Patent application number | Description | Published |
20150061126 | MANUFACTURE INCLUDING SUBSTRATE AND PACKAGE STRUCTURE OF OPTICAL CHIP - A manufacture includes a package structure, a first substrate, and a conductive member of a same material. The package structure includes a chip comprising a conductive pad, a conductive structure over the chip, and a passivation layer over the conductive structure. The passivation layer has an opening defined therein, and the opening exposes a portion of a planar portion of the conductive structure. The first substrate includes a first surface defining a first reference plane and a second surface defining a second reference plane. The conductive member extends across the first reference plane and the second reference plane and into the opening. The conductive member is electrically coupled to the exposed portion of the planar portion. | 03-05-2015 |
20150061137 | PACKAGE AND METHOD FOR INTEGRATION OF HETEROGENEOUS INTEGRATED CIRCUITS - A package for holding a plurality of heterogeneous integrated circuits includes a first chip having a first conductive pad and a first substrate including a first semiconductor, and a second chip having a second conductive pad and a second substrate including a second semiconductor. The second semiconductor is different from the first semiconductor. The package also includes a molding structure in which the first chip and the second chip are embedded, a conductive structure over the first chip and conductively coupled to the first conductive pad and over the second chip and conductively coupled to the second conductive pad, and a passivation layer over the conductive structure. The passivation layer comprises an opening defined therein which exposes a portion of the second chip. | 03-05-2015 |
20150146268 | OPTICAL SCANNER INTEGRATED WITH SUBSTRATE METHOD OF MAKING AND METHOD OF USING THE SAME - An optical scanner includes a substrate, and a tunable laser on the substrate, wherein the tunable laser is configured to emit light, and to sweep a wavelength of the emitted light through a waveband. The optical scanner further includes a grating over a top surface of the substrate, the grating configured to diffract light emitted from the tunable laser, and an angled reflective surface configured to reflect the diffracted light from the grating. The optical scanner further includes a refractive element configured to receive the reflected light from the angled reflective surface. The refractive element is configured to focus the reflected light in a first direction and to diverge the reflected light in a second direction perpendicular to the first direction. | 05-28-2015 |
20150160413 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING - A semiconductor device includes a substrate, a trench in the substrate, the trench having an inclined sidewall, a reflective layer over the inclined sidewall, a grating structure over the substrate, and a waveguide in the trench. The waveguide is configured to guide optical signals between the grating structure and the reflective layer. | 06-11-2015 |
20150287705 | APPARATUS AND PACKAGE STRUCTURE OF OPTICAL CHIP - An apparatus includes a package structure. The package structure includes a chip, a conductive structure over the chip, a molding structure surrounding and underneath the chip, and a first passivation layer over the conductive structure. The chip includes an optical component and a chip conductive pad. The conductive structure is electrically coupled to the chip conductive pad. The conductive structure has a planar portion substantially in parallel with an upper surface of the chip. The first passivation layer has a first opening defined therein. The first opening exposes a portion of the planar portion. The package structure is configured to receive an electrical coupling through the first opening in the first passivation layer. | 10-08-2015 |
Patent application number | Description | Published |
20100200879 | PHOTOELECTRIC SEMICONDUCTOR DEVICE - A photoelectric semiconductor device has a metal wiring layer packed or embedded into a housing for enhancing package stability and electric connectivity. The housing has a cavity structure, and at least one LED chip and an encapsulating material are configured inside the cavity structure. The metal wiring layer locates inside the housing, or in other words, between the top surface and the bottom surface of the housing, and extends to the bottom of the cavity structure to electrically connect the LED chip. With fully wrapping around, the metal wiring layer has higher stability and more reliability from being harmed by outside changes in humidity and temperature. | 08-12-2010 |
20100276713 | LED DEVICE AND PACKAGING METHOD THEREOF - A LED device includes a base structure having a receiving space, a light-emitting chip, an encapsulating structure, and a phosphor layer. The receiving space is defined by an inner bottom surface of the base structure and an inner side wall surrounding the inner bottom surface. The light-emitting chip is mounted on the bottom of the receiving space. The encapsulating structure is filled into the receiving space to cover the light-emitting chip. The phosphor layer is formed on the encapsulating structure. The dimension of the phosphor layer is more than the dimension of the receiving space and less than 1.5 times that of the receiving space, so as to mount on the top surface of the base structure. | 11-04-2010 |
20120194067 | LED DEVICE - A LED device includes a base structure having a receiving space, a light-emitting chip, an encapsulating structure, and a phosphor layer. The receiving space is defined by an inner bottom surface of the base structure and an inner side wall surrounding the inner bottom surface. The light-emitting chip is mounted on the bottom of the receiving space. The encapsulating structure is filled into the receiving space to cover the light-emitting chip. The phosphor layer is formed on the encapsulating structure. The dimension of the phosphor layer is more than the dimension of the receiving space and less than 1.5 times that of the receiving space, so as to mount on the top surface of the base structure. | 08-02-2012 |