Abstract: A disclosed technique includes obtaining input video at a first resolution; upscaling the input video to a second resolution that is higher than the first resolution, using an encoder having a low complexity enhancement video coding encoder that omits at least one component, to generate upscaled video; and encoding the upscaled video using the encoder to generate encoded output video.

Abstract: Semiconductor cell structure and forming method thereof are provided. The semiconductor cell structure includes: a substrate including a first section and third regions on both sides of the first section in a first direction; and a first gate structure group including one or more first gate structures on the substrate. The first section includes a first region and a second region aligned along the first direction in the first section. The first region and the second region are configured to form transistors have a type opposite to a type of transistors configured to be formed in the third regions. The one or more first gate structures extend along the first direction across the first region, the second region, and the third regions on both sides of the first section.

Abstract: A flip-flop is provided. The flip-flop includes: a first inverter including an input terminal to receive data signal and an output terminal coupled to an input terminal of the master latch, a second inverter, a master latch including an output terminal coupled to an input terminal of a slave latch, and the slave latch including an output terminal coupled to an input terminal of the second inverter. An output terminal of the second inverter is configured as an output terminal of the flip-flop. A duration of the first clock signal inputted to the master latch is greater than a duration of the first clock signal inputted to the slave latch. A duration of the second clock signal inputted to the master latch is greater than a duration of the second clock signal inputted to the slave latch.

Abstract: A flip-flop is provided. The flip-flop includes: a first inverter including an input terminal to receive data signal and an output terminal coupled to an input terminal of the master latch, a second inverter, a master latch including an output terminal coupled to an input terminal of a slave latch, and the slave latch including an output terminal coupled to an input terminal of the second inverter. An output terminal of the second inverter is configured as an output terminal of the flip-flop. A duration of the first clock signal inputted to the master latch is greater than a duration of the first clock signal inputted to the slave latch. A duration of the second clock signal inputted to the master latch is greater than a duration of the second clock signal inputted to the slave latch.

Abstract: Semiconductor cell structure and forming method thereof are provided. The semiconductor cell structure includes: a substrate including a first section and third regions on both sides of the first section in a first direction; and a first gate structure group including one or more first gate structures on the substrate. The first section includes a first region and a second region aligned along the first direction in the first section. The first region and the second region are configured to form transistors have a type opposite to a type of transistors configured to be formed in the third regions. The one or more first gate structures extend along the first direction across the first region, the second region, and the third regions on both sides of the first section.

Abstract: The present invention relates to a method of semi-solid indirect squeeze casting for Mg-based composite material, which aims at improving the mechanical property of the cast by adding magnesium zinc yttrium quasicrystal of high hardness, high elastic modulus and excellent matrix binding property acting as the reinforcement into the magnesium alloy matrix and manufacturing the cast through smelting using a vacuum atmosphere smelting furnace, agitating with ultrasonic wave assisted vibration in the rotating impeller jet agitation furnace and indirect squeeze casting against the problem of poor wettability, easy agglomeration, inhomogeneous distribution between the reinforcement particles and the matrix materials and poor properties of the manufactured cast. The manufacturing method of the present invention has advanced technologies and detailed and accurate data.

Abstract: The present invention relates to a method of semi-solid indirect squeeze casting for Mg-based composite material, which aims at improving the mechanical property of the cast by adding magnesium zinc yttrium quasicrystal of high hardness, high elastic modulus and excellent matrix binding property acting as the reinforcement into the magnesium alloy matrix and manufacturing the cast through smelting using a vacuum atmosphere smelting furnace, agitating with ultrasonic wave assisted vibration in the rotating impeller jet agitation furnace and indirect squeeze casting against the problem of poor wettability, easy agglomeration, inhomogeneous distribution between the reinforcement particles and the matrix materials and poor properties of the manufactured cast. The manufacturing method of the present invention has advanced technologies and detailed and accurate data.

Abstract: A charging apparatus includes a DC switch circuit, a wireless power unit, a capacitive power conversion unit, and a switching power conversion unit. The charging apparatus operates in at least one of the following modes: in a constant current mode, the capacitive power conversion unit converts a bus current provided by the DC switch circuit or the wireless power unit to generate a predetermined constant charging current on a charging node to charge a battery; in a constant voltage mode, the switching power conversion unit converts a bus voltage provided by the DC switch circuit or the wireless power unit to generate a predetermined charging voltage on the charging node to charge the battery; in a first power output mode, the switching power conversion unit converts the battery voltage to generate an output voltage on a transmission interface pin.

Abstract: The present invention relates to a method for preparing an aluminum-copper-iron quasicrystal and silicon carbide mixed reinforced aluminum matrix composite, where the aluminum-copper-iron quasicrystal and silicon carbide mixed reinforced aluminum matrix composite is prepared with an aluminum alloy serving as a matrix and with aluminum-copper-iron quasicrystal and silicon carbide serving as reinforcement agents via smelting in an intermediate-frequency induction melting furnace through the process of intermediate-frequency induction heating, vacuumizing, bottom blowing argon, and casting molding in view of low hardness and low tensile strength of aluminum matrix materials. The prepared aluminum-copper-iron quasicrystal and silicon carbide mixed reinforced aluminum matrix composite has a hardness of 80.3 HB which is improved by 50.64% and tensile strength of 285 Mpa which is improved by 60.42%, and corrosion resistance thereof is improved by 40%.

Abstract: A charger circuit for providing a charging current and voltage to a battery includes a power delivery unit, a capacitive power conversion circuit and a reverse blocking switch circuit. The power delivery unit converts an input power to a DC voltage and current. The capacitive power conversion circuit includes a conversion switch circuit including plural conversion switches coupled with one or more conversion capacitors, and a conversion control circuit. The DC current is regulated to a predetermined DC current level, and the conversion control circuit controls the connections of the plural conversion capacitors such that the charging current is scaled-up of the predetermined DC current level substantially by a current scale-up factor. The reverse blocking switch circuit is coupled in series with the capacitive power conversion circuit. The body diode of the reverse blocking switch is reversely coupled to the body diode of the conversion switch.

Abstract: A charging apparatus includes a DC switch circuit, a wireless power unit, a capacitive power conversion unit, and a switching power conversion unit. The charging apparatus operates in at least one of the following modes: in a constant current mode, the capacitive power conversion unit converts a bus current provided by the DC switch circuit or the wireless power unit to generate a predetermined constant charging current on a charging node to charge a battery; in a constant voltage mode, the switching power conversion unit converts a bus voltage provided by the DC switch circuit or the wireless power unit to generate a predetermined charging voltage on the charging node to charge the battery; in a first power output mode, the switching power conversion unit converts the battery voltage to generate an output voltage on a transmission interface pin.

Abstract: A charger circuit for providing a charging current and voltage to a battery includes a power delivery unit, a capacitive power conversion circuit and a reverse blocking switch circuit. The power delivery unit converts an input power to a DC voltage and current. The capacitive power conversion circuit includes a conversion switch circuit including plural conversion switches coupled with one or more conversion capacitors, and a conversion control circuit. The DC current is regulated to a predetermined DC current level, and the conversion control circuit controls the connections of the plural conversion capacitors such that the charging current is scaled-up of the predetermined DC current level substantially by a current scale-up factor. The reverse blocking switch circuit is coupled in series with the capacitive power conversion circuit. The body diode of the reverse blocking switch is reversely coupled to the body diode of the conversion switch.

Abstract: The present invention relates to a method for preparing an aluminum-copper-iron quasicrystal and silicon carbide mixed reinforced aluminum matrix composite, where the aluminum-copper-iron quasicrystal and silicon carbide mixed reinforced aluminum matrix composite is prepared with an aluminum alloy serving as a matrix and with aluminum-copper-iron quasicrystal and silicon carbide serving as reinforcement agents via smelting in an intermediate-frequency induction melting furnace through the process of intermediate-frequency induction heating, vacuumizing, bottom blowing argon, and casting molding in view of low hardness and low tensile strength of aluminum matrix materials. The prepared aluminum-copper-iron quasicrystal and silicon carbide mixed reinforced aluminum matrix composite has a hardness of 80.3 HB which is improved by 50.64% and tensile strength of 285 Mpa which is improved by 60.42%, and corrosion resistance thereof is improved by 40%.

Abstract: The present invention discloses an inverter circuit and a method for supplying an inverted voltage. The method for supplying an inverted voltage comprises: providing a power switch and an inductor electrically connected with each other; driving the gate of the power switch by a driver gate, such that an input voltage is converted to a negative voltage supplied to a load; and providing a low operation voltage to the driver gate according to the negative voltage.

Abstract: A hardness adjustable platform for supporting a conveyor belt of a treadmill includes a platform body having internal spaces, and a plurality of elastic fillers moveably and respectively disposed in the internal spaces of the platform body for providing a cushion effect. The fillers are moveable relative to the platform body by an external force and divide the platform body into first and second regions having different hardness. As a result, the runner who uses the treadmill equipped with the aforesaid platform may adjust the positions of the fillers according to his/her physical condition and running speed to change the hardness distribution of the platform so as to enhance his/her running efficiency and reduce the risk of exercise injury.

Abstract: A platform for supporting a conveyor belt of a treadmill includes a wooden plate, a reinforcement plate above the wooden plate, and a shock-absorbing plate sandwiched between the wooden plate and the reinforcement plate. The shock-absorbing plate has a surface facing the wooden plate base, and a plurality of cushions protruding from the surface and stopping against the wooden plate for providing good elastic support force and cushion effect.

Abstract: A method for determining a priority of a call in a communications network as provided enables improved differentiated service to be provided to network subscribers. According to one aspect, the method comprises processing at a callee mobile switching center associated with a callee device an initial address message received from a caller mobile switching center associated with a caller device (step 205). The initial address message comprises a first priority parameter designating a priority status associated with the caller device. Next, the priority of the call is determined at the callee mobile switching center using both the first priority parameter and a second priority parameter designating a priority status associated with the callee device (step 210).

Abstract: A method for determining a priority of a call in a communications network as provided enables improved differentiated service to be provided to network subscribers. According to one aspect, the method comprises processing at a callee mobile switching center associated with a callee device an initial address message received from a caller mobile switching center associated with a caller device (step 205). The initial address message comprises a first priority parameter designating a priority status associated with the caller device. Next, the priority of the call is determined at the callee mobile switching center using both the first priority parameter and a second priority parameter designating a priority status associated with the callee device (step 210).

Abstract: The present invention discloses an inverter circuit and a method for supplying an inverted voltage. The method for supplying an inverted voltage comprises: providing a power switch and an inductor electrically connected with each other; driving the gate of the power switch by a driver gate, such that an input voltage is converted to a negative voltage supplied to a load; and providing a low operation voltage to the driver gate according to the negative voltage.

Abstract: A method for overriding a call forwarding service of a mobile device enables enhanced call forwarding services. The method includes transmitting a first send routing information message from a mobile switching center to a home location register (step 305). The mobile switching center then processes a first send routing information acknowledgement message (step 310). The first send routing information acknowledgment message includes location information of a call forwarding number of the mobile device. The mobile switching center then determines that a call to the call forwarding number of the mobile device was not answered (step 315). A second send routing information message is then transmitted from the mobile switching center to the home location register (step 320). Finally, the mobile switching center processes a second send routing information acknowledgement message that includes location information of the mobile device (step 325).