Abstract: An optical switching element has a movable optically transmissive microstructure to change the optical paths of the optical signals. The movable microstructure is “optically transmissive” because it includes structures such as waveguides and waveguide networks which transmit optical signals. The apparatus uses MEMS and micromachining technology to build an optical switch having an optically transmissive microstructure which moves from one position to another position in a direction (e.g., laterally, vertically, rotationally) such that incoming optical signals align over a small air gap with different waveguides, or with different inputs to the waveguides, depending on the position of the movable microstructure. As a result, the optical signals travel different optical paths (e.g., straight pass through or cross over) depending on the position of the movable microstructure.

Abstract: An electromagnetic induction device with a writing function is disclosed in this present invention. The design of this invention combines an electromagnetic induction device and a writing device in a pen-like device. The electromagnetic induction device can be employed as a pointer device of a tablet. The writing device can be used as an ink pen. Moreover, while writing on paper, the tablet can detect and calculate the coordinates of the writing device and save the coordinates in memory device, such as a RAM. After communicating with the host machine, the monitor can response and display the handwriting trace. Hence, it is very convenient for a user to bring and carry a pen-like device with multiple functions according to this invention.

Abstract: A transmission device for a swing exercising device and includes two shafts respectively and eccentrically connected to two gears. One of the shafts pivotably connected to a support member and the other shaft is reciprocatingly retained in a slot of a frame in the support member.

Abstract: A pressure sensitive pen is provided. The pressure sensitive pen comprises a core body, an elastic element, a first magnetic body having one coil formed of at least a wire wound around, a second magnetic body, a sliding member, a hollow cylindrical body with an annular element formed therein and an inductance-capacitance type resonant circuit. The resonant circuit is electrically connected with the first magnetic body having the coil wound around. When a force is upward applied on the core body, the force is further applied on the sliding member through the core body such that the sliding member in conjunction with the second magnetic body move upward and make the elastic element deformed, and changing a predetermined distance between the first magnetic body and the second magnetic body, thereby changing an inductance generated by the coil, and the resonance frequency of the resonant circuit is thus changed.

Abstract: An optical switching system that switches the path of an optical signal by moving a microstructure onto which a light-guiding structure is mounted. The microstructure is formed by a MEMs and semiconductor process to be integral to the substrate. The light-guiding structure may include waveguides. The microstructure moves from one position to another position (e.g., laterally, vertically, rotationally) such that incoming optical signals align over a small air gap to different optical paths, depending on the position of the movable microstructure. As a result, the optical signal propagate along different optical paths (e.g., straight pass through or cross over) depending on the position of the movable microstructure. The optical paths have a large radii of curvature so as to change the direction of the optical signal gradually, thereby reducing insertion losses.

Abstract: A multi-induction loop layout of an electromagnetic inductive system is disclosed. The multi-induction loop layout of the invention comprises a plurality of inductive loops, one terminal of each inductive loop connecting to a loop switch, and the other terminal connecting to the common node. Every logical inductive loop is a relative close inductive loop, the relative close inductive loop possessing a plurality of -type sections, forming a sawtooth-shaped region and corresponding to and closing each other to form a plurality of close-like regions. The form of which gradually approaches the multi-induction loop layout.

Abstract: The invention is an offset setting system for an optical reading/writing apparatus having an optical pickup head reading/writing digital data under a predetermined velocity on an optical storage media. The apparatus sets the offset including a plurality of buffer blocks when the pickup head crosses storage tracks each time on the media and stop on a target storage track. The offset is to steady the pickup head to read/write data on a target block of the target storage track. A buffer time estimating module estimates an average time for the pickup head crossing a buffer block under a predetermined velocity, defining as a buffer time. The buffer blocks setting module records a steady time for the pickup head steadying to read/write data on the target block, and sets the number of the buffer blocks by a predetermined setting process in the offset based on the buffer time and the steady time.

Abstract: This improved method and apparatus for switching optical signals uses a rotatable optically transmissive microstructure to change the optical paths of optical signals. The rotatable optically transmissive microstructure includes structures such as waveguides and waveguide networks which transmit optical signals. MEMS and micro-machining technology are used to build an optical switch with a microstructure that rotates from one position to another position (e.g., laterally, vertically, rotationally) such that incoming optical signals align over a small air gap with different waveguides, or with different inputs to the waveguides, depending on the position of the microstructure. As a result, the optical signals travel different optical paths (e.g., straight pass-through or cross over) depending on the position of the microstructure.

Abstract: An optical switching element has a movable optically transmissive microstructure to change the optical paths of the optical signals. The movable microstructure is “optically transmissive” because it includes structures such as waveguides and waveguide networks which transmit optical signals. The apparatus uses MEMS and micromachining technology to build an optical switch having an optically transmissive microstructure which moves from one position to another position in a direction (e.g., laterally, vertically, rotationally) such that incoming optical signals align over a small air gap with different waveguides, or with different inputs to the waveguides, depending on the position of the movable microstructure. As a result, the optical signals travel different optical paths (e.g., straight pass through or cross over) depending on the position of the movable microstructure.

Abstract: A transmission device for a swing exercising device and includes two shafts respectively and eccentrically connected to two gears. One of the shafts pivotably connected to a support member and the other shaft is reciprocatingly retained in a slot of a frame in the support member.

Abstract: A friction-resisting noise-eliminating rod member mounting arrangement in which two friction bushings are respectively fitted into a respective recessed round hole in each of the two ends of a rod member, which controls the opening/closing of sound holes of the wind instrument, and coupled to a respective screw rod in each of two supports adapted to support the rod member on the body of the wind instrument.

Abstract: A disc with a plurality of rough passages. The rough passages are arranged on the top surface around a through hole of the disc, or on the ring protrusion of the readable under-surface. The rough passages are formed by printed ink or by punching the surface of the disc, and reduce vacuum adhesion between disks when stacked.

Abstract: The invention, an improved device and method for the pointer system of a digitizer tablet, is to repetitiously emit signals sequentially from a specific set of inductive loop when the position pointed by the wireless pointer device is located within a range formed by this specific set of inductive loop induced most intensively during a locally scanning process. After a transient energy storage of the wireless pointer device, corresponding resonant signals are emitted out and are received sequentially by several sets of inductive loop located on the digitizer tablet in the neighborhood of this specific set of inductive loop and, by these signals, the wireless pointer device's coordinate position on the digitizer tablet is calculated out relatively.

Abstract: An abrasion-resistant disc. The disc has a plurality of protrusions at the edge of the bottom surface. The protrusions prevent abrasion to the bottom surface of the disc.