Abstract: The present invention discloses a sports and health cloud analysis system including a cloud server with an intelligent analysis module, a big data database is coupled to the cloud server, a wearable sensing module is coupled to a mobile device for collecting at least heart sound, ECG, lung sounds, blood pressure, blood glucose level and blood oxygen saturation level information; an insole-type sensing module is used to collect at least foot information, which is connected to the mobile device. The sensing module performs at least one of exercise sensing, foot, exercise, ankle exercise, knee exercise, hand exercise. The collected information is analyzed by an intelligent analysis module to obtain data for evaluating the health status and exercise intensity.

Abstract: An insole with wireless charging system includes a pressure sensing layer arranged on the insole, a sensing device is formed in the insole to detect speed, distance, direction, acceleration, angular orientation or any combination thereof. An inductive coil is formed in the insole for wireless charging a battery.

Abstract: A composite lens arrangement for use with a light emitting source directed along an optical axis includes a collimator lens, a beam former lens, a first optical structure, and a member. The collimator lens includes a light collection surface axially opposed to the light emitting source, and an opposite facing light emitting surface. The beam former lens is spaced axially from the light emitting surface, and includes a light collection face axially opposed to the light emitting surface and an opposite light emitting face. The first optical structure is integral to one of the light emitting surface and the light collection face. The member is radially spaced from the optical axis, and extends between, and is attached to, the light emitting surface and the light collection face.

Abstract: A composite lens arrangement for use with a light emitting source directed along an optical axis includes a collimator lens, a beam former lens, a first optical structure, and a member. The collimator lens includes a light collection surface axially opposed to the light emitting source, and an opposite facing light emitting surface. The beam former lens is spaced axially from the light emitting surface, and includes a light collection face axially opposed to the light emitting surface and an opposite light emitting face. The first optical structure is integral to one of the light emitting surface and the light collection face. The member is radially spaced from the optical axis, and extends between, and is attached to, the light emitting surface and the light collection face.

Abstract: A vapor deposition system and its wafer and thin-film temperature control method are disclosed. A susceptor carries a plurality of wafer holders with each bearing a wafer. The susceptor makes revolution around a center axle and each wafer holder rotates around its own axis. A carrier gas approaches a first surface of the wafer and is heated to form a thin film to be deposited on the first surface. An isothermal plate is placed at a second surface of the wafer and the second surface is opposite to the first surface. One or more remote temperature-measuring elements measure a temperature of a rear surface of the isothermal plate and the rear surface is opposite to the wafer, and a wafer-side temperature is calculated by the measured rear surface temperature of the isothermal plate.

Abstract: Apparatus and method for curvature and thin film stress measurement are disclosed. The apparatus comprises two light sources and a detector. Two light beams from the two light sources with an angle are not parallel. The two light beams are collimated and projected onto a specimen with a pitch. The detector receives the light beams reflected from the specimen. The curvature of the specimen is calculated via a distance between spots of the light beams on the detector or a size variation of one of the spots.

Abstract: A vapor deposition system and its wafer and thin-film temperature control method are disclosed. A susceptor carries a plurality of wafer holders with each bearing a wafer. The susceptor makes revolution around a center axle and each wafer holder rotates around its own axis. A carrier gas approaches a first surface of the wafer and is heated to form a thin film to be deposited on the first surface. An isothermal plate is placed at a second surface of the wafer and the second surface is opposite to the first surface. One or more remote temperature-measuring elements measure a temperature of a rear surface of the isothermal plate and the rear surface is opposite to the wafer, and a wafer-side temperature is calculated by the measured rear surface temperature of the isothermal plate.

Abstract: Apparatus and method for curvature and thin film stress measurement are disclosed. The apparatus comprises two light sources and a detector. Two light beams from the two light sources with an angle are not parallel. The two light beams are collimated and projected onto a specimen with a pitch. The detector receives the light beams reflected from the specimen. The curvature of the specimen is calculated via a distance between spots of the light beams on the detector or a size variation of one of the spots.

Abstract: A method of programming a recipe through a GUI and a media recording the same applied to process recipe editing for semiconductor/photoelectric equipment includes: providing the GUI comprising a template area and a working area, wherein the template area has a plurality of control objects and/or a plurality of macro objects; and the working area has a chart; defining a plurality of procedures of the recipe on the chart; defining required objects of the recipe by dragging the required objects from the control objects and the macro objects into the chart to form a characteristic curve with an initial value for each object; and setting a control parameter of each characteristic curve in each procedure, wherein the control parameter comprises a slope and at least a setting point. By dragging on a chart, a process personnel performs scheduling of the process recipe intuitively, thereby reducing the development and debugging time.