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公开(公告)号:US20210324155A1
公开(公告)日:2021-10-21
申请号:US16854712
申请日:2020-04-21
Applicant: Wei-Lin TSENG , Amazing Cool Technology Corp
Inventor: Wei-Lin TSENG , Yang-Ming SHIH , Chia-Lang CHAN , Chia-Ming HSU
Abstract: A method for manufacturing a graphene plastic film includes the steps of providing plastic particles and graphene powder, mixing the plastic particles with the graphene powder in a weight ratio not greater than 2% to form a mixed material, heating the mixed material to form a melted material (100), pressing the melted material (100) to form a graphene plastic sheet (210), and radially stretching a periphery of the graphene plastic sheet (210) to expand and thin the graphene plastic sheet (210) to form a graphene plastic film (220). By adding graphene to the mixed material, physical properties of the graphene plastic film (220) can be enhanced. In comparison with the current technology, it is easier to be manufactured and wider to be applied.
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Patent Agency Ranking
公开(公告)号:US20200009653A1
公开(公告)日:2020-01-09
申请号:US16503576
申请日:2019-07-04
Applicant: Wei-Lin TSENG , Amazing Cool Technology Corp
Inventor: Wei-Lin TSENG , Yang-Ming SHIH , Tzu-Yao LIN
Abstract: A manufacturing method of a graphene metal composite material includes the steps of providing metal powder including metal particles, graphene powder including graphene pieces and binder including wax material, wherein each graphene piece includes graphene molecules connected with each other and including six carbon atoms annually connected, and one of the carbon atom of each graphene molecule is bonded with a functional group by an SP3 bond; mixing the powders and the binder into a powder material, wherein the SP3 bond is heated and broken by friction, and the graphene molecules are connected with each other via the broken SP3 bond to wrap the respective metal particles; melting and molding the powder material to form a green part; removing the binder from the green part to form a brown part; and sintering the brown part to form a metal main part embedded a three-dimensional mash formed by the graphene molecules.
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公开(公告)号:US08055190B2
公开(公告)日:2011-11-08
申请号:US12436789
申请日:2009-05-07
Applicant: Wei-Lin Tseng
Inventor: Wei-Lin Tseng
IPC: H04B7/14
CPC classification number: H04B3/36
Abstract: A signal transforming and transmitting apparatus and a signal transforming and transmitting method are provided. The signal transforming and transmitting apparatus includes a processing chip, and a signal dividing/integrating unit. The processing chip defines a signal-download period and a signal-upload period according to a clock signal. The signal dividing/integrating unit is coupled to the processing chip, and is adapted for dividing a wired downloading signal from a wireless downloading signal transmitted from the base station during the signal-download period, and transmitting the wired downloading signal and the wireless downloading signal to corresponding downstream devices. The signal dividing/integrating unit is adapted for integrating a wired uploading signal and a wireless uploading signal into an integrated wireless uploading signal and transmitting the integrated wireless uploading signal to the base station, during the signal-upload period. In such a way, the present invention avoids the interference caused by overlaps between uploading and downloading operations.
Abstract translation: 提供信号变换发送装置和信号变换发送方法。 信号变换和发送装置包括处理芯片和信号分割/积分单元。 处理芯片根据时钟信号定义信号下载周期和信号上传周期。 信号分割/积分单元耦合到处理芯片,并且适于在信号下载周期期间分割来自基站的无线下载信号的有线下载信号,以及发送有线下载信号和无线下载信号 到相应的下游设备。 信号分割/积分单元适于在有信号上载期间将有线上行信号和无线上传信号集成到集成无线上载信号中,并将综合的无线上传信号发送到基站。 以这种方式,本发明避免了上载和下载操作之间的重叠造成的干扰。
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公开(公告)号:US20100035560A1
公开(公告)日:2010-02-11
申请号:US12436789
申请日:2009-05-07
Applicant: Wei-Lin Tseng
Inventor: Wei-Lin Tseng
IPC: H04B1/38
CPC classification number: H04B3/36
Abstract: A signal transforming and transmitting apparatus and a signal transforming and transmitting method are provided. The signal transforming and transmitting apparatus includes a processing chip, and a signal dividing/integrating unit. The processing chip defines a signal-download period and a signal-upload period according to a clock signal. The signal dividing/integrating unit is coupled to the processing chip, and is adapted for dividing a wired downloading signal from a wireless downloading signal transmitted from the base station during the signal-download period, and transmitting the wired downloading signal and the wireless downloading signal to corresponding downstream devices. The signal dividing/integrating unit is adapted for integrating a wired uploading signal and a wireless uploading signal into an integrated wireless uploading signal and transmitting the integrated wireless uploading signal to the base station, during the signal-upload period. In such a way, the present invention avoids the interference caused by overlaps between uploading and downloading operations.
Abstract translation: 提供信号变换发送装置和信号变换发送方法。 信号变换和发送装置包括处理芯片和信号分割/积分单元。 处理芯片根据时钟信号定义信号下载周期和信号上传周期。 信号分割/积分单元耦合到处理芯片,并且适于在信号下载周期期间分割来自基站的无线下载信号的有线下载信号,以及发送有线下载信号和无线下载信号 到相应的下游设备。 信号分割/积分单元适于在有信号上载期间将有线上行信号和无线上传信号集成到集成无线上载信号中,并将综合的无线上传信号发送到基站。 以这种方式,本发明避免了上载和下载操作之间的重叠造成的干扰。
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公开(公告)号:US20220139621A1
公开(公告)日:2022-05-05
申请号:US17084426
申请日:2020-10-29
Applicant: Wei-Lin TSENG , Amazing Cool Technology Corp
Inventor: Wei-Lin TSENG , Yang-Ming SHIH , Hung-Yun HSU
Abstract: The invention provides a manufacturing method for a multi-layer ceramic capacitor. the method includes: providing a plastic film; coating a layer of ceramic slurry on a side of the plastic film; coating a layer of copper paste on the layer of ceramic slurry to form a raw material, wherein the copper paste includes a copper powder and a graphene powder; and sintering the raw material at a temperature equal to or higher than 800° C. to sinter the layer of ceramic slurry into a ceramic dielectric layer and the copper paste into a copper electrode layer. The copper atoms are restricted by the graphene so that the copper atoms are confined in layer arrangement to improve flatness of copper atoms in the copper electrode layer.
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公开(公告)号:US20210339429A1
公开(公告)日:2021-11-04
申请号:US16861481
申请日:2020-04-29
Applicant: Wei-Lin TSENG , Amazing Cool Technology Corp
Inventor: Wei-Lin TSENG , Yang-Ming SHIH , Chia-Lang CHAN , Chia-Ming HSU
IPC: B29B9/06
Abstract: A method of manufacturing graphene polyester chips including steps of: melt-mixing a polymer material and graphene powder having a mass fraction ≤2 wt %, and melt-mixing a tackifier with a mass fraction between 1 wt % and 3 wt %, a toughener with a mass fraction between 1 wt % and 3 wt %, and a dispersant with a mass fraction between 1 wt % and 4 wt % sequentially. Finally, a molten raw material is made into a plurality of graphene polyester chips each in form of short cylindrical particle. The present disclosure further includes a method of manufacturing graphene diaphragm.
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