CN1549387A - Contact type anti-parallel hair-pin comb type wave filter for microwave communication - Google Patents
Contact type anti-parallel hair-pin comb type wave filter for microwave communication Download PDFInfo
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- CN1549387A CN1549387A CNA031298664A CN03129866A CN1549387A CN 1549387 A CN1549387 A CN 1549387A CN A031298664 A CNA031298664 A CN A031298664A CN 03129866 A CN03129866 A CN 03129866A CN 1549387 A CN1549387 A CN 1549387A
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Abstract
The present invention relates to a contact anti-parallel hairpin comb filter for microwave communication. It is characterized by that it is formed from two groups of hairpin oscillators whose directions are opposite, numbers are identical and length is semiwavelength. The input and output ends of filter are wire-adhered microstrip, the wire-adhered microstrip of the input end is connected with input regulating piece and further connected with first oscillator in filter, and the wire-adhered microstrip of the output end is connected with output regulating piece and further connected with the last oscillator in filter. Said invention filter not only can be used in plane traditional metal filter, and is more suitable for making high-temp. superconductive filter with high quality factor.
Description
(1) technical field:
The present invention relates to a kind of filter that is applicable to that microwave communication is used, the contact antiparallel barrette comb style filter that particularly a kind of microwave communication is used.
(2) background technology:
For a long time, filter is a critical elements in the microwave communication always, and it has the noise of filtration, makes communication signal function clearly.Filter according to function use low pass filter is arranged, high pass filter, band pass filter and band end filter etc. four kinds.Wherein the effect of band pass filter is to allow fixedly the signal of frequency range passes through, and will exclude than the signal of low frequency and higher-frequency part.Band pass filter especially seems important in Mobile Communications application at present, be specially adapted in the reception and emission system of base station.High-temperature superconducting thin film has very high quality factor (Q value), is the filter made from high-temperature superconducting thin film, has low-loss and high selectivity characteristics such as (upper passband edge steepness), has begun at present to be used on the receiving system of Mobile Communications base station.Use after the high temperature superconduction wave filter base station, can increase the area coverage of base station, the interference of reduction noise, improves communication quality; And can reduce the transmitting power of mobile phone, and significantly reduce the influence of electromagenetic wave radiation to human brain, reach requirements of green environmental protection.The filter that uses high-temperature superconducting thin film to make mostly is the plane formula structure, can there be multi-form structure: Fig. 1 to be typical level Four (quadravalence) band (strip line) structure comb line (comb-line) mode filter, one end ground connection (12) of oscillator (11), another termination one electric capacity (13,14) ground connection (15) again after, about input, output (16) for pasting line (tapped-line) formula, directly being attached on first and the 4th oscillator; Fig. 2 is the band pass filter of the hair clip formula oscillator (hairpin-resonator) of general type, please refer to E.G.Cristal and S.Frankel, " Hairpin-ling and Hybrid Hairpin-Line/Half-Wave Parallel-Coupled-Line Filters ", IEEEE Trams.MTT, vol.MTT-20, pp.719-728, (November 1972), in this design, on oscillator in the filter (21) direction is, down alternately by turns, this result makes very strong coupling effect between oscillator, be fit to make the filter in broadband, if be used to make narrow band filter, then filter can need sizable space; Fig. 3 is the filter construction of another kind of hair clip formula oscillator, please see for details in M.Sagawa, K.Takahashi, andM.Makimoto, " Miniaturized Hairpin Resonator Filters and theirApplication to Receiver Front-End MIC ' s ", IEEE Trams.MTT vol.37, pp.1991-1997 (December 1998), this kind design is shortened at the front end of oscillator opening (31), and produce very strong capacity effect (32), oscillator demonstrates half block shape (semilumped) character (33), promptly capacitive effects is showed in upper end (openend), and the inductive effect is showed in the lower end.
The concussion direction of this filter construction all is in the same way, in order to shorten whole oscillator length, the capacitive part of oscillator is can be quite big, inductive part can be quite little, but its quality factor (Q value) will reduce like this, simultaneously increases attenuating outside the band at the utmost point (pole) that produces oscillation effect, can't produce decay on the passband limit of can't being coupled between each oscillator (34); Fig. 4 is a kind of Hair pin comb type (Hairpin-Comb) filter, the direction of the contained oscillator of this kind filter (41) is all identical, the oscillator total length is 1/2 wavelength, and the length on tortuous two limits is then less than 1/4 wavelength (42), and the filter of this kind structure is fit to make arrowband (narrow-band) filter, be frequency range less than 1% filter center frequency, please refer to George L.Matthaei, US Patent Number5,888,942 (Mar.30,1999).
(3) summary of the invention:
The objective of the invention is to design the contact antiparallel barrette comb style filter that a kind of microwave communication is used, it is a kind of microwave band-pass filter, it is little that it has a volume, high passband selectivity, high noise suppresses ability, be easy to make bandwidth less than the narrow band filter of 1% filter center frequency and be fit to make the high-temperature superconducting thin film of apparatus high-quality-factor to make, especially be fit to use high-temperature superconducting thin film to make filter in the Mobile Communications base station receiving system.
Technical scheme of the present invention: the contact antiparallel barrette comb style filter that a kind of microwave communication is used, it is characterized in that it is that identical and length is constituted by the hair clip formula oscillator of half-wavelength by two prescriptions number in opposite, each group, the input of filter, output are for pasting the little band of line, the little band of subsides line of input is connected in first oscillator in the filter again by connecting the input trimmer, and the little band of subsides line of output is exported trimmer and is connected with last oscillator in the filter by connecting.
Identical and the length of above-mentioned said two prescriptions number in opposite, each group is that the shape of the hair clip formula oscillator of half-wavelength can identically also can have difference.
Identical and the length of above-mentioned said two prescriptions number in opposite, each group is that the distance between the hair clip formula oscillator of half-wavelength can identically also can have difference.
Identical and the length of above-mentioned said two prescriptions number in opposite, each group is that the spacing of adjacent oscillator can identically also can have different in separation pitch and its group of two groups of oscillators in the hair clip formula filter construction of half-wavelength.
The number of poles of oscillator answers one group to be the n utmost point in the oscillator group of above-mentioned said filter, and rightabout also should be the n utmost point for one group, adds up to the 2n utmost point.
The number of the oscillator in the same way in each the oscillator group in the above-mentioned said filter is at least 2.
Oscillator group in the above-mentioned said filter can be greater than 2 groups, but the direction of adjacent 2 groups of oscillators must be opposite.
The geometry and the plane sizes of the trimmer of input trimmer that the input of above-mentioned said and filter, output connect and output trimmer can change with the electrical specification of different filters.
Its turning point of hair clip formula oscillator in the above-mentioned said filter can be designed the different geometric form structure of tool fine setting effect according to need, can be rectangular-shaped, stepped, smear horn shape, fillet shape or top convex.
Above-mentioned said filter available metal film is made, and is more suitable for making the high-temperature superconducting thin film of apparatus high-quality-factor to make.
Superiority of the present invention is: 1, the coupling amount between its resonator of contact antiparallel barrette comb style filter is little, makes the narrow band filter of small size easily; 2, have good passband selectivity, promptly have very high passband edge steepness, improve the sensitivity of filter, that noise can be filtered is very clean; 3, not only available metal film making of this kind filter is more suitable for making the high-temperature superconducting thin film of apparatus high-quality-factor to make; 4, the present invention be fit to make high temperature superconduction wave filter, is applied in the various microwave communication system, not only can be used for plane conventional metals mode filter, more is applicable to the high temperature superconduction wave filter of making the tool high-quality-factor.
(4) description of drawings:
Fig. 1 is the filter of existing four polar curve structures, and output, input are that contact is pasted line structure.
Fig. 2 is the filter construction of existing typical hair clip formula oscillator, and wherein the direction of hair clip formula oscillator alternately presents rightabout.
Fig. 3 is the filter construction of the hair clip formula oscillator of existing half block shape (semilump).
Fig. 4 is existing one four utmost point Hair pin comb mode filter structure, and the direction of its hair clip formula oscillator all in the same way.
The overall structure schematic diagram of the contact antiparallel barrette comb style filter that Fig. 5 uses for the related a kind of microwave communication of the present invention.
The example structure schematic diagram of one 10 utmost point contact antiparallel barrette comb style filter of the contact antiparallel barrette comb style filter that Fig. 6 uses for the related a kind of microwave communication of the present invention.
The filter freguency response figure of the computer simulation emulation of the contact antiparallel barrette comb style filter that Fig. 7 uses for the related a kind of microwave communication of the present invention; This figure is according to Fig. 6 structure, uses the Sonnet software to calculate.
The frequency response measured drawing of the contact antiparallel barrette comb style filter embodiment of one 22 utmost point of the contact antiparallel barrette comb style filter that Fig. 8 uses for the related a kind of microwave communication of the present invention, this filter uses high-temperature superconducting thin film to make, and band is outer to be suppressed greater than 90dB; Show S11 among the figure, S22 and S21 figures.
Wherein: 11 is comb type oscillator, 12 is ground connection, 13 is capacitor C r, 14 is capacitor C r1,15 is ground connection, 16 are input, output, 21 is hair clip formula oscillator, 31 is the oscillator openend, 32 is the capacity effect structure, 33 demonstrate the structure of half block shape (semilumped) character for oscillator, 34 is each half block shape hair clip formula oscillator, 41 is the contained oscillator of all identical filter of direction, 42 is the length less than 1/2 oscillator, Cc is an electric capacity, the 51 hair clip formula oscillator groups that make progress for opening, 52 is the hair clip formula oscillator group that Open Side Down, distance between 53 oscillators that make progress for opening, 54 is the distance between the oscillator that Open Side Down, 55 is the spacing that two groups of oscillators are separated, 56 are contact input terminations, 57 is the contact output, 58 is the turning point of stepped hair clip formula oscillator, 59 is the turning point of little stepped hair clip formula oscillator, 60 is the turning point of top convex hair clip formula oscillator, 61 is adjustment sheet, 71 is little tape input end of the band pass filter of 10 utmost points (pole), 72 is little band output of the band pass filter of 10 utmost points (pole), 73 is the input adjustment sheet of the band pass filter of 10 utmost points (pole), 74 is the output adjustment sheet of the band pass filter of 10 utmost points (pole), 75 is first hair clip formula oscillator that is connected with input of the band pass filter of 10 utmost points (pole), between 75-76 five the identical hair clip formula oscillators of direction in the band pass filter of 10 utmost points (pole), between 77-78 five the opposite hair clip formula oscillators of direction in the band pass filter of 10 utmost points (pole), 78 is last hair clip formula oscillator that is connected with output of the band pass filter of 10 utmost points (pole), 80,81,82,83,84,85,86,87,88, the 89 geometric shapes adjustment of the place of turning back of each hair clip formula oscillator being done for the specification that reaches demand for the frequency response that makes filter (can comprise rectangular-shaped, stepped, smear horn shape, fillet shape or top convex etc.).
(5) embodiment:
Embodiment 1: the contact antiparallel barrette comb style filter (see figure 5) that a kind of microwave communication is used, said filter construction is made of two groups of antiparallel hair clip type oscillators, the opening of first group of hair clip type oscillator group 51 makes progress, and Open Side Down for second group of hair clip type oscillator group 52; The number of these two groups of hair clip type oscillators is identical, is n, and corresponding oscillator shape is the same, and the distance 53 between oscillator is identical with 54, but direction is opposite, as oscillator among Fig. 51 and 2n, and 2 and 2n-1 ..., n-1 and n+1; The spacing 55 of two groups of oscillator separations is different with the spacing 53 and 54 of other adjacent set internal oscillator.The external contact input terminations 56 of first oscillator 51-1, external another same structure of last oscillator 52-2n but the contact output 57 of rightabout (turning upside down).The turning point of hair clip formula oscillator is promising to make the frequency response of filter reach the specification of demand and the adjustment of geometric shapes that the place of turning back of each hair clip formula oscillator is done (can comprise rectangular-shaped, stepped, smear different geometric form structures such as horn shape, fillet shape or top convex), and this example can be little stepped 59, stepped 58 or top convex 60.Input 56 is connected in to have between first oscillator 51-1 has the adjustment sheet 61 of regulating the filter frequencies corresponding function, output 57 is connected in also to have between last oscillator 52-2n has the adjustment sheet 61 of regulating the filter frequencies corresponding function, and the shape size of adjustment sheet 61 changes along with the electrical specification of different filters.
Above-mentioned said filter can use high-temperature superconducting thin film to produce the super conductive filter that use the suitable third generation (3G) Mobile Communications base station.
Embodiment 2: the present invention's " contact antiparallel barrette comb style filter " is to use Sonnet electromagnetical analogies emulation software designed, and the Sonnet software is a kind of plane formula all-wave shape electromagnetical analogies emulation software, is published by U.S. Sonnet software company.This example is the band pass filter (seeing Fig. 6,7) of one 10 utmost point (pole), and planar structure as shown in Figure 6.The signal of this filter is with 71 to enter by the little of input, and through adjustment sheet 73, attach to first oscillator 75, first oscillator 75 is all identical to the direction of the 5th oscillator 76; The 6th oscillator 77 is identical but opposite with the direction of first to the 5th oscillator to the direction of the tenth oscillator 78; The tenth oscillator 78 outwards connects an adjustment sheet 74 again, connects output 72 at last again.Suitable geometry correction all can be done in the zone of turning back of each hair clip type oscillator (80,81,82,83,84 and 85,86,87,88,89), makes the frequency response (Fig. 7) of filter reach the specification of demand.
Embodiment 3: this example is one and uses the high-temperature superconducting thin film manufacturing to be fit to the high temperature superconduction wave filter that NodeB uses, and this filter is 22 utmost points (being made up of 22 oscillators), and the frequency response that measures at 77K (liquid-nitrogen temperature) actual amount is shown in figure eight; The waveform of this filter (frequency response) is without fine setting, and band is outer to be suppressed greater than 90dB.
Claims (10)
1, the contact antiparallel barrette comb style filter used of a kind of microwave communication, it is characterized in that it is that identical and length is constituted by the hair clip formula oscillator of half-wavelength by two prescriptions number in opposite, each group, the input of filter, output are for pasting the little band of line, the little band of subsides line of input is connected in first oscillator in the filter again by connecting the input trimmer, and the little band of subsides line of output is exported trimmer and is connected with last oscillator in the filter by connecting.
2, the contact antiparallel barrette comb style filter that said a kind of microwave communication is used according to claim 1 is characterized in that the identical and length of said two prescriptions number in opposite, each group is that the shape of the hair clip formula oscillator of half-wavelength can identically also can have difference.
3, the contact antiparallel barrette comb style filter that said a kind of microwave communication is used according to claim 1 is characterized in that the identical and length of said two prescriptions number in opposite, each group is that distance between the hair clip formula oscillator of half-wavelength can identically also can have difference.
4, the contact antiparallel barrette comb style filter that said a kind of microwave communication is used according to claim 1 is characterized in that the identical and length of said two prescriptions number in opposite, each group is that the spacing of adjacent oscillator can identically also can have different in separation pitch and its group of two groups of oscillators in the hair clip formula filter construction of half-wavelength.
5, the contact antiparallel barrette comb style filter that said a kind of microwave communication is used according to claim 1 is characterized in that the number of poles of oscillator in the oscillator group of said filter answers one group to be the n utmost point, and rightabout also should be the n utmost point for one group, adds up to the 2n utmost point.
6, the contact antiparallel barrette comb style filter that said a kind of microwave communication is used according to claim 1 is characterized in that the number of the oscillator in the same way in each the oscillator group in the said filter is at least 2.
7, the contact antiparallel barrette comb style filter that said a kind of microwave communication is used according to claim 1 is characterized in that the oscillator group in the said filter can be greater than 2 groups, but the direction of adjacent 2 groups of oscillators must be opposite.
8, the contact antiparallel barrette comb style filter that said a kind of microwave communication is used according to claim 1 is characterized in that the geometry and the plane sizes of the trimmer of the input of said and filter, input trimmer that output connects and output trimmer can change with the electrical specification of different filters.
9, the contact antiparallel barrette comb style filter that said a kind of microwave communication is used according to claim 1, it is characterized in that its turning point of hair clip formula oscillator in the said filter can design the different geometric form structure of tool fine setting effect according to need, can be rectangular-shaped, stepped, smear horn shape, fillet shape or top convex.
10, the contact antiparallel barrette comb style filter that said a kind of microwave communication is used according to claim 1 is characterized in that said filter available metal film making, is more suitable for making the high-temperature superconducting thin film of apparatus high-quality-factor to make.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB031298664A CN100370651C (en) | 2003-05-21 | 2003-05-21 | Contact type anti-parallel hair-pin comb type wave filter for microwave communication |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB031298664A CN100370651C (en) | 2003-05-21 | 2003-05-21 | Contact type anti-parallel hair-pin comb type wave filter for microwave communication |
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| CN1549387A true CN1549387A (en) | 2004-11-24 |
| CN100370651C CN100370651C (en) | 2008-02-20 |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101764276A (en) * | 2009-11-16 | 2010-06-30 | 南京邮电大学 | Quarter-wave resonant cavity band-pass filter of micro-strip coplanar waveguide composite structure |
| CN101656342B (en) * | 2008-08-19 | 2012-09-05 | 启碁科技股份有限公司 | Hairpin-line bandpass filter and related frequency demultiplier thereof |
| CN114824699A (en) * | 2022-04-22 | 2022-07-29 | 成都威频科技有限公司 | Capacitor and inductor loading hybrid resonant thin-film filter |
Family Cites Families (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| FR2613557A1 (en) * | 1987-03-31 | 1988-10-07 | Thomson Csf | FILTER COMPRISING CONSTANT DISTRIBUTED ELEMENTS ASSOCIATING TWO TYPES OF COUPLING |
| GB2260651B (en) * | 1988-08-04 | 1993-06-30 | Matsushita Electric Ind Co Ltd | A resonator and a filter including the same |
| US5888942A (en) * | 1996-06-17 | 1999-03-30 | Superconductor Technologies, Inc. | Tunable microwave hairpin-comb superconductive filters for narrow-band applications |
| CN2626140Y (en) * | 2003-05-21 | 2004-07-14 | 海泰超导通讯科技(天津)有限公司 | Contact type antiparallel barrette comb style filter for microwave communication |
-
2003
- 2003-05-21 CN CNB031298664A patent/CN100370651C/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101656342B (en) * | 2008-08-19 | 2012-09-05 | 启碁科技股份有限公司 | Hairpin-line bandpass filter and related frequency demultiplier thereof |
| CN101764276A (en) * | 2009-11-16 | 2010-06-30 | 南京邮电大学 | Quarter-wave resonant cavity band-pass filter of micro-strip coplanar waveguide composite structure |
| CN114824699A (en) * | 2022-04-22 | 2022-07-29 | 成都威频科技有限公司 | Capacitor and inductor loading hybrid resonant thin-film filter |
| CN114824699B (en) * | 2022-04-22 | 2023-06-27 | 成都威频科技有限公司 | Capacitive-inductive loading hybrid resonant thin film filter |
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