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    • 2. 发明授权
    • Surface mount antenna and communication device including the same
    • 表面安装天线和包括它的通信设备
    • US06452548B2
    • 2002-09-17
    • US09776600
    • 2001-02-02
    • Shoji NagumoKazunari KawahataNobuhito TsubakiTakashi IshiharaKengo Onaka
    • Shoji NagumoKazunari KawahataNobuhito TsubakiTakashi IshiharaKengo Onaka
    • H01Q138
    • H01Q9/0442H01Q1/38H01Q5/357H01Q5/378H01Q9/0421
    • In a feeding radiation electrode of a surface mount antenna, a series inductance component such as a meander pattern is formed locally in a maximum resonance current part in a high-order mode (second-order mode) so as to locally form a series inductance component therein thereby making the maximum resonance current part have a greater electrical length per unit physical length than the other parts. This makes it possible to control the difference between the resonance frequency in a fundamental mode and the resonance frequency in the high-order mode over a large range. Furthermore, it is possible to vary the resonance frequency in the second-order mode independently of the resonance frequency in the fundamental mode by varying the number of lines or the line-to-line distance of the meander pattern thereby varying the value of the series inductance component. Thus, it is possible to easily and efficiently design a surface mount antenna having a frequency characteristic which satisfies requirements needed in multi-band applications without having to change the basic design.
    • 在表面贴装天线的馈电辐射电极中,在高阶模式(二阶模式)中的最大谐振电流部分局部地形成诸如曲折图案的串联电感分量,以局部形成串联电感分量 其中使得最大谐振电流部分具有比其他部分更大的每单位物理长度的电长度。 这使得可以在大范围内控制基模中的谐振频率与高阶模式中的谐振频率之间的差异。 此外,可以通过改变曲折图案的线数或线间距离来改变基本模式中的共振频率,从而改变二阶模式中的谐振频率,从而改变系列的值 电感分量。 因此,可以容易且有效地设计具有满足多频带应用要求的频率特性的表面贴装天线,而不必改变基本设计。
    • 9. 发明申请
    • Antenna Structure and Radio Communication Apparatus Including the Same
    • 包括其的天线结构和无线电通信设备
    • US20080122714A1
    • 2008-05-29
    • US11772380
    • 2007-07-02
    • Takashi IshiharaKengo OnakaShoji Nagumo
    • Takashi IshiharaKengo OnakaShoji Nagumo
    • H01Q1/38H01Q9/00H01Q1/36
    • H01Q9/0442H01Q1/38H01Q5/357H01Q5/392H01Q9/42
    • In an antenna structure 1 in which a feed radiation electrode provided on a dielectric base member performs an antenna operation in a fundamental mode and an antenna operation in a higher-order mode with a resonant frequency higher than that in the fundamental mode, one end of the feed radiation electrode defines a feed end connected to a circuit for radio communication, and the other end of the feed radiation electrode defines an open end. The position of a capacitance-loading portion α is set in advance between the feed end and the open end of the feed radiation electrode. A capacitance-loading conductor is connected to one or both of the feed end and the capacitance-loading portion α of the feed radiation electrode. The capacitance-loading conductor forms a capacitance for adjusting a resonant frequency in the fundamental mode between the feed end and the capacitance-loading portion α.
    • 在其中设置在电介质基体上的馈电辐射电极以基本模式进行天线操作的天线结构1和谐振频率高于基模模式的高阶模式的天线操作, 馈电辐射电极限定连接到用于无线电通信的电路的馈电端,并且馈电辐射电极的另一端限定开放端。 电容加载部分α的位置在馈电端和馈电辐射电极的开路端之间预先设定。 电容负载导体连接到馈电辐射电极的馈电端和电容负载部分α的一个或两个。 电容负载导体形成用于调节馈电端和电容负载部分α之间的基模的谐振频率的电容。
    • 10. 发明授权
    • Antenna structure and radio communication apparatus including the same
    • 天线结构和包括其的无线电通信装置
    • US07538732B2
    • 2009-05-26
    • US11772380
    • 2007-07-02
    • Takashi IshiharaKengo OnakaShoji Nagumo
    • Takashi IshiharaKengo OnakaShoji Nagumo
    • H01Q1/24
    • H01Q9/0442H01Q1/38H01Q5/357H01Q5/392H01Q9/42
    • In an antenna structure 1 in which a feed radiation electrode provided on a dielectric base member performs an antenna operation in a fundamental mode and an antenna operation in a higher-order mode with a resonant frequency higher than that in the fundamental mode, one end of the feed radiation electrode defines a feed end connected to a circuit for radio communication, and the other end of the feed radiation electrode defines an open end. The position of a capacitance-loading portion α is set in advance between the feed end and the open end of the feed radiation electrode. A capacitance-loading conductor is connected to one or both of the feed end and the capacitance-loading portion α of the feed radiation electrode. The capacitance-loading conductor forms a capacitance for adjusting a resonant frequency in the fundamental mode between the feed end and the capacitance-loading portion α.
    • 在其中设置在电介质基体上的馈电辐射电极以基本模式进行天线操作的天线结构1和谐振频率高于基模模式的高阶模式的天线操作, 馈电辐射电极限定连接到用于无线电通信的电路的馈电端,并且馈电辐射电极的另一端限定开放端。 电容加载部分α的位置在馈电端和馈电辐射电极的开路端之间预先设定。 电容负载导体连接到馈电辐射电极的馈电端和电容负载部分α的一个或两个。 电容负载导体形成用于调节馈电端和电容负载部分α之间的基模的谐振频率的电容。