Abstract: A pluggable electronic device is provided, where the pluggable electronic device is used to connect to a display, the pluggable electronic device is used to generate data complied with a first standard or a second standard, and to transmit the data to the display. The pluggable electronic device includes: a control circuit for generating audio/video signals and control signals; a selection signal generating circuit for generating a selection signal according a determining result indicating whether the pluggable electronic device is connected to an external power source or not; a multiplexer, for receiving the audio/video signals and the control signals, and selectively generating the audio/video signals and the control signals complied with the first standard or the second standard according to the selection signal; and a connector for transmitting the audio/video signals and the control signals from the multiplexer to the display.

Abstract: The present invention provides a manufacturing method for a detection device. The manufacturing method comprises dispensing a plurality of reagent droplets to a thin substrate by a dispensing unit and absorbing the plurality of reagent droplets by the thin substrate to form at least one detection area of the detection device.

Abstract: A manufacturing method of a package carrier is provided. A carrier having a connecting surface is provided. A releasable solder resist layer is formed on the connecting surface of the carrier and completely covers the connecting surface. A substrate having an upper surface and a lower surface opposite to each other is provided. A first patterned solder resist layer is formed on the lower surfaces of the substrate and exposes a portion of the lower surface. The carrier and the substrate are laminated, the releasable solder resist layer directly contacts the first patterned solder resist layer, and the carrier is temporarily bonded to the first patterned solder resist layer through the releasable solder resist layer.

Abstract: A substrate structure includes a dielectric layer, a metal foil, a patterned metal layer, a first patterned solder-resist layer and a second patterned solder-resist layer. The dielectric layer includes a first surface and a second surface, and the first surface has a plurality of recesses. The metal foil is disposed on the second surface. The patterned metal layer is disposed on the first surface, the patterned metal layer has a plurality of openings, and the openings are respectively corresponding to and expose the recesses. The first patterned solder-resist layer is filled in each of the recesses and corresponding to each of the openings. A top surface of the first patterned solder-resist layer is substantially coplanar with a top surface of the patterned metal layer. The second patterned solder-resist layer is disposed on the first patterned solder-resist layer and in the openings, and covers a portion of the patterned metal layer.

Abstract: A portable fluorescence analysis system comprises a fluorescence strip, a fluorescence excitation device and a mobile Internet device. The fluorescence strip comprises a fluorescence probe configured for detecting an analyte within a specimen. The fluorescence excitation device comprises a sleeve and an excitation light source module. The fluorescence strip is arranged at the one open end of the sleeve. The excitation light source module is arranged at the same opening side of the sleeve and configured for providing an excitation light to excite the fluorescence probe to generate fluorescence. The mobile Internet device comprises an image capturing module and configured for capturing a fluorescence image of the fluorescence strip via the other opening of the sleeve and analyzing fluorescence intensity of the fluorescence image to determine the content of the analyte. The above-mentioned system can be applied to the point of care testing.

Abstract: The present invention provides a fabric-base biochemical detecting device and the fabricating method thereof. The device comprises a fabric-base material, a detecting material, and glue. The fabricating method comprises the following steps of: (S1) preparing a fabric-base material, and the basic material is a hydrophobic fabric-base material; (S2) applying a plasma to treat part of the hydrophobic fabric-base material for forming a hydrophilic region on the fabric-base material; (S3) preparing a detecting material to be disposed on the hydrophilic region of the fabric-base material; and (S4) preparing glue for covering the detecting material. The present invention can extend the duration of the detecting material by covering the glue with the detecting material, and have the advantages of simplified manufacture procedure, low cost, and availability of multiple biochemical examinations.

Abstract: The present invention provides a personal hygiene item. In simple terms, one of the main features of the present invention is to provide a low-cost personal hygiene item capable of providing a multi-component detection function. The personal hygiene item of the present invention mainly comprises a first material layer and a second material layer. The first material layer is made of hydrophobic material, and the second material layer is disposed thereon. Also, the second material layer comprises a discolored portion. In actual practice, a fluid under test contacts with the corresponding discolored portions via the hydrophobic layer of second material layer for a color changing reaction. Meanwhile, since the hydrophilic performance of the discolored portion is better than the hydrophilic performance of the hydrophilic layer, the back permeation of the fluid under test can herein be prevented.

Abstract: The present invention provides a sensor having chemical inspecting function and the inspecting material contained therein. In simple terms, one of the major features of the present invention is to reduce the detection area contacted with air between the gel and the inspecting material so as to slow down the degradation thereof. The other feature of the invention is to provide the detailed compositional parameters required by the inspecting material in the said process so as to obtain a balanced value between the cost and the visibility. By the present invention, the problem of short retention period of the personal hygiene item is herein solved.

Abstract: The present invention provides a fiber-weaving hygiene item and the fabricating method thereof. The hygiene item comprises a substrate, a fabric-base fiber, and a sensing matter. The fabricating method comprises the following steps: preparing a substrate, forming a plurality of penetrating holds on the substrate, preparing a fabric-base fiber and interlacing the fabric-base fiber on a first surface and a second surface of the substrate, and disposing a sensing matter on the fabric-base fiber, wherein the hydrophilicity of the fabric-base fiber is higher than that of the substrate. The present invention applies the characteristic of the higher hydrophilicity of the fabric-base fiber for luring a matter under test toward the fabric-base fiber. When the matter under test is contacted with the fabric-base fiber, the sensing matter can change its color for bio-examination. Using the present invention, multiple bio-examinations can be done for examining the matter under test.

Abstract: The present invention provides a fiber base sensor and the fabricating method thereof. More specifically, one of the main goals of the present invention is to solve the problem existing in the prior art of the failure of forming a plurality of nano-particles on the surface of the fiber base sensor evenly by utilizing self-assembly process with the nano-imprint process. Furthermore, the another goal of the present invention is to provide detail parameters required in the said nano-imprinting process for avoiding the efficiency drop caused by over-embedding the nano-particles into the fiber based sensor.

Abstract: A manufacturing method of a substrate structure includes the following steps. A substrate including a supporting layer, two release layers and two base metal layers is provided. The release layers are disposed on two opposite surfaces of the supporting layer respectively. Each base metal layer covers each of the release layers. A first patterned solder-resist layer is formed on each of the base metal layers. A stacking layer is laminated on each of the base metal layers to cover each of the first patterned solder-resist layers. Each stacking layer includes a dielectric layer and a metal foil. Each dielectric layer is disposed between the corresponding base metal layer and the corresponding metal foil. Each base metal layer is separated from the supporting layer. Each base metal layer is patterned to form a patterned metal layer on each stacking layer. Each patterned metal layer exposes the corresponding first patterned solder-resist layer.

Abstract: A biomedical testing sheet comprises: a substrate with calligraphy paper material, wherein the substrate comprises a wax pattern layer, which is a part of a surface of the substrate coated by a waxy material, and penetrated and diffused by the waxy material, and the wax pattern layer comprises one or more carrying units for carrying one or more droplets of liquids to be measured. The lotus effect substantially prevents diffusion of the liquids and reagents on the carrying units, and reduces the required amount of liquids to be measured and the amount of agent.

Abstract: A core substrate includes a dielectric layer, at least one releasing layer, at least one first copper foil layer and at least one nickel layer. The releasing layer is disposed on the dielectric layer and directly covers the dielectric layer. The first copper foil layer is disposed on the releasing layer and directly covers the releasing layer. The nickel layer is disposed on the first copper foil layer and directly covers the first copper foil layer.

Abstract: A portable fluorescence analysis system comprises a fluorescence strip, a fluorescence excitation device and a mobile Internet device. The fluorescence strip comprises a fluorescence probe configured for detecting an analyte within a specimen. The fluorescence excitation device comprises a sleeve and an excitation light source module. The fluorescence strip is arranged at the one open end of the sleeve. The excitation light source module is arranged at the same opening side of the sleeve and configured for providing an excitation light to excite the fluorescence probe to generate fluorescence. The mobile Internet device comprises an image capturing module and configured for capturing a fluorescence image of the fluorescence strip via the other opening of the sleeve and analyzing fluorescence intensity of the fluorescence image to determine the content of the analyte. The above-mentioned system can be applied to the point of care testing.

Abstract: A detection kit applied for detecting a body fluid sample of an organism includes a sampling device and a detecting device. The sampling device includes a sampling unit and a filtering unit detachably covering the sampling unit. The sampling unit collects the body fluid sample that is filtered by the filtering unit. The detecting device includes at least one reaction zone including a fiber substrate and a detecting reagent immobilized to the fiber substrate. The reaction zone is disposed as the fiber substrate contacts the body fluid sample collected by the sampling unit. The fiber substrate absorbs the body fluid sample collected by the sampling unit, so that the body fluid sample reacts with the detecting reagent for the detection. A detection method for detecting a body fluid sample is also disclosed. This invention is advantageous for simplified pretreatment, less amount of the reagent and rapid analysis.

Abstract: The present invention provides a method for activating the AMP-dependent protein kinase (AMPK) in a subject comprising administering the subject with a pharmaceutical composition comprising a pharmaceutically acceptable carrier and a therapeutically effective amount of a compound having the general Formula I, preferably 1,10-dihydroxyaporphine. The pharmaceutical composition is able to activate AMPK, and thus is effective in the regulation of cell growth and metabolism, and the treatment of AMPK associated diseases.

Abstract: The present invention provides a method for activating the AMP-dependent protein kinase (AMPK) in a subject comprising administering the subject with a pharmaceutical composition comprising a pharmaceutically acceptable carrier and a therapeutically effective amount of a compound having the general Formula I, preferably 1,10-dihydroxyaporphine. The pharmaceutical composition is able to activate AMPK, and thus is effective in the regulation of cell growth and metabolism, and the treatment of AMPK associated diseases.

Abstract: A circuit board includes a circuit layer, a first solder resist layer, a second solder resist layer and at least one conductive bump. The first solder resist layer is disposed on a lower surface of the circuit layer and has at least one first opening exposing a portion of the lower surface of the circuit layer. The second solder resist layer is disposed on an upper surface of the circuit layer and has at least one second opening exposing a portion of the upper surface of the circuit layer. The conductive bump is disposed inside the second opening of the second solder resist layer and directly connects to the upper surface of the circuit layer exposed by the second opening. A top surface of the conductive bump is higher than a second surface of the second solder resist layer.

Abstract: A substrate structure is provided. The substrate structure includes a substrate and a carrier. The substrate includes a first through hole, a first surface and a second surface opposite to the first surface. The first through hole penetrates the substrate for connecting the first surface and the second surface. The carrier includes a second through hole, a release layer, an insulating paste layer and a metal layer. The insulating paste layer is disposed between the release layer and the metal layer. The carrier is attached to the second surface with the release layer thereof. The second through hole corresponds to the first through hole and penetrates the carrier for exposing the first through hole.

Abstract: The present invention provides a method for activating the AMP-dependent protein kinase (AMPK) in a subject comprising administering the subject with a pharmaceutical composition comprising a pharmaceutically acceptable carrier and a therapeutically effective amount of a compound having the general Formula I, preferably salsolinol or reticuline. The pharmaceutical composition is able to activate AMPK, and thus is effective in the regulation of cell growth and metabolism, and the treatment of AMPK associated diseases.