CN206834311U - A kind of plane Wide stop bands double frequency filter - Google Patents

Abstract

The utility model discloses a kind of plane Wide stop bands double frequency filter, it is produced in the manner of a printed circuit board on medium substrate, being made respectively on the same face of medium substrate has for inputting or exporting the feeder line port port1 and port2 of electromagnetic wave signal, first port feeder line, second port feeder line, the first resonator R1, the second resonator R2, the 3rd resonator R3；Above-mentioned resonator is respectively positioned between first, second port feedline；First resonator R1 is identical with the 3rd resonator R3 structures and impedance is equal everywhere, is placed on the second resonator R2 minute surfaces；Above-mentioned resonator is minor matters loading resonator, is made up of respectively a half wave resonator and a loading open circuit minor matters.The utility model obtains the method for double frequency filter by using two groups of different resonators, loads resonator using symmetrical minor matters, realizes dual frequency characteristics, and overcomes harmonic wave and noise signal to disturb, and obtains wider rejection band.

Description

A kind of plane Wide stop bands double frequency filter

Technical field

It the utility model is related to the technical field of plane microstrip filter, and in particular to one kind is based on minor matters loading resonator Plane Wide stop bands double frequency filter.

Background technology

Wireless communication technology fast development, division each communications band that is more and more finer, therefore bringing between each frequency range Between interference phenomenon it is also increasingly severe, so the performance of bandpass filter determines the work quality of communication system.In band The ripple that bandpass filter refers to allow special frequency channel is by while shielding other frequency ranges, before it operates mainly in signal transmitting terminal The rear class of level and signal receiving end, for suppressing harmonic wave and noise signal, ensures the pure of desired signal.Bandpass filter at present In mainly have the research of single-frequency wave filter and double frequency filter.Single-frequency wave filter increasingly shows its limitation, and is Existing frequency spectrum and infrastructure device resource are made full use of, multiple frequency ranges that can be worked simultaneously are set in a communications system, effectively way One of footpath is exactly to research and develop high performance double frequency filter.

The research for double frequency filter not only had very big breakthrough in performance in the last few years, also existed in terms of size It is constantly progressive.It is by two groups of Simple Harmonics devices in parallel, but often its outstanding problem that traditional method, which obtains double frequency filter, It is complicated, volume is big.In order to design small volume, with internal loss it is small, roll-off it is fast, ultra-wide stopband of good performance double Frequency wave filter, scholars propose many new resonator structures.Wherein being no lack of has showing for preferable performance：Disturbed using two Rotating ring resonator responds to obtain Dual-mode two-way band；Or defect ground structure is introduced to obtain transmission zero, so as to obtain to posting The higher suppression of raw passband intensity, to obtain preferable performance of filter.However, these measures have on the rejection characteristic of stopband Wait to improve.

In January, 2016, Wu Yongle et al. has applied entitled《A kind of planer dual-frequency wave filter of frequency band Independent adjustable》's Patent.The double frequency filter of Patent Utility Model design, its metal micro-strip line is placed on dielectric-slab, with parallel or vertical side Formula is arranged, back metal ground connection.The patent realizes double-frequency effect using coupled microstrip line and minor matters；Using tunable capacitor, realize Two frequency band Independent adjustables of double frequency filter；Circuit structure is compact simple；Obtained in two-band preferable isolation effect, compared with Small insertion loss；But stopband characteristic is general.As shown in figure (a kind of planer dual-frequency wave filter of frequency band Independent adjustable).

In September, 2013, Wei Xubo et al. has been applied entitled《Dual frequency filter》Patent.The double frequency that the patent proposes Wave filter is formed by two double-frequency resonance being axisymmetricly distributed device cascades, the overall dielectric substrate including being provided with grounding through hole, Main line positioned at dielectric substrate upper surface and the metal floor positioned at dielectric substrate lower surface.The double frequency filter introduces four Transmission zero, the isolation characteristic between the frequency selective characteristic of wave filter and frequency band can be provided；Symmetrical structure is used to cause Structure becomes simple, volume reduces.As shown in figure (dual frequency filter).

Utility model content

The purpose of this utility model is to solve drawbacks described above of the prior art, there is provided a kind of Wide stop bands double frequency filtering Device, the method for double frequency filter is obtained by using two groups of different resonators, load resonator using symmetrical minor matters, realize Dual frequency characteristics, and overcome harmonic wave and noise signal to disturb, wider rejection band is obtained, in addition, by carrying out layout design to microstrip line, Smaller size smaller is obtained on the premise of realizing performance optimization.

The purpose of this utility model can be reached by adopting the following technical scheme that：

A kind of plane Wide stop bands double frequency filter, is produced on medium substrate in the manner of a printed circuit board, the medium Feeder line port port1 and the feeder line port having for inputting or exporting electromagnetic wave signal are made on the same face of substrate respectively Port2, first port feeder line 18, second port feeder line 19, the first resonator R1, the second resonator R2, the 3rd resonator R3 should The another side of medium substrate is earth plate；

The feeder line port port1 and the vertical connection of first port feeder line 18, for feed-in or feed out electromagnetic wave Signal；Similarly, the feeder line port port2 and the vertical connection of second port feeder line 19, for feed-in or feed out electromagnetism Ripple signal；

The first resonator R1, the second resonator R2, the 3rd resonator R3 are located at first port feedback Between line 18 and the second port feeder line 19；The first resonator R1 is identical with the 3rd resonator R3 structures and hinders It is anti-equal everywhere, placed on the second resonator R2 minute surfaces；

The first resonator R1, the second resonator R2, the 3rd resonator R3 are minor matters loading resonators, It is made up of respectively a half wave resonator and a loading open circuit minor matters.

Further, coupling gap, the feedback be present between the first port feeder line 18 and the first resonator R1 Line end mouth port1 is fed with the first port feeder line 18 by coupling gap to the first resonator R1；Described Coupling gap, the feeder line port port2 and second end between Two-port netwerk feeder line 19 and the 3rd resonator R3 be present Mouth feeder line 19 is fed by coupling gap to the 3rd resonator R3.

Further, the first resonator R1 includes the first half wave resonator and the first loading open circuit minor matters 3, the first half wave resonator is by the first transmission line 1, the second transmission line 2, the 3rd transmission line 4, the 4th transmission line 5 Bending connection composition, the first loading open circuit minor matters 3 are arranged on the centre of the first half wave resonator, described First half wave resonator is symmetrical on the described first loading open circuit minor matters 3.

Further, the second resonator R2 includes the second half wave resonator and the second loading open circuit minor matters 17, the second half wave resonator is passed by the 5th transmission line 11, the 6th transmission line 12, the 7th transmission line the 13, the 8th Defeated line 14, the 9th transmission line 15, the tenth transmission line 16 bending connection composition, the second loading open circuit minor matters 17 are arranged on described The centre of second half wave resonator, the second half wave resonator is on the described second loading open circuit branch It is symmetrical to save 17.

Further, the 3rd resonator R3 includes the 3rd half wave resonator and the 3rd loading open circuit minor matters 8, the 3rd half wave resonator is by the 11st transmission line 6, the 12nd transmission line 7, the 13rd transmission line the 9, the tenth Four transmission lines 10 bending connection composition, the 3rd loading open circuit minor matters 8 are arranged on the 3rd half wave resonator Centre, the 3rd half wave resonator on the described 3rd loading open circuit minor matters 8 it is symmetrical.

Further, the impedance and the resistance of the second half wave resonator of the second loading open circuit minor matters 17 It is anti-unequal.

Further, the impedance and the resistance of the first half wave resonator of the first loading open circuit minor matters 3 It is anti-equal.

Further, the impedance and the resistance of the 3rd half wave resonator of the 3rd loading open circuit minor matters 8 It is anti-equal.

The wave filter proposed in the utility model only obtains dual frequency characteristics using symmetrical minor matters loading resonator, and this is new Plane Wide stop bands double frequency filter is by adjusting the impedance ratio of high and low impedance line, electrical length ratio and electromagnetic coupling strengths, you can right Centre frequency and filter bandwidht are controlled.Microstrip line many places are bent, and reasonable layout realizes volume in two-dimensional space The target of miniaturization.

The utility model is had the following advantages relative to prior art and effect：

1st, the utility model realizes dual frequency characteristics using symmetrical minor matters loading resonator.

2nd, the utility model proposes double frequency filter there is smaller harmonic wave and noise signal to disturb, and wider rejection band.

3rd, the utility model design is simple, and small volume, cost is low, is applicable to plurality of communication systems.

Brief description of the drawings

Fig. 1 is a kind of structural representation of double frequency filter disclosed in prior art 1；

Fig. 2 is a kind of structural representation of double frequency filter disclosed in prior art 2；

Fig. 3 be the utility model proposes Wide stop bands double frequency filter structural representation；

Fig. 4 be the utility model proposes Wide stop bands double frequency filter scattering parameter simulation result figure；

Fig. 5 is Fig. 4 partial enlarged drawing；

Wherein, the transmission lines of 1-- first, the transmission lines of 2-- second, the loading open circuit minor matters of 3-- first, the transmission lines of 4-- the 3rd, The transmission lines of 5-- the 4th, the transmission lines of 6-- the 11st, the transmission lines of 7-- the 12nd, the loading open circuit minor matters of 8-- the 3rd, 9-- the 13rd are passed Defeated line, the transmission lines of 10-- the 14th, the transmission lines of 11-- the 5th, the transmission lines of 12-- the 6th, the transmission lines of 13-- the 7th, 14-- the 8th are passed Defeated line, the transmission lines of 15-- the 9th, the transmission lines of 16-- the tenth, the loading open circuit minor matters of 17-- second, 18-- first port feeder lines, 19-- Second port feeder line.

Embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Accompanying drawing in type embodiment, the technical scheme in the embodiment of the utility model is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model part of the embodiment, rather than whole embodiments.Based on the implementation in the utility model Example, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, is belonged to The scope of the utility model protection.

Embodiment

Plane Wide stop bands double frequency filter structure as shown in figure 3, make in the manner of a printed circuit board disclosed in the present embodiment Make on double-sided copper-clad micro-strip plate, micro-strip plate is in addition simultaneously to cover copper earth plate.Microstrip line is made in double face copper Wherein in one side, there are the feeder line port port1 for inputting or exporting electromagnetic wave signal and feeder line port port2, respectively One resonator R1, the second resonator R2, the 3rd resonator R3.Each resonator be minor matters loading resonator, by one two/ One wave resonator and a loading open circuit minor matters composition.

Wherein, it is the feeder line port port1, the feeder line port port2, the first resonator R1, described second humorous Shake device R2, the 3rd resonator R3 is located on same horizontal line.

The feeder line port port1 and the vertical connection of first port feeder line 18, for feed-in or feed out electromagnetic wave signal； Similarly, the feeder line port port2 and the vertical connection of second port feeder line 19, for feed-in or feed out electromagnetic wave signal.Institute Feeder line port port1 is stated to feed the first resonator R1 by coupling gap with the first port feeder line 18.

First resonator R1 include the first half wave resonator and first loading open circuit minor matters the 3, the 1st/ One wave resonator is bent connection and formed by the first transmission line 1, the second transmission line 2, the 3rd transmission line 4, the 4th transmission line 5.Will Above-mentioned transmission line bending is to reduce the size of overall wave filter.The first loading open circuit minor matters 3 are arranged on the one or two point One of wave resonator centre, therefore, the first resonator R1 on described first loading open circuit minor matters 3 it is symmetrical.Symmetrically Resonator can be analyzed with odd even modulus method.In strange mould equivalent circuit, cot (θ are can obtain₁)=0；In even mould equivalent electric Lu Zhong, it can obtain 2Y₁tan(θ₁)+Y₂tan(θ₂)=0.Herein, θ₁And θ₂The electricity of respectively half wave resonator is long The half of degree and the electrical length of loading minor matters；Y₁And Y₂The admittance of respectively described half wave resonator and loading minor matters Admittance.Because the first resonator R1 impedance is certain, therefore, required resonant frequency will be obtained by adjusting its electrical length .First resonant frequency 3.5GHz is by θ₁Determine, and not with θ₂Change and change；Second resonant frequency 5.25GHz is by it The two is together decided on.On this basis, another purpose half resonator bent is to utilize terminal minor matters and feeder line Coupling, to produce transmission zero.When first port feeder line 18 couples a signal to the first resonator R1, first port Feeder line 18 and the first resonator R1 coupling length, can produce extra transmission zero, further excellent with this characteristic Change filter stop bend characteristic.

First resonator R1 is fed by coupling gap to the second resonator R2.Similarly, the second resonator R2 includes Second half wave resonator and the second loading open circuit minor matters 17, the second half wave resonator are passed by the 5th Defeated line 11, the 6th transmission line 12, the 7th transmission line 13, the 8th transmission line 14, the 9th transmission line 15, the bending of the tenth transmission line 16 connect Connect composition.It is to reduce the size of overall wave filter by the bending of above-mentioned transmission line.The second loading open circuit minor matters 17 are set In the centre of the second half wave resonator, therefore, the second half wave resonator adds on described second It is symmetrical to carry open circuit minor matters 17.

From the figure 3, it may be seen that the impedance of impedance and the second half wave resonator of the second loading open circuit minor matters 17 not phase Deng.But it is that the second loading open circuit minor matters 17 are positioned over the centre of half resonator, therefore with the first resonator R1 identicals Still can go to analyze with odd even modulus method.By analysis, the second resonator R2 the first two resonant frequency can be tuned into and first Resonator R1 is consistent, but high-order mode resonance frequency is inconsistent.The second loading open circuit minor matters that this point passes through the second resonator R2 The impedance of 17 impedance and the second half resonator is inconsistent to be obtained, therefore has two influence factors here, and one is Impedance ratio, another is electrical length ratio, and adjusting the two parameters makes its higher mode and the higher mode of the first resonator R1 wrong Open.

Second resonator R2 is fed by coupling gap to the 3rd resonator R3.Similarly, the 3rd resonator R3 includes 3rd half wave resonator and the 3rd loading open circuit minor matters 8, the 3rd half wave resonator is by the 11st transmission Line 6, the 12nd transmission line 7, the 13rd transmission line 9, the 14th transmission line 10 bending connection composition.It is by the bending of above-mentioned transmission line In order to reduce the size of overall wave filter.The 3rd loading open circuit minor matters 8 are arranged on the 3rd half wave resonator Centre, therefore, the 3rd half wave resonator are symmetrical on the described 3rd loading open circuit minor matters 8.

Above-mentioned 3rd resonator R3 and the resonator that the first resonator R1 is for but placement location is different.Therefore tune is passed through The ratio of whole 3rd resonator R3 electrical length, you can the resonant frequency needed, the resonant frequency is with the first resonator R1's Resonant frequency is equal.The wave filter obtained in this way has the very big benefit to be exactly, when higher mode staggers in stopband When, resistance band broadens.Similarly, stopband broadens also far from enough, it is also necessary to by the 3rd resonator R3 half resonator Bending, belt resistance inhibitor system is further improved by the coupling with port feedline.

3rd resonator R3 is fed by coupling gap to second port feeder line 19, and signal is from feeder line port port2 Feed out, complete signal transmission.Above-mentioned first resonator R1, the second resonator R2, the 3rd resonator R3 are between them Axisymmetrical, and the first resonator R1 and the 3rd resonator R3 structure identicals, placed on the second resonator R2 minute surfaces, and its Impedance is equal everywhere.

Minor matters loading resonator is that the design adds the free degree, and the length of the center minor matters of symmetrical minor matters loading resonator Degree is had a great influence with width to the second passband, and the first passband is had little to no effect, can now realize the purpose of Independent adjustable. The width of the center minor matters of symmetrical minor matters loading resonator among adjustment, its width is smaller, and the transmission loss of the second passband is got over Decline, efficiency of transmission is higher, but its width can not be infinitely small, because machining accuracy is not high enough, and needs and other factors knot Adjust altogether.

To realize Wide stop bands, the utility model is obtained by following two methods：

First, three symmetrical minor matters of adjustment load resonator parameters so that the first resonator R1 of these three resonators and the Three resonator R3 resonant frequency is consistent, and on the premise of forming passband, the second resonator R2 higher order resonant frequencies are different.It is this The way of higher order resonant frequencies of staggering can cause the moulds of these three symmetrical minor matters loading resonators contributions not in same place, Therefore can not combine to form passband so that filter stop bend broadens.

Second, introduce transmission zero.By changing the position of port feedline, transmission zero can be obtained, so as to suppress to hinder Band.From fig. 5, it can be seen that there are two transmission zeros the position between two passbands, first transmission zero can improve The passband of one passband and the selectivity of right side stopband, similarly, second transmission zero can improve passband and the left side of the second passband The selectivity of side stopband so that two passbands work independently, and interfere smaller, two relatively pure pass band transfers of acquisition. In the right side stopband portion of the second passband, transmission zero is equally have also been introduced to suppress stopband.

The utility model is emulated using three-dimensional artificial software ZELAND IE3D to double frequency filter, in Fig. 3 structure In schematic diagram, the dimensional parameters of each transmission line are：

L₁=L₆=8.5, L₂=L₇=5.70, L₃=L₉=7.71, L₄=L₁₀=10.4, L₅=2.6, L₁₁=2.30, L₁₂ =4.99, L₁₃=6.82, L₁₇=8.67, L₁₈=L₁₉=10.27,

W₁=W₂=W₃=W₄=W₅=W₆=W₇=W₈=W₉=W₁₀=W₁₁=W₁₂=W₁₃=W₁₄=W₁₅=W₁₆=1, W₁₇ =0.2 (unit is：mm).

Fig. 4 be the utility model proposes double frequency filter scattering parameter simulation result figure.Transverse axis represents that this practicality is new The signal frequency of double frequency filter in type, the longitudinal axis represent amplitude, including return loss S11 amplitude and insertion loss S21 width Degree, wherein S11 represent the return loss of feed-in line port, and S21 represents double frequency filter frequency input signal in the utility model With the relation of output signal frequency, its corresponding mathematical function is：Power output/input power (dB)=20*log | S21 |. In the signals transmission of double frequency filter of the present utility model, the Partial Power of signal is reflected back toward signal source, is reflected Power turns into reflection power.Return loss represents the relation between the input power of the port signal and the reflection power of signal, Its corresponding mathematical function is as follows：Reflection power/incident power (dB)=20*log | S₁₁|.It can be seen that work as signal It can be fed out from the signal that during feed-in of feed side, only centre frequency is 3.50GHz and centre frequency is 5.25GHz from end is fed out, And the insertion loss in passband is smaller, return loss is down to below 21dB, illustrates that now standing wave is small, and efficiency of transmission is high.Stopband In, in the range of less than 20GHz, insertion loss is down to below 30dB, illustrates that the ability of wave filter filtering clutter is big, transmission The annoyance level that signal is subject to is low.

Fig. 5 is Fig. 4 partial enlarged drawing.It can be seen that the double frequency filter centre frequency in the utility model For 3.50GHz and 5.25GHz, logical in-band insertion loss absolute value is less than 1.7dB, and return loss absolute value is more than 21dB, passband Characteristic is good.The maximum breakthrough of the utility model is stopband characteristic, while Wide stop bands are kept, stopband is suppressed to be down to 30dB Hereinafter, the performance of wave filter is greatly improved.

In summary, the utility model proposes a kind of plane Wide stop bands double frequency filter, it is loaded humorous by multiple minor matters The device that shakes forms, each equal Independent adjustable of pass-band performance.Further through adjustment resonator parameter so that its first two resonant frequency one Cause, obtain dual frequency characteristics；The higher order resonant frequencies of resonator are loaded by the different minor matters that stagger and introduce transmission zero to suppress Higher hamonic wave, so as to obtain wider rejection band.Therefore, the utility model has advantages below：Symmetrical configuration is simple, small volume, double Frequency band pass-band loss is low, and stopband is wide, and inhibition level is high.

Above-described embodiment is the preferable embodiment of the utility model, but embodiment of the present utility model is not by above-mentioned The limitation of embodiment, it is other it is any without departing from Spirit Essence of the present utility model with made under principle change, modify, replace Generation, combination, simplify, should be equivalent substitute mode, be included within the scope of protection of the utility model.

Claims (8)

1. a kind of plane Wide stop bands double frequency filter, is produced on medium substrate in the manner of a printed circuit board, it is characterised in that： Feeder line port port1 and the feedback having for inputting or exporting electromagnetic wave signal are made on the same face of the medium substrate respectively Line end mouth port2, first port feeder line (18), second port feeder line (19), the first resonator R1, the second resonator R2, the 3rd Resonator R3, the another side of the medium substrate is earth plate；

The feeder line port port1 and first port feeder line (18) vertical connection, for feed-in or feed out electromagnetic wave letter Number；Similarly, the feeder line port port2 and second port feeder line (19) vertical connection, for feed-in or feed out electromagnetism Ripple signal；

The first resonator R1, the second resonator R2, the 3rd resonator R3 are located at the first port feeder line (18) between the second port feeder line (19)；The first resonator R1 it is identical with the 3rd resonator R3 structures and Impedance is equal everywhere, is placed on the second resonator R2 minute surfaces；

The first resonator R1, the second resonator R2, the 3rd resonator R3 are minor matters loading resonators, respectively It is made up of a half wave resonator and a loading open circuit minor matters.

A kind of 2. plane Wide stop bands double frequency filter according to claim 1, it is characterised in that the first port feeder line (18) coupling gap, the feeder line port port1 and the first port feeder line between the first resonator R1 be present (18) the first resonator R1 is fed by coupling gap；The second port feeder line (19) and the 3rd resonance Coupling gap between device R3 be present, the feeder line port port2 is with the second port feeder line (19) by coupling gap to institute The 3rd resonator R3 is stated to be fed.

A kind of 3. plane Wide stop bands double frequency filter according to claim 1, it is characterised in that the first resonator R1 Including the first half wave resonator and first loading open circuit minor matters (3), the first half wave resonator by First transmission line (1), the second transmission line (2), the 3rd transmission line (4), the 4th transmission line (5) bending connection composition, described first Loading open circuit minor matters (3) are arranged on the centre of the first half wave resonator, and the first half wavelength is humorous The device that shakes is symmetrical on the described first loading open circuit minor matters (3).

A kind of 4. plane Wide stop bands double frequency filter according to claim 1, it is characterised in that the second resonator R2 Including the second half wave resonator and second loading open circuit minor matters (17), the second half wave resonator by 5th transmission line (11), the 6th transmission line (12), the 7th transmission line (13), the 8th transmission line (14), the 9th transmission line (15), Ten transmission lines (16) bending connection composition, it is humorous that the second loading open circuit minor matters (17) are arranged on the second half wavelength Shake the centre of device, and the second half wave resonator is symmetrical on the described second loading open circuit minor matters (17).

A kind of 5. plane Wide stop bands double frequency filter according to claim 1, it is characterised in that the 3rd resonator R3 Including the 3rd half wave resonator and the 3rd loading open circuit minor matters (8), the 3rd half wave resonator by 11st transmission line (6), the 12nd transmission line (7), the 13rd transmission line (9), the 14th transmission line (10) bending connection composition, The 3rd loading open circuit minor matters (8) are arranged on the centre of the 3rd half wave resonator, the described 3rd 2/ One wave resonator is symmetrical on the described 3rd loading open circuit minor matters (8).

A kind of 6. plane Wide stop bands double frequency filter according to claim 4, it is characterised in that the second loading open circuit The impedance of minor matters (17) and the impedance of the second half wave resonator are unequal.

A kind of 7. plane Wide stop bands double frequency filter according to claim 3, it is characterised in that the first loading open circuit The impedance of minor matters (3) is equal with the impedance of the first half wave resonator.

A kind of 8. plane Wide stop bands double frequency filter according to claim 5, it is characterised in that the 3rd loading open circuit The impedance of minor matters (8) is equal with the impedance of the 3rd half wave resonator.