摘要:
Provided is a PCB having electronic components embedded therein, the PCB including a core layer having electronic components embedded therein and a resin layer formed thereon and thereunder; internal layer circuits formed on the resin layer and being electrically connected to the electronic components; an insulating layer formed on the internal layer circuits; and external layer circuits formed on the insulating layer and being electrically connected to the internal layer circuits.
摘要:
An electro device embedded printed circuit board and a manufacturing method thereof are disclosed. In accordance with an embodiment of the present invention, an electro device embedded printed circuit board is manufactured by: adhering a first electro device on a supporting body through a face-down method; adhering a second electro device on an upper surface of the first electro device through a face-up method; stacking a pure resin layer and a reinforcing layer on an upper side of the supporting body, wherein the first electro device and the second electro device are embedded in the pure resin layer; removing the supporting body; stacking an insulation layer on a lower side of the first electro device, a reinforcing material having been impregnated in the insulation layer; and patterning a circuit on each of the reinforcing layer and the insulation layer.
摘要:
Disclosed herein is a composite dielectric composition having a small variation of capacitance with temperature, comprising a combination of a polymer matrix exhibiting a positive or negative variation of capacitance with temperature and a ceramic filler exhibiting a negative or positive variation of capacitance with temperature which is reciprocal to that of the polymer matrix; and a signal-matching embedded capacitor prepared by using the same composition. Particularly, the present invention provides a composite dielectric composition comprising a polymer matrix exhibiting a positive or negative variation of capacitance with temperature and a ceramic filler exhibiting a variation of capacitance which is reciprocal to that of the polymer matrix; and a signal-matching embedded capacitor formed of the same composition and having a variation of capacitance with temperature, ΔC/C×100(%), of not more than 5%. The composite dielectric composition of the present invention can be used in preparation of the signal-matching embedded capacitor due to a small variation of capacitance with temperature.
摘要翻译:本文公开了一种具有小的电容变化与温度的复合电介质组合物,其包括表现出电容与温度的正或负变化的聚合物基体和陶瓷填料的组合,所述陶瓷填料表现出与温度成反比的电容的负或正变化 与聚合物基体的相同; 以及通过使用相同组成制备的信号匹配嵌入式电容器。 特别地,本发明提供一种复合电介质组合物,其包含显示电容与温度的正或负变化的聚合物基质和表现出与聚合物基体相反的电容变化的陶瓷填料; 以及具有相同组成并且具有不大于5%的电容与温度变化的信号匹配嵌入式电容器,并且Dgr; C / C×100(%)。 本发明的复合电介质组合物由于电容随温度的变化小而可用于制备信号匹配嵌入式电容器。
摘要:
A printed circuit board material for embedded passive devices, which has excellent electromagnetic properties and reliability is provided. The invention provides a printed circuit board material comprises: a conductive copper foil layer; a resin bonding layer formed on the conductive layer and including above 70-100 vol % of resin and 0-30 vol % of filler; and a functional layer formed on the resin bonding layer and including resin and filler. The printed circuit board material has the resin bonding layer interposed between the copper foil layer and the functional layer. Thus, even when the content of fillers in the functional layer is increased, the adhesion strength between the conductive layer and the functional layer is ensured without deteriorating the properties of the functional layer, such as dielectric and magnetic properties.
摘要:
Disclosed herein is a printed circuit board with an embedded thin-film capacitor, and a method of manufacturing the same.Specifically, the present invention relates to a printed circuit board with an embedded thin-film capacitor, comprising a lower electrode formed on an insulating substrate; an amorphous paraelectric film formed on the lower electrode; a metal seed layer formed on the paraelectric film; and an upper electrode formed on the metal seed layer and having a surface roughness (Ra) of more than 300 nm; anda method of manufacturing a printed circuit board with an embedded thin-film capacitor, comprising forming a lower electrode on an insulating substrate; forming an amorphous paraelectric film on the lower electrode, using a low-temperature film formation process; forming a metal seed layer on the paraelectric film; and forming an upper electrode having a surface roughness (Ra) of more than 300 nm on the metal seed layer, using an electroplating method.
摘要:
A printed circuit board material for embedded passive devices, which has excellent electromagnetic properties and reliability is provided. The invention provides a printed circuit board material comprises: a conductive copper foil layer; a resin bonding layer formed on the conductive layer and including above 70-100 vol % of resin and 0-30 vol % of filler; and a functional layer formed on the resin bonding layer and including resin and filler. The printed circuit board material has the resin bonding layer interposed between the copper foil layer and the functional layer. Thus, even when the content of fillers in the functional layer is increased, the adhesion strength between the conductive layer and the functional layer is ensured without deteriorating the properties of the functional layer, such as dielectric and magnetic properties.
摘要:
Disclosed herein is a printed circuit board with an embedded thin-film capacitor, and a method of manufacturing the same.Specifically, the present invention relates to a printed circuit board with an embedded thin-film capacitor, comprising a lower electrode formed on an insulating substrate; an amorphous paraelectric film formed on the lower electrode; a metal seed layer formed on the paraelectric film; and an upper electrode formed on the metal seed layer and having a surface roughness (Ra) of more than 300 nm; and a method of manufacturing a printed circuit board with an embedded thin-film capacitor, comprising forming a lower electrode on an insulating substrate; forming an amorphous paraelectric film on the lower electrode, using a low-temperature film formation process; forming a metal seed layer on the paraelectric film; and forming an upper electrode having a surface roughness (Ra) of more than 300 nm on the metal seed layer, using an electroplating method.
摘要:
The invention provides a PCB with a thin film capacitor embedded therein and a method for manufacturing the same. The PCB includes a lower electrode formed on an insulating substrate; an amorphous paraelectric film formed on the lower electrode via low temperature film formation; a buffer layer formed on the amorphous paraelectric film; a metal seed layer formed on the buffer layer; and an upper electrode formed on the metal seed layer.
摘要:
Disclosed herein is a printed circuit board with an embedded thin-film capacitor, and a method of manufacturing the same.Specifically, the present invention relates to a printed circuit board with an embedded thin-film capacitor, comprising a lower electrode formed on an insulating substrate; an amorphous paraelectric film formed on the lower electrode; a metal seed layer formed on the paraelectric film; and an upper electrode formed on the metal seed layer and having a surface roughness (Ra) of more than 300 nm; anda method of manufacturing a printed circuit board with an embedded thin-film capacitor, comprising forming a lower electrode on an insulating substrate; forming an amorphous paraelectric film on the lower electrode, using a low-temperature film formation process; forming a metal seed layer on the paraelectric film; and forming an upper electrode having a surface roughness (Ra) of more than 300 nm on the metal seed layer, using an electroplating method.
摘要:
Disclosed is a semiconductor memory package having a thin-film decoupling capacitor that reduces radio frequency noise. The semiconductor memory package in accordance with an embodiment of the present invention includes a substrate, a memory chip being mounted on one side of the substrate and a decoupling capacitor formed in the vicinity one the side of the substrate where the memory chip is mounted.