Abstract: A flip chip light emitting diode (LED) packaging structure, including a substrate, an LED chip including a P electrode and a N electrode. A protruding platform is formed in a center of the substrate. The protruding platform includes a first connecting portion and a second connecting portion electrically insulating from each other. The P electrode and the N electrode is conductively fixed to the protruding platform by solder, and a bottom edge of the P electrode and the N electrode are beyond a top edge of the protruding platform.

Abstract: An LED light bulb includes a holder for electrically connecting with a power source, an LED mounted on the holder, an envelope mounted on the holder and covering the LED, and a light dispersing plate attached to an inner surface of the envelope. The light dispersing plate is made of a transparent material with a plurality of irregular air bubbles therein. Light generated by the LED and radiating to the envelope is refracted, reflected and scattered by the bulbs before the light emits out of the LED light bulb.

Abstract: A method for manufacturing a light emitting diode (LED) package, the method includes providing an LED chip and forming electrodes on a top surface of the LED chip; forming a first electric insulation layer on the top surface of the LED chip, the first electric insulation layer adapted to enclose the electrodes therein; etching the first electric insulation layer to define a plurality of second through holes; forming a substrate on a top surface of the first electric insulation layer, the substrate adapted to fill in the plurality of second through holes, the substrate directly contacting the electrodes; dividing the substrate into a plurality of spaced heat dissipation parts; and forming a packaging layer on a bottom surface of the substrate, the packaging layer adapted to enclose the LED chip therein.

Abstract: A photoelectric device includes a base, an LED (light emitting diode) element and a zener diode. The base includes a first electrode and a second electrode. The LED element and the zener diode are electrically connected with the first electrode and the second electrode. A recess structure is defined in the base. The zener diode is arranged in the recess structure. The zener diode is electrically connected in anti-parallel with the LED element.

Abstract: An LED device includes a substrate having a top surface and a bottom surface. The substrate defines a through hole at a center thereof. The LED device also includes an electrode board. The electrode board defines a concave portion at a center thereof, and a convex portion connected to and surrounding two sides of the concave portion. The concave portion includes a first electrode and a second electrode isolated from each other, and is located in the through hole of the substrate. A bottommost surface of the concave portion is substantially coplanar with the bottom surface of the substrate, and a top surface of the convex portion is substantially coplanar with the top surface of the substrate. An LED chip is arranged on the concave portion, and is electrically connected to the first electrode and the second electrode. A method for manufacturing plural such LED devices is also provided.

Abstract: An optoelectronic module includes a substrate, an LED and a laser LED formed on the substrate, simultaneously. A method for manufacturing an optoelectronic module includes following steps: providing a sapphire substrate, and forming two adoped GaN layers, an N-type GaN layer, an active layer and a P-type GaN layer on the sapphire substrate in sequence; providing a substrate and forming a metallic adhering layer on the substrate; forming an ohmic contact layer and a reflecting layer on the P-type GaN layer in series; arranging the reflecting layer on the adhering layer; stripping the sapphire substrate and the two doped GaN layers from the N-type GaN layer to form a semiconductor structure; etching a top end of the semiconductor structure to divide the semiconductor structure into a laser LED region and an LED region; forming two N-type electrodes on the LED region and an LED region, respectively.

Abstract: An LED die includes a substrate, a first buffer layer, a second buffer layer, a plurality of nanospheres, a first semiconductor layer, an active layer and a second semiconductor layer. The first buffer layer, the second buffer layer, the first semiconductor layer, the active layer and the second semiconductor layer are formed successively on the substrate. The substrate has a plurality of protrusions on a surface thereof. The nanospheres are located on the protrusions and covered by the second buffer layer and located in the second buffer layer. The present disclosure also provides a method of manufacturing an LED die.

Abstract: An light emitting diode (LED) module includes a circuit board, a set of LED chips formed on and electrically connected to the circuit board, and an encapsulant arranged on the circuit board and covering the LED chips, a set of first recesses defined in a top surface of the encapsulant.

Abstract: A single photon source die includes a first semiconductor layer, a plurality of columnar structures formed on the first semiconductor layer, a second semiconductor layer formed on the columnar structures. Each columnar structure includes a bottom layer, a single photon point layer and a connecting layer. The single photon point layer includes a plurality of single photon points.

Abstract: A light emitting diode (LED) lamp includes a substrate, a plurality of LED elements arranged on the substrate, and a reflector arranged on the substrate. The reflector includes a plurality of reflecting sheets obliquely extending upward and outward from a center of the substrate. A projection of each of the reflecting sheets covers one LED element. Each of the reflecting sheets corresponding to the LED element defines a perforation. Part of light from the LED element directly radiates out via the perforation, and part of light from the LED package is reflected to a lateral periphery of the substrate by the reflecting sheet.

Abstract: An LED array includes a substrate, protrusions formed on a top surface of the substrate, and LEDs formed on the top surface of the substrate and located at a top of the protrusions. The LEDs are electrically connected with each other. Each LED includes a connecting layer, an n-type GaN layer, an active layer, and a p-type GaN layer formed on a top of the protrusions in sequence. A bottom surface of the n-type GaN layer connecting the connecting layer has a roughened exposed portion. The bottom surface of the n-type GaN layer has an N-face polarity.

Abstract: An exemplary lead frame includes a substrate and a bonding electrode, a first connecting electrode, and a second connecting electrode embedded in the substrate. A top surface of the bonding electrode includes a first bonding surface and a second bonding surface spaced from the first bonding surface. A top surface of the first connecting electrode includes a first connecting surface and a second connecting surface spaced from the first connecting surface. Top surfaces of the bonding electrode, the first connecting electrode and the second connecting electrode are exposed out of the substrate to support and electrically connect with light emitting chips. Light emitting chips can be mounted on the lead frame and electrically connect with each other in parallel or in series; thus, the light emitting chips can be connected with each in a versatile way.

Abstract: An LED die includes a substrate, a light emitting structure, electrodes, a first transparent protecting layer, a reflection layer, and a second transparent protecting layer. The light emitting structure includes a first semiconductor layer, an active layer, a second semiconductor layer successively formed on the substrate. A part of first semiconductor layer being exposed. A first electrode is formed the first semiconductor layer. A second electrode is formed on the second semiconductor layer. The first transparent protecting layer, the reflection layer, and the second transparent protecting layer successively formed on the first electrode. The present disclosure also provides a method of manufacturing the LED die.

Abstract: A flip chip light emitting diode packaging structure includes a substrate and an LED located on the substrate. The LED includes a P electrode and a N electrode. The substrate includes a first electrode and a second electrode mounted on a top surface of the substrate. The first electrode and the second electrode have a first protrusion and a second protrusion. The P electrode and the N electrode are fixed on the top surface of the first protrusion and the second protrusion through the solder. The bottom edge of the P electrode and the N electrode is beyond the top edge of the first protrusion and the second protrusion.

Abstract: A light emitting diode (LED) includes a base, an LED die grown on the base, a transparent electrically conductive layer formed on a side of the LED die, a protecting layer covering the transparent electrically conductive layer, and a phosphor layer formed on the protecting layer. Through holes extend through the phosphor layer and the protecting layer to make part of light emitted from the LED die directly traveling out from the through holes to illuminate. A method for manufacturing the LED is also provided.

Abstract: A light emitting diode includes a substrate, an un-doped GaN layer, a plurality of carbon nanotubes, an N-type GaN layer, an active layer formed on the N-type GaN layer, and a P-type GaN layer formed on the active layer. The substrate includes a first surface and a second surface opposite and parallel to the first surface. A plurality of convexes is formed on the first surface of the substrate. The un-doped GaN layer is formed on the first surface of the substrate. The plurality of carbon nanotubes is formed on an upper surface of the un-doped GaN layer. The plurality of carbon nanotubes is spaced from each other to expose a portion of the upper surface of the un-doped GaN layer. The N-type GaN layer is formed on the exposed portion of the upper surface of the un-doped GaN layer and covering the carbon nanotubes therein.

Abstract: An LED package structure includes a substrate, two electrodes engaged in the substrate, an LED chip, a reflective cup and an encapsulation. The substrate includes a first surface and a second surface opposite to the first surface. Each of the electrodes defines a groove. The grooves surrounding the LED chip. The LED chip is mounted on one of the electrodes and electrically connected to the two electrodes. The reflective cup is mounted on the substrate and surrounds the LED chip. The encapsulation covers the LED chip and extends in the grooves of the electrodes to prevent water/moisture from entering the LED chip.