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    • 4. 发明申请
    • DUAL-PATCH ANTENNA AND ARRAY
    • 双天线天线和阵列
    • US20110221644A1
    • 2011-09-15
    • US12722397
    • 2010-03-11
    • Jar J. LeeFangchou YangStan W. LivingstonJeffrey B. Weber
    • Jar J. LeeFangchou YangStan W. LivingstonJeffrey B. Weber
    • H01Q13/10H01Q21/00
    • H01Q9/0421H01Q19/005H01Q21/061
    • A dual-patch antenna includes a ground plane, a first patch plate parallel to and separated from the ground plane by a separation distance, and a second patch plate separated from the ground plane by the separation distance. The first and second patch plates are coplanar and separated by a radiating slot. An excitation probe isolatedly passes through the ground plane and connects to the first patch plate. A first wall connects an edge of the first patch plate to the ground plane. The first wall is located approximately ¼ wavelength of a mid-band operating frequency from the radiating slot. A second wall connects an edge of the second patch plate to the ground plane. The second wall is located approximately ¼ wavelength of the mid-band operating frequency from the radiating slot. The dual-patch antennas may be organized in an array.
    • 双拼接天线包括接地平面,与接地平面平行并与之分开的间隔距离的第一拼接板和与接地平面隔开间隔距离的第二拼接板。 第一和第二贴片板共面并由辐射槽隔开。 激发探头隔离通过接地平面并连接到第一个贴片板。 第一壁将第一贴片板的边缘连接到接地平面。 第一个墙壁距离辐射槽位于中频带工作频率的大约1/4波长处。 第二壁将第二贴片的边缘连接到接地平面。 第二个墙壁距辐射槽位于中频带工作频率的大约1/4波长处。 双层天线可以组织成阵列。
    • 5. 发明授权
    • Wide band long slot array antenna using simple balun-less feed elements
    • 宽带长插槽阵列天线,采用简单的不平衡 - 不平衡转换元件
    • US07994997B2
    • 2011-08-09
    • US12163091
    • 2008-06-27
    • Stan W. LivingstonJar J. LeeDennis Nagata
    • Stan W. LivingstonJar J. LeeDennis Nagata
    • H01Q13/10
    • H01Q13/10H01Q21/0075H01Q21/064
    • In one embodiment, a wide bandwidth, reduced depth transmit/receive antenna array includes unit cells having continuous slots, a transceiver, unbalanced feeds, impedance transformers, and exciters. The continuous slots are formed in a conductive antenna plane, and the transceiver generates and/or receives electrical signals. The unbalanced feeds may be electrically connected between the transceiver and impedance transformers which match the impedance between feed lines and the exciter. They may be located in a plane perpendicular to the direction of propagation of the radiation, and also may be arranged between the conductive antenna plane and a backplane. The exciter spans a continuous slot, and emits and/or receives radiation from the slot. The antenna array is capable of operating without a radome or balun.
    • 在一个实施例中,宽带宽,深度减小的发射/接收天线阵列包括具有连续时隙的单元小区,收发机,不平衡馈电,阻抗变换器和激励器。 连续槽形成在导电天线平面中,并且收发器产生和/或接收电信号。 不平衡馈电可以电连接在收发器和阻抗变压器之间,匹配馈电线和励磁器之间的阻抗。 它们可以位于垂直于辐射传播方向的平面中,并且还可以布置在导电天线平面和背板之间。 激励器跨越一个连续的槽,并发射和/或接收来自槽的辐射。 天线阵列能够​​在没有天线罩或平衡 - 不平衡变换器的情况下运行。
    • 8. 发明授权
    • Wide band dipole radiating element with a slot line feed having a
Klopfenstein impedance taper
    • 具有Klopfenstein阻抗锥度的槽线馈电的宽带偶极辐射元件
    • US5428364A
    • 1995-06-27
    • US65130
    • 1993-05-20
    • Jar J. LeeStan W. Livingston
    • Jar J. LeeStan W. Livingston
    • H01Q13/08H01Q13/10
    • H01Q13/08
    • A wideband radiating element including an input mechanism for receiving electromagnetic energy from a source and a balanced feeding mechanism extending from the input mechanism for transmitting the electromagnetic energy and for providing impedance matching over a range of frequencies. Finally, a dipole mechanism extending from the balanced feeding mechanism is provided for radiating the electromagnetic energy where the dipole mechanism has a shape to provide wide bandwidth impedance matching. In a preferred embodiment, an input mounting block is connected to the two opposing sides of a planar dielectric substrate. A balanced narrow conductor slot line extends from the input mounting block on both sides of the dielectric substrate to transmit the electromagnetic energy and to provide impedance matching over a frequency range of (0.5 to 18) GHz. The narrow conductor slot line is tapered to match the radiation resistance of a dipole element utilized to radiate the electromagnetic energy. The dipole element extends from the balanced narrow conductor slot line on both sides of the dielectric substrate with each wing having an expanded width for accommodating surface current of various distributions over the frequency range. The dipole element also includes an inner taper for radiating energy over the frequency range with the position of the dipole element relative to a ground plane being optimized to minimize radiation reflection.
    • 一种宽带辐射元件,包括用于从源接收电磁能的输入机构和从输入机构延伸的平衡进给机构,用于传输电磁能并用于在频率范围内提供阻抗匹配。 最后,提供从平衡进给机构延伸的偶极机构,用于辐射电磁能,其中偶极子机构具有形状以提供宽带阻抗匹配。 在优选实施例中,输入安装块连接到平面电介质基板的两个相对侧。 平衡的窄导体插槽线从介质衬底的两侧的输入安装块延伸,以传输电磁能量并在(0.5至18)GHz的频率范围内提供阻抗匹配。 窄导体槽线是锥形的,以匹配用于辐射电磁能的偶极子元件的辐射电阻。 偶极元件从电介质基板的两侧上的平衡窄导体槽线延伸,每个翼具有扩展的宽度,用于容纳在频率范围上的各种分布的表面电流。 偶极元件还包括用于在频率范围内辐射能量的内锥形,其中偶极元件相对于接地平面的位置被优化以最小化辐射反射。
    • 10. 发明授权
    • End-on transmission line-to-waveguide transition
    • 端到端传输线到波导的过渡
    • US5600286A
    • 1997-02-04
    • US315008
    • 1994-09-29
    • Stan W. LivingstonJar J. Lee
    • Stan W. LivingstonJar J. Lee
    • H01P5/08H01P5/107
    • H01P5/08
    • A transmission line-to-waveguide transition that includes a microstrip impedance transformer for matching the impedance of an input transmission line to that of a flared slotline is disclosed. The slotline's width is sufficiently small such that when the transition is inserted into a waveguide the slotline is spaced inward from the waveguide's inner walls. A balun bi-directionally couples the unbalanced signal on the microstrip to a balanced signal on the slotline. The signal propagates along the slotline and is capacitively coupled to the waveguide. A trimmable tuning stub is used to adjust the resonant frequency of a parasitic cavity formed between the transition and the waveguide to increase the transition's effective bandwidth. A tapered dielectric insert is positioned inside the waveguide to decrease its size and to improve the coupling efficiency of the transition.
    • 公开了一种包括用于将输入传输线的阻抗与扩口槽线的阻抗匹配的微带阻抗变换器的传输线到波导转变。 槽槽的宽度足够小,使得当过渡件插入波导时,槽线从波导的内壁向内间隔开。 平衡 - 不平衡变压器将微带上的不平衡信号双向耦合到槽线上的平衡信号。 信号沿着槽线传播并且电容耦合到波导。 可调谐调谐短线用于调整形成在转换和波导之间的寄生空腔的谐振频率,以增加转换的有效带宽。 锥形电介质插入件位于波导内部以减小其尺寸并提高过渡的耦合效率。