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    • 3. 发明授权
    • Resistor device and method for manufacturing same
    • 电阻器件及其制造方法
    • US08183976B2
    • 2012-05-22
    • US12779656
    • 2010-05-13
    • Ta-Wen LoWen-Hsiung LiaoWu-Liang ChuYen-Ting Lin
    • Ta-Wen LoWen-Hsiung LiaoWu-Liang ChuYen-Ting Lin
    • H01C1/012
    • H01C1/148H01C7/003H01C7/13Y10T29/49082
    • A resistor device includes a resistor plate having a first aperture, a second aperture, a third aperture and a fourth aperture respectively arranged on a first side, a second side, a third side and a fourth side thereof. A first electrode plate is coupled to the first side of the resistor plate and includes a first measurement zone and a second measurement zone disposed at opposite sides of the first aperture; and a second electrode plate is coupled to the third side of the resistor plate and including a third measurement zone and a fourth measurement zone disposed at opposite sides of the third aperture, wherein the first measurement zone and the third measurement zone are disposed at opposite sides of the second aperture, and the second measurement zone and the fourth measurement zone are disposed at opposite sides of the fourth aperture.
    • 电阻器装置包括具有分别设置在其第一侧,第二侧,第三侧和第四侧上的第一孔,第二孔,第三孔和第四孔的电阻板。 第一电极板耦合到电阻器板的第一侧,并且包括设置在第一孔的相对侧的第一测量区和第二测量区; 并且第二电极板耦合到电阻器板的第三侧,并且包括设置在第三孔的相对侧的第三测量区和第四测量区,其中第一测量区和第三测量区设置在相对的两侧 并且第二测量区和第四测量区设置在第四孔的相对侧。
    • 4. 发明申请
    • PRINTING SYSTEM
    • 打印系统
    • US20120081420A1
    • 2012-04-05
    • US13226905
    • 2011-09-07
    • Rong Ho YUWen Hsiung LiaoHsien Chung TaiCheng Ming Chang
    • Rong Ho YUWen Hsiung LiaoHsien Chung TaiCheng Ming Chang
    • B41J2/01
    • G06K15/1894
    • The present invention relates to a printing system, which comprises: a data receiving and processing unit connected with the electronic device, for receiving a printing signal from the electronic device and processing the printing signal into a data signal; and an ink-jet head module including a control chip and an ink-jet heating chip. The control chip includes a wireless transmission module and a control circuit, wherein the wireless transmission module includes an antenna, a front-end processing unit, an instruction unit, a clock transmission unit, and a modulation and demodulation unit. Besides, the control circuit includes a control processing unit, a coding and decoding processing unit, and a memory device, to receive the data signal processed by the wireless transmission module and transform the processed data signal into a control signal. In addition, the ink-jet heating chip is connected with the control circuit for executing the ink-jet printing.
    • 打印系统技术领域本发明涉及一种打印系统,包括:与电子设备连接的数据接收和处理单元,用于从电子设备接收打印信号并将打印信号处理成数据信号; 以及包括控制芯片和喷墨加热芯片的喷墨头模块。 控制芯片包括无线传输模块和控制电路,其中无线传输模块包括天线,前端处理单元,指令单元,时钟传输单元和调制和解调单元。 此外,控制电路包括控制处理单元,编码和解码处理单元以及存储器件,用于接收由无线传输模块处理的数据信号,并将处理的数据信号变换成控制信号。 此外,喷墨加热芯片与用于执行喷墨打印的控制电路连接。
    • 7. 发明授权
    • Electronic device and manufacturing method thereof
    • 电子装置及其制造方法
    • US08922312B2
    • 2014-12-30
    • US13853083
    • 2013-03-29
    • Wen-Hsiung LiaoRoger HsiehHideo IkutaYueh-Lang Chen
    • Wen-Hsiung LiaoRoger HsiehHideo IkutaYueh-Lang Chen
    • H01F27/02
    • H01F3/08H01F41/0246H01F2017/048
    • An electronic device comprising a first magnetic powder, a second magnetic powder and a conducting wire buried in the mixture of the first magnetic powder and the second magnetic powder is provided. The conducting wire comprises an insulating encapsulant and a conducting metal encapsulated by the insulating encapsulant. The Vicker's Hardness of the first magnetic powder is greater than the Vicker's Hardness of the second magnetic powder, and the mean particle diameter of the first magnetic powder is larger than the mean particle diameter of the second magnetic powder. By means of the hardness difference of the first magnetic powder and the second magnetic powder, the mixture of the first magnetic powder and the second magnetic powder and the conducting wire buried therein are combined to form an integral magnetic body at the temperature lower than the melting point of the insulating encapsulant.
    • 提供包括第一磁粉,第二磁粉和埋在第一磁粉和第二磁粉混合物中的导线的电子装置。 导线包括由绝缘密封剂封装的绝缘密封剂和导电金属。 第一磁性粉末的维氏硬度大于第二磁性粉末的维氏硬度,第一磁性粉末的平均粒径大于第二磁性粉末的平均粒径。 通过第一磁性粉末和第二磁性粉末的硬度差,将第一磁性粉末和第二磁性粉末与埋入其中的导线的混合物组合在一起形成一个低于熔化温度的整体磁体 点绝缘密封剂。
    • 10. 发明申请
    • ELECTRONIC DEVICE AND MANUFACTURING METHOD THEREOF
    • 电子设备及其制造方法
    • US20130229251A1
    • 2013-09-05
    • US13853083
    • 2013-03-29
    • Wen-Hsiung LiaoRoger HsiehHideo IkutaYueh-Lang Chen
    • Wen-Hsiung LiaoRoger HsiehHideo IkutaYueh-Lang Chen
    • H01F3/08H01F41/02
    • H01F3/08H01F41/0246H01F2017/048
    • An electronic device comprising a first magnetic powder, a second magnetic powder and a conducting wire buried in the mixture of the first magnetic powder and the second magnetic powder is provided. The conducting wire comprises an insulating encapsulant and a conducting metal encapsulated by the insulating encapsulant. The Vicker's Hardness of the first magnetic powder is greater than the Vicker's Hardness of the second magnetic powder, and the mean particle diameter of the first magnetic powder is larger than the mean particle diameter of the second magnetic powder. By means of the hardness difference of the first magnetic powder and the second magnetic powder, the mixture of the first magnetic powder and the second magnetic powder and the conducting wire buried therein are combined to form an integral magnetic body at the temperature lower than the melting point of the insulating encapsulant.
    • 提供包括第一磁粉,第二磁粉和埋在第一磁粉和第二磁粉混合物中的导线的电子装置。 导线包括由绝缘密封剂封装的绝缘密封剂和导电金属。 第一磁性粉末的维氏硬度大于第二磁性粉末的维氏硬度,第一磁性粉末的平均粒径大于第二磁性粉末的平均粒径。 通过第一磁性粉末和第二磁性粉末的硬度差,将第一磁性粉末和第二磁性粉末与埋入其中的导线的混合物组合在一起形成一个低于熔化温度的整体磁体 点绝缘密封剂。