CN108493534B - A kind of four mould chip integrated waveguide broad-band filters - Google Patents

Abstract

The invention proposes a kind of four mould chip integrated waveguide broad-band filters, mainly solve the problems, such as that substrate integrated waveguide single chamber multimode realizes filter bandwidht broadening.It includes medium substrate, lower metal patch, upper layer metal patch, the first plated-through hole, the second plated-through hole, etching rectangular aperture structure, metalized blind vias and microstrip feed line.On the substrate integration wave-guide bimodulus resonant cavity basis diagonally with the second metallized through-hole infinitesimal disturbance, realize that fundamental frequencies increase by etching rectangular aperture structure in upper layer metal patch, and increase by four metalized blind vias in rectangular aperture structure periphery and realize that mould mode frequency reduces three times, to realize that four mode frequencies are close.And coupled outside is realized by microstrip-fed mode, realize a kind of design of four mould chip integrated waveguide broad-band filters.The present invention realizes the broadened bandwidth of filter, while improving the selection characteristic of filter passband, can be applied to Radio-Frequency Wireless Communication system.

Description

A kind of four mould chip integrated waveguide broad-band filters

Technical field

The invention belongs to microwave technical fields, are related to a kind of substrate integral wave guide filter, and in particular to a kind of four mould bases Piece integrated waveguide broad-band filter, can be used for wireless communication system radio-frequency front-end.

Background technique

In modern microwave wireless communication system, the passive devices such as filter and duplexer have highly important effect. Traditional microwave and millimeter wave filter generallys use waveguide or microstrip transmission line structure, but their own has and is difficult to overcome Disadvantage.For the planar structures filter such as micro-strip or strip line, although they have it is small in size, it is light-weight, be easy to and plate grade electricity The shortcomings that integrated advantage in road, but that there are power capacities is low, loss is big and semi-open structure brings electromagnetic compatibility problem；And For metal waveguide class filter, although can be realized high power capacity, low insertion loss is had excellent performance, processing cost It is higher and bulky unsuitable integrated with modern microwave planar circuit.It is real that substrate integration wave-guide passes through periodical metal throuth hole Class waveguiding structure is showed, has both inherited the good characteristics such as conventional waveguide device high quality factor and high power capacity, also retained General plane line filter is easy to process, low cost and the advantages of be easily integrated, and is widely used in designing various microwaves With millimetric wave device.

The hot spot that microwave filter is Recent study is designed using the bimodulus resonant theory of degenerate mode, by Perturbation unit is added in resonant cavity separates a pair of of degenerate mode of resonant cavity, to realize the design of dual mode filter.It can To effectively reduce the size of filter, and there is good frequency selectivity.Use bimodulus Resonator design bandpass filtering Device must realize filter bandwidht broadening by multistage bimodulus resonant cavity cascade, certainly will will increase the volume of filter entirety.Multimode Resonator designs bandpass filter in the case where not increasing series, realizes identical index with less resonant element, thus Meet the miniature requirement of Modern communications terminals, the multimode resonator attention higher and higher by lot of domestic and foreign scholar, multimode Resonator mechanism is applied to substrate integral wave guide filter and studies and design with far reaching significance.

For example, 2017, Chen Weidong et al. is in IEEE Microwave and Wireless Components " Miniaturized Dual-Band Filter has been delivered on Letters periodical (Vol.27No.7pp.344-346,2017) Using Dual-Capacitively Loaded SIW Cavities ", proposes a kind of substrate collection based on capacitive-loaded At waveguide double-passband filter, but since higher modes harmonic wave occurs in the second near pass-band, the choosing at filter high-frequency outside band It is unexcellent to select characteristic, and since each passband is constituted only with two modes, the relative bandwidth of filter also compares It is narrow.

Summary of the invention

It is an object of the invention in view of the above shortcomings of the prior art, propose a kind of four mould chip integrated waveguide broad-bands filter Wave device, realizes the broadening of filter passband bandwidth, while improving the stopband characteristic of filter.

Technical thought of the invention is: in the substrate integration wave-guide bimodulus resonant cavity base for diagonally having metallized through-hole infinitesimal disturbance It on plinth, is increased by etching rectangular configuration optimized integration mode resonance frequency in upper layer metal patch, and in etching rectangular configuration Surrounding increases by four metalized blind vias and realizes that mould mode frequency reduces three times, to realize that four mode frequencies are close.And pass through Microstrip-fed mode realizes coupled outside, constitutes a kind of four mould chip integrated waveguide broad-band filters.

According to above-mentioned technical thought, the technical solution that the object of the invention is taken is realized are as follows:

A kind of four mould chip integrated waveguide broad-band filters, including medium substrate 1；

The shape of the medium substrate 1 is rectangle, and the lower surface of the medium substrate 1 is printed with lower metal patch 2, upper table Face is printed with the upper layer metal patch 3 of square；The upper layer metal patch 3 be located at medium substrate 1 in the width direction on two A microstrip feed line 8 is respectively connected on opposite side, the input terminal and output end as filter；The four of the upper layer metal patch 3 Week is connect by being entered multiple first plated-through holes 4 at end and output end partition with lower metal patch 2, forms substrate collection At waveguide resonant cavity, one and lower layer's gold is respectively arranged by subapical position in any one diagonal line of the upper layer metal patch 3 Belong to the second plated-through hole 5 that patch 2 connects, for realizing the secondary degenerate mode state of substrate integration wave-guide resonant cavity；

The middle position of the upper layer metal patch 3 is etched with rectangular aperture structure 6, humorous for improving substrate integration wave-guide Fundamental resonance frequencies of vibration chamber；The lower surface of the medium substrate 1 is respectively set near 6 four edges of rectangular aperture structure A metalized blind vias 7 is set, for reducing the mould resonance frequency three times of substrate integration wave-guide resonant cavity.

Preferably, the upper layer metal patch 3, side length are equal with the width dimensions of medium substrate 1.

Preferably, the rectangular aperture structure 6, the square being overlapped using center with the center of upper layer metal patch 3 Gap structure.

Preferably, the medium substrate 1, the gold that lower surface is nearby arranged close to the four edges of rectangular aperture structure 6 Categoryization blind hole 7, positioned at the center on side where the corresponding rectangular aperture of each metalized blind vias 7, the ruler of four metalized blind vias 7 It is very little identical, and apart from the equal sized of side where corresponding rectangular aperture.

Preferably, the microstrip feed line 8, positioned at the middle position of 3 corresponding sides of upper layer metal patch.

Compared with prior art, the present invention having the advantage that

1. the present invention realizes that resonant cavity basic schema frequency increases using in upper layer metal patch etching rectangular configuration, improve Filter passband low-frequency stop band characteristic.

2. the present invention is used increases metalized blind vias realization resonant cavity mould mode frequency three times around etching rectangular configuration It reduces, improves filter passband high frequency stopband characteristic.

3. the present invention using resonant cavity basic schema frequency is improved, reduces resonant cavity mould mode frequency three times, thus close The bimodulus frequency of degeneracy, realizes the broadening of filter passband bandwidth.

Detailed description of the invention

Fig. 1 is the three dimensional structure diagram of the embodiment of the present invention 1；

Fig. 2 is the top view of Fig. 1；

Fig. 3 is the frequency response curve of the embodiment of the present invention 1.

Specific embodiment

In the following with reference to the drawings and specific embodiments, invention is further described in detail:

Embodiment 1:

Referring to Figures 1 and 2, the present invention includes medium substrate 1, lower metal patch 2, upper layer metal patch 3, the first metal Change through-hole 4, the second plated-through hole 5, rectangular aperture structure 6, metalized blind vias 7 and microstrip feed line 8；Wherein:

The medium substrate 1 uses 5880 plate of Rogers RT/duroid, relative dielectric constant ε_r=2.2, thickness H =1 long L=18.4 wide W=10.4；

The lower metal patch 2 is printed on the lower surface of medium substrate 1, as metal floor, the upper layer metal patch Piece 3 is printed on the upper surface of medium substrate 1, and lower metal patch 2 and upper layer metal patch 3 are all made of the silver-plated form of copper, wherein The L=18.4 wide long W=10.4 of lower metal patch 2, upper layer metal patch 3 use square structure, and its side length is a, a= 10.4；

The surrounding of the upper layer metal patch 3 by be entered end and output end partition multiple first plated-through holes 4 It is connect with lower metal patch 2, forms substrate integration wave-guide resonant cavity, wherein the radius of the first plated-through hole 4 is r, r= 0.3, spacing d, d=0.8；

Second plated-through hole 5, any one diagonal line positioned at upper layer metal patch 3 lean on subapical position, It works for realizing substrate integration wave-guide resonant cavity in TE₁₀₂And TE₂₀₁Degenerate mode state, wherein 5 radius of the second plated-through hole For r₀, r₀=0.6, it is l, l=2 to angular vertex away from upper layer metal patch 3；

The rectangular aperture structure 6, for improving substrate integration wave-guide resonant cavity basic schema TE₁₀₁Resonance frequency, mould The degree of formula frequency shift is related with the size of rectangular aperture structure 6, and the present embodiment is using in center and upper layer metal patch 3 The square gap structure that the heart is overlapped, its side length is S, S=5.9；

The center on side, integrates wave for reducing substrate where the metalized blind vias 7 is located at corresponding rectangular aperture Lead resonant cavity mould TE three times₂₀₂Resonance frequency, mode frequency change degree and metalized blind vias 7 size it is related with position, The size of four metalized blind vias 7 is identical, and apart from the equal sized of side where corresponding rectangular aperture, wherein metalized blind vias 7 radiuses are R₀, R₀=1.2, it is highly h, h=0.8, the distance to corresponding 6 place side of rectangular aperture structure is d₀, d₀=0.6；

The microstrip feed line 8 be located at medium substrate 1 in the width direction on two opposite side on, it is right with upper layer metal patch 3 It answers the middle position on side to connect, is since middle position can preferably motivate each mould of substrate integration wave-guide resonant cavity Formula, input terminal and output end of the microstrip feed line 8 as filter, realizes the coupled outside of filter, the length is L₀, L₀=4, Width is W₀=3.1, W₀For 50 ohm microstrip line widths；

The frequency response curve of the present embodiment filter is as shown in figure 3, S in Fig. 3₂₁It is bent for the transmission characteristic of filter Line, S₁₁For the coverage diagram of filter.The frequency distribution of four modes can be clearly seen by Fig. 3, respectively correspond TE₁₀₁, TE₁₀₂, TE₂₀₁, TE₂₀₂The resonance frequency of mode, realizes the broadening of filter passband bandwidth, while it is special to improve the selection outside band Property.

The above embodiment is a preferred embodiment of the present invention, but embodiments of the present invention are not by above-described embodiment Limitation, other any changes, modifications, substitutions, combinations, simplifications made without departing from the spirit and principles of the present invention, It should be equivalent substitute mode, be included within the scope of the present invention.

Claims (5)

1. a kind of four mould chip integrated waveguide broad-band filters, including medium substrate (1)；

The shape of the medium substrate (1) is rectangle, and the lower surface of the medium substrate (1) is printed with lower metal patch (2), on Surface is printed with the upper layer metal patch (3) of square；The upper layer metal patch (3) is located at along medium substrate (1) width side A microstrip feed line (8), input terminal and output end as filter are respectively connected on two upward opposite side；The upper layer metal The surrounding of patch (3) by be entered end and output end partition multiple first plated-through holes (4) and lower metal patch (2) Connection, forms substrate integration wave-guide resonant cavity, and any one diagonal line of the upper layer metal patch (3) is each by subapical position One the second plated-through hole (5) connecting with lower metal patch (2) is set, for realizing substrate integration wave-guide resonant cavity Secondary degenerate mode state；

It is characterized in that, the middle position of the upper layer metal patch (3) is etched with rectangular aperture structure (6), for improving base Fundamental resonance frequencies of piece integrated wave guide resonance chamber；The lower surface of the medium substrate (1) is located at rectangular aperture structure (6) Near on the outside of four edges, and it is located at below the metal part of upper layer metal patch (3), a metalized blind vias (7) is respectively set, uses In the mould resonance frequency three times for reducing substrate integration wave-guide resonant cavity.

2. a kind of four moulds chip integrated waveguide broad-band filter according to claim 1, which is characterized in that the upper layer gold Belong to patch (3), side length is equal with the width dimensions of medium substrate (1).

3. a kind of four moulds chip integrated waveguide broad-band filter according to claim 1, which is characterized in that the rectangular slits Gap structure (6), the square gap structure being overlapped using center with the center of upper layer metal patch (3).

4. a kind of four moulds chip integrated waveguide broad-band filter according to claim 1, which is characterized in that the medium base It is blind to be located at each metallization for plate (1), the metalized blind vias (7) that lower surface is nearby arranged close to rectangular aperture structure (6) four edges The center on side where the corresponding rectangular aperture in hole (7), the size of four metalized blind vias (7) is identical, and apart from corresponding Side is equal sized where rectangular aperture.

5. a kind of four moulds chip integrated waveguide broad-band filter according to claim 1, which is characterized in that the micro-strip feedback Line (8) is located at the middle position of upper layer metal patch (3) corresponding sides.