CN104993200A - Coplane low-pass filter - Google Patents

Abstract

The invention relates to a coplane low-pass filter which comprises a substrate, a center conductor, two grounding surfaces, a first coupling line, two second coupling lines and four third coupling lines. The substrate has a first surface, wherein the surface is provided with a signal input port and a signal output port which are separated oppositely; the center conductor comprises a first end in electrical connection with the signal input port, a second end in electrical connection with the signal output port, and a center portion; each grounding surface is provided with a groove in the place corresponding to the center portion of the center conductor; the first coupling line has two open circuit ends, wherein the two open circuit ends extend into the grooves in the two grounding surfaces respectively; a gap is formed between each second coupling line and the center conductor; the four third coupling lines each have a feed-in end and an open circuit end, wherein a gap is formed between the open circuit end of each third coupling line and first coupling line, and attenuation characteristics and 3-dB cut-off frequency of the coplane low-pass filter can be adjusted by changing the distance of the gap as well as the first distance and the second distance. Through the structure above, the coplane low-pass filter has the beneficial effects of simple structure, low insertion loss and high attenuation rate and the like.

Description

Copline low pass filter

Technical field

The present invention relates to a kind of filter, particularly relate to a kind of copline low pass filter.

Background technology

At present, because chip size is all be limited to passive component instead of driving component, thus develop microminiaturization co-plane waveguide (CPW) passive device and become a kind of trend to reduce microwave monolithic integrated circuit (MMICs).But, be integrated in high value silicon substrate and to be applied to the frequency of operation of centimeter wave passive component greatly restricted.

Co-plane waveguide (CPW) transmission line is the high value silicon substrate of 2500 Ω-cm can record at 30GHz be 0.1 dB/mm, show and passive device is located at the operation that high value silicon substrate can be applicable to centimeter wave in resistivity (ρ).In prior art, utilize proton cloth to plant (proton implantation) and the co-plane waveguide copline low pass filter integrated is realized on the high value silicon substrate of resistivity (ρ) for 100k Ω-cm.But co-plane waveguide (CPW) the copline low pass filter using proton cloth method for planting to be formed is still to be improved in the performance such as insertion loss and attenuation rate.

Therefore be necessary to design a kind of copline low pass filter, to overcome the problems referred to above.

Summary of the invention

The object of the invention is to the defect overcoming prior art, provide a kind of simple structure, insertion loss is low, copline low pass filter that attenuation rate is high.

The present invention is achieved in that

The invention provides a kind of copline low pass filter, comprise substrate, it has a first surface, and described first surface is provided with a signal input end mouth and a signal output end mouth of opposing spaced apart; One center conductor, it is located on the first surface of described substrate, and between described signal output end mouth and described signal input end mouth, described center conductor comprises the first end be electrically connected with described signal input end mouth, one second end be electrically connected with described signal output end mouth and a central portion; Two ground planes, it is located on the first surface of described substrate, and lays respectively at the both sides up and down of described center conductor, and each ground plane is provided with a groove at the central portion place of the described center conductor of correspondence; One first coupling line, extend through the central portion of described center conductor and be square crossing with described center conductor, described first coupling line between described two ground planes, and has two open ends, and described two open ends stretch in the groove of described two ground planes respectively; Two the second coupling lines, parallel spaced apart is arranged, and relative being positioned at the upper and lower both sides of described center conductor, described two the second coupling lines are between described two ground planes and be square crossing with described first coupling line, form a gap between each second coupling line and described center conductor; Four the 3rd coupling lines, all there is the feed side and an open end that are electrically connected with center conductor, open end and described first coupling line of each 3rd coupling line have a gap, can change the distance in described gap to adjust attenuation characteristic and the 3-dB cut-off frequency of described copline low pass filter; Described center conductor have one first distance parameter and a second distance parameter, described first distance is determined by the horizontal bending segment length of described 3rd coupling line, and described second distance is determined by open end to the spacing of described first coupling line of described 3rd coupling line; Attenuation characteristic and the 3-dB cut-off frequency of described copline low pass filter can be adjusted by changing described first distance and described second distance.

Further, described substrate is suspension board, ceramic substrate, glass substrate, glass fibre basal plate, hydrocarbon ceramic substrate, High Temperature Co Fired Ceramic, LTCC, the not imperial substrate of iron, the not imperial glass fibre basal plate of iron, the not imperial ceramic substrate of iron, silicon substrate, sige substrate or GaAs substrate.

Further, described substrate employing resistivity is the high value silicon substrate of 100k Ω-cm.

Further, each ground plane is respectively equipped with an open end stub at corresponding signal input end mouth and signal output end mouth place.

Further, the characteristic impedance value of described signal input end mouth and signal output port is 50 Ω.

Further, the coupling stub of each the 3rd coupling line all in L-type.

Further, wherein two the 3rd coupling lines lay respectively at the upper and lower both sides of first end of described center conductor, and another two the 3rd coupling lines lay respectively at the second upper and lower both sides of end of described center conductor; The open end of each the 3rd coupling line is towards the first coupling line and and form described gap between the first coupling line.

The present invention has following beneficial effect:

Two the second coupling line parallel spaced apart are arranged, and relative be positioned at the upper and lower both sides of described center conductor, described two the second coupling lines are between described two ground planes and be square crossing with described first coupling line, form a gap between each second coupling line and described center conductor; Four the 3rd coupling lines, all there is the feed side and an open end that are electrically connected with center conductor, open end and described first coupling line of each 3rd coupling line have a gap, can change the distance in described gap to adjust attenuation characteristic and the 3-dB cut-off frequency of described copline low pass filter.Copline low pass filter provided by the invention can reach the beneficial effects such as simple structure, insertion loss is low, attenuation rate is high by said structure.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The structural representation of the copline low pass filter that Fig. 1 provides for the embodiment of the present invention;

The equivalent circuit diagram of the copline low pass filter that Fig. 2 provides for the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, other embodiments all that those of ordinary skill in the art obtain under the prerequisite not making creative work, all belong to the scope of protection of the invention.

As Fig. 1, the embodiment of the present invention provides a kind of copline low pass filter 1, and the feature of described copline low pass filter 1 is that the cut-off frequency of attenuation characteristic and 3-dB is adjustable.Described copline low pass filter 1 comprises a substrate 10, and described substrate 10 has first surface 101 and a second surface 102; Described substrate 10 can be suspension board, ceramic substrate, glass substrate, glass fibre basal plate, hydrocarbon ceramic substrate, High Temperature Co Fired Ceramic, LTCC, the not imperial substrate of iron, the not imperial glass fibre basal plate of iron, the not imperial ceramic substrate of iron, silicon substrate, sige substrate or GaAs substrate etc.In this preferred embodiment, described substrate 10 adopts resistivity to be the high value silicon substrate of 100k Ω-cm.

As Fig. 1, the first surface 101 of described substrate 10 is provided with relatively separated signal input end mouth 2 and a signal output end mouth 3, for providing the feed-in of electromagnetic wave signal and feeding out; In this preferred embodiment, the characteristic impedance value of described signal input end mouth 2 and signal output port 3 is 50 Ω, but also can use other resistance value.

As Fig. 1, described copline low pass filter 1 comprises center conductor 4,1 first coupling line 5, two the second coupling lines 6 and four the 3rd coupling lines 7 further; Described center conductor 4 is located on the first surface 101 of substrate 10, and between signal input end mouth 2 and signal output end mouth 3; Center conductor 4 has first end 41,1 second end 42 and is positioned at a central portion 43 of described first end 41 and the second end 42 middle, first end 41 and the signal input end mouth 2 of center conductor 4 are electrically connected, and the second end 42 is electrically connected with signal output end mouth 3.The first surface 101 of described substrate 10 is provided with one first ground plane 81 and one second ground plane 82 of position in described center conductor about 4 both sides, and described first ground plane 81 and described second ground plane 82 form the coplanar waveguide structure of ground-signal-ground with signal input end mouth 2 and signal output end mouth 3; In this preferred embodiment, each ground plane is provided with a groove 83 at central portion 43 place of corresponding center conductor 4, and each ground plane is respectively equipped with an open end stub 84 at corresponding signal input end mouth 2 with signal output end mouth 3 place.

As Fig. 1, described first coupling line 5 extends through the central portion 43 of center conductor 4, and is that square crossing is to form parallel branch with described center conductor 4; Described first coupling line 5 is between the first ground plane 81 and described second ground plane 82, and there is one first open end 51 and one second open end 52 outside extending in, first open end 51 stretches in the groove 83 of the first ground plane 81, and the second open end 52 stretches in the groove 83 of the second ground plane 82.

As Fig. 1, described two the second coupling line 6 parallel spaced apart are arranged, and relative to described center conductor about 4 both sides.Wherein, one second coupling line 6 is between center conductor 4 and the first ground plane 81, and with the first coupling line 5 in square crossing, another second coupling line 6 is between center conductor 4 and the second ground plane 82, and with described first coupling line 5 in square crossing, each second coupling line 6 has two open ends 61 again, and each second coupling line 6 with form one between center conductor 4 and to connect gap 44.

As Fig. 1, the coupling stub of each 3rd coupling line 7 all in L-type, and there is feed side 71 and the open end 72 be electrically connected with center conductor 4; First end about 41 both sides being positioned at center conductor 4 that wherein two the 3rd coupling lines 7 are relative, the second end about 42 both sides being positioned at center conductor 4 that another two the 3rd coupling lines 7 are relative; The open end 72 of each 3rd coupling line 7 towards the first coupling line 5 and and between the first coupling line 5, there is a prepsetting gap (s1); The first distance (d1) parameter and second distance (d2) parameter is had again on center conductor 4, described first distance (d1) determined by the horizontal bending segment length of described 3rd coupling line 7 (L-type coupling stub), and described second distance (d2) determined by the spacing of the open end 72 of described 3rd coupling line 7 (L-type coupling stub) to described first coupling line 5.

As Fig. 2, described center conductor 4 and ground plane 81,82 are indivedual in order to realize series inductance and shunt capacitance; Gap 44 of connecting between center conductor 4 with the second coupling line 6 can be equivalent to series inductance L1 and L2 respectively with input/out parts 2,3; The open end stub 84 of the first coupling line 5 outside center conductor 4, the 3rd coupling line 7 of L-type and ground plane can be equivalent to shunt inductance L3 and shunt capacitance C1 respectively.The resonance series of L3 and C1 can produce the transmission zero close to passband edge, and what thus can promote this filter is only with suppression.

As Fig. 1 and 2, the copline low pass filter 1 that the embodiment of the present invention provides, can be adjusted individually the cut-off frequency of attenuation characteristic and 3-dB by two parameters such as first distance (d1) in the gap (s1) with described center conductor 4 that change described L-type coupling stub (the 3rd coupling line 7) and second distances (d2).(EM simulation) can be simulated by full-wave electromagnetic and analyze relation between each parameter and attenuation characteristic and 3-dB cut-off frequency.Concrete test analysis is as follows: when the length of described center conductor 4 is decided to be 1000 μm, gap (s1) attenuating of L-type coupling stub can produce more coupling makes electric capacity C1 promote, thus, finite frequency transmission zero can decline fast and 3-dB cut-off frequency also can edge down; When gap (s1) be 130 μm, 155 μm and 180 μm time, its transmission zero is respectively at 36GHz, 38GHz and 39GHz.Because transmission zero is produced by the resonance series of L3 and C1, make the frequency skirt section of described passband edge quite precipitous.This feature is for the conveyer of many less radio-frequencies (RF) and receiver, quite useful in the characteristic suppressing imaginary frequency and strengthen Stop band attenuation.

Below inquire into the 3-dB cut-off frequency of copline low pass filter 1 under different first distance d1 or second distance d2 that the embodiment of the present invention provides.When d1 distance be decided to be 200 μm and d 2 apart from increase time, series inductance L1 and L3 in parallel increase 3-dB cut-off frequency are declined.When d2 distance be 80 μm, 130 μm, 180 μm and 230 μm time, its 3-dB cut-off frequency is 33GHz, 31GHz, 29.4GHz and 27.9GHz respectively; Equally, when the distance of d2 is decided to be 130 μm and d1 distance increases, series inductance L1, shunt capacitance C1 and L3 in parallel increase simultaneously 3-dB cut-off frequency are declined fast.When d 1 distance be 150 μm, 200 μm, 250 μm and 300 μm time, its 3-dB cut-off frequency is 34GHz, 31GHz, 28.6.4GHz and 26.5GHz respectively.

Concrete, described copline low pass filter 1 is located at relative dielectric constant (er) 11.9, thickness is 540 μm and on the P type high value silicon substrate that resistivity (ρ) is 100k Ω-cm, described signal input end mouth 2 is 50 Ω with the characteristic impedance value of described signal output end mouth 3, the width S of center conductor 4 is 60 μm, the line of rabbet joint distance W of input and ground plane is 35 μm, the distance of s 1 is 130 μm, the distance of d 1 200 μm, and the distance of d 2 is 130 μm; In addition, equivalent electric circuit element value can be measured as via curve: L1=0.3 nH, L2=0.08 nH, L3=0.28 nH, C1=0.07 pF.Test with the copline low pass filter 1 of HP8510C network analyzer to described embodiment, the area that can obtain described copline low pass filter 1 is 1000 μm × 1300 μm, at 31GHz close to λ g/4 × λ g/3 (λ g is the guided wave lengths of centre frequency).Therefore, under identical characteristics, the copline low pass filter 1 formed according to the present invention reduces significantly than the size of existing copline low pass filter, makes its structure microminiaturization, meets industry development trend.

Emulation and the actual measurement data of copline low pass filter 1 provided by the invention frequency response show, actual measurement display cut-off frequency 31GHz, the scattering parameter (S21) of passband transmission is-0.5 ± 0.3 dB, and the scattering parameter (S 11) of reflection is-15 dB.In addition, can learn the decay having-25 dB in the transmission zero of 36GHz, display has the attenuation slope of 4.56 dB/GHz, has high sensitivity for being only with characteristic.The measurement of pass band insertion loss and 3-dB cut-off frequency with simulated the result that (EM simulation) simulate by full-wave electromagnetic and be close.The copline low pass filter 1 of the present invention be located on high value silicon substrate can be demonstrate,proved can reduce lose loss and suppress substrate noise.

In addition, the Group Velocity Delay (group delay) measured and simulate changes between 0.02-00.6 ns, and be 0.06ns in the maximum of whole passband, the Group Velocity Delay demonstrating the reflected signal of copline low pass filter 1 of the present invention is good and stable.

In sum, copline low pass filter provided by the invention can reach the beneficial effects such as simple structure, insertion loss is low, attenuation rate is high by said structure.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (7)

1. a copline low pass filter, is characterized in that, comprises substrate, and it has a first surface, and described first surface is provided with a signal input end mouth and a signal output end mouth of opposing spaced apart;

One center conductor, it is located on the first surface of described substrate, and between described signal output end mouth and described signal input end mouth, described center conductor comprises the first end be electrically connected with described signal input end mouth, one second end be electrically connected with described signal output end mouth and a central portion;

Two ground planes, it is located on the first surface of described substrate, and lays respectively at the both sides up and down of described center conductor, and each ground plane is provided with a groove at the central portion place of the described center conductor of correspondence;

One first coupling line, extend through the central portion of described center conductor and be square crossing with described center conductor, described first coupling line between described two ground planes, and has two open ends, and described two open ends stretch in the groove of described two ground planes respectively;

Two the second coupling lines, parallel spaced apart is arranged, and relative being positioned at the upper and lower both sides of described center conductor, described two the second coupling lines are between described two ground planes and be square crossing with described first coupling line, form a gap between each second coupling line and described center conductor;

Four the 3rd coupling lines, all there is the feed side and an open end that are electrically connected with center conductor, open end and described first coupling line of each 3rd coupling line have a gap, can change the distance in described gap to adjust attenuation characteristic and the 3-dB cut-off frequency of described copline low pass filter;

Described center conductor have one first distance parameter and a second distance parameter, described first distance is determined by the horizontal bending segment length of described 3rd coupling line, and described second distance is determined by open end to the spacing of described first coupling line of described 3rd coupling line; Attenuation characteristic and the 3-dB cut-off frequency of described copline low pass filter can be adjusted by changing described first distance and described second distance.

2. copline low pass filter as claimed in claim 1, is characterized in that: described substrate is suspension board, ceramic substrate, glass substrate, glass fibre basal plate, hydrocarbon ceramic substrate, High Temperature Co Fired Ceramic, LTCC, the not imperial substrate of iron, the not imperial glass fibre basal plate of iron, the not imperial ceramic substrate of iron, silicon substrate, sige substrate or GaAs substrate.

3. copline low pass filter as claimed in claim 1 or 2, is characterized in that: described substrate employing resistivity is the high value silicon substrate of 100k Ω-cm.

4. copline low pass filter as claimed in claim 1, is characterized in that: each ground plane is respectively equipped with an open end stub at corresponding signal input end mouth and signal output end mouth place.

5. copline low pass filter as claimed in claim 4, is characterized in that: the characteristic impedance value of described signal input end mouth and signal output port is 50 Ω.

6. copline low pass filter as claimed in claim 1, is characterized in that: the coupling stub of each the 3rd coupling line all in L-type.

7. the copline low pass filter as described in claim 1 or 6, it is characterized in that: wherein two the 3rd coupling lines lay respectively at the upper and lower both sides of first end of described center conductor, and another two the 3rd coupling lines lay respectively at the second upper and lower both sides of end of described center conductor; The open end of each the 3rd coupling line is towards the first coupling line and and form described gap between the first coupling line.