滤波器到天线的线被设计为和地的共面波导。
The track from the filter to the antenna has been designed as a coplanar waveguide with ground.
最后,研究了共面波导自偏置环行器的设计方法。
The design method of self-biased circulator with coplanar waveguide structure was also studied.
研究了不同衬底上共面波导(CPW)的损耗特性。
The transmission loss properties of CPW on different substrates are investigated systematically.
第四章设计了微带馈电和共面波导馈电的平面宽槽超宽带天线。
In chapter IV, two novel wide-slot antennas fed by CPW and Microstrip line have been designed.
分析了无通孔接地板对共面波导(CPW)至微带转换过渡的影响。
The transition effect of the via-free transition from coplanar waveguide (CPW) to microstrip is analyzed.
本文介绍了一种能在平行板波导中产生旋转模式的共面波导馈电方式。
A planar feeding circuit is proposed in this paper, which is structured by co-planar waveguide and excites a rotating mode in parallel plate waveguide.
有限尺寸介质基片上的共面波导是一种非常接近于工程应用状态的物理模型。
The coplanar waveguide on the substrate with finite dimensions is a physical model which is very closed to the engineering situation.
为获得在同轴馈电时天线振子的平衡馈电,该设计使用了共面波导馈电结构。
To obtain the balanced feed for the dipole antenna driven by a coaxial transmission line, a coplanar waveguide fed structure is used.
因此,将共面波导馈电的天线单元应用于导引头共形阵列天线中是一个很好的选择。
So it is a good choice for seeker conformal array using elements fed by coplanar waveguide.
选用微带线和衬底接地的共面波导等不同结构的电感实现形式,充分利用了芯片面积。
In this chip, inductors are realized with microstrips or grounded coplanar waveguides according to their actual position, so the chip's area is reduced.
提出了确定非对称槽宽多层圆柱共面波导(MCCPW)特性的便于计算机辅助设计的解析公式。
Computer aided design oriented analytical formulas were presented for determining the characteristic parameters of multilayered cylindrical coplanar waveguide (MCCPW) with asymmetrical slot widths.
该开关的结构特点是,以共面波导上的悬空金属膜为双桥结构,并且膜桥的支撑呈折叠弹簧结构。
The switch consists of two suspended metallic membranes supported by a serpentine flexible spring over a coplanar waveguide.
提出一种新型的圆极化微带天线形式,采用共面波导、不等长十字槽耦合馈电,易于与有源电路集成。
This paper presents a novel unequal cross-slot coupled circularly polarized microstrip antenna excited by coplanar waveguide (CPW), which is convenient to be integrated with active circuits.
模拟结果包括共面波导(CPW)与终端电阻上的温度分布,以及热电堆的接近对CPW性能的影响。
The temperature distribution on the coplanar waveguide(CPW)and the terminal resistors was simulated, and so did the impact of approach of the thermopile on the CPW.
采用分布式电容负载型结构设计出毫米波薄膜介质移相器,其中的高阻传输线为有限宽度地共面波导。
The distributed BST capacitor-loaded phase shifter was designed, of which the high impedance transmission line is finite ground coplanar wave-guide (FGCPW).
在第三章中,首先介绍了功率分配器的基本原理,然后对共面波导功率分配器的研究现状进行了简要介绍。
In Chapter Three, the basic theory of power divider is introduced firstly. Then the present situation of coplanar waveguide power dividers is introduced briefly.
为了实现射频传输线的薄衬底结构,根据共面波导的设计思想,设计了腔体式共面波导型射频微机械开关。
In order to realize thin dielectric structure of the transmission line and combined the principle of the design of CPW, a cavity structure has also been studied.
选择正六边形分形缝隙结构,采用渐变的共面波导馈电,不仅拓宽了阻抗带宽,而且实现了天线的小型化。
The hexagon fractional slot structure is chosen, the gradually changed CPW feed is adopted. Not only the bandwidth of matched impedance is expanded, but also the antenna's miniaturization is realized.
其中,介质谐振天线通过采用共面波导馈电来提高带宽,通过加载倒L形金属片来减小体积,从而实现了宽频带和小型化的目的;
The bandwidth of the DRA is increased by using coplanar-waveguide inductive slot, and the size of the DRA is reduced by loading a L metallic strip on the DR.
同时,通过使用凹型过渡和接地共面波导过渡两种转换方式,解决了基片集成波导与微带线的过渡问题,从而解决了滤波器和有源微波电路的集成问题。
The transitions of SIW with microstrip are solved by using concave transition and grounded coplanar waveguide transition, which are convenient for filters synthesized with active microwave circuits.
同时,通过使用凹型过渡和接地共面波导过渡两种转换方式,解决了基片集成波导与微带线的过渡问题,从而解决了滤波器和有源微波电路的集成问题。
The transitions of SIW with microstrip are solved by using concave transition and grounded coplanar waveguide transition, which are convenient for filters synthesized with active microwave circuits.
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