Abstract: An energy-efficient nonvolatile microprocessor includes a processing core, a nonvolatile flip-flop array, a set of nonvolatile interconnections, and a store-enable register. When a power source is recovered to a stable state, the processing core determines whether data of nonvolatile registers is not transmitted before power-off. If yes, the processing core executes programmable recovery entry decision to avoid recovery failures for different applications. The processing core has plural system states divided into programmer visible states and programmer invisible states. The nonvolatile interconnections are connected between the processing core and the nonvolatile flip-flop array. When the power source is unstable, the processing core only stores the programmer visible states into the nonvolatile flip-flop array and, at the same time, only stores the system states of the peripheral modules corresponding to the bits of the store-enable register that are set to be “true” into the nonvolatile flip-flop array.

Abstract: A piezoelectric energy harvester is provided. The piezoelectric energy harvester includes a housing, a metal plate, a first piezoelectric material, an auto-returning device, a movable supporter, a first magnet and a second magnet. The housing includes a bottom plate, a top plate, a first side wall and a second side wall. A first terminal of the metal plate is fixed on the first side wall and a second terminal of the metal plate extends toward the second side wall. The first piezoelectric material is disposed on the metal plate to be deformed when the metal plate is deformed. When the movable supporter is moved, the movable supporter can push the second terminal of the metal plate to deform the metal plate. The first magnet and the second magnet are respectively disposed on the bottom plate and the top plate to attract the second terminal of the metal plate.

Abstract: A signal process system and the method for the same and a biological resistance detection device and element used to perform corresponding signal process for sensory signal sensed by a sensor, wherein a minor AC electrical signal is injected into a biological tissue to be measured in order to sense the sensory signal of the biological tissue to be measured by means of the principle of Ohm's Law. Moreover, the sensory signal may be processed to restore a biological property of the measured biological tissue and to create an equivalent circuit parameter model representative of the biological property.

Abstract: The present invention relates to an immunostimulatory nanocomplex. The immunostimulatory nanocomplex comprises polyglutamic acid (PGA), a first positively charged substance, a second positively charged substance and a dengue viral protein for holding the dengue viral protein inside. The immunostimulatory nanocomplex is characterized by having a nonuniformally and positively charge distribution along a radial direction thereof. The nonuniformally and positively charge distribution comprises a first electrically charged portion having substantially electrical neutrality, a second electrically charged portion surrounding the first electrically charged portion, and a third electrically charged portion surrounding the second electrically charged portion.

Abstract: A flyback converter includes a primary side circuit, a secondary side circuit and a controller. The primary side circuit includes a primary winding and a main switch electrically connected to the primary winding. The secondary side circuit includes a secondary winding and an output diode electrically connected to the secondary winding and having a parasitic electrical parameter. The controller generates a correcting parameter for counteracting an effect on an output voltage of the flyback converter from the parasitic electrical parameter, wherein the parasitic electrical parameter is an equivalent series-connection resistance Rd of the output diode and the secondary side circuit, and the correcting parameter is calculated based on the formula n p n s ? I ini ? R d , wherein np denotes a turns number of the primary winding, ns denotes a turns number of the secondary winding, and Iini denotes an initial current value which is detected when the main switch is conducted.

Abstract: A digital roller mold manufacturing system for manufacture of exterior characteristic structures on a roller mold depends on an illuminator for generation and projection of a light source on a Digital Mirror Device (DMD) chip in which micro-mirrors are rotated a controllable angle for defining the light source as an optical image and projecting the optical image on first micro-lenses at which digital light energy is transformed from the optical image and transmitted to first optical fibers, second optical fibers via couplers, and second micro-lenses. Furthermore, the second micro-lenses focus the digital light energy as light spots which are received by a photo-resist layer externally covered on the roller for development of patterns with exterior characteristic structures on the roller mold because a control unit regulates rotations of the roller and horizontal shifts of second micro-lenses.

Abstract: A substance delivery device comprises a substrate, a plurality of dissolvable supporting structures and a plurality of carriers. The substrate attaches to a tissue. The dissolvable supporting structures are disposed on the substrate. The carriers are disposed on the dissolvable supporting structures and encapsulating substances. The present invention further provides a substance delivery method. The substance delivery device and the substance delivery method of present invention is advantageous for providing sustained release effect and rising the applicability of transdermal or transmucosal delivery techniques.

Abstract: An automobile hub protective cover comprises a support ring and a shielding body. The support ring is made of a metal wire or strip, the shielding body is made of cloth or soft plastic sheet or leather. The support ring is wrapped by the shielding body after being folded, and the support ring and the shielding body are integrally connected by means of a sewing thread or welding, or a connecting body is provided, the connecting body being made of cloth or leather or soft plastic, and the connecting body integrally connecting the support ring and the shielding body by means of a sewing thread or welding.

Abstract: A method, a device, and a system for alerting against unknown malicious codes includes judging whether any suspicious code exists in the packet, recording a source path of the suspicious code and sending alert information that carries the source path to a monitoring device. The embodiments of the present disclosure report the source paths of suspicious codes proactively at the earliest possible time, which lays a foundation for shortening the time required for overcoming virus threats, and avoids the trouble of installing software on the terminal.

Abstract: A method for dye-free coloring of one-time anodic aluminum oxide surface is revealed. First provide a substrate containing aluminum. The substrate containing aluminum is anodized once at room temperature. The anodizing process includes a step of applying a pulse signal on the substrate containing aluminum for a first period of time. Thus a porous aluminum oxide layer is formed on surface of the substrate containing aluminum. The pulse signal includes a part with positive voltage and a part with negative voltage. Then a metal layer is deposited on the surface of the porous aluminum oxide layer. The porous aluminum oxide layer has a first interference wavelength. Next perform a linear regression of the first interference wavelength versus the first period of time. The absolute value of the slope of the regression line obtained ranges from 1.8 to 38.5. The absolute value is positively correlated with the positive voltage.

Abstract: A wireless radio frequency transceiver system for Internet of Things includes: a wireless radio frequency transmission module and a wireless radio frequency receiving module. The wireless radio frequency transmission module is used to shape signal waveform of digital signals from the Internet of Things to modulate the digital signals to form modulated output signals, and adopt a self-mixing technique to increase voltage/current amplitude of the modulated output signals and reduce phase noise. The wireless radio frequency transmission module is further used to adopt a current reuse technique to amplify the voltage/current amplitude of the modulated output signals, and transmit the amplified modulated output signals through a first antenna to a wireless channel. The wireless radio frequency receiving module is used to detect carrier input signals received from a second antenna to obtain baseband signals and demodulate the baseband signals to form differential signals.

Abstract: A camera module includes a camera, a light emitting unit, a circuit board. The camera is mounted on the circuit board and having an optical axis. The light emitting unit is disposed on the circuit board which emits a light beam forming a batwing-shaped luminous intensity distribution. The batwing-shaped luminous intensity distribution has at least two peaks of maximum luminous intensity. The optical axis of the camera is arranged at a position between the at least two peaks of the batwing-shaped luminous intensity distribution. The camera module emits a uniform light for enhancing authenticity of the image and increasing the reliability of the recognition system.

Abstract: A method for preparing silica nanoparticles includes the steps of: slowly titrating a sodium silicate solution with an acid solution to obtain a silicic acid-containing solution; continuously stirring the silicic acid-containing solution; slowly titrating the silicic acid-containing solution with the acid solution to obtain a silicic acid-enriched solution; continuously stirring the silicic acid-enriched solution; collecting the silicic acid-enriched solution as a silica nanoparticle precursor solution when a pH value of the silicic acid-enriched solution reaches a target pH value; and subjecting the silica nanoparticle precursor solution to a flame spray pyrolysis or a drying-grinding-calcining treatment.