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A Compact and Electrically Adjustable Balanced Bandpass Filter

A balanced band and compact technology, applied in waveguide devices, circuits, resonators, etc., can solve the problems of non-adjustable bandwidth, non-adjustable bandwidth, limited performance, etc., and achieve the effect of reducing processing difficulty and good common mode suppression performance

Inactive Publication Date: 2018-07-20
SOUTH CHINA UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, once the filters designed by these two methods are processed, the bandwidth cannot be adjusted during the frequency adjustment process
[0006] In summary, most of the published articles or patents involve reconfigurable single-ended bandpass filters, and there are relatively few adjustable balanced bandpass filters that can suppress environmental noise. The proposed method and structure and the realized limited performance
In practical applications, not only the center frequency of the filter is required to be adjustable, but the bandwidth is also adjustable. Although the bandwidth of the adjustable balanced filter involved in the published articles or patents is controllable, once it is processed, the frequency During the adjustment process, the bandwidth is not adjustable

Method used

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  • A Compact and Electrically Adjustable Balanced Bandpass Filter
  • A Compact and Electrically Adjustable Balanced Bandpass Filter
  • A Compact and Electrically Adjustable Balanced Bandpass Filter

Examples

Experimental program
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Effect test

Embodiment 1

[0042] Such as figure 1 As shown, the balanced bandpass filter of this embodiment includes an upper layer microstrip line structure 1, a middle layer dielectric substrate (not shown in the figure), a lower layer ground metal patch (not shown in the figure) and metal vias 2. The metal through hole 2 runs through the microstrip line structure 1, the dielectric substrate 2 and the grounded metal patch in sequence, so that the microstrip line structure 1 and the grounded metal patch are connected through the dielectric substrate, and the microstrip line structure 1 Includes a multimode resonator and two pairs of input / output feed lines;

[0043] The multimode resonator as figure 2 As shown, it includes a first microstrip line 3 and a second microstrip line 4 that are symmetrical up and down. Both the first microstrip line 3 and the second microstrip line 4 are E-shaped. The strip stub line and the central microstrip stub line face downward, the microstrip stub line on both side...

Embodiment 2

[0053] A compact electrically adjustable balanced bandpass filter structure such as figure 1 As shown, the electromagnetic simulation software used in this embodiment is Advanced Design System (ADS). The compact electrically adjustable balanced bandpass filter is selected and processed on a dielectric substrate with a dielectric constant of 2.55, a thickness of 0.8mm, and a loss tangent of 0.0029. figure 1The specific physical dimensions are shown in Table 1 below. The fixed capacitor C s =1.8pF, the RF choke coil and the bias resistor are all selected with a resistance value of 100kΩ, and the varactor diode C v1 Select the varactor diode of SMV1405-074 type, and the varactor diode C v2 Select the varactor diode of model SMV1234-079 for use.

[0054]

[0055] Table 1 Dimensions of compact electrically adjustable balanced bandpass filter

[0056] Figure 11 ~ Figure 13 are compact tunable balanced bandpass filters and simulation curve. The horizontal axis of the tr...

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Abstract

The invention discloses a compact electrically tunable balanced band pass filter. The filter comprises an upper layer of a microstrip line structure, a middle layer of a dielectric substrate and a lower layer of a grounding metal patch and metal through holes. The microstrip line structure comprises a multimode resonator and two pairs of input / output feeders. The multimode resonator comprises a first microstrip line and a second microstrip line which are symmetrical up and down; the first microstrip line and the second microstrip line are all E-shaped; the first microstrip line faces downwards; the second microstrip line faces upwards; the microstrip branch lines at the left and right two sides of the first microstrip line are connected with the microstrip branch lines at the left and right two sides of the second microstrip line respectively through two variable capacitance diodes which are connected in series; the central microstrip branch line of the first microstrip line is connected with the central microstrip branch line of the second microstrip line through two variable capacitance diodes which are connected in series; and a section of short microstrip branch line is loaded at the center of the two variable capacitance diodes which are connected in series. According to the filter provided by the invention, the central frequency of a passband is tunable; and the bandwidth is tunable.

Description

technical field [0001] The invention relates to a balanced band-pass filter, in particular to a compact and electrically adjustable balanced band-pass filter used in a reconfigurable radio frequency front-end system requiring high signal-to-noise ratio, and belongs to the technical field of microwave communication. Background technique [0002] The rapid development of wireless communication technology puts forward higher requirements for the high performance, miniaturization, compatibility and flexibility of the RF front-end system. As an important part of the RF front-end system, the RF electronically tunable filter has the advantages of small size, low cost, and reconfigurability, so it has been paid more and more attention. Compared with the traditional single-ended filter, the balanced filter has the effect of common mode suppression, which can well suppress the noise interference of the surrounding environment, improve the signal-to-noise ratio, and meet the high-quali...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01P1/203H01P7/08
CPCH01P1/203H01P7/08
Inventor 褚庆昕张史轩陈志涵
Owner SOUTH CHINA UNIV OF TECH
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