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Gysel power distribution filter with high power distribution ratio

A power division ratio and filter technology, which is applied to waveguide-type devices, electrical components, connecting devices, etc., can solve the problems of failing to achieve high power division ratio and difficult to achieve, and achieve selectivity and high selectivity. performance, the effect of realizing the filtering function

Active Publication Date: 2014-04-02
SOUTH CHINA UNIV OF TECH
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  • Claims
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Problems solved by technology

[0004] In many high-power radio frequency systems, arbitrary power division ratios are required, but high-power circuits require high heat dissipation, and traditional Wilkinson power dividers are difficult to achieve. In contrast, Gysel power dividers External resistors can dissipate heat very well. Past research, whether based on Wilkinson or on the basis of Gysel power splitters, failed to achieve high power split ratios.
Most of them are limited to changing the impedance of the microstrip line to change the power division ratio, but a high power division ratio requires a high-impedance microstrip line, which is difficult to achieve in practice

Method used

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  • Gysel power distribution filter with high power distribution ratio
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  • Gysel power distribution filter with high power distribution ratio

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Embodiment

[0032] The structure of the Gysel power divider with a power distribution ratio of 10:1 is as follows figure 1 As shown, the thickness of the dielectric substrate is 0.81 mm, and the relative dielectric constant is 3.38.

[0033] Figure 4a with Figure 4b Is in accordance with the above figure 1 The designed simulation result of the transmission characteristics of a Gysel power division filter with a power division ratio of 10:1; the horizontal axis in the transmission characteristic curve represents the frequency, and the vertical axis represents the transmission characteristics, where S 11 Represents the return loss of the Gysel power division filter with high power division ratio, S 21 Indicates the insertion loss from the first output port to the input port when the input ports match, S 31 Indicates the insertion loss from the second output port to the input port when the input port matches; the simulation result shows that the center frequency of the passband is 2GHz and th...

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Abstract

The invention discloses a Gysel non-uniform power distributor with a high power distribution ratio. The Gysel non-uniform power distributor with the high power distribution ratio comprises an upper-layer micro-strip structure, an isolation element, an interlayer medium substrate and a lower layer earthing metal plate. Each Gysel non-uniform power distributor with a high power distribution ratio comprises two impedance transformers with a 90-degree phase difference, four 1/4-wavelength branch lines with different characteristic impedances and two isolation resistors, wherein the input/output impedance of each impedance transformer can be regulated by changing the strength of coupling of a resonator so as to carry out power distribution of different ratios and realize matching. Compared with a Gysel power distributor of which the input port and the output port are connected by a 1/4-wavelength impedance line, the structure is characterized in that the high power distribution ratio can be realized, and the bandwidth of the structure can be arbitrarily controlled. Meanwhile, two transmission zero points can be established on the edge of a passband, and the frequency selectivity is improved. The Gysel power distribution filter with the high power distribution ratio has the high power distribution ratio of 10:1, and can be suitable for various antenna array fields.

Description

Technical field [0001] The invention relates to a power divider with a high power division ratio, in particular to a Gysel power division filter with a high power division ratio that can be applied to a radio frequency front-end circuit with a filtering function. Background technique [0002] The power divider is a basic part of the microwave circuit. Because it has the function of separating and combining signals, it is used in many antenna arrays and balanced circuits. [0003] In the past few decades, there has been a lot of research on power dividers. The focus of the research is to broaden the frequency band, reduce the area, dual-frequency response and harmonic suppression. [0004] In many high-power radio frequency systems, arbitrary power division ratios are required. However, high-power circuits require high heat dissipation. Traditional Wilkinson power dividers are difficult to implement. In contrast, Gysel power dividers External resistors can dissipate heat well. In th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01P5/16H01P1/203
Inventor 章秀银王凯旭段文赵小兰胡斌杰
Owner SOUTH CHINA UNIV OF TECH
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