Abstract: A data transmission system is utilized in a Mobile Industry Processor Interface (MIPI). A master device includes a control module for generating a control signal according to a feedback signal. A packet encoding module is coupled to the control module for encoding an original packet to be a transmission packet according to the original packet and the control signal to process a transmission operation. A slave device includes a packet decoding module for decoding the transmission packet to be the original packet or a related display device signal corresponding to the original packet to a display device. A feedback module is coupled to the packet decoding module for generating the feedback signal to the control module of the master device according to a decoding condition of the control module, so as to switch a transmission mode of the transmission operation.

Abstract: A data transmission system is utilized in a Mobile Industry Processor Interface (MIPI). A master device includes a control module for generating a control signal according to a feedback signal. A packet encoding module is coupled to the control module for encoding an original packet to be a transmission packet according to the original packet and the control signal to process a transmission operation. A slave device includes a packet decoding module for decoding the transmission packet to be the original packet or a related display device signal corresponding to the original packet to a display device. A feedback module is coupled to the packet decoding module for generating the feedback signal to the control module of the master device according to a decoding condition of the control module, so as to switch a transmission mode of the transmission operation.

Abstract: The present invention provides a sensing method and device based on sensing surface plasmon resonance which can be controlled by the electro-optical modulation. In the case of an integrated-optic device according to the present invention, a voltage is applied on an electro-optical crystal substrate surface with waveguides to modulate the surface plasmon resonance condition on the sensing waveguide. Concentrations of chemicals or bio-chemicals contained in a sample placed on the sensing waveguide can be determined by measuring the dependence of the output light intensity on the applied voltage. Because spectrometer is not needed for measuring the surface plasmon resonance wavelength, drawbacks of conventional integrated-optic surface plasmon resonance sensors, like limited sensitivity, high cost and restrictions on circumstances for measuring, are avoided. The present invention can be applied for real-time dynamic analyses on sample's changes.

Abstract: The present invention provides a sensing method and device based on sensing surface plasmon resonance which can be controlled by the electro-optical modulation. In the case of an integrated-optic device according to the present invention, a voltage is applied on an electro-optical crystal substrate surface with waveguides to modulate the surface plasmon resonance condition on the sensing waveguide. Concentrations of chemicals or bio-chemicals contained in a sample placed on the sensing waveguide can be determined by measuring the dependence of the output light intensity on the applied voltage. Because spectrometer is not needed for measuring the surface plasmon resonance wavelength, drawbacks of conventional integrated-optic surface plasmon resonance sensors, like limited sensitivity, high cost and restrictions on circumstances for measuring, are avoided. The present invention can be applied for real-time dynamic analyses on sample's changes.

Abstract: A rotary compressor includes a cylinder formed with an inlet and an outlet, a rotor disposed eccentrically and rotatably in the cylinder and formed with a sliding space that extends in a radial direction through the rotating axis of the rotor, and a sliding vane disposed slidingly in and spanning the sliding space. The cylinder cooperates with the rotor to define a chamber therebetween. The sliding vane divides the chamber into intake and discharging segments that are respectively in fluid communication with the inlet and the outlet.

Abstract: A biocompatible microcapsule containing living cells encapsulated in a membrane is disclosed. The membrane is a complex formed by the cohesion of two polymer layers. An inner layer comprises a substrate biopolymer and an outer layer comprises a synthetic polyelectrolyte having an electrolytic charge opposite that of the substrate biopolymer. Droplets of a solution of substrate biopolymer containing a suspension of living cells can be added to a solution comprising the synthetic polyelectrolyte to form the encapsulates. The membrane is formed by the cohesion of the oppositely-charge polymer layers to form a complex of substrate biopolymer and synthetic polyelectrolyte. Preferably, the inner layer contains a cationic biopolymer, such as collagen modified to have a pKI of 9, or an anionic biopolymer such as esterified or modified hyaluronic acid.