CN2938443Y - Integral waveguide cavity filter - Google Patents

Abstract

Disclosed is an integrated wave-guide cavity filter which is a double mode round chip wave-guide cavity filter using a round chip integrated wave-guide cavity; the cavity works in the double mode, the cavity structure is to completely cover the lower surface metal layer on the lower surface of the medium chip, the upper surface metal layer is arranged on the upper surface of the medium chip (8); the double mode cavity (1) consists of two round cavities formed by the upper surface metal layer, the lower surface metal layer and a plurality of metallized via holes (7) of the medium chip; a first coupling slot (21) and a second coupling slot (22) are respectively arranged on the circles of the round cavities, the second coupling slot between two adjacent round cavities by a second wave-guide segment (32), a first wave-guide segment (31) between two adjacent round cavities is connected with the first coupling slot (21).

Description

Integrated wave-guide cavity wave filter

Technical field

The utility model is the design of a kind of design that is applied to the microwave and millimeter wave circuit and microwave and millimeter wave integrated circuit, the double-mode circular substrate integrated wave-guide cavity wave filter of microwave and millimeter wave passive component design, belongs to the technical field of integrated wave-guide cavity wave filter design.

Background technology

Filter is one of important basic element circuit of Circuits System, and its performance all has material impact to the selectivity of entire system, noise factor, gain, sensitivity etc.Commonly used in the microwave and millimeter wave circuit have based on the filter of metal waveguide with based on the filter of planar circuits such as microstrip line, complanar line.Usually have advantages such as high Q, low-loss, selectivity be better based on the filter of metal waveguide, but its requirement on machining accuracy is high, cost is high, volume is big, difficult integrated with active circuit.Though and easily integrated based on the filter of planar circuit technology such as microstrip line, complanar line with active circuit, the bigger radiation of existence usually, loss is big, the Q value is low, poor-performing.Radiation also easily causes the space coupling, destroys circuit working stability.Substrate integrated waveguide technology has the advantage such as easy of integration, easy to make of planar circuit, has the premium properties approximate with the metal waveguide filter again.

Summary of the invention

Technical problem: the purpose of this utility model is to propose a kind of double-mode circular substrate integrated wave-guide cavity wave filter, this filter has ascends the upper sideband transient characteristic high and steep and the available bandwidth of the upper sideband stopband of improvement, improve practicality, have simultaneously easily and active circuit integrated, loss is lower, volume is less, and cost is low, easily the advantage of producing in enormous quantities.

Technical scheme: double-mode circular substrate integrated wave-guide cavity wave filter of the present utility model adopts circular substrate integrated wave-guide cavity wave, cavity works under the bimodulus pattern, its structure is: cover lower surface metal layer fully at the dielectric substrate lower surface, upper surface at dielectric substrate is provided with the upper surface metal level, and the upper surface metal level comprises metal level, triangle transition line, input and output microstrip line; The bimodulus cavity is two circular cavities that surrounded jointly by upper surface metal level, lower surface metal layer and the sidewall that formed by a plurality of plated-through holes in the dielectric substrate, be respectively equipped with the first coupling slit and the second coupling slit on the circumference of circular cavity, the second coupling slit between two adjacent circular cavities is connected by second waveguide segment, first waveguide segment of two adjacent circular cavities connects the first coupling slit, and structure is about center rotation symmetry; The outer termination input and output microstrip line of triangle transition line, the interior termination metal level of triangle transition line and be positioned at first the coupling slit outside, first waveguide segment.The angle [alpha] span that the first coupling slit and the second coupling slit are opened about the cavity center 110 spend as for 130 between.

Filter surrounds circular cavity based on substrate integrated waveguide technology with the plated-through hole of circular shape arrangement and the metal level of medium upper and lower surface.Cavity is circular over dimensioning cavity, and its size Selection makes cavity second order eigen mode frequency equal filter upper sideband transmission zero.Cavity is formed filter by cascade.

Filter input (and output) is a microstrip line, and cavity is coupled by a slit and a segment base sheet integrated waveguide, and substrate integration wave-guide carries out the transition to the microstrip line of input (and output) again through one section triangle transition line.Select the substrate integration wave-guide segment length much smaller than 1/4 wavelength, concrete length will be through simulation optimization.The modified line of triangle line is then according to conventional design.

Intercoupled by slit one segment base sheet integrated waveguide between the cavity, the substrate integration wave-guide width equates with gap width.The waveguide segment that adds is used to adjust the amplitude and the phase place of coupling coefficient between cavity, and to realize whole transmission poles of dual mode filter, its width and length will be optimized generation.

The angle that two coupling slits of arbitrary cavity are opened about the cavity center is is generally optimized and revised near 120 degree.It mainly is to be used on top being with stopband to produce a transmission zero again, adds the spike that produces in the stopband after the substrate integration wave-guide section between cavity to offset on filter characteristic, thus stopband available bandwidth on the broadening, and increase stopband attenuation.Angle increases, and zero frequency increases, otherwise then reduces.

The metallic cavity equivalence that the substrate integrated wave-guide cavity wave of general appropriate design and medium are filled.The cavity of cascade intercouples through the coupling slit and forms filter.The input and output cavity transits to microstrip line, and is connected with external circuit by microstrip line by coupling slit, substrate integration wave-guide, transition line.Field wave excites vibration through little band in cavity, by the signal after the little band output of the output frequency-selecting after the coupling cavity filtering, finish filter action.This filter can be regarded the novel coupled resonant circuit filter of a class as, and therefore design can be with reference to relevant theoretical.

Each resonant element (being cavity) shape, size and coupled modes are operated under the bimodulus resonance manner through suitable the selection, its characteristic not only has the filtering characteristic that is equivalent to two-stage master die cavity body, more owing to arrange its distinctive zero point, make the transition of filter upper sideband more precipitous, available stopband also has the bandwidth of broad.

Beneficial effect: double-mode circular substrate integrated wave-guide cavity wave filter of the present utility model, each cavity are two limits of filter contribution, in transmission zero of passband upper sideband next-door neighbour passband place's contribution, thereby make the upper sideband transient characteristic precipitous, and selectivity improves.

Produce second transmission zero again by the angle between two couplings of cavity slit of suitable selection, but the resistance band of broadening upper sideband, and can improve upper sideband stopband attenuation amount.

Spacing is higher than other shape cavity between the more high-order eigenfrequency of circular cavity and the dual mode filter band connection frequency, thereby the available bandwidth of upper sideband stopband is higher.

Added waveguide segment in the coupled modes transition of input, its cut-off frequency is higher than the main mould of cavity, therefore can suppress the main mould response of cavity, has improved the lower side-band characteristic of filter.Much smaller than this type of transition section length in the past but do not influence performance, therefore the filter total length dwindles its length after optimizing.

Also have the integrated advantage easily of active circuit, cavity has been eliminated radiation loss, has higher Q value, and upper and lower surface links to each other by plated-through hole, and ground connection and isolation are convenient, utilize ripe standard industry technology, and cost is low.

Description of drawings

Fig. 1 is a general structure schematic diagram of the present utility model.Have among the figure: bimodulus cavity 1, the first coupling slit 21, the second coupling slit, 22, the first waveguide segments 31, second waveguide segment 32, metal level 4, transition line 5, input and output microstrip line 6, plated-through hole 7, dielectric substrate 8.

Fig. 2 is the geometric parameter schematic diagram of the utility model embodiment.α is the angle that two coupling slits of cavity are opened about the cavity center.The overall dimension W1 of each several part～W6, L1～L6, the cavity radius R.

Fig. 3 draws the figure that forms for the data of gathering, and has shown the frequency response characteristic that comprises stopband and passband in the relative broad range.

Embodiment

Double-mode circular substrate integrated wave-guide cavity wave filter of the present utility model adopts circular substrate integrated wave-guide cavity wave, cavity works under the bimodulus pattern, its structure is: cover lower surface metal layer fully at dielectric substrate 8 lower surfaces, upper surface at dielectric substrate 8 is provided with the upper surface metal level, and the upper surface metal level comprises metal level 4, triangle transition line 5, input and output microstrip line 6; Bimodulus cavity 1 two circular cavities for surrounding jointly by upper surface metal level, lower surface metal layer and the sidewall that forms by a plurality of plated-through holes 7 in the dielectric substrate 8, be respectively equipped with the first coupling slit 21 and the second coupling slit 22 on the circumference of circular cavity, the second coupling slit 22 between two adjacent circular cavities is connected by second waveguide segment 32, first waveguide segment 31 of two adjacent circular cavities connects the first coupling slit 21, and structure is about center rotation symmetry; The outer termination input and output microstrip line 6 of triangle transition line 5, the interior termination metal 4 of triangle transition line 5 also is positioned at the first coupling slit, 21 outer, first waveguide segments 31.The angle [alpha] span that the first coupling slit 21 and the second coupling slit 22 are opened about the cavity center 110 spend as for 130 between.

Realize the double-mode circular substrate integrated wave-guide cavity wave filter example at the about 25GHz of centre frequency place, utilize printed circuit board (PCB) technology of standard to make, and tested its overall performance.Substrate is selected Rogers Duroid5880 for use, and its dielectric constant is 2.2, thickness 0.5mm.Fig. 2 is the example real structure, and wherein each geometric parameter is distinguished value following (if the end of mark is the hole, then the center with the hole is an end points), the mm of unit:

L1＝3.404，L2＝4.500，L3＝4.412，L4＝0.668，L5＝1.318，L6＝4.250，L7＝15.619，

W1=4.080, W2=3.930, W3=1.920, W4=1.500, W5=5.500, W6=24, angle [alpha]=110 °, the diameter of plated-through hole all is 0.5mm, cavity radius R=4.830mm.

One section that is labeled as L1 and L6 has 5 and 6 holes (containing end points) respectively along the line, evenly distributes.Two sections holes that distribute along circular arc that constitute cavity have 21 and 7 (containing end points) respectively, evenly distribute along arc.The diameter in hole is the external diameter of the metal level of finger-hole, especially should note this point when the solid hole of used Kong Weifei.The accuracy in aperture has considerable influence to performance, has compensation deals in the general procedure, promptly increases about 0.1mm boring on nominal value, and this will bring appreciable error, must explicitly call for plated-through hole not compensate when making sample.At first fixing respectively be coupled the plated-through hole position of both sides, slit and the quantity in hole during the structure filter, all the other holes are duplicated by even distribution principle and are formed.The filter sample is tested on the self-control test fixture, and common about 0.75dB that the S21 in following all test datas comprises the transition introducing of two 2.4mm coaxial fittings and coaxial little band inserts loss.Testing equipment is Agilent (Agilent) vector network analyzer E8363B.

Fig. 3 draws the figure that forms for the data of gathering, and has shown the frequency response characteristic that comprises stopband and passband in the relative broad range.From test result, can find filter insertion loss 2.46dB (loss of deduction joint etc., the actual insertion loss of filter is 1.71dB).The 3dB frequency band is 24.36-25.59GHz, and bandwidth is 1.23GHz.If stopband be defined as S21＜-40dB, then upper sideband from-3dB carry out the transition to-transition band of 40dB is 0.41GHz, stopband range is 26.00GHz-31.57GHz, wide 5.57GHz.In fact, stopband attenuation surpasses 47dB. result and shows that filter has premium properties in most frequency ranges of stopband.

Claims (2)

1. integrated wave-guide cavity wave filter, it is characterized in that adopting circular substrate integrated wave-guide cavity wave, cavity works under the bimodulus pattern, its structure is: cover lower surface metal layer fully at dielectric substrate (8) lower surface, upper surface at dielectric substrate (8) is provided with the upper surface metal level, and the upper surface metal level comprises metal level (4), triangle transition line (5), input and output microstrip line (6); Two circular cavities of bimodulus cavity (1) for surrounding jointly by upper surface metal level, lower surface metal layer and the sidewall that forms by a plurality of plated-through holes (7) in the dielectric substrate (8), be respectively equipped with the first coupling slit (21) and the second coupling slit (22) on the circumference of circular cavity, the second coupling slit (22) between two adjacent circular cavities is connected by second waveguide segment (32), first waveguide segment (31) of two adjacent circular cavities connects the first coupling slit (21), and structure is about center rotation symmetry; The outer termination input and output microstrip line (6) of triangle transition line (5), the interior termination metal level (4) of triangle transition line (5) also is positioned at outer, first waveguide segment (31) in the first coupling slit (21).

2. integrated wave-guide cavity wave filter according to claim 1, it is characterized in that the angle [alpha] span of being opened about the cavity center in the first coupling slit (21) and the second coupling slit (21) 110 spend as for 130 between.

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