among the first conductive layers in order to insulate the first conductive layers from each other. The second conductive layers are respectively formed on the other opposite sides of the first conductive layers. | 08-20-2009 |
20090206759 | Controlling system for illumination of a golf course and controlling method thereof - A controlling system for illumination of a golf course and a controlling method thereof are provided. The illumination controlling system is used for a golf course that has multiple holes. The illumination controlling system has multiple groups of lighting modules respectively corresponding to the multiple holes. Each group of lighting module comprises a plurality of light-emitting devices, a plurality of power devices having control circuit units and chargeable batteries, a plurality of solar panels, and a plurality of motion sensors. Each chargeable battery provides a first working voltage for each light-emitting device. Each control circuit unit connects electrically to utility power to supplies a second working voltage for each light-emitting device. Each motion sensor connects electrically with the control circuit unit of each power device for switching each light-emitting device. The controlling system and method are provided for saving energy of golf course. | 08-20-2009 |
20090212304 | Led chip package structure with multifunctional integrated chips and a method for making the same - An LED chip package structure with multifunctional integrated chips includes a substrate unit, a light-emitting unit, a chip unit, and a package colloid unit. The light-emitting unit has a plurality of LED chips electrically arranged on the substrate unit. The chip unit is electrically arranged on the substrate unit, and the chip unit is arranged between the light-emitting unit and a power source. The package colloid unit covers the LED chips. The package colloid unit is a strip fluorescent colloid corresponding to the LED chips. | 08-27-2009 |
20090213378 | Method for calculating out an optimum arrangement pitch between each two LED chip package units - A method for calculating out an optimum arrangement pitch between each two LED chip package units, including: providing a backlight module with a predetermined brightness value and a predetermined material information that a customer needs; determining what brightness level and amount of LED chip package units need to be used by a designer according to the brightness value and the material information of the backlight module; and dividedly arranging the LED chip package units determined by the designer on a light-entering area of the backlight module in order to define what the optimum arrangement pitch between each two LED chip package units is. | 08-27-2009 |
20090224265 | LED chip package structure with a high-efficiency heat-dissipating substrate and method for making the same - An LED chip package structure with a high-efficiency heat-dissipating substrate includes a substrate unit, an adhesive body, a plurality of LED chips, package bodies and frame layers. The substrate unit has a positive substrate, a negative substrate, and a plurality of bridge substrates separated from each other and disposed between the positive and the negative substrate. The adhesive body is filled between the positive, the negative and the bridge substrates in order to connect and fix the positive substrate, the negative substrate and the bridge substrates together. The LED chips are disposed on the substrate unit and electrically connected between the positive substrate and the negative substrate. The package bodies are respectively covering the LED chips. The frame layers are respectively disposed around the packages bodies in order to form a plurality of light-projecting surfaces on the package bodies, and the light-projecting surfaces correspond to the LED chips. | 09-10-2009 |
20090230538 | SEMICONDUCTOR CHIP PACKAGE STRUCTURE FOR ACHIEVING FACE-UP ELECTRICAL CONNECTION WITHOUT USING A WIRE-BONDING PROCESS AND METHOD FOR MAKING THE SAME - A semiconductor chip package structure for achieving face-up electrical connection without using a wire-bonding process includes a package unit, a semiconductor chip, a substrate unit, a first insulative unit, a first conductive unit, a second conductive unit, and a second insulative unit. The package unit has a central receiving groove and an outer receiving groove formed around the central receiving groove. The semiconductor chip has a plurality of conductive pads. The first insulative unit has a first insulative layer formed between the conductive pads. The first conductive unit has a plurality of first conductive layers. The second conductive unit has a plurality of second conductive layers formed on the first conductive layers. The second insulative unit is formed between the first conductive layers and between the second conductive layers. | 09-17-2009 |
20090251815 | Testing system and testing method for inspecting electonic devices - A testing system for inspecting electronic devices includes a first transparent disk, a first image capturing unit disposed under the first transparent disk, a second disk disposed next to the first transparent disk, a guiding unit disposed on adjacent area between the transparent disk and the second disk, and a plurality of second image capturing units disposed around the second disk. A plurality of electronic devices is continuingly supplied onto the first transparent disk and the first image capturing unit is used for capturing the images of the bottom surfaces of the electronic devices. Then, the electronic devices are guided to the second disk via the guiding unit and the second image capturing units are used for capturing the images of other surfaces of the electronic devices. A testing method for electronic devices is further disclosed. | 10-08-2009 |
20090261368 | LED CHIP PACKAGE STRUCTURE USING A SUBSTRATE AS A LAMPSHADE AND METHOD FOR MAKING THE SAME - An LED chip package structure using a substrate as a lampshade includes a substrate unit and a light-emitting unit. The substrate unit has a substrate body with a lampshade shape. The light-emitting unit has a plurality of light-emitting elements electrically disposed on an inner surface of the substrate body. Therefore, one part of light beams projected by the light emitting elements is reflected out of the lampshade by the inner surface of the substrate body. | 10-22-2009 |
20090278159 | SEMICONDUCTOR CHIP PACKAGE STRUCTURE WITHOUT SUBSTRATES FOR ACHIEVING FACE-UP ELECTRICAL CONNECTION WITHOUT USING A WIRE-BONDING PROCESS AND METHOD FOR MAKING THE SAME - A semiconductor chip package structure without substrates for achieving face-up electrical connection without using a wire-bonding process includes a package unit, a semiconductor chip, a first insulative unit, a first conductive unit, a second conductive unit, and a second insulative unit. The package unit has a central receiving groove for receiving the semiconductor chip. The semiconductor chip has a plurality of conductive pads. The first insulative unit has a first insulative layer formed between the conductive pads. The first conductive unit has a plurality of first conductive layers. The second conductive unit has a plurality of second conductive layers formed on the first conductive layers. The second insulative unit is formed between the first conductive layers and between the second conductive layers. | 11-12-2009 |
20090283881 | SEMICONDUCTOR CHIP PACKAGE STRUCTURE FOR ACHIEVING FACE-DOWN ELECTRICAL CONNECTION WITHOUT USING A WIRE-BONDING PROCESS AND METHOD FOR MAKING THE SAME - A semiconductor chip package structure for achieving face-down electrical connection without using a wire-bonding process includes a package unit, a semiconductor chip, a substrate unit, a first insulative unit, a first conductive unit, a second conductive unit, and a second insulative unit. The semiconductor chip has a plurality of conductive pads. The first insulative unit has a first insulative layer formed between the conductive pads. The first conductive unit has a plurality of first conductive layers, and one side of each first conductive layer is electrically connected with the corresponding conductive pad. The second conductive unit has a plurality of second conductive layers respectively formed on the first conductive layers. The second insulative unit is formed between the first conductive layers and between the second conductive layers. | 11-19-2009 |
20090316315 | LED CHIP PACKAGE STRUCTURE WITH AN EMBEDDED ESD FUNCTION AND METHOD FOR MANUFACTURING THE SAME - An LED chip package structure includes a conductive unit, a first package unit, an ESD unit, a second package unit, a light-emitting unit and a second package unit. The conductive unit has two conductive pins adjacent to each other which form a concave space between each other. The first package unit encloses one part of each conductive pin in order to form a receiving space communicating with the concave space and to expose an end side of each conductive pin. The ESD unit is received in the concave space and electrically connected between the two conductive pins. The second package unit is received in the concave space in order to cover the ESD unit. The light-emitting unit is received in the receiving space and electrically connected between the two conductive pins. The third package unit is received in the receiving space in order to cover the light-emitting unit. | 12-24-2009 |
20100006880 | Led chip package structure using sedimentation and method for making the same - An LED chip package structure using sedimentation includes a package body, at least two conductive substrates, at least one light-emitting element, and a package unit. The package body has a receiving space. The two conductive substrates are received in the receiving space. The light-emitting element is received in the receiving space and electrically connected to the two conductive substrates. The package unit has a package colloid layer and a powder mixed into the package colloid layer, and the package unit is filled into the receiving space. The powder is uniformly deposited in the receiving space by maintaining the package unit at room temperature firstly and the powder is solidified in the receiving space by heating to a predetermined temperature. | 01-14-2010 |
20100032706 | WAFER LEVEL LED PACKAGE STRUCTURE FOR INCREASING CONDUCTIVE AREA AND HEAT-DISSIPATING AREA AND METHOD FOR MAKING THE SAME - A wafer level LED package structure includes a light-emitting unit, a first conductive unit, a second conductive unit and an insulative unit. The light-emitting unit has a light-emitting body, a positive conductive layer and a negative conductive layer formed on the light-emitting body, and a first insulative layer formed between the positive conductive layer and the negative conductive layer. The first conductive unit has a first positive conductive layer formed on the positive conductive layer and a first negative conductive layer formed on the negative conductive layer. The second conductive unit has a second positive conductive layer formed on the first positive conductive layer and a second negative conductive layer formed on the first negative conductive layer. The insulative unit has a second insulative layer formed on the first insulative layer and disposed between the second positive conductive layer and the second negative conductive layer. | 02-11-2010 |
20100079975 | ILLUMINATION DEVICE WITH A FIRE-FIGHTING FUNCTION - An illumination device with a fire-fighting function includes a transparent hollow casing, fire-fighting water, a light-emitting unit, and a light-guiding unit. The transparent hollow casing has a receiving space. The fire-fighting water is filled into the receiving space of the transparent hollow casing. The light-emitting unit has a plurality of light-emitting elements disposed beside one or more lateral sides of the transparent hollow casing. The light-guiding unit is disposed over the transparent hollow casing. Hence, when fire accident happens, the transparent hollow casing will melt and crack due to the developed over-heat, and the fire-fighting water is sprayed out from the receiving spaces in order to extinguish one part of flames. Therefore, the present invention can be used as a lighting device or can be used as a fire-fighting device when fire accident happens. | 04-01-2010 |
20100099207 | LED chip package structure with high-efficiency light-emitting effect and method of packaging the same - An LED chip package structure with high-efficiency light-emitting effect includes a substrate unit, a light-emitting unit, and a package colloid unit. The substrate unit has a substrate body, and a positive electrode trace and a negative electrode trace respectively formed on the substrate body. The light-emitting unit has a plurality of LED chips arranged on the substrate body. Each LED chip has a positive electrode side and a negative electrode side respectively and electrically connected with the positive electrode trace and the negative electrode trace of the substrate unit. The package colloid unit has a plurality of package colloids respectively covered on the LED chips. Each package colloid has a colloid cambered surface and a colloid light-emitting surface respectively formed on a top surface and a front surface thereof. | 04-22-2010 |
20100127292 | Wafer level led package structure for increasing light-emitting efficiency and method for making the same - A wafer level LED package structure for increasing light-emitting efficiency includes: a light-emitting unit, an insulating unit, two first conductive units and two second conductive units. The light-emitting unit has a light-emitting body, a positive conductive layer, a negative conductive layer, and a reflecting insulating layer formed between the positive conductive layer and the negative conductive layer. The light-emitting body has a bottom material layer and a top material layer. The insulating unit is formed around an outer area of a top surface of the bottom material layer and formed on a top surface of the reflecting insulating layer. One first conductive unit is formed on one part of the positive conductive layer and the insulating unit, and another first conductive unit is formed on one part of the negative conductive layer and the insulating unit. The two second conductive units are respectively formed on the two first conductive units. | 05-27-2010 |
20100166290 | DIE DEFECT INSPECTING SYSTEM WITH A DIE DEFECT INSPECTING FUNCTION AND A METHOD OF USING THE SAME - A die defect inspecting system with a die defect inspecting function includes a wafer-positioning module, an image-capturing module, a die-sucking module, a die defect analyzing module, a die-classifying module and a control module. The image-capturing module is disposed beside one side of the wafer-positioning module in order to capture an image of each die. The die-sucking module is disposed above the wafer-positioning module and the image-capturing module in order to suck each die from the wafer-positioning module to a position above the image-capturing module for capturing a back image of a back surface of each die. The die defect analyzing module is electrically connected to the image-capturing module in order to judge whether the back image of the back surface of each die passes inspection standard. | 07-01-2010 |
20100176502 | Wafer level vertical diode package structure and method for making the same - A wafer level vertical diode package structure includes a first semiconductor layer, a second semiconductor layer, an insulative unit, a first conductive structure, and a second conductive structure. The second semiconductor layer is connected with one surface of the first semiconductor layer. The insulative unit is disposed around a lateral side of the first semiconductor layer and a lateral side of the second semiconductor layer. The first conductive structure is formed on a top surface of the first semiconductor layer and on one lateral side of the insulative layer. The second conductive structure is formed on a top surface of the second semiconductor layer and on another opposite lateral side of the insulative layer. | 07-15-2010 |
20100264435 | White light-emitting diode package structure for simplifying package process and method for making the same - A white light-emitting diode package structure for simplifying package process includes a substrate unit, a light-emitting unit, a phosphor unit and a conductive unit. The light-emitting unit is disposed on the substrate, and the light-emitting unit has a positive conductive layer and a negative conductive layer. The phosphor unit has a phosphor layer formed on the light-emitting unit and at least two openings for respectively exposing one partial surface of the positive electrode layer and one partial surface of the negative electrode layer. The conductive unit has at least two conductive wires respectively passing through the two openings in order to electrically connect the positive electrode layer with the substrate unit and electrically connect the negative electrode layer with the substrate unit. | 10-21-2010 |
20100264797 | REFLECTION-TYPE LIGHT-EMITTING MODULE WITH HIGH HEAT-DISSIPATING AND HIGH LIGHT-GENERATING EFFICIENCY - A reflection-type light-emitting module with high heat-dissipating and high light-generating efficiency includes a reflection-type lampshade unit, a heat pipe unit and a light-emitting unit. The reflection-type lampshade unit has an open casing, a receiving space formed in the open casing, and a first reflective structure is disposed in the receiving space and on an inner surface of the open casing. The heat pipe unit is received in the receiving space and is disposed on the open casing. The light-emitting unit is disposed on the heat pipe unit, and the light-emitting unit has a light-emitting face facing the inner surface of the open casing. | 10-21-2010 |
20100271844 | LIGHT-GUIDING STRUCTURE WITH PHOSPHOR MATERIAL LAYERS - A light-guiding structure with phosphor material layers includes a light-guiding unit, a light-emitting unit and a phosphor unit. The light-emitting unit is disposed beside an outer lateral side of the light-guiding unit. The phosphor unit is connected with the light-guiding unit and is disposed between the light-guiding unit and the light-emitting unit. In addition, the phosphor unit is formed or pasted on the lateral side of the light-guiding unit, and the light-emitting unit has a PCB substrate and a plurality of light-emitting elements electrically disposed on the PCB substrate and facing the light-guiding unit. Hence, light beams generated by the light-emitting elements of the light-emitting unit pass through the phosphor unit to form another light beams, and the light beams are guided into the light-guiding unit. Finally, the light beams are projected out from a light-exiting face of the light-guiding unit. | 10-28-2010 |
20100290664 | Detection system for detecting appearances of many electronic elements and methods of using the same - A detection system for detecting appearances of many electronic elements includes a rotary module, a feeding module and a detection module. The rotary module has a base structure and a hollow transparent rotary structure disposed on the base structure. The feeding module is disposed beside one side of the hollow transparent rotary structure in order to sequentially guide the electronic elements to the top surface of the hollow transparent rotary structure. The detection module has a plurality of detection units sequentially disposed around the hollow transparent rotary structure. Each detection unit is composed of an image-sensing element for sensing the electronic elements, an image-capturing element for capturing surface images of the electronic elements and a classifying element for classifying the electronic elements. | 11-18-2010 |
20110003409 | LED CHIP PACKAGE STRUCTURE WITH AN EMBEDDED ESD FUNCTION AND METHOD FOR MANUFACTURING THE SAME - An LED chip package structure includes a conductive unit, a first package unit, an ESD unit, a second package unit, a light-emitting unit and a second package unit. The conductive unit has two conductive pins adjacent to each other which form a concave space between each other. The first package unit encloses one part of each conductive pin in order to form a receiving space communicating with the concave space and to expose an end side of each conductive pin. The ESD unit is received in the concave space and electrically connected between the two conductive pins. The second package unit is received in the concave space in order to cover the ESD unit. The light-emitting unit is received in the receiving space and electrically connected between the two conductive pins. The third package unit is received in the receiving space in order to cover the light-emitting unit. | 01-06-2011 |
20110003434 | SEMICONDUCTOR CHIP PACKAGE STRUCTURE FOR ACHIEVING FACE-UP ELECTRICAL CONNECTION WITHOUT USING A WIRE-BONDING PROCESS AND METHOD FOR MAKING THE SAME - A semiconductor chip package structure for achieving face-up electrical connection without using a wire-bonding process includes a package unit, a semiconductor chip, a substrate unit, a first insulative unit, a first conductive unit, a second conductive unit, and a second insulative unit. The package unit has a central receiving groove and an outer receiving groove formed around the central receiving groove. The semiconductor chip has a plurality of conductive pads. The first insulative unit has a first insulative layer formed between the conductive pads. The first conductive unit has a plurality of first conductive layers. The second conductive unit has a plurality of second conductive layers formed on the first conductive layers. The second insulative unit is formed between the first conductive layers and between the second conductive layers. | 01-06-2011 |
20110018018 | SEMICONDUCTOR CHIP PACKAGE STRUCTURE FOR ACHIEVING ELECTRICAL CONNECTION WITHOUT USING WIRE-BONDING PROCESS AND METHOD FOR MAKING THE SAME - A semiconductor chip package structure for achieving electrical connection without using wire-bonding process includes an insulative substrate unit, a package unit, a semiconductor chip, a first conductive unit, an insulative unit and a second conductive unit. The package unit is disposed on the insulative substrate unit to form a receiving groove. The semiconductor chip is received in the receiving groove. The semiconductor chip has a plurality of conductive pads. The first conductive unit has a plurality of first conductive layers formed on the package body, and one side of each first conductive layer is electrically connected to each conductive pad. The insulative unit has an insulative layer formed between the first conductive layers in order to insulate the first conductive layers from each other. The second conductive unit has a plurality of second conductive layers respectively formed on another sides of the first conductive layers. | 01-27-2011 |
20110018019 | SEMICONDUCTOR CHIP PACKAGE STRUCTURE FOR ACHIEVING FLIP-CHIP TYPE ELECTRICAL CONNECTION WITHOUT USING WIRE-BONDING PROCESS AND METHOD FOR MAKING THE SAME - A semiconductor chip package structure for achieving flip-chip electrical connection without using a wire-bonding process includes a package unit, a semiconductor chip, a first insulative layer, first conductive layers, a second insulative layer, and second conductive layers. The package unit has a receiving groove. The semiconductor chip is received in the receiving groove and has a plurality of conductive pads disposed on its top surface. The first insulative layer is formed between the conductive pads to insulate the conductive pads. The first conductive layers are formed on the first insulative layer and the package unit, and one side of each first conductive layer is electrically connected to the corresponding conductive pad. The second insulative layer is formed between the first conductive layers in order to insulate the first conductive layers from each other. The second conductive layers are respectively formed on the other opposite sides of the first conductive layers. | 01-27-2011 |
20110020967 | LED CHIP PACKAGE STRUCTURE WITH HIGH-EFFICIENCY LIGHT EMISSION BY ROUGH SURFACES AND METHOD OF MAKING THE SAME - An LED chip package structure with high-efficiency light emission by rough surfaces includes a substrate unit, a light-emitting unit, and a package colloid unit. The substrate unit has a substrate body, and a positive electrode trace and a negative electrode trace respectively formed on the substrate body. The light-emitting unit has a plurality of LED chips arranged on the substrate body. Each LED chip has a positive electrode side and a negative electrode side respectively and electrically connected with the positive electrode trace and the negative electrode trace of the substrate unit. The package colloid unit has a plurality of package colloids respectively covering the LED chips. Each package colloid has a cambered colloid surface and a light-emitting colloid surface respectively formed on its top surface and a lateral surface thereof. | 01-27-2011 |
20110147774 | WAFER LEVEL LED PACKAGE STRUCTURE FOR INCREASING LIGHT-EMITTING EFFICIENCY AND HEAT-DISSIPATING EFFECT AND METHOD FOR MANUFACTURING THE SAME - A wafer level LED package structure includes a light-emitting unit, a reflecting unit, a first conductive unit and a second conductive unit. The light-emitting unit has a substrate body, a light-emitting body disposed on the substrate body, a positive and a negative conductive layers formed on the light-emitting body, and a light-emitting area formed in the light-emitting body. The reflecting unit has a reflecting layer formed between the positive and the negative conductive layers and on the substrate body for covering external sides of the light-emitting body. The first conductive unit has a first positive conductive layer formed on the positive conductive layer and a first negative conductive layer formed on the negative conductive layer. The second conductive unit has a second positive conductive structure formed on the first positive conductive layer and a second negative conductive structure formed on the first negative conductive layer. | 06-23-2011 |
20110155436 | CONDUCTIVE SUBSTRATE STRUCTURE WITH CONDUCTIVE CHANNELS FORMED BY USING A TWO-SIDED CUT APPROACH AND A METHOD FOR MANUFACTURING THE SAME - A conductive substrate structure includes a substrate unit, a conductive pad unit, and a conductive layer unit. The substrate unit has a top surface, a bottom surface, two opposite lateral surfaces, and a front surface. The conductive pad unit has at least two first conductive pads separated from each other and disposed on the top surface, and at least two second conductive pads separated from each other and disposed on the bottom surface. The conductive layer unit has at least two first conductive layers formed on the front surface and respectively electrically connected to two front sides of the two first conductive pads, and at least two second conductive layers respectively formed on the two opposite lateral surfaces and respectively electrically connected to two opposite lateral sides of the two second conductive pads. The two first conductive layers are respectively electrically connected with the two second conductive layers. | 06-30-2011 |
20110170317 | LIGHT-GUIDING STRUCTURE WITH PHOSPHOR MATERIAL LAYERS - A light-guiding structure with phosphor material layers includes a light-guiding unit, a light-emitting unit and a phosphor unit. The light-emitting unit is disposed beside an outer lateral side of the light-guiding unit. The phosphor unit is connected with the light-guiding unit and is disposed between the light-guiding unit and the light-emitting unit. In addition, the phosphor unit is formed or pasted on the lateral side of the light-guiding unit, and the light-emitting unit has a PCB substrate and a plurality of light-emitting elements electrically disposed on the PCB substrate and facing the light-guiding unit. Hence, light beams generated by the light-emitting elements of the light-emitting unit pass through the phosphor unit to form another light beams, and the light beams are guided into the light-guiding unit. Finally, the light beams are projected out from a light-exiting face of the light-guiding unit. | 07-14-2011 |
20110189803 | LED CHIP PACKAGE STRUCTURE IN ORDER TO PREVENT THE LIGHT-EMITTING EFFICIENCY OF FLUORESCENT POWDER FROM DECREASING DUE TO HIGH TEMPERATURE AND METHOD FOR MAKING THE SAME - An LED chip package structure in order to prevent the light-emitting efficiency of fluorescent powder from decreasing due to high temperature includes a substrate unit, a light-emitting unit, a transparent colloid body unit, a fluorescent colloid body unit and a frame unit. The light-emitting unit has a plurality of LED chips electrically arranged on the substrate unit. The transparent colloid body unit has a plurality of transparent colloid bodies respectively covering the LED chips. The fluorescent colloid body unit has a plurality of fluorescent colloid bodies respectively covering the transparent colloid bodies. The frame unit is covering the peripheries of each transparent colloid body and each fluorescent colloid body in order to expose the top surfaces of the fluorescent colloid body. | 08-04-2011 |
20110215357 | LED PACKAGE STRUCTURE AND METHOD OF MANUFACTURING THE SAME - An LED package structure for increasing heat-dissipating efficiency includes providing a substrate element; removing one part of the substrate element in order to form at least two substrate bodies separated from each other and at least one gap between the at least two substrate bodies; forming at least one | 09-08-2011 |
20110229991 | SEMICONDUCTOR CHIP PACKAGE STRUCTURE FOR ACHIEVING FLIP-CHIP TYPE ELECTRICAL CONNECTION WITHOUT USING WIRE-BONDING PROCESS AND METHOD FOR MAKING THE SAME - A semiconductor chip package structure for achieving flip-chip electrical connection without using a wire-bonding process includes a package unit, a semiconductor chip, a first insulative layer, first conductive layers, a second insulative layer, and second conductive layers. The package unit has a receiving groove. The semiconductor chip is received in the receiving groove and has a plurality of conductive pads disposed on its top surface. The first insulative layer is formed between the conductive pads to insulate the conductive pads. The first conductive layers are formed on the first insulative layer and the package unit, and one side of each first conductive layer is electrically connected to the corresponding conductive pad. The second insulative layer is formed between the first conductive layers in order to insulate the first conductive layers from each other. The second conductive layers are respectively formed on the other opposite sides of the first conductive layers. | 09-22-2011 |
20110304020 | WAFER LEVEL DIODE PACKAGE STRUCTURE - A wafer level vertical diode package structure includes a first semiconductor layer, a second semiconductor layer, an insulative unit, a first conductive structure, and a second conductive structure. The second semiconductor layer is connected with one surface of the first semiconductor layer. The insulative unit is disposed around a lateral side of the first semiconductor layer and a lateral side of the second semiconductor layer. The first conductive structure is formed on a top surface of the first semiconductor layer and on one lateral side of the insulative layer. The second conductive structure is formed on a top surface of the second semiconductor layer and on another opposite lateral side of the insulative layer. | 12-15-2011 |
20120001203 | LED CHIP PACKAGE STRUCTURE - A LED chip package structure includes a substrate unit, a light-emitting unit, and a package unit. The substrate unit includes a strip substrate body. The light-emitting unit includes a plurality of LED chips disposed on the strip substrate body and electrically connected to the strip substrate body. The package unit includes a strip package colloid body disposed on the strip substrate body to cover the LED chips, wherein the strip package colloid body has an exposed top surface and an exposed surrounding peripheral surface connected between the exposed top surface and the strip substrate body, and the strip package colloid body has at least one exposed lens portion projected upwardly from the exposed top surface thereof and corresponding to the LED chips. Hence, light beams generated by the LED chips pass through the strip package colloid body to form a strip light-emitting area on the strip package colloid body. | 01-05-2012 |
20120003765 | LED CHIP PACKAGE STRUCTURE USING SEDIMENTATION AND METHOD FOR MAKING THE SAME - An LED chip package structure using sedimentation includes a package body, at least two conductive substrates, at least one light-emitting element, and a package unit. The package body has a receiving space. The two conductive substrates are received in the receiving space. The light-emitting element is received in the receiving space and electrically connected to the two conductive substrates. The package unit has a package colloid layer and a powder mixed into the package colloid layer, and the package unit is filled into the receiving space. The powder is uniformly deposited in the receiving space by maintaining the package unit at room temperature firstly and the powder is solidified in the receiving space by heating to a predetermined temperature. | 01-05-2012 |
20120009699 | WAFER LEVEL LED PACKAGE STRUCTURE FOR INCREASE LIGHT-EMITTING EFFICIENCY AND METHOD FOR MAKING THE SAME - A wafer level LED package structure for increasing light-emitting efficiency includes: a light-emitting unit, an insulating unit, two first conductive units and two second conductive units. The light-emitting unit has a light-emitting body, a positive conductive layer, a negative conductive layer, and a reflecting insulating layer formed between the positive conductive layer and the negative conductive layer. The light-emitting body has a bottom material layer and a top material layer. The insulating unit is formed around an outer area of a top surface of the bottom material layer and formed on a top surface of the reflecting insulating layer. One first conductive unit is formed on one part of the positive conductive layer and the insulating unit, and another first conductive unit is formed on one part of the negative conductive layer and the insulating unit. The two second conductive units are respectively formed on the two first conductive units. | 01-12-2012 |
20120009700 | METHOD OF MANUFACTURING A LED CHIP PACKAGE STRUCTURE - A method of manufacturing a LED chip package structure includes the steps of: providing a substrate unit including a strip substrate body; electrically connecting a plurality of LED chips to the strip substrate body; and placing a strip package colloid body on the strip substrate body to cover the LED chips, wherein the strip package colloid body has an exposed top surface and an exposed surrounding peripheral surface connected between the exposed top surface and the strip substrate body, and the strip package colloid body has at least one exposed lens portion projected upwardly from the exposed top surface thereof and corresponding to the LED chips. Hence, light beams generated by the LED chips pass through the strip package colloid body to form a strip light-emitting area on the strip package colloid body. | 01-12-2012 |
20120014087 | SIMPLE DETACHABLE ILLUMINATION STRUCTURE AND LAMP TUBE - A simple detachable illumination lamp tube includes a tube unit, a heat-dissipating unit, a light-emitting unit, a support unit and a lateral cover unit. The tube unit has a light-permitting hollow tube. The heat-dissipating unit has a heat-dissipating substrate received in the light-permitting hollow tube. The heat-dissipating substrate has two opposite lateral sides contacting the inner surface of the light-permitting hollow tube. The light-emitting unit has a plurality of strip light-emitting modules received in the light-permitting hollow tube. The strip light-emitting modules are disposed on the heat-dissipating substrate and electrically connected in sequence. The support unit has a plurality of support elements received in the light-permitting hollow tube and disposed between a bottom side of the heat-dissipating substrate and the inner surface of the light-permitting hollow tube. The lateral cover unit has two lateral covers installed on two ends of the light-permitting hollow tube. | 01-19-2012 |
20120037937 | LED PACKAGE STRUCTURE AND METHOD OF MAKING THE SAME - An LED package structure includes a substrate unit, a conductive unit, a heat-dissipating unit, a light-emitting unit and a package unit. The substrate unit includes an insulating substrate. The conductive unit includes two top conductive pads disposed on top surface of the insulating substrate, two bottom conductive pads disposed on bottom surface of the insulating substrate, and a plurality of penetrating conductive posts passing the insulating substrate. The two top conducive pads respectively electrically connect the two bottom conductive pads through the penetrating conductive posts. The heat-dissipating unit includes a top heat-dissipating block and a bottom heat-dissipating block respectively disposed on top and bottom surfaces of the insulating substrate. The light-emitting unit includes a light-emitting element on the top heat-dissipating block and electrically connected between the two top conductive pads. The package unit includes a package resin on the conductive unit and the heat-dissipating unit to cover the light-emitting element. | 02-16-2012 |
20120069583 | LAMP HEAD ASSEMBLY AND LIGHTING LAMP TUBE - A lamp head assembly includes an outer head unit, an inner head unit, and an elastic pressing unit. The outer head unit includes at least two conductive pins. The inner head unit is disposed rotatably in the outer head unit. The elastic pressing unit is disposed movably in the outer head unit for selectively positioning the position of the inner head unit relative to the outer head unit or the position of the outer head unit relative to the inner head unit, wherein the elastic pressing unit includes a pressing element selectively exposed from the outer head unit. | 03-22-2012 |
20120096710 | CONDUCTIVE SUBSTRATE STRUCTURE WITH CONDUCTIVE CHANNELS FORMED BY USING A TWO-SIDED CUT APPROACH AND A METHOD FOR MANUFACTURING THE SAME - A conductive substrate structure includes a substrate unit, a conductive pad unit, and a conductive layer unit. The substrate unit has a top surface, a bottom surface, two opposite lateral surfaces, and a front surface. The conductive pad unit has at least two first conductive pads separated from each other and disposed on the top surface, and at least two second conductive pads separated from each other and disposed on the bottom surface. The conductive layer unit has at least two first conductive layers formed on the front surface and respectively electrically connected to two front sides of the two first conductive pads, and at least two second conductive layers respectively formed on the two opposite lateral surfaces and respectively electrically connected to two opposite lateral sides of the two second conductive pads. The two first conductive layers are respectively electrically connected with the two second conductive layers. | 04-26-2012 |
20120106171 | LED PACKAGE STRUCTURE - An LED package structure includes a conductive substrate unit, a first insulative unit, a second insulative unit, a light-emitting unit and a package unit. The conductive substrate unit includes at least two conductive bases and at least one gap is formed between the two conductive bases. The first insulative unit includes at least one first insulative layer filled in the gap to join the two conductive bases. The second insulative unit includes at least one second insulative layer disposed on the conductive substrate unit and a plurality of openings passing through the second insulative layer for exposing one part of the top surface of each conductive base. The light-emitting unit includes at least one light-emitting element passing one of the openings and electrically connected between the two conductive bases. The package unit includes a package resin body disposed on the second insulative unit to cover the light-emitting element. | 05-03-2012 |
20120119231 | LED PACKAGE STRUCTURE WITH A DEPOSITED-TYPE PHOSPHOR LAYER AND METHOD FOR MAKING THE SAME - An LED package structure with a deposited-type phosphor layer includes a substrate unit, a light-emitting unit and a package unit. The substrate unit includes at least one circuit substrate. The light-emitting unit includes a plurality of LED chips disposed on and electrically connected to the at least one circuit substrate. The package unit includes at least one package resin body formed by a mold structure. The at least one package resin body is formed on the at least one circuit substrate to cover the LED chips, and the at least one package resin body includes a continuous phosphor layer formed therein and deposited on outer surfaces of the LED chips by centrifugal force. Hence, the instant disclosure provides the continuous phosphor layer with the deposited phosphor powders for covering the outer surfaces of the LED chips, thus the light-emitting efficiency of the LED package structure can be increased actually. | 05-17-2012 |
20120122254 | WHITE LIGHT-EMITTING DIODE PACKAGE STRUCTURE FOR SIMPLIFYING PACKAGE PROCESS AND METHOD FOR MAKING THE SAME - A white light-emitting diode package structure for simplifying package process includes a substrate unit, a light-emitting unit, a phosphor unit and a conductive unit. The light-emitting unit is disposed on the substrate, and the light-emitting unit has a positive conductive layer and a negative conductive layer. The phosphor unit has a phosphor layer formed on the light-emitting unit and at least two openings for respectively exposing one partial surface of the positive electrode layer and one partial surface of the negative electrode layer. The conductive unit has at least two conductive wires respectively passing through the two openings in order to electrically connect the positive electrode layer with the substrate unit and electrically connect the negative electrode layer with the substrate unit. | 05-17-2012 |
20130015372 | LIGHT-EMITTING ELEMENT DETECTION AND CLASSIFICATION DEVICEAANM WANG; BILYAACI HSINCHU CITYAACO TWAAGP WANG; BILY HSINCHU CITY TWAANM CHEN; KUEI-PAOAACI HSINCHU COUNTYAACO TWAAGP CHEN; KUEI-PAO HSINCHU COUNTY TWAANM CHEN; HSIN-CHENGAACI HSINCHU COUNTYAACO TWAAGP CHEN; HSIN-CHENG HSINCHU COUNTY TW - A light-emitting element detection and classification device includes a rotation unit for transporting a plurality of light-emitting elements, a chip detection unit, and a chip classification unit. The rotation unit includes at least one rotary turntable, a plurality of receiving portions formed on the rotary turntable, and a plurality of suction-exhaust dual-purpose openings respectively disposed in the receiving portions, each receiving portion selectively receives at least one of the light-emitting elements. Each light-emitting element is an LED package chip having a positive electrode pad and a negative electrode pad disposed on the bottom side thereof. The chip detection unit includes at least one chip detection module adjacent to the rotation unit for detecting each light-emitting element. The chip classification unit includes at least one chip classification module adjacent to the rotation unit for classifying the LED package chips that have been detected by the at least one chip detection module. | 01-17-2013 |
20130163922 | LIGHT-GUIDING COVER STRUCTURE - A light-guiding cover structure includes a top cover unit and a light-guiding unit. The top cover unit has a plurality of receiving spaces formed therein. The light-guiding unit includes a plurality of light-guiding groups, wherein each light-guiding group includes a plurality of optical fiber cables received in the corresponding receiving space, and each optical fiber cable has two opposite ends exposed from the bottom surface of the top cover unit and respectively facing at least one light-emitting device and at least one light-sensing device that have been disposed under the top cover unit. Therefore, the optical fiber cables received in the corresponding receiving space, thus when the light-guiding cover structure is applied to the LED package chip classification system, the aspect of the LED package chip classification system can be enhanced. | 06-27-2013 |