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    • 6. 发明授权
    • Inductor circuit with a magnetic interface
    • 具有磁性接口的电感电路
    • US07116202B2
    • 2006-10-03
    • US11044203
    • 2005-01-28
    • Nicolaos G. AlexopoulosHarry ContopanagosChryssoula Kyriazidou
    • Nicolaos G. AlexopoulosHarry ContopanagosChryssoula Kyriazidou
    • H01F5/00
    • H01P1/2005H01P3/08H01Q9/0407H01Q9/27H01Q15/002H01Q15/0066H01Q15/008H01Q21/062
    • An inductor circuit includes a magnetic interface generator that generates a magnetic interface at a center frequency f0. The magnetic interface generator is a passive array of spirals that are deposited on one layer of a multi-layer substrate. The magnetic interface is generated in a plane at a distance Z above the surface of the substrate layer that it is printed on, where the antenna is printed on a second layer of the multi-layer substrate. The distance Z where the magnetic interface is created is determined by the cell size of the spiral array, where the cell size is based on the spiral arm length and the spacing S between the spirals. The center frequency of the magnetic interface is determined by the average track length DAV of the spirals in the spiral array. The spacing S of the spiral array is chosen to project the magnetic interface to the second layer in the multi-layer substrate so as to effect performance of an inductor that printed on the second layer.
    • 一个电感电路包括一个在中心频率f 0产生磁接口的磁接口发生器。 磁性界面发生器是一层无源的螺旋阵列,它们沉积在多层基底的一层上。 磁性界面在其所印刷的基底层的表面上方的距离Z处的平面中产生,其中天线被印刷在多层基底的第二层上。 产生磁性界面的距离Z由螺旋阵列的单元尺寸确定,其中单元尺寸基于螺旋臂长度和螺旋之间的间隔S. 磁性界面的中心频率由螺旋阵列中的螺旋线的平均轨道长度D 决定。 选择螺旋阵列的间隔S将磁界面投影到多层基板中的第二层,以便实现印刷在第二层上的电感器的性能。
    • 7. 发明申请
    • Inductor circuit with a magnetic interface
    • 具有磁性接口的电感电路
    • US20050162315A1
    • 2005-07-28
    • US11044203
    • 2005-01-28
    • Nicolaos AlexopoulosHarry ContopanagosChryssoula Kyriazidou
    • Nicolaos AlexopoulosHarry ContopanagosChryssoula Kyriazidou
    • H01P3/08H01Q9/04H01Q9/27H01Q15/00H01Q21/06H01F5/00
    • H01P1/2005H01P3/08H01Q9/0407H01Q9/27H01Q15/002H01Q15/0066H01Q15/008H01Q21/062
    • An antenna includes a magnetic interface generator that generates a magnetic interface at a center frequency f0. The magnetic interface generator is a passive array of spirals that are deposited on one layer of a multi-layer substrate. The magnetic interface is generated in a plane at a distance Z above the surface of the substrate layer that it is printed on, where the antenna in printed on a second layer of the multi-layer substrate. The distance Z where the magnetic interface is created is determined by the cell size of the spiral array, where the cell size is based on the spiral arm length and the spacing S between the spirals. The center frequency of the magnetic interface is determined by the average track length DAV of the spirals in the spiral array. The spacing S of the spiral array is chosen to project the magnetic interface to the second layer in the multi-layer substrate so as to improve performance of the antenna that printed on the second layer. The magnetic interface can be used to increase the gain, matching, and bandwidth of a microstrip patch antenna, or other type of antenna.
    • 一个天线包括一个在中心频率f 0 0处产生磁接口的磁接口发生器。 磁性界面发生器是一层无源的螺旋阵列,它们沉积在多层基底的一层上。 磁性界面在其印刷的衬底层的表面上方的距离Z处的平面中产生,其中印刷在多层衬底的第二层上的天线。 产生磁性界面的距离Z由螺旋阵列的单元尺寸确定,其中单元尺寸基于螺旋臂长度和螺旋之间的间隔S. 磁性界面的中心频率由螺旋阵列中的螺旋线的平均轨道长度D 决定。 选择螺旋阵列的间隔S以将磁界面投影到多层基板中的第二层,以便改善打印在第二层上的天线的性能。 磁性接口可用于增加微带贴片天线或其他类型天线的增益,匹配和带宽。
    • 10. 发明授权
    • Methods of generating a magnetic interface
    • 产生磁性界面的方法
    • US07109947B2
    • 2006-09-19
    • US11091548
    • 2005-03-29
    • Nicolaos G. AlexopoulosHarry ContopanagosChryssoula Kyriazidou
    • Nicolaos G. AlexopoulosHarry ContopanagosChryssoula Kyriazidou
    • H01Q1/36
    • H01P1/2005H01P3/08H01Q9/0407H01Q9/27H01Q15/002H01Q15/0066H01Q15/008H01Q21/062
    • A magnetic interface generator generates a magnetic interface at a center frequency f0. The magnetic interface generator is a passive array of spirals that are deposited on a substrate surface. The magnetic interface is generated in a plane at a distance Z above the surface of the substrate. The distance Z where the magnetic interface is created is determined by the cell size of the spiral array, where the cell size is based on the spiral arm length and the spacing S between the spirals. The center frequency of the magnetic interface is determined by the average track length DAV of the spirals in the spiral array. In embodiments, the spiral array is one sub-layer in a multi-layer substrate. The spacing S of the spiral array is chosen to project the magnetic interface to another layer in the multi-layer substrate so as to improve performance of a circuit in the plane of the magnetic interface. For example, the magnetic interface can be used to increase the inductance of a printed inductor circuit, and to increase the gain and match of a microstrip patch antenna. Furthermore, the magnetic interface reduces the traverse electric (TE) and transverse magnetic (TM) surface waves in the plane of the magnetic interface, which reduces unwanted coupling between transmission lines.
    • 磁接口发生器以中心频率f 0 0生成磁接口。 磁接口发生器是沉积在衬底表面上的无源螺旋阵列。 磁性界面在衬底表面上方距离Z的平面中产生。 产生磁性界面的距离Z由螺旋阵列的单元尺寸确定,其中单元尺寸基于螺旋臂长度和螺旋之间的间隔S. 磁性界面的中心频率由螺旋阵列中的螺旋线的平均轨道长度D 决定。 在实施例中,螺旋阵列是多层衬底中的一个子层。 选择螺旋阵列的间隔S将磁性界面投影到多层基板中的另一层,以便提高磁性界面平面中的电路的性能。 例如,磁性接口可用于增加印刷电感器电路的电感,并增加微带贴片天线的增益和匹配。 此外,磁接口减小了磁接口平面中的横向电(TE)和横向磁(TM)表面波,从而减少了传输线之间的不必要的耦合。