Abstract: This invention discloses a blood pressure measurement device including a cuff having a bladder wrap around an object to be measured, a MEMS pump for inflating the bladder with air, a pressure sensor for monitoring the pressure in the bladder, and a microcontroller for controlling the pressure sensor to continuously receive pressure signals during the process of inflating the bladder, converting the pressure signals into blood pressure values, and controlling a drive voltage level of the MEMS pump to maintain an air inflation speed of the MEMS pump in a predetermined inflation speed range. The invention further discloses a method for controlling a fixed frequency change of the blood pressure measurement device.

Abstract: A system for bonding films includes a first film, a second film having a plurality of elements, a bonding roller, and a deformable roller having a deformable outer layer. The stiffness of the second film is less than that of the first film. By using the system, the deformable outer layer of the deformable roller produces enough deformation during bonding films to fill the area not covered by the plurality of elements on the second film. Therefore, the second film without sufficient stiffness and the first film can be bonded with each other to produce a composite film without wrinkles. A method for preparing a composite film using the system is also disclosed.

Abstract: The invention provides a slot die coating apparatus and the coating method thereof. The flow path is divided into a first flow path and a second flow path by the shim group. The first flow path is utilized to coat from the middle portion of the coating nozzle and the second flow path is utilized to coat from the two sides of the coating nozzle. The nozzle lips at the two sides of the slot die coating apparatus are extended to close the substrate to prevent to hit the obstacle of the substrate during coating. Also, the height for coating of the slot die coating apparatus is controllable to achieve the optimized coating.

Abstract: The invention provides a slot die coating apparatus and the coating method thereof. The flow path is divided into a first flow path and a second flow path by the shim group. The first flow path is utilized to coat from the middle portion of the coating nozzle and the second flow path is utilized to coat from the two sides of the coating nozzle. The height for coating of the slot die coating apparatus is adjustable, and the slurry may be exposed from the first flow path or the second flow path. Therefore, hitting the obstacle of the substrate can be avoided during coating to achieve the optimized coating.

Abstract: A system for estimating BPs using a PPG signal analysis comprises an upper-arm wearable apparatus, a cuff-based BP measuring apparatus, a PPG signal receiver and analyzer, and a PPG to BP estimator and calibrator. The upper-arm wearable apparatus senses modeling-used PPG waveform signals. The cuff-based BP measuring apparatus obtains real PVR waveforms and real BPs. The PPG signal receiver and analyzer is configured to process the modeling-used PPG waveform signals and derive modeling-used characteristic parameters, and have modeling-used personal information parameters. The PPG to BP estimator and calibrator is configured to calculate estimated BPs based on the modeling-based characteristic parameters and the modeling-used personal information parameters, store a calibration model which approximately fits relationship between the estimated BPs and the real BPs; and calculate modeling-used calibrated-estimated BPs using the calibration model.

Abstract: A non-contact infrared thermometer is used to measure the temperature of a target area of an object to be measured. The non-contact infrared thermometer comprises an infrared sensor, time-of-flight sensor, a microprocessor, and storage. The time-of-flight sensor is configured for measuring an actual temperature measurement distance from the target area. The microprocessor is electrically connected to the infrared sensor and the time-of-flight sensor. The storage is electrically connected to the microprocessor and configured to store the range of a predetermined distance for temperature measurement. If the actual temperature measurement distance falls within the range of the predetermined distance for temperature measurement, the infrared sensor measures the temperature of the target area of the object to be measured.

Abstract: This invention discloses a blood pressure measurement device including a cuff having a bladder wrap around an object to be measured, a MEMS pump for inflating the bladder with air, a pressure sensor for monitoring the pressure in the bladder, and a microcontroller for controlling the pressure sensor to continuously receive pressure signals during the process of inflating the bladder, converting the pressure signals into blood pressure values, and controlling a drive voltage level of the MEMS pump to maintain an air inflation speed of the MEMS pump in a predetermined inflation speed range. The invention further discloses a method for controlling a fixed frequency change of the blood pressure measurement device.

Abstract: An intelligent platform integrates with an intelligent portable device or intelligent core to provide a dynamic computer that may serve as any of: a pad, a tablet computing device, a netbook computer, and a notebook computer. The operations of the integrated device are determined by the connected intelligent core's CPU architecture and its installed operating system. The intelligent platform includes a housing and a core slot located behind a display for accommodating the intelligent core. A core connector is provided on an inner wall of the core slot for interconnecting with a compatible connector of the inserted intelligent core. A control unit continually communicates with the intelligent core through signals carried by the connector, refreshes image received from the intelligent core on its touch-sensitive display, and sends touch-input commands from the touchable panel of the touch-sensitive display to the intelligent core.

Abstract: A blood pressure measuring apparatus with a cuff comprises a cuff, an inflation unit, a deflation unit, a pressure sensor, a signal record and storage unit, and an operation and analysis unit. The operation and analysis unit is used to control the inflation unit and the deflation unit to increase the pressure within the cuff to a first pressure, maintain the pressure at the first pressure for a specified interval, then increase the pressure to a second pressure, and decrease the pressure. The blood pressure measurement is accordingly finished. The operation and analysis unit calculates an arteriosclerosis index based on a pulse waveform signal when the adjustable pressure unit maintains the pressure at the first pressure.

Abstract: A sensor includes a deformable membrane that deflects in response to a stimuli. The sensor further includes a capacitive element coupled to the deformable membrane. The capacitive element is disposed within an enclosed cavity of the sensor. The capacitive element changes capacitance in response to the deformable membrane deflecting. The capacitive element comprises a getter material for collecting gas molecules within the enclosed cavity.

Abstract: A near-eye display system is provided. The near-eye display system includes a display, an image capturing device, a storage device and a processor. The image capturing device is configured to obtain an image of a field of view in which a user watches the display. The storage device is configured to record programs or commands. The processor loads and executes the programs or commands recorded in the storage device to: calculate an in-view brightness distribution according to the image; establish a luminosity invert mask according to the in-view brightness distribution; and control the display to display according to the luminosity invert mask. In addition, a display method for the near-eye display system is also provided.

Abstract: A near-eye display system is provided. The near-eye display system includes a display, an image capturing device, a storage device and a processor. The image capturing device is configured to obtain an image of a field of view in which a user watches the display. The storage device is configured to record programs or commands. The processor loads and executes the programs or commands recorded in the storage device to: calculate an in-view brightness distribution according to the image; establish a luminosity invert mask according to the in-view brightness distribution; and control the display to display according to the luminosity invert mask. In addition, a display method for the near-eye display system is also provided.

Abstract: A sensor includes a deformable membrane that deflects in response to a stimuli. The sensor further includes a capacitive element coupled to the deformable membrane. The capacitive element is disposed within an enclosed cavity of the sensor. The capacitive element changes capacitance in response to the deformable membrane deflecting. The capacitive element comprises a getter material for collecting gas molecules within the enclosed cavity.

Abstract: An optical lens including a lens barrel, a fixing ring, and at least one lens element is provided. A bonding surface is provided on an inner side of a periphery of an end of the lens barrel, and a plurality of micro-structures are disposed on the bonding surface in a ring-shaped arrangement. The micro-structures protrude from the bonding surface. The fixing ring is disposed inside the bonding surface of the lens barrel. The lens element is disposed inside the lens barrel. The micro-structures on the bonding surface and the fixing ring are dissolved by a solvent, so as to fix the lens element inside the lens barrel. An assembling method of the optical lens and a lens barrel are also provided.

Abstract: An enclosure design facilitates heat dissipation from a space-limited computer core device. An external computer platform is provided to connect the computer core device, the external computer platform including a fan that provides an air flow to the connected computer core device. The computer core device and the computing platform may be tightly connected by connectors located on their respective enclosure walls. Both the computer core device and the external computing platform are provided air inlets and outlets on their respective enclosures. When connected, an air inlet of the computer core device faces an air outlet of the external computing platform such that a single cooling air flow flows through the external computing platform and the computer core device. The external computing platform may include a built-in fan to blow air into or draw air from the matching air inlets and outlets.

Abstract: An optical lens including a lens barrel, a fixing ring, and at least one lens element is provided. A bonding surface is provided on an inner side of a periphery of an end of the lens barrel, and a plurality of micro-structures are disposed on the bonding surface in a ring-shaped arrangement. The micro-structures protrude from the bonding surface. The fixing ring is disposed inside the bonding surface of the lens barrel. The lens element is disposed inside the lens barrel. The micro-structures on the bonding surface and the fixing ring are dissolved by a solvent, so as to fix the lens element inside the lens barrel. An assembling method of the optical lens and a lens barrel are also provided.

Abstract: A dynamic dual displays system is coupled with a computing device to provide at least two display panels for single user or multiple user applications. In one embodiment, two display panels are provided in a back-to-back configuration connected by a hinge to allow rotation motion of the display panels relative to each other. Depending on the relative positions of the display panels and the computing device, the combined system provides a hybrid device that may dynamically serve as a notebook or a tablet computer. The multiple display panels may present the same or different contents simultaneously, depending on application. In a multi-user application, the display panels may be presented to different users, one of which accepts input data through a touch-sensitive surface on the corresponding display panel.