Abstract: A packaging substrate includes a base body having at least a conductive pad on a surface thereof, a dielectric layer formed on the surface of the base body and having at least a first opening for exposing the conductive pad and at least a second opening formed at a periphery of the first opening, and a metal layer formed on the conductive pad and the dielectric layer and extending to a sidewall of the second opening, thereby effectively eliminating side-etching of the metal layer under a solder bump.

Abstract: Virtual reality (VR) systems with human interface device (HID) emulation and related methods are provided. A representative VR system includes: a VR head mounted display having a head piece and a display, the head piece being configured to be worn by a user to position the display, the display being configured to display the 3D content to the user, the head mounted display being configured to provide movement information corresponding to movement of the head mounted display; and emulation circuitry configured to: receive the movement information; convert the movement information into emulated HID movement information compatible with the 3D content; and use the emulated HID movement information to facilitate interaction of the user within a VR environment, associated with the 3D content, displayed on the display of the head mounted display.

Abstract: Virtual reality (VR) systems and related methods are provided. A representative VR system includes: content detection circuitry configured to determine a type of VR content from among inside-out VR content and outside-in VR content; and processor circuitry configured to execute instructions to display the VR content in accordance with the type of VR content determined. A representative method includes: determining a type of VR content provided to a head mounted display from among inside-out VR content and outside-in VR content; and displaying the VR content to the user with the head mounted display in accordance with the type of VR content determined such that, if the VR content is determined to be inside-out VR content, the head mounted display displays the inside-out VR content, and if the VR content is determined to be outside-in VR content, the head mounted display displays the outside-in VR content.

Abstract: A light emitting device for a car belt molding includes the belt molding with a containing space having a long and narrow opening disposed between the outer door panel of a car door and the car window, a light emitting module is installed inside the containing space and linked to a controller, so that the controller can drive the light emitting module for continuous lighting with steady or blinking or different colors to notify the status of the motor vehicle, so as to achieve the effects of local lighting and decoration, or warning cars or pedestrians coming from behind.

Abstract: A packaging substrate includes a base body having at least a conductive pad on a surface thereof, a dielectric layer formed on the surface of the base body and having at least a first opening for exposing the conductive pad and at least a second opening formed at a periphery of the first opening, and a metal layer formed on the conductive pad and the dielectric layer and extending to a sidewall of the second opening, thereby effectively eliminating side-etching of the metal layer under a solder bump.

Abstract: A method for manufacturing a semiconductor device is provided. A substrate having a first gate and a second gate respectively formed in a first region and a second region is provided. An underlayer is formed on the substrate to cover the first gate in the first region and the second gate in the second region. A patterned mask with a predetermined thickness is formed on the underlayer in the first region. The underlayer corresponding to the second gate in the second region is removed by the patterned mask to expose the second gate, wherein the underlayer corresponding to the first gate in the first region is partially consumed to expose part of the first gate.

Abstract: A micro secure digital (SD) adapter, for adapting a micro SD card to an SD interface, the micro SD adapter comprising a micro SD slot, for disposing the micro SD card; a pin module, comprising a plurality of signal pins, a first ground pin, and a second ground pin; a plurality of connectors, for conducting the plurality of signal pins and the first ground pin to the micro SD card according to a pin configuration of the micro SD card when the micro SD card is disposed in the micro SD slot; and a conducting module, electrically connected between a terminal of a first connector corresponding to the first ground pin and the second ground pin.

Abstract: A method for manufacturing a semiconductor device is provided. A substrate having a first gate and a second gate respectively formed in a first region and a second region is provided. An underlayer is formed on the substrate to cover the first gate in the first region and the second gate in the second region. A patterned mask with a predetermined thickness is formed on the underlayer in the first region. The underlayer corresponding to the second gate in the second region is removed by the patterned mask to expose the second gate, wherein the underlayer corresponding to the first gate in the first region is partially consumed to expose part of the first gate.

Abstract: The present invention discloses a magnetic nanomedicine for inhibiting/treating human prostate cancer, which comprises a core containing a magnetic particle having a diameter of less than 10 nm; a shell made of a carboxylated polyaniline and encapsulating the core; and a medicine covalently linked to the shell and able to inhibit/treat prostate cancer. The magnetic nanomedicine of the present invention not only has superior thermal stability and but also has water solubility higher than that of the conventional anti-prostate cancer medicine. Further, the magnetic nanomedicine of the present invention can be magnetically conducted to the cancer area to increase the local concentration of medicine and enhance the therapeutic effect.

Abstract: A micro secure digital (SD) adapter, for adapting a micro SD card to an SD interface, the micro SD adapter comprising a micro SD slot, for disposing the micro SD card; a pin module, comprising a plurality of signal pins, a first ground pin, and a second ground pin; a plurality of connectors, for conducting the plurality of signal pins and the first ground pin to the micro SD card according to a pin configuration of the micro SD card when the micro SD card is disposed in the micro SD slot; and a conducting module, electrically connected between a terminal of a first connector corresponding to the first ground pin and the second ground pin.

Abstract: A method for fabricating a compound semiconductor epitaxial structure includes the following steps. Firstly, a first compound epitaxial layer is formed on a substrate. Then, a continuous epitaxial deposition process is performed to form a second compound epitaxial layer on the first compound epitaxial layer, so that the second compound epitaxial layer has a linearly-decreased concentration gradient of metal. Afterwards, a semiconductor material layer is formed on the second compound epitaxial layer.

Abstract: A method for fabricating a compound semiconductor epitaxial structure includes the following steps. Firstly, a first compound epitaxial layer is formed on a substrate. Then, a continuous epitaxial deposition process is performed to form a second compound epitaxial layer on the first compound epitaxial layer, so that the second compound epitaxial layer has a linearly-decreased concentration gradient of metal. Afterwards, a semiconductor material layer is formed on the second compound epitaxial layer.

Abstract: A memory device includes a control board and a conductive housing. In one embodiment, a circuit ground in the control board is electrically coupled to the conductive housing to make a common ground contact. In another embodiment, differential impedances at different locations of a conductor are controllably maintained within a specified range by adjusting width of the conductor and/or spacing between the adjacent conductors of a differential pair.

Abstract: An electronic apparatus with multiple screens and an image displaying method thereof are provided. The image displaying method is adapted to an electronic apparatus. The electronic apparatus includes a first display unit and a second display unit. The image displaying method includes following steps. By a processing module, a digital file is read, and a content of the digital file is displayed on the first display unit. Whether the content of the digital file includes at least one dynamic image is detected by the processing module. When the content of the digital file includes the at least one dynamic image, the at least one dynamic image is displayed on the second display unit by the processing module.

Abstract: A method for adaptively performing radio link control within a network and an associated apparatus are provided, where the method is applied to an electronic device. The method includes: screening a plurality of cells within the network according to recorded data of locations of the plurality of cells and according to a target location of the electronic device, to obtain cell information of at least one portion of the plurality of cells, the at least one portion of the plurality of cells being selected by screening, wherein the cell information or existence of the cell information indicates suggestion regarding whether the electronic device should use the at least one portion of the plurality of cells with respect to the target location, respectively; and based upon the cell information of the at least one portion of the plurality of cells, controlling content(s) of a measurement report being sent to the network.

Abstract: A packaging substrate includes a base body having at least a conductive pad on a surface thereof, a dielectric layer formed on the surface of the base body and having at least a first opening for exposing the conductive pad and at least a second opening formed at a periphery of the first opening, and a metal layer formed on the conductive pad and the dielectric layer and extending to a sidewall of the second opening, thereby effectively eliminating side-etching of the metal layer under a solder bump.

Abstract: The present invention discloses a magnetic nanomedicine for inhibiting/treating human prostate cancer, which comprises a core containing a magnetic particle having a diameter of less than 10 nm; a shell made of a carboxylated polyaniline and encapsulating the core; and a medicine covalently linked to the shell and able to inhibit/treat prostate cancer. The magnetic nanomedicine of the present invention not only has superior thermal stability and but also has water solubility higher than that of the conventional anti-prostate cancer medicine. Further, the magnetic nanomedicine of the present invention can be magnetically conducted to the cancer area to increase the local concentration of medicine and enhance the therapeutic effect.

Abstract: A method for controlling a network connection of a wireless network device includes: after the wireless network device is waked up from a sleep mode: loading a wireless network driver; determining whether a predetermined access point satisfies a predetermined rule under a condition that the wireless network driver does not scan access points; and when the predetermined access point satisfies the predetermined rule, the wireless network driver directly utilizes pre-stored network connection information to connect to the predetermined access point without scanning the access points.

Abstract: A magnetic nanomedicine for tumor suppression and therapy, comprising: a core, made of magnetic nanoparticles; a shell, encapsulating said core and is made of carboxylated polyaniline (SPAnH); and a tumor suppression medicine Epirubicin (EPI) or Doxorubicin (DOX) covalently bonded onto said shell. Said magnetic nanomedicine is capable of improving its thermal stability, and it can be dissolved uniformly in water, plus its superparamagnetic property, thus it can be guided by an outside magnetic field to concentrate to the site of tumor distribution to increase the local medicine concentration and enhance therapy effect.

Abstract: A magnetic nanomedicine for tumor suppression and therapy, comprising: a core, made of magnetic nanoparticles; a shell, encapsulating said core and is made of carboxylated polyaniline (SPAnH); and a tumor suppression medicine Epirubicin (EPI) or Doxorubicin (DOX) covalently bonded onto said shell. Said magnetic nanomedicine is capable of improving its thermal stability, and it can be dissolved uniformly in water, plus its superparamagnetic property, thus it can be guided by an outside magnetic field to concentrate to the site of tumor distribution to increase the local medicine concentration and enhance therapy effect.