CN204067535U - A kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit - Google Patents

Abstract

The utility model discloses a kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit, comprises three half-wave resonator and floor, is distributed on 14 layers of conductor layer respectively, needs the part connected to be connected by metallization via hole; First, fourth, seven, 11,14 layers is floor, second and third, five, six, eight, nine, ten, 12,13 layers be the layer at half-wave resonator place; By regulating the coupling unit of three half-wave resonator, namely seven, eight, nine, ten, the length of eleventh floor circuit and the spacing between them, the stiffness of coupling of resonator open end can be changed, thus change the coupling between half-wave resonator; In addition, change the position of drawing port, the quality factor of circuit can be affected; The LTCC technique that the utility model adopts comprises sandwich construction, and greatly reduce the size of filtering Ba Lun, existing novelty and creativeness, do not lose practicality again.

Description

A kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit

Technical field

The utility model relates to the Ba Lun filter that can be applicable in radio-frequency (RF) front-end circuit, is specifically related to a kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit to form.

Background technology

Along with the continuous renewal of Modern Communication System is regenerated, the develop rapidly radio frequency front-end circuit components and parts of wireless communication technology propose stricter requirement, high-performance, and miniaturized, low cost etc. become the important indicator evaluating components and parts now.

Ba Lun is a kind of indispensable radio frequency front-end devices, the Balanced or unbalanced conversion in it is widely used in mixing, amplification circuit of Denging.In a lot of circuit application, the screening that Ba Lun needs connection filter to be used as signal, necessarily increase the cost of circuit like this, volume and complexity, so in order to the cost that reduces communication system and reduced volume, the performance of Ba Lun and filter is incorporated in a circuit just necessary.In recent years, increasing method is suggested design filtering Ba Lun.First, can Ba Lun and filter two circuit circuit integrated by matching internal be a filtering Ba Lun, this is the simplest method; But the circuit topological structure more complicated obtained like this, volume is also larger comparatively speaking.Then another kind of method is exactly the function realizing Ba Lun on band pass filter, this method is the use of constrained input port phase unbalance response, the circuit topological structure obtained like this is fairly simple, but this needs some specific filter constructions to realize, and does not have general method for designing.In addition, four port networks of some high degree of symmetry are also had also to be used for realizing the characteristic of filtering Ba Lun.And the filtering Ba Lun based on resonator realization adopted in the utility model is the Ba Lun effect realized by the phase characteristic of resonator itself, utilizes the characteristic that half-wave resonator two open end constant amplitude is anti-phase, make have 180 between two filter networks ^ophase difference, form filtering Ba Lun.

In order to obtain the filtering Ba Lun described in above method, various technology has been used to make circuit, such as waveguide, cavity, printed circuit board etc., although filtering Ba Lun service behaviour can be guaranteed, the complexity of structure makes the radio-frequency devices volume that finally obtains often larger, is unfavorable for widely using in practice.

Utility model content

In order to overcome the design contradiction between the miniaturization of above-mentioned radio-frequency devices and complex structure, the utility model provides a kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit to form.This filtering Ba Lun adopts LTCC Technology, i.e. LTCC technology, greatly reduces the volume of device.The filtering Ba Lun of LTCC sandwich construction, except having miniaturization, light-weighted advantage, also has cost low, is conducive to batch production, good high frequency performance, the little feature waiting conventional microstrip filtering Ba Lun not have of Insertion Loss.

The purpose of this utility model adopts following technical scheme to realize:

Adopt a LTCC filtering Ba Lun for two-way inverse filtering circuit, circuit is LTCC sandwich construction, is made up of 13 layers of medium substrate, 14 layers of conductor layer and 13 metallization via holes; 13 layers of described medium substrate are LTCC ceramic dielectric substrate, from bottom to top stacked above one another; 14 layers of conductor layer all adopt conductive copper as raw material, and using LTCC typography to be printed on the surface of medium substrate: between the first conductor layer and the second conductor layer, the thickness of medium substrate is 0.05mm ~ 0.15mm, the thickness of the second conductor layer and the 3rd conductor layer medium substrate is 0.15mm ~ 0.25mm, the thickness of the 3rd conductor layer and the 4th conductor layer medium substrate is 0.05mm ~ 0.15mm, between 4th conductor layer and the 5th conductor layer, the thickness of medium substrate is 0.05 ~ mm to 0.15mm, between 5th conductor layer and the 6th conductor layer, the thickness of medium substrate is 0.15mm ~ 0.25mm, between 6th conductor layer and the 7th conductor layer, the thickness of medium substrate is 0.05mm ~ 0.15mm, the thickness of two layer medium substrate that has of the 7th conductor layer and the 8th conductor layer is 0.15mm ~ 0.25mm, between 8th conductor layer and the 9th conductor layer, the thickness of medium substrate is 0.05mm ~ 0.15mm, between 9th conductor layer and the tenth conductor layer, the thickness of medium substrate is 0.05mm ~ 0.15mm, between tenth conductor layer and the 11 conductor layer, the thickness of medium substrate is 0.15mm ~ 0.25mm, between 11 conductor layer and the 12 conductor layer, the thickness of medium substrate is 0.05mm ~ 0.15mm, between 12 conductor layer and the 13 conductor layer, the thickness of medium substrate is 0.15mm ~ 0.25mm, between 13 conductor layer and the 14 conductor layer, the thickness of medium substrate is 0.05mm ~ 0.15mm.

Above-mentioned a kind ofly adopt in the LTCC filtering Ba Lun of two-way inverse filtering circuit, constitute three half-wave resonator by the second conductor layer, the 3rd conductor layer, the 5th conductor layer, the 6th conductor layer, the 8th conductor layer, the 9th conductor layer, the tenth conductor layer, the 12 conductor layer, the 13 conductor layer; Second conductor layer is made up of the first strip line, and the two ends of the first strip line are respectively the 4th end and five terminal; 3rd conductor layer by two articles be centrosymmetric place the second strip line and the 3rd strip line form, the two ends of the second strip line are respectively the 7th end and the 8th end, and two sections of the 3rd strip line are respectively the 9th end and the tenth end; 5th conductor layer is made up of the 4th strip line, and the two ends of the 4th strip line are respectively the tenth one end and the 12 end; 6th conductor layer by two articles be centrosymmetric place the 5th strip line and the 6th strip line form, the two ends of the 5th strip line are respectively the 13 end and the 14 end, and two sections of the 6th strip line are respectively the tenth five terminal and the 16 end; 8th conductor layer by two articles be centrosymmetric place the 7th strip line and the 8th strip line form, the two ends of the 7th strip line are respectively the 17 end and the 18 end, and the two ends of the 8th strip line are respectively the 19 end and the 20 end; 9th conductor layer by two articles be centrosymmetric place the 9th strip line and the tenth strip line form, the two ends of the 9th strip line are respectively the 20 one end and the 22 end, and the two ends of the tenth strip line are respectively the 23 end and the 24 end; The 11 strip line that tenth conductor layer is placed by two articles of Central Symmetries and the 12 strip line are formed, and the two ends of the 11 strip line are respectively the 20 five terminal and the 26 end, and the two ends of the 12 strip line are respectively the 27 end and the 28 end; 12 conductor layer by two articles be centrosymmetric place the 13 strip line and the 14 strip line form, the two ends of the 13 strip line are respectively the 29 end and the 30 end, and the two ends of the 14 strip line are respectively the 30 one end and the 32 end; 13 conductor layer is made up of the 15 strip line, and the two ends of the 15 strip line are respectively the 33 end and the 34 end; Have two sections of independently extended lines at the first conductor layer and the 6th conductor layer, its port is respectively the 30 five terminal, the 36 end; The 5th described conductor layer, the 6th conductor layer and the 9th conductor layer constitute first half-wave resonator; Second conductor layer, the 3rd conductor layer and the 8th conductor layer constitute second half-wave resonator; Tenth conductor layer, the 12 conductor layer and the 13 conductor layer constitute the 3rd half-wave resonator; First half-wave resonator is coupled with second, third half-wave resonator respectively, thus forms two filter networks.

Above-mentioned a kind ofly adopt in the LTCC filtering Ba Lun of two-way inverse filtering circuit, draw at the first strip line near the position of the 4th end and extend upwardly to the 6th conductor layer and drawn the second port again, drawn the 3rd port at the 15 strip line near the position of the 34 end, these two ports are all as load port of the present utility model; The first port has been drawn near the position of the 12 end, as source port of the present utility model at the 4th strip line of the 5th conductor layer.

Above-mentioned a kind ofly to adopt in the LTCC filtering Ba Lun of two-way inverse filtering circuit, use the first conductor layer, the 4th conductor layer, the 7th conductor layer and the 11 conductor layer, the 14 conductor layer as the floor of described three half-wave resonator; First conductor layer is the first floor of one piece of rectangle, 4th conductor layer is the second floor of one piece of rectangle, respectively as the floor of the second conductor layer and the 3rd conductor layer, change Distance geometry the 3rd conductor layer of the first conductor layer and the second conductor layer and the distance of the 4th conductor layer, just can change the impedance operator of second and third strip line in the first strip line and the 3rd conductor layer in the second conductor layer; 7th conductor layer is the 3rd floor of one piece of rectangle, with the floor of the 4th conductor layer respectively as the 5th conductor layer and the 6th conductor layer, change Distance geometry the 6th conductor layer of the 4th conductor layer and the 5th conductor layer and the distance of the 7th conductor layer, just to change in the 5th conductor layer in the 4th strip line and the 6th conductor layer the 5th, the impedance operator of six strip lines; 11 conductor layer is the 4th floor of one piece of rectangle, with the 7th conductor layer as the 8th, nine, the floor of ten conductor layers, the distance changing the 7th conductor layer and the 11 conductor layer and their intermediate circuit just can change the 7th strip line and the 8th strip line in the 8th conductor layer, the impedance of the 11 strip line and the 12 strip line in 9th strip line and the tenth strip line, the tenth conductor layer in 9th conductor layer, thus change the broadside coupled intensity of the 8th conductor layer and the tenth conductor layer and the 9th conductor layer; 14 conductor layer is the 5th floor of one piece of rectangle, with the floor of the 11 conductor layer respectively as the 12 conductor layer and the 13 conductor layer, change the 11 conductor layer and Distance geometry the 13 conductor layer of the 12 conductor layer and the distance of the 14 conductor layer, just can change the impedance operator of the 15 strip line in the 13 strip line and 14 strip lines and the 13 conductor layer in the 12 conductor layer; 4th conductor layer is the second floor, has three perforates above, is respectively the first perforate, the second perforate, the 3rd perforate, and has the first fluting and the second fluting in the side of the 4th conductor layer; 7th conductor layer is the 3rd floor, has four perforates above, is respectively the 4th perforate, the 5th perforate, the 6th perforate, the 7th perforate, and has the 4th fluting and the 5th fluting respectively in two sides of the 7th conductor layer; 11 conductor layer is the 4th floor, has two perforates above, be respectively the 8th perforate, the 9th perforate and have respectively in three sides of the 11 conductor layer the 6th fluting, the 7th fluting, the 8th fluting.

Above-mentioned a kind ofly adopt in the LTCC filtering Ba Lun of two-way inverse filtering circuit, adopt 13 through holes to achieve connection between conductor layer and conductor layer: the first through hole connects the 30 five terminal and the 36 end, middle through the first perforate; Second through hole connects the 4th end and the 8th end; Third through-hole connects five terminal and the 9th end; Fourth hole connects the 7th end and the 17 end, middle through the second perforate, the 4th perforate; Fifth hole connects the tenth end and the 19 end, middle through the 3rd perforate and the 6th perforate; 6th through hole connects the tenth one end and the 14 end; 7th through hole connects the 12 end and the tenth five terminal; 8th through hole connects the 13 end and the 20 one end, middle through the 5th perforate; 9th through hole connects the 16 end and the 23 end, middle through the 7th perforate; Tenth through hole connects the 20 five terminal and the 29 end, middle through the 8th perforate; 11 through hole connects the 27 end and the 32 end, middle through the 9th perforate; 12 through hole connects the 30 end and the 33 end, middle through the tenth perforate; 12 through hole connects the 30 end and the 33 end; 13 through hole connects the 30 end and the 33 end.

Above-mentioned a kind ofly adopt in the LTCC filtering Ba Lun of two-way inverse filtering circuit, whole device comprises the half-wave resonator that structure that 14 layers of described conductor layer, 18 layers of medium substrate and 13 through holes form forms three structural similarities.

Compared with prior art, the utility model has the following advantages:

1. the utility model have employed half-wave resonator, compare traditional half-wave resonator Ba Lun filter, the utility model have employed the manufacture of LTCC multi-layer structure process, a resonator can be shared for two other resonator, reduce the size of circuit structure; And because the utility model uses the manufacture technics of sandwich construction, make circuit can be distributed in the different layers of medium, add the flexibility of circuit design, make the structure of Ba Lun filter compacter further simultaneously; Above characteristic significantly decreases the volume of filter, and the length of the utility model size is only 5.4mm, 4.1mm, 1.8mm respectively;

2. a kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit described in the utility model, because three resonators are structurally similar with the height in layout, makes emulation and debugging efforts become very easy; And in performance, the roll effect of two outputs in passband is very consistent.And two output port signal phases are cause due to the difference of port position on the contrary; In layout, an independent resonator is placed in the centre on two-layer ground, has effectively intercepted coupling unnecessary between two resonators; In addition, the coupling unit of three resonators is placed on separately the centre on two-layer ground, efficiently avoid the interference of other parts for coupling unit of resonator; In the utility model, the asymmetric part of resonator, can finely tune circuit performance, and adds the degree of freedom of design.

Accompanying drawing explanation

Fig. 1 is stereochemical structure layering schematic diagram of the present utility model;

Fig. 2 is the first conductor layer schematic top plan view of the present utility model;

Fig. 3 is the second conductor layer schematic top plan view of the present utility model;

Fig. 4 is the 3rd conductor layer schematic top plan view of the present utility model;

Fig. 5 is the 4th conductor layer schematic top plan view of the present utility model;

Fig. 6 is the 5th conductor layer schematic top plan view of the present utility model;

Fig. 7 is the 6th conductor layer schematic top plan view of the present utility model;

Fig. 8 is the 7th conductor layer schematic top plan view of the present utility model;

Fig. 9 is the 8th conductor layer schematic top plan view of the present utility model;

Figure 10 is the 9th conductor layer schematic top plan view of the present utility model;

Figure 11 is the tenth conductor layer schematic top plan view of the present utility model;

Figure 12 is the 11 conductor layer schematic top plan view of the present utility model;

Figure 13 is the 12 conductor layer schematic top plan view of the present utility model;

Figure 14 is the 13 conductor layer schematic top plan view of the present utility model;

Figure 15 is the 14 conductor layer schematic top plan view of the present utility model;

Figure 16, Figure 17 are amplitude and the phase difference figure of the frequency response characteristic of Ba Lun filter examples of the present utility model.

Embodiment

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, below the accompanying drawing used required in describing the present embodiment is briefly introduced.Accompanying drawing in the following describes is only embodiments more of the present utility model, for the person of ordinary skill of the art, under the prerequisite not paying creative work, can also obtain other accompanying drawings according to these accompanying drawings.

As shown in Figure 1, adopt the LTCC filtering Ba Lun of two-way inverse filtering circuit, circuit is LTCC sandwich construction, is made up of 18 layers of medium substrate, 14 layers of conductor layer and 13 metallization via holes, 18 layers of described medium substrate are LTCC ceramic dielectric substrate, from bottom to top stacked above one another, are respectively the first to the 18 medium substrate, 14 layers of conductor layer all adopt conductive copper as raw material, and using LTCC typography to be printed on the surface of medium substrate: the first conductor layer and the second conductor layer are at a distance of 0.1mm(i.e. dielectric substrate thickness between the two, lower same), second conductor layer and the 3rd conductor layer are at a distance of 0.2mm, 3rd conductor layer and the 4th conductor layer are at a distance of 0.1mm, 4th conductor layer and the 5th conductor layer are at a distance of 0.1mm, 5th conductor layer and the 6th conductor layer are at a distance of 0.2mm, 6th conductor layer and the 7th conductor layer are at a distance of 0.1mm, 7th conductor layer and the 8th conductor layer are at a distance of 0.2mm, 8th conductor layer and the 9th conductor layer are at a distance of 0.1mm, 9th conductor layer and the tenth conductor layer are at a distance of 0.1mm, tenth conductor layer and the 11 conductor layer are at a distance of 0.2mm.11 conductor layer and the 12 conductor layer are at a distance of 0.1mm, and the 12 conductor layer and the 13 conductor layer are at a distance of 0.2mm, and the 13 conductor layer and the 14 conductor layer are at a distance of 0.1mm.

As depicted in figs. 1 and 2, the first conductor layer 1 is the first floor of one piece of rectangle.

As shown in figures 1 and 3, the second conductor layer 2 is made up of the first strip line 211, and the two ends of the first strip line are respectively the 4th end 202 and five terminal 203, draws near the position of the 4th end 202 at the first strip line 211.

As shown in Figure 1 and Figure 4,3rd conductor layer 3 is bent into n shape by two articles and the second strip line 311 of symmetrical placement and the 3rd strip line 312 are formed, the two ends of the second strip line 311 are respectively the 7th end 301 and the 8th end the 302, three strip line 312 two sections and are respectively the 9th end 303 and the tenth end 304.

As shown in Figure 1 and Figure 5, the 4th conductor layer is the second floor of one piece of rectangle, has three perforates above, is respectively the first perforate 401, second perforate 402, the 3rd perforate 403, and has the first fluting 404 and the second fluting 405 in the side of the 4th conductor layer 4.

As shown in figures 1 to 6, the 5th conductor layer 5 is made up of the 4th strip line 511, and the two ends of the 4th strip line 511 are respectively the tenth one end the 501 and the 12 end 502.

As shown in Figure 1 and Figure 7,6th conductor layer 6 is bent into n shape by two articles and the 5th strip line 612 of symmetrical placement and the 6th strip line 613 are formed, the two ends of the 5th strip line 612 are respectively the 13 end the 602 and the 14 end 603, and two sections of the 6th strip line 613 are respectively the tenth five terminal the 604 and the 16 end 605.

As illustrated in figures 1 and 8,7th conductor layer is the 3rd floor, there are four perforates above, are respectively the 4th perforate 701, the 5th perforate 702, the 6th perforate 703, the 7th perforate 704, and have the 4th fluting 705 and the 5th fluting 706 in two sides of the 7th conductor layer 7 respectively.

As shown in Fig. 1 and Fig. 9,8th conductor layer 8 bends by two articles and the 7th strip line 803 of the placement that is centrosymmetric and the 8th strip line 804 are formed, the two ends of the 7th strip line 803 are respectively the 17 end the 801 and the 18 end 805, and the two ends of the 8th strip line 804 are respectively the 19 end the 802 and the 20 end 806.

As shown in Fig. 1 and Figure 10,9th conductor layer 9 by two articles be centrosymmetric place the 9th strip line 903 and the tenth strip line 904 form, the two ends of the 9th strip line 903 are respectively the 20 one end the 901 and the 22 end 905, and the two ends of the tenth strip line 904 are respectively the 23 end the 902 and the 24 end 906.

As shown in Fig. 1 and Figure 11, tenth conductor layer 10 bends by two articles and the 11 strip line the 1003 and the 12 strip line 1004 placed that is centrosymmetric is formed, the two ends of the 11 strip line 1003 are respectively the 20 five terminal the 1001 and the 26 end 1005, and the two ends of the 12 strip line 1004 are respectively the 27 end the 1002 and the 28 end 1006.

As shown in figs. 1 and 12,11 conductor layer is the 4th floor, have two perforates above, be respectively the 8th perforate 1102, the 9th perforate 1104 and have respectively in three sides of the 11 conductor layer 11 the 6th fluting the 1101, the 7th fluting the 1103, the 8th fluting 1105.

As shown in Fig. 1 and Figure 13,12 conductor layer 12 is bent into n shape by two articles and the 13 strip line the 1205 and the 14 strip line 1206 of symmetrical placement is formed, the two ends of the 13 strip line 1205 are respectively the 29 end the 1201 and the 30 end 1202, and two sections of the 14 strip line (1206) are respectively the 30 one end the 1203 and the 32 end 1204;

As shown in Fig. 1 and Figure 14, the 13 conductor layer 13 is made up of the 15 strip line 1303, and the two ends of the 15 strip line 1303 are respectively the 33 end the 1301 and the 34 end 1302; Have two sections of independently extended lines at the first conductor layer and the 6th conductor layer, its port is respectively the 30 five terminal the 201, the 36 end 601.

As shown in Fig. 1 and Figure 15, the 14 conductor layer 14 is the 5th floor of one piece of rectangle;

In the present embodiment, passband central frequency is determined by half-wave resonator length, and the filter network that the filtering characteristic of two output ports is formed by half-wave resonator respectively obtains, and output reversed nature is determined by the characteristic that half-wavelength two open end constant amplitude is anti-phase.

As an example, below the parameters of the present embodiment is described below:

As shown in Fig. 2 to Figure 14, L ₁and L ₂be respectively the length on the first floor and wide, L ₁equal 4.1mm, L ₂equal 5.4mm; The length L of the first strip line ₃equal 8.1mm, the width that port connects pad is W ₁equal 0.3mm, the width of strip line is W ₂equal 0.2mm, the length of side of square standard soldering board is W ₃equal 0.4mm, the length of the second strip line and the length L of the 3rd strip line ₃equal, L ₄equal 3.84mm; The length of side of the square hole that floor is opened is W ₄equal 0.4mm, the length of the groove opened is W ₅equal 1.4mm, width is W ₆equal 0.2mm, the opening be connected with groove W equal to the length of side of square hole ₇equal W ₄equal 0.4mm; The length L of the 4th strip line ₅equal 8.1mm, the length L of port one ₆equal 0.8mm, the distance S of port and strip line bottom ₁equal 0.05mm; The length of the 5th strip line and the 6th strip line is equal, L ₇equal 4.6mm; The length L of the second port lead-out wire ₈equal 0.2mm, the slot length that the 3rd floor is opened is W ₈equal 0.9mm; The coupling unit length L of the 7th strip line ₉equal 1.6mm, L ₁₀equal 1.2mm, connecting line width W ₉equal 0.24mm, coupling line width W ₁₀equal 0.2mm, coupling line is apart from the distance S of pad upper end ₂equal 0.15mm; 8th strip line and the 7th strip line measure-alike; 9th strip line and the equal L of the tenth strip line size ₁₁equal 3.05mm, with the distance S of pad upper end ₃equal 0.1mm; 11 strip line and the 12 strip line measure-alike, coupling unit length is respectively L ₁₂equal 0.6mm, L ₁₃equal 2.2mm, connecting line width W ₁₁equal 0.24mm, coupling line is apart from the distance S of pad upper end ₄equal 0.05mm; 13 strip line and the 14 strip line measure-alike, length is L ₁₄equal 4.4mm; The length L of the 15 strip line ₁₅equal 8.1mm, port 3 length of lead-out wire L ₁₆equal 0.7mm; The width that strip line described in present case adopts is 0.2mm; The thickness of every layer of medium substrate is 0.1mm, and what conductor layer adopted is that material made by argent, and medium substrate is pottery, and relative dielectric Changshu Er is 5.9, and Dielectric loss tangent tan is 0.002, and whole device volume is 5.4mm*4.1mm*1.6mm.Test result, as shown in Figure 16,17, comprises four curve S in figure ₁₁, S ₂₁, S ₃₁, and S ₂₁and S ₃₁phase difference, this filter works in 2.45G, and minimum insertion loss is 5.15dB, and in passband, return loss is about 19dB, one tunnel abuts against passband upper side frequency and passband lower side frequency respectively has a transmission zero, and the suppression level of another road passband upper side frequency and passband lower side frequency is all below-30dB.The phase difference of other two outputs is about 183 °, and error is less than 2 °; Visible, this filter has extraordinary filtering characteristic and reverse characteristic.

To sum up, the utility model provides a kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit, there is volume little, Insertion Loss is little, good wave filtering effect, the excellent properties that reversed nature is good, can be processed as surface mount elements, be easy to integrated with other circuit modules, can be widely used in the radio-frequency front-end of wireless communication system.

Embodiment described above is a good embodiment in the utility model, not in order to limit the utility model.Based on embodiment of the present utility model; those of ordinary skill in the art, under the prerequisite not making creative work, based on any amendment that the utility model makes, are equal to and replace; improve other embodiments obtained, all belong to the protection range of the utility model embodiment.

Claims (5)

1. adopt a LTCC filtering Ba Lun for two-way inverse filtering circuit, it is characterized in that: this LTCC filtering Ba Lun is LTCC sandwich construction, be made up of 13 layers of medium substrate, 14 layers of conductor layer and 13 metallization via holes; 13 layers of described medium substrate are LTCC ceramic dielectric substrate, from bottom to top stacked above one another; 14 layers of conductor layer all adopt conductive copper as raw material, and using LTCC typography to be printed on the surface of medium substrate: between the first conductor layer (1) and the second conductor layer (2), the thickness of medium substrate is 0.05mm ~ 0.15mm, second conductor layer (2) is 0.15mm ~ 0.25mm with the thickness of the 3rd conductor layer (3) medium substrate, 3rd conductor layer (3) is 0.05mm ~ 0.15mm with the thickness of the 4th conductor layer (4) medium substrate, between 4th conductor layer (4) and the 5th conductor layer (5), the thickness of medium substrate is 0.05 ~ mm to 0.15mm, between 5th conductor layer (5) and the 6th conductor layer (6), the thickness of medium substrate is 0.15mm ~ 0.25mm, between 6th conductor layer (6) and the 7th conductor layer (7), the thickness of medium substrate is 0.05mm ~ 0.15mm, 7th conductor layer (7) is 0.15mm ~ 0.25mm with the thickness of two layer medium substrate that has of the 8th conductor layer (8), between 8th conductor layer (8) and the 9th conductor layer (9), the thickness of medium substrate is 0.05mm ~ 0.15mm, between 9th conductor layer (9) and the tenth conductor layer (10), the thickness of medium substrate is 0.05mm ~ 0.15mm, between tenth conductor layer (10) and the 11 conductor layer (11), the thickness of medium substrate is 0.15mm ~ 0.25mm, between 11 conductor layer (11) and the 12 conductor layer (12), the thickness of medium substrate is 0.05mm ~ 0.15mm, between 12 conductor layer (12) and the 13 conductor layer (13), the thickness of medium substrate is 0.15mm ~ 0.25mm, between 13 conductor layer (13) and the 14 conductor layer (14), the thickness of medium substrate is 0.05mm ~ 0.15mm.

2. a kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit according to claim 1, is characterized in that: constitute three half-wave resonator by the second conductor layer (2), the 3rd conductor layer (3), the 5th conductor layer (5), the 6th conductor layer (6), the 8th conductor layer (8), the 9th conductor layer (9), the tenth conductor layer (10), the 12 conductor layer (12) and the 13 conductor layer (13); Second conductor layer (2) is made up of the first strip line (211), and the two ends of the first strip line (211) are respectively the 4th end (202) and five terminal (203); 3rd conductor layer (3) by two articles be centrosymmetric place the second strip line (311) and the 3rd strip line (312) form, the two ends of the second strip line (311) are respectively the 7th end (301) and the 8th end (302), and the two ends of the 3rd strip line (312) are respectively the 9th end (303) and the tenth end (304); 5th conductor layer (5) is made up of the 4th strip line (511), and the two ends of the 4th strip line (511) are respectively the tenth one end (501) and the 12 end (502); 6th conductor layer (6) by two articles be centrosymmetric place the 5th strip line (612) and the 6th strip line (613) form, the two ends of the 5th strip line (612) are respectively the 13 end (602) and the 14 end (603), and the two ends of the 6th strip line (613) are respectively the tenth five terminal (604) and the 16 end (605); 8th conductor layer (8) by two articles be centrosymmetric place the 7th strip line (803) and the 8th strip line (804) form, the two ends of the 7th strip line (803) are respectively the 17 end (801) and the 18 end (805), and the two ends of the 8th strip line (804) are respectively the 19 end (802) and the 20 end (806); 9th conductor layer (9) by two articles be centrosymmetric place the 9th strip line (903) and the tenth strip line (904) form, the two ends of the 9th strip line (903) are respectively the 20 one end (901) and the 22 end (905), and the two ends of the tenth strip line (904) are respectively the 23 end (902) and the 24 end (906); Tenth conductor layer (10) by two articles be centrosymmetric place the 11 strip line (1003) and the 12 strip line (1004) form, the two ends of the 11 strip line (1003) are respectively the 20 five terminal (1001) and the 26 end (1005), and the two ends of the 12 strip line (1004) are respectively the 27 end (1002) and the 28 end (1006); 12 conductor layer (12) by two articles be centrosymmetric place the 13 strip line (1205) and the 14 strip line (1206) form, the two ends of the 13 strip line (1205) are respectively the 29 end (1201) and the 30 end (1202), and the two ends of the 14 strip line (1206) are respectively the 30 one end (1203) and the 32 end (1204); 13 conductor layer (13) is made up of the 15 strip line (1303), and the two ends of the 15 strip line (1303) are respectively the 33 end (1301) and the 34 end (1302); Have two sections of independently extended lines at the first conductor layer and the 6th conductor layer, its port is respectively the 30 five terminal (201), the 36 end (601); The 5th described conductor layer (5), the 6th conductor layer (6) and the 9th conductor layer (9) constitute first half-wave resonator; Second conductor layer (2), the 3rd conductor layer (3) and the 8th conductor layer (8) constitute second half-wave resonator; Tenth conductor layer (10), the 12 conductor layer (12) and the 13 conductor layer (13) constitute the 3rd half-wave resonator.

3. a kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit according to claim 1, it is characterized in that: draw at the position of close 4th end (202) of the first strip line (211) and extend upwardly to the 6th conductor layer and drawn the second port (611) again, drawn the 3rd port (1304) at the 15 strip line (1303) near the position of the 34 end, these two ports are all as the load port of the LTCC filtering Ba Lun of described employing two-way inverse filtering circuit; The first port (512) has been drawn, as the source port of the LTCC filtering Ba Lun of described employing two-way inverse filtering circuit near the position of the 12 end (502) at the 4th strip line (511) of the 5th conductor layer (5).

4. a kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit according to claim 1, is characterized in that: use the first conductor layer (1), the 4th conductor layer (4), the 7th conductor layer (7) and the 11 conductor layer (11), the 14 conductor layer (14) as the floor of described three half-wave resonator; First conductor layer (1) is the first floor of one piece of rectangle; 4th conductor layer is the second floor, there are three perforates above, be respectively the first perforate (401), second perforate (402), the 3rd perforate (403), and the first fluting (404) and the second fluting (405) is had in the side of the 4th conductor layer (4); 7th conductor layer (7) is the 3rd floor, there are four perforates above, be respectively the 4th perforate (701), the 5th perforate (702), the 6th perforate (703), the 7th perforate (704), and have the 4th fluting (705) and the 5th fluting (706) in two sides of the 7th conductor layer (7) respectively; 11 conductor layer is the 4th floor, have two perforates above, be respectively the 8th perforate (1102), the 9th perforate (1104) and have respectively in three sides of the 11 conductor layer (11) the 6th fluting (1101), the 7th fluting (1103), the 8th fluting (1105); 14 conductor layer (14) is the 5th floor of one piece of rectangle.

5. a kind of LTCC filtering Ba Lun adopting two-way inverse filtering circuit according to claim 2, it is characterized in that: adopt 13 through holes to achieve connection between conductor layer and conductor layer: the first through hole (21) connects the 30 five terminal (201) and the 36 end (601), middlely pass the first perforate (401); Second through hole (22) connects the 4th end (202) and the 8th end (302); Third through-hole (23) connects five terminal (203) and the 9th end (303); Fourth hole (24) connects the 7th end (301) and the 17 end (801), middle through the second perforate (402), the 4th perforate (701); Fifth hole (25) connects the tenth end (304) and the 19 end (802), middle through the 3rd perforate (403) and the 6th perforate (703); 6th through hole (26) connects the tenth one end (501) and the 14 end (603); 7th through hole (27) connects the 12 end (502) and the tenth five terminal (604); 8th through hole (28) connects the 13 end (602) and the 20 one end (901), middle through the 5th perforate (702); 9th through hole (29) connects the 16 end (605) and the 23 end (902), middle through the 7th perforate (704); Tenth through hole (30) connects the 20 five terminal (1001) and the 29 end (1201), middle through the 8th perforate (1102); 11 through hole (31) connects the 27 end (1002) and the 32 end (1204), middle through the 9th perforate (1104); 12 through hole (32) connects the 30 end (1202) and the 33 end (1301), middle through the tenth perforate (604); 12 through hole (32) connects the 30 end (1202) and the 33 end (1301); 13 through hole (33) connects the 30 end (1203) and the 33 end (1302).