Abstract: An electronic package is disclosed. An antenna board is stacked on a circuit board. A frame is formed on the circuit board. A supporter disposed between the antenna board and the circuit board is secured in the frame. In a packaging process, the frame ensures that the antenna board and the circuit board are separated at a distance that complies with a requirement, and that the antenna function of the antenna board can function normally.

Abstract: An electronic package is provided. A heat dissipator is bonded via a thermal interface layer to an electronic component disposed on a carrier. The heat dissipator has a concave-convex structure to increase a heat-dissipating area of the thermal interface layer. Therefore, the heat dissipator has a better heat-dissipating effect.

Abstract: An electronic package and a method for fabricating the same are provided. A resist layer and a support are formed on a first substrate having a first antenna installation area. A second substrate having a second antenna installation area is laminated on the resist layer and the support. The resist layer is then removed. The support keeps the first substrate apart from the second substrate at a distance to ensure that the antenna transmission between the first antenna installation area and the second antenna installation area can function normally.

Abstract: The present disclosure provides a method for manufacturing an electronic package, with an electronic component bonded to a carrier structure by means of solder tips formed on conductive bumps, wherein the solder tips do not require a reflow process to be in contact with the carrier structure, thereby allowing the conductive bumps to have an adequate amount of solder tips formed thereon and thus precluding problems such as cracking and collapsing of the solder tips.

Abstract: An electronic package and a method for fabricating the same are provided. A resist layer and a support are formed on a first substrate having a first antenna installation area. A second substrate having a second antenna installation area is laminated on the resist layer and the support. The resist layer is then removed. The support keeps the first substrate apart from the second substrate at a distance to ensure that the antenna transmission between the first antenna installation area and the second antenna installation area can function normally.

Abstract: An electronic package is provided. A heat dissipator is bonded via a thermal interface layer to an electronic component disposed on a carrier. The heat dissipator has a concave-convex structure to increase a heat-dissipating area of the thermal interface layer. Therefore, the heat dissipator has a better heat-dissipating effect.

Abstract: The present disclosure provides a method for manufacturing an electronic package, with an electronic component bonded to a carrier structure by means of solder tips formed on conductive bumps, wherein the solder tips do not require a reflow process to be in contact with the carrier structure, thereby allowing the conductive bumps to have an adequate amount of solder tips formed thereon and thus precluding problems such as cracking and collapsing of the solder tips.

Abstract: A package stacked structure and a method for fabricating the same are provided. The method includes providing a wiring structure disposed with a carrier and a carrier structure provided with an electronic component. The wiring structure is bonded to the carrier structure via a plurality of conductive elements. An encapsulating layer is formed between the wiring structure and the carrier structure and encapsulates the conductive elements and the electronic component. The carrier is then removed. With the arrangement of the carrier, the structural strength of the wiring structure is improved, and warpage of the wiring structure is prevented before stacking the wiring structure onto the carrier structure.

Abstract: The present disclosure provides a method for manufacturing an electronic package, with an electronic component bonded to a carrier structure by means of solder tips formed on conductive bumps, wherein the solder tips do not require a reflow process to be in contact with the carrier structure, thereby allowing the conductive bumps to have an adequate amount of solder tips formed thereon and thus precluding problems such as cracking and collapsing of the solder tips.

Abstract: An electronic package is provided, which includes: a first substrate; a first electronic component disposed on the first substrate; a second substrate stacked on the first substrate through a plurality of first conductive elements and a plurality of second conductive elements and bonded to the first electronic component through a bonding layer; and a first encapsulant formed between the first substrate and the second substrate. The first conductive elements are different in structure from the second conductive elements so as to prevent a mold flow of the first encapsulant from generating an upward pushing force during a molding process and hence avoid cracking of the second substrate. The present disclosure further provides a method for fabricating the electronic package.

Abstract: An electronic package and a method for fabricating the same are provided. A resist layer and a support are formed on a first substrate having a first antenna installation area. A second substrate having a second antenna installation area is laminated on the resist layer and the support. The resist layer is then removed. The support keeps the first substrate apart from the second substrate at a distance to ensure that the antenna transmission between the first antenna installation area and the second antenna installation area can function normally.

Abstract: The present disclosure provides a method for manufacturing an electronic package, with an electronic component bonded to a carrier structure by means of solder tips formed on conductive bumps, wherein the solder tips do not require a reflow process to be in contact with the carrier structure, thereby allowing the conductive bumps to have an adequate amount of solder tips formed thereon and thus precluding problems such as cracking and collapsing of the solder tips.

Abstract: An electronic package and a method for fabricating the same are provided. The method includes stacking an antenna board on a circuit board, and disposing between the antenna board and the circuit board a supporting body securing the antenna board and the circuit board. As such, during a packaging process, the distance between the antenna board and the circuit board is kept unchanged due to the supporting body, thus ensuring that the antenna board operates properly and improving the product yield.

Abstract: A package stack structure is provided, including a first substrate, a second substrate stacked on the first substrate, and an encapsulant formed between the first substrate and the second substrate. A through hole is formed to penetrate the second substrate and allow the encapsulant to be filled therein, thereby increasing the contact area and hence strengthening the bonding between the encapsulant and the second substrate.

Abstract: An electronic package is provided, which includes: a first substrate; a first electronic component disposed on the first substrate; a second substrate stacked on the first substrate through a plurality of first conductive elements and a plurality of second conductive elements and bonded to the first electronic component through a bonding layer; and a first encapsulant formed between the first substrate and the second substrate. The first conductive elements are different in structure from the second conductive elements so as to prevent a mold flow of the first encapsulant from generating an upward pushing force during a molding process and hence avoid cracking of the second substrate. The present disclosure further provides a method for fabricating the electronic package.

Abstract: A method for decoding a video block in a video picture includes: selecting N motion vectors from M motion vector, wherein the M motion vectors corresponding to at least a video block of at least a reference area; and decoding the video block according to the N motion vectors.

Abstract: A method for decoding a video block in a video picture includes: selecting N motion vectors from M motion vector, wherein the M motion vectors corresponding to at least a video block of at least a reference area; and decoding the video block according to the N motion vectors.

Abstract: A flip-chip semiconductor package and a method for fabricating the same are proposed. A flux is formed on surfaces of solder bumps mounted on an active surface of a semiconductor chip, wherein the acid number of the flux is greater than 20 and the viscosity of the flux is greater than 40. When the chip is electrically connected to a lead frame via the solder bumps by a reflowing process, the flux allows the chip to be effectively fixed to the lead frame and makes the solder bumps not easily wetted to the lead frame during the reflowing process, so as to prevent over-collapsing of the solder bumps.

Abstract: The present invention discloses an adhesive composition for flexible printed circuit board comprising the following component: (a) an epoxy resin; (b) an accelerator having a structure of one of the following general formulas: wherein, E represents sulfur, nitrogen or phosphorus; Ar represents an aromatic ring; R1 is the same or different and represents a substituted or unsubatituted monovalent hydrocarbon group, a hydroxyl group, an alkoxy group, a nitro group, a cyano group or a halogen atom; R2 and R3 each represents a hydrogen atom and a methyl group; R4 is the same or different and represents a substituted or unsubstituted monovalent hydrocarbon group; R5 represents a substituted or unsubstituted pyridinium group; a represents an integer of 0 to 2; and b represents 2 to 3; (c) a nitrile rubber having carboxyl groups, and a carboxyl terminated butadiene acrylonitrile is preferred; and (d) an inorganic filler, an aluminum hydroxide is preferred.