Abstract: A removable frame for detachable mounting onto a trailer flatbed chassis for suspending a carrier beam extending transversely to and beyond the lateral edges of the chassis, the carrier beam having a pair of movable trolley hoists suspended therefrom whereby cargo can be loaded onto and off from both sides of the bed of the trailer chassis.

Abstract: A modular molding assembly comprises an input module for loading electronic devices for molding, a press station including one or more molding presses for molding the electronic devices, an output module for offloading molded electronic devices after they have been molded and a carrier that is movable at least between the input module and the press station and/or the press station and the output module. The carrier has an adaptor located thereon for detachably mounting a first attachment or a second attachment which is operative to perform a function of transporting the electronic devices and/or introducing a molding compound to the press station for conducting molding. The first and second attachments each has a corresponding mounting device for detachably mounting the first or second attachment onto the adapter and the first attachment has a different function from the second attachment.

Abstract: A system for compensating a thermal effect is provided and includes a substrate structure and a microcantilever. The substrate structure includes a first piezoresistor. The first piezoresistor is buried in the substrate structure and has a first piezoresistance having a first relation to a first variable temperature. The microcantilever has the thermal effect and a second piezoresistance having a second relation to the first variable temperature, wherein the thermal effect is compensated based on the first and the second relations.

Abstract: A torsional MEMS device is disclosed. The torsional MEMS device includes a support structure, a platform, and at least two hinges, which connects the platform to the support structure. The platform has an active area and a non-active area. A plurality of sacrificial elements is disposed in the non-active area. If the resonant frequency of the torsional MEMS device is less than a predetermined standard resonant frequency of the torsional MEMS device, at least one sacrificial element is removed to reduce the total mass of the torsional MEMS device, and so as to increase the resonant frequency of the torsional MEMS device.

Abstract: A MEMS wireless monitoring bio-diagnosis system includes an implantable biosensor system chip, a surface transmitter and an external monitor center. The implantable biosensor system chip contains a biosensor for a cardio-vascular indicator and a wireless transmitter to deliver detected bio-signal data. With the MEMS wireless monitoring bio-diagnosis system, the bio-signal data can be monitored effectively and transmitted to a remote medical unit.

Abstract: The invention discloses a micro-sensor for sensing a chemical substance. The micro-sensor according to the invention includes a substrate, a micro-cantilever, an electrode structure, and a measuring device. The micro-cantilever is formed on the substrate and has a capturing surface for capturing chemical substances. The electrode structure is for supplying an electrical field. The electrical field is disposed so as to assist the capturing surface in capturing chemical substances. The measuring device, coupled to the micro-cantilever, is for measuring a variation on a mechanical property of the micro-cantilever induced by the captured chemical substance and interpreting the variation on the mechanical property of the micro-cantilever into information relative to the chemical substance.

Abstract: A torsional MEMS device is disclosed. The torsional MEMS device includes a support structure, a platform, and at least two hinges, which connects the platform to the support structure. The platform has an active area and a non-active area. A plurality of sacrificial elements is disposed in the non-active area. If the resonant frequency of the torsional MEMS device is less than a predetermined standard resonant frequency of the torsional MEMS device, at least one sacrificial element is removed to reduce the total mass of the torsional MEMS device, and so as to increase the resonant frequency of the torsional MEMS device.

Abstract: A torsional MEMS device is disclosed. The torsional MEMS device includes a support structure, a platform, and at least two hinges, which connects the platform to the support structure. The platform has an active area and a non-active area. A plurality of sacrificial elements is disposed in the non-active area. If the resonant frequency of the torsional MEMS device is less than a predetermined standard resonant frequency of the torsional MEMS device, at least one sacrificial element is removed to reduce the total mass of the torsional MEMS device, and so as to increase the resonant frequency of the torsional MEMS device.

Abstract: A method of modulating resonant frequency of a torsional MEMS device is provided. A torsional MEMS device is provided and a resonant frequency test is performed to measure a raw frequency of the torsional MEMS device. If the raw resonant frequency of the torsional MEMS device is greater than a standard resonant frequency, at least one mass increaser is bonded to the torsional MEMS device. Therefore, the raw resonant frequency is reduced as much as the standard resonant frequency.

Abstract: A removable frame for detachable mounting onto a trailer flatbed chassis for suspending a carrier beam extending transversely to and beyond the lateral edges of the chassis, the carrier beam having a pair of movable trolley hoists suspended therefrom whereby cargo can be loaded onto and off from both sides of the bed of the trailer chassis.

Abstract: A tunable laser system is provided. The tunable laser system includes a light source, a grating, a corner mirror array, and a receiver. In which, the light source emits a beam, and the grating is located in front of the light source for reflecting the beam to form a first reflective beam. Also, the corner mirror array is located in front of the grating for receiving the first reflective beam and forms a second reflective beam accordingly. In addition, the receiver is used to receive a third reflective beam formed from reflecting the second reflective beam through the grating.

Abstract: The invention discloses a package structure for a micro-sensor including a micro-cantilever for capturing a chemical substance. The package structure, according to the invention, includes a first substrate, a second substrate, and a casing. The first substrate thereon forms a processing circuit. The micro-sensor is bonded to a first upper surface of the first substrate and is electrically connected to the processing circuit capable of outputting a signal relative to the chemical substance sensed by the micro-sensor. The second substrate has a formed-through aperture. The second substrate is bonded to the first substrate such that the micro-sensor is disposed in the formed-through aperture. The casing is bonded to the second substrate and includes a reaction chamber in which the micro-cantilever is installed and a fluid containing the chemical substance flows into.

Abstract: This invention discloses a micro-stamping method for photoelectric process. First of all, in this invention, the micro-stamping method provides a stamp, an ink, an inkpad and a substrate, wherein the stamp or the inkpad having specific protruding bodies and the ink is one element of the group consisting of red ink, green ink and blue ink. Further, by adherence of the ink to the stamp, the specific pattern can be transferred to the surface of the substrate. Furthermore, this micro-stamping method comprises an ink adherence process, a positioning process, a pattern transferring process and a fixation process, and the above-mentioned processes will repeat until the three inks, such as red ink, green ink and blue ink, all adhered and fixed on the predetermined places of substrate.

Abstract: The invention discloses a micro-sensor for sensing a chemical substance. The micro-sensor according to the invention includes a substrate, a micro-cantilever, an electrode structure, and a measuring device. The micro-cantilever is formed on the substrate and has a capturing surface for capturing chemical substances. The electrode structure is for supplying an electrical field. The electrical field is disposed so as to assist the capturing surface in capturing chemical substances. The measuring device, coupled to the micro-cantilever, is for measuring a variation on a mechanical property of the micro-cantilever induced by the captured chemical substance and interpreting the variation on the mechanical property of the micro-cantilever into information relative to the chemical substance.

Abstract: A microarray biochip workstation allowing positioning of chips, immobilization of molecules, mixing of sample solution, molecular interactions and washing and processing qualitative and quantitative analyses consists of a positioning device for holding a biochip, a mixing device for acting on the sample solution applied on the biochip, a pumping device for removing the sample solution from the biochip surface that does not react, and a reading device for detecting reaction results of the biochip. The workstation thus constructed provides an integrated and effective work interface.

Abstract: A grating manufactured by a micro-structure gap control technique is provided in this invention. The grating includes a first structural part, a second structural part and a substrate. The first structural part includes a first micro-structure and a concavity, the second structural part includes a second micro-structure and an island structure located within the concavity, wherein a gap exists between the inland structure and the concavity. Further, the substrate is bonded to the first structural part and the second structural part for supporting the first structural part and the second structural part.

Abstract: A motion sensing system utilizing piezoelectric laminates with predetermined surface electrode patterns disposed thereon utilizes a frequency selector to pass motion waves of predetermined frequencies and an electrical circuit for processing the electrical signals for transmission to an activating device for appropriate activation. In particular, the frequency selector is a low frequency bandpass filter for free-fall acceleration wave frequencies. By directing appropriate action, the present invention increases the applicability of the device upon which it is mounted (e.g., for military or other hostile environment use), decreases the possibility of damage, and lengthens its useful life.

Abstract: A method for manufacturing a grating is provided. The method includes the steps as follows: a) forming a first insulating layer on a substrate; b) forming a silicon oxide layer on the first insulating layer; c) forming and hard baking a photoresist on the silicon oxide layer for defining a plurality of specific zones; d) etching the first insulating layer and the silicon oxide layer within the specific zones respectively for forming a plurality of concaves; e) forming a second insulating layer on the silicon oxide layer; f) defining a plurality of grating zones onto the second insulating layer, and forming an adhesive layer and a conductive layer on the grating zones in sequence; g) removing parts of the second insulating layer located outside of the grating zones; and h) removing the silicon oxide layer for exposing a plurality of grating structures within the grating zone.

Abstract: The micro grating structure is provided. The micro grating structure includes a substrate; a first supporting structure and a second supporting structure; a first structure post and a second structure post, wherein the first structure post and the second structure post are mounted on the substrate between the first supporting structure and the second supporting structure; and a grating mounted between the first structure post and the second structure post and comprising a first, a second, a third and a fourth torsion beams, wherein the first and the second torsion beams are connected to the first and the second supporting structures respectively, the third and the fourth torsion beams are connected to the first and the second structure posts respectively, and the first, the second, the third and the fourth torsion beams are twisted by an electrostatic force so as to enable the grating to be inclined at an angle with respect to the substrate.

Abstract: A motion sensing system utilizing piezoelectric laminates with predetermined surface electrode patterns disposed thereon utilizes a frequency selector to pass motion waves of predetermined frequencies and an electrical circuit for processing the electrical signals for transmission to an activating device for appropriate activation. In particular, the frequency selector is a low frequency bandpass filter for free-fall acceleration wave frequencies. By directing appropriate action, the present invention increases the applicability of the device upon which it is mounted (e.g., for military or other hostile environment use), decreases the possibility of damage, and lengthens its useful life.