Abstract: A plug connector is adapted to be connected to a receptacle connector. The plug connector includes an insulation body, a plurality of terminals and a metal housing. The terminals are fixed in the insulation body. The metal housing wraps the insulation body and the terminals and has a mating end. The insulation body and the metal housing construct a slot, which is adapted to couple a tongue portion of the receptacle connector. These terminals extend to the slot. The insulation body extends outward to the mating end from internal of the metal housing to cover at least a part of the mating end. Moreover, an electronic assembly including an electronic apparatus and the plug connector is also provided.

Abstract: A semiconductor device structure with twin-boundaries and method for forming the same are provided. The semiconductor device structure includes a substrate and a conductive structure formed over the substrate. The conductive structure includes twin boundaries, and a density of the twin boundaries is in a range from about 25 ?m?1 to about 250 ?m?1.

Abstract: A method for determining touch point coordinates on capacitive type touch panel includes following steps. A touch panel having a conductive layer, a plurality of first electrodes, and a plurality of second electrodes is provided. A first signal curve As1 is obtained by driving and sensing each first electrode. A second signal curve As2 is obtained by driving and sensing each second electrode. A third signal curve Bs1 is obtained by driving and sensing each first electrode, wherein the second electrode opposite to the sensed first electrode is grounded. A fourth signal curve Bs2 is gotten by driving and sensing each second electrodes, wherein the first electrode opposite to the sensed second electrode is grounded. The coordinates of the touch points are obtained by comparing the first signal curve As1, the second signal curve As2, the third signal curve Bs1, and the fourth signal curve Bs2.

Abstract: A laminated electric core for a lithium-ion battery includes a first current collecting substrate; a first electrode active material layer coated or adhered on an inner surface of the first current collecting substrate; a second current collecting substrate; a second electrode active material layer coated or adhered on an inner surface of the second current collecting substrate; a separator sandwiched between the first electrode active material layer and the second electrode active material layer, wherein an electrolyte is retained at least in the separator; and an adhesive layer between the first electrode active material layer and the separator.

Abstract: A multi-cell battery includes a negative current collecting substrate; at least two laminated electric cores arranged in parallel to each other on the negative current collecting substrate; and a positive current collecting substrate, wherein the two laminated electric cores sandwiches about the positive current collecting substrate, thereby forming two cells on opposite sides of the positive current collecting substrate.

Abstract: A method for determining touch point coordinates on a touch panel comprises following steps. A touch panel with a transparent conductive layer is provided, the transparent conductive layer comprises a first direction X having relative low impedance, and a second direction Y having a relative high impedance; a number of first conductive terminals P1 and a number of second conductive terminals P2 opposite the first conductive terminals P1, are electrically connected to the transparent conductive layer, spaced from each other, and arranged along the X direction. At least two adjacent first conductive terminals P1, at least two adjacent second conductive terminals P2, or one of the first conductive terminals P1 and opposite one of the second conductive terminals P2 are simultaneously driven. A number of signals are obtained. The touch point coordinates are obtained by comparing the strengths of the plurality of signals.

Abstract: A method for detecting a touch spot of the touch panel includes the following steps. The electrode pairs are scanned along the impedance direction to obtain an electrical signal curve for determining a first coordinate. A number of first driving electrodes and a number of second driving electrodes near the first coordinate are selected. The selected first driving electrodes are scanned to obtain a first sensing signal. The selected second driving electrodes are scanned to obtain a second sensing signal. A second coordinate is determined according to the first and second sensing signals. Finally, the touch spot is determined according to the first and second coordinates.

Abstract: A reinforcement structure includes an air inlet chamber, an air outlet chamber and at least one air outlet channel. The air outlet channel is formed by an outer cover plate, an inner cover plate, and two side plates respectively connected to the outer cover plate and the inner cover plate. A plurality of ribs are inwardly extended at inner sides of the air inlet chamber and the air outlet chamber, and an arched guiding angle is formed between any two adjacent ribs. A reinforcement plate is extended from the outer cover plate to form an included angle with the outer cover plate. A connecting plate is disposed at an end of the reinforcement plate and is parallel with the outer cover plate. A distance between the connecting plate and the outer cover plate is smaller than that between the connecting plate and the inner cover plate.

Abstract: A touch panel including a first transparent flexible substrate, a plurality of first connection lines, a plurality of second connection lines, a first sensing layer, and a second sensing layer is provided. The first transparent flexible substrate has a first side and a second side and includes a first carrying portion and a first leading portion. The first connection lines and the second connection lines are respectively disposed at the first side and the second side and are extended from the first carrying portion to the first leading portion. The first sensing layer and the second sensing layer have plural transparent electrode patterns and are respectively disposed at the first side and the second side of the first carrying portion. The transparent electrode patterns are respectively connected with the first connection lines and the second connection lines. A handheld electronic device with a touch input function is also provided.

Abstract: A control method of a touch panel is provided. In the method, the touch panel senses a plurality of touch signals in succession on a timeline generated by a continuous touch on the surface of the touch panel, converts the plurality of touch signals to a plurality of touch coordinates, a first touch track is formed by the plurality of touch coordinates. The touch panel determines if there is a first touch signal sensed on the boundary. The touch panel determines if there is a second touch signal sensed on the timeline in a preset time threshold. The touch panel obtains a second touch track beginning from the second touch signal, and fits the first touch track and the second touch track into one complete touch track, or recognizes the first touch track and the second touch track as two independent tracks.

Abstract: A method for reducing the tilt of an optical unit during manufacture of an image sensor includes the steps of: providing a semimanufacture of the image sensor, carrying out a preheating process, carrying out an adhesive application process, carrying out an optical unit mounting process, and carrying out a packaging process. Due to the preheating process, the semimanufacture will be subjected to a stabilized process environment during the adhesive application process and the optical unit mounting process, so as for the optical unit to remain highly flat once attached to the semimanufacture. The method reduces the chances of tilt and crack of the optical unit and thereby contributes to a high yield rate.

Abstract: A touch panel including a first transparent flexible substrate, a plurality of first connection lines, a plurality of second connection lines, a first sensing layer, and a second sensing layer is provided. The first transparent flexible substrate has a first side and a second side and includes a first carrying portion and a first leading portion. The first connection lines and the second connection lines are respectively disposed at the first side and the second side and are extended from the first carrying portion to the first leading portion. The first sensing layer and the second sensing layer have plural transparent electrode patterns and are respectively disposed at the first side and the second side of the first carrying portion. The transparent electrode patterns are respectively connected with the first connection lines and the second connection lines. A handheld electronic device with a touch input function is also provided.

Abstract: A method for determining touch point coordinates on capacitive type touch panel includes following steps. A touch panel having a conductive layer, a plurality of first electrodes, and a plurality of second electrodes is provided. A first signal curve As1 is obtained by driving and sensing each first electrode. A second signal curve As2 is obtained by driving and sensing each second electrode. A third signal curve Bs1 is obtained by driving and sensing each first electrode, wherein the second electrode opposite to the sensed first electrode is grounded. A fourth signal curve Bs2 is gotten by driving and sensing each second electrodes, wherein the first electrode opposite to the sensed second electrode is grounded. The coordinates of the touch points are obtained by comparing the first signal curve As1, the second signal curve As2, the third signal curve Bs1, and the fourth signal curve Bs2.

Abstract: A touch panel having an anisotropic conductive film is disclosed. A method for detecting a touch spot of the touch panel having the anisotropic conductive film is also disclosed. The method includes the following steps. At least two adjacent first driving electrodes are driven simultaneously to obtain a first signal. At least two adjacent second driving electrodes are driven simultaneously to obtain a second signal. Finally, the touch spot is determined according to the first signal and the second signal.

Abstract: A method for preventing a false activation of a touch pad of a portable computer is provided. The portable computer includes a display and a base assembly. The base assembly includes a keyboard and a touch pad. The keyboard includes keys and the touch pad has a touch area. In the method, the touch area is divided into a plurality of subareas. Each key corresponds to at least one subarea. A key input is detected. If the key input is detected, the at least one subarea corresponding to the inputting key are maintained as untouchable.

Abstract: The disclosure relates to a method for controlling a mouse pointer by touch pad. S10, detecting a first touch signal. S11, judging whether the first touch signal is detected, if yes go to S12, and if no, go to S10. S12, activating a dynamic unlocking area. S13, detecting the first touch signal. S14, judging whether the first touch signal disappears, if yes, go to S15, and if no, go to S13. S15, activating a click unlocking area. S16, judging whether a second touch signal is detected within a time threshold, if yes, go to S17, and if no, go to S10. S17, judging whether the second touch signal is in the dynamic unlocking area, if yes, go to S18, and if no, go to S16. S18, judging whether the second touch point is in the click unlocking area, if yes, go to S19, if no, go to S12.

Abstract: A two-stage packaging method of image sensors is disclosed. The packaging method includes the following steps: providing a substrate, fixing an image sensor chip on the substrate, fixing a transparent board on the image sensor chip, electrically connecting the image sensor chip and the substrate, forming a first encapsulant lay, and forming a second encapsulant layer. The two-stage packaging method prevents excessive pressure from being generated by formation of the encapsulant layers during the image sensor packaging process. Such excessive pressure, if generated, may result in position shift of the image sensor chip or damage of the bonding wires. The two-stage packaging method can increase the yield of the image sensor packaging process as well as the sensitivity of image sensors, thereby improving the quality and production of image sensor packaging while lowering the manufacturing costs.

Abstract: A two-stage packaging method of image sensors is disclosed. The packaging method includes the following steps: providing a substrate, fixing an image sensor chip on the substrate, fixing a transparent board on the image sensor chip, electrically connecting the image sensor chip and the substrate, forming a first encapsulant lay, and forming a second encapsulant layer. The two-stage packaging method prevents excessive pressure from being generated by formation of the encapsulant layers during the image sensor packaging process. Such excessive pressure, if generated, may result in position shift of the image sensor chip or damage of the bonding wires. The two-stage packaging method can increase the yield of the image sensor packaging process as well as the sensitivity of image sensors, thereby improving the quality and production of image sensor packaging while lowering the manufacturing costs.

Abstract: A laminated electric core for a lithium-ion battery includes a first current collecting substrate; a first electrode active material layer coated on an inner surface of the first current collecting substrate; a second current collecting substrate; a second electrode active material layer coated on an inner surface of the second current collecting substrate; a separator sandwiched between the first electrode active material layer and the second electrode active material layer, wherein an electrolyte is retained at least in the separator; an adhesive layer between the first electrode active material layer and the separator; a first sealant layer on the inner surface of the first current collecting substrate along peripheral edges of the first electrode active material layer; and a second sealant layer on the inner surface of the second current collecting substrate along peripheral edges of the second electrode active material layer.

Abstract: A method for determining touch point coordinates on a touch panel comprises following steps. A touch panel with a transparent conductive layer is provided, the transparent conductive layer comprises a first direction X having relative low impedance, and a second direction Y having a relative high impedance; a number of first conductive terminals P1 and a number of second conductive terminals P2 opposite the first conductive terminals P1, are electrically connected to the transparent conductive layer, spaced from each other, and arranged along the X direction. At least two adjacent first conductive terminals P1, at least two adjacent second conductive terminals P2, or one of the first conductive terminals P1 and opposite one of the second conductive terminals P2 are simultaneously driven. A number of signals are obtained. The touch point coordinates are obtained by comparing the strengths of the plurality of signals.