CN203690460U - Wideband bandpass filter - Google Patents

Abstract

The utility model relates to a filter, and particularly, a small-size broadband bandpass filter with a multilayer structure. According to the broadband bandpass filter of the utility model, the multilayer microstrip structure is adopted to realize a lumped parameter element model of the bandpass filter; spiral folded lines are adopted to design inductors; flat plate structures are adopted to design capacitors; one spiral inductor and one flat plate capacitor are combined with each other so form an equivalent resonant circuit; the multilayer structure is composed of three layers of metal conductive bands and two layers of transmission media, the series connection of two inductors L1 and one coupling capacitor C0 can be realized on the first metal layer; two series-connection resonant circuits are connected in parallel with the second layer; the grounding of three metal through holes can be realized on the third layer; and ground capacitance coupling can be removed through digging out crack ground. Based on modern technologies, the designed structure can meet the requirements for miniaturization and broadband, and has the advantages of simplicity and practicability.

Description

A kind of broadband band-pass filter

Technical field

The utility model relates to a kind of filter, specifically a kind of small sized wide-band band pass filter of sandwich construction.

Background technology

In Modern Communication System, band pass filter is widely used as an important part.Several years ago, traditional band pass filter based on Coupled Miccrostrip Lines is studied widely, well-known, and traditional coupling microstrip filter is all very large of the size of L-band and S-band.And along with the development of communications industry, people are more and more higher for the requirement in miniaturization and broadband, in recent years, also carried out accordingly broad research about technologies such as LTCC (LTCC), liquid crystal polymers (LCP).But these high technology production costs are high, project organization is comparatively complicated.The design is the band pass filter of the sandwich construction based on the design of microwave PCB version, has size little, is with the advantages such as wide, simple in structure, with low cost.

Utility model content

The purpose of this utility model is to provide the band pass filter that a kind of broadband is wider, size is less, with low cost.

The technical scheme that realizes the utility model object is: the design's theory is the lumped wave filter comprehensive theory based on traditional, adopt low pass filter and high pass filter cascade to form a broadband band-pass filter, design adopts multilayer microstrip structure to realize the lumped-parameter element model of broadband band-pass filter, with spiral broken line design inductance, slab construction design capacitance, the equivalent resonant circuit that constitutes that utilizes a spiral inductance and capacity plate antenna, can change resonance frequency by the size of the joint number of adjustable screw inductance and capacity plate antenna; Regulate the transmission zero of band pass filter circuit to obtain more precipitous suppress sideband by increasing the value of coupling capacitance and coupling inductance.Utilize microstrip line distributed constant principle by port match on 50 ohm line, finally again by as borehole, away from etc. technology as far as possible minimizing even remove the unnecessary coupling between the each microstrip line between circuit, to obtain desirable filter result.

Concrete technical scheme is as follows:

A kind of broadband band-pass filter, be suitable for being made in multilayer circuit board, formed by the first low pass filter unit, high-pass filter unit, the second low pass filter unit successively cascade, input port P1 is connected with the first low pass filter unit, the second low pass filter unit connects output port P2, circuit is symmetrical structure, wherein inductance L 11 forms the first low pass filter unit with capacitor C 11, capacitor C 11 one end are connected with input port P1 and inductance L 11, the other end is connected with inductance L 01, inductance L 01 ground connection; After one end of two symmetrical capacitor C 21 and C22 is connected and inductance L 2 high-pass filter unit in series, inductance L 2 ground connection, are coupled by capacitor C 0 between two symmetrical capacitor C 21 and C22; The second low pass filter unit is made up of inductance L 12 and capacitor C 12, and capacitor C 12 one end are connected with output port P1 and inductance L 12, and the other end is connected with inductance L 02, inductance L 02 ground connection; Inductance L 01, inductance L 02 produce high-frequency transmission zero point, and capacitor C 0 produces low-frequency range transmission zero.

The first described low pass filter unit and the second low pass filter unit symmetry, inductance L 11 and inductance L 12 symmetries, capacitor C 11 and capacitor C 12 symmetries, inductance L 01 and inductance L 02 symmetry, C21 and C22 symmetry in described high-pass filter unit.

A kind of broadband band-pass filter, be suitable for being made in multilayer circuit board, this broadband band-pass filter 3 d structure model is symmetrical structure, comprise successively first signal layer J1, secondary signal layer J2 and ground plane J3, between three layer signal layers, be connected by two-layer transmission medium, described first signal layer J1 comprises symmetrical input port P1 and output port P2, top crown one end of capacitor C 11 is connected with input port P1, the other end is connected with inductance L 11, the other end of inductance L 11 is connected with the top crown of capacitor C 21, gap and adjustment sheet T1 between two symmetrical capacitor C 21 and top crowns of C22 form capacitor C 0 jointly, one end of inductance L 12 is connected with the top crown of capacitor C 22, and the other end is connected with the top crown of capacitor C 12, and the top crown of capacitor C 12 is connected with output port P2, wherein, input port P1 and output port P2 symmetry, the top crown symmetry of capacitor C 11 and capacitor C 12, the top crown symmetry of capacitor C 21 and C22, inductance L 11 and inductance L 12 symmetries,

The upper inductance L01 of described secondary signal layer J2 one end is connected with the bottom crown of capacitor C 11, the other end is connected to ground by the first metal ground connection via hole G1, series inductance L2 after capacitor C 21 is connected with the bottom crown of capacitor C 22, inductance L 2 other ends are connected to ground by the second metal ground connection via hole G2, inductance L 02 one end is connected with the bottom crown of capacitor C 12, and the other end is connected to ground by the 3rd metal ground connection via hole G3; Wherein, the bottom crown symmetry of capacitor C 11 and C12, inductance L 01 and inductance L 02 symmetry, the bottom crown symmetry of capacitor C 21 and capacitor C 22;

On described ground plane J3, dug up four rectangular recess corresponding with the bottom crown of secondary signal layer J2 upper electric capacity C11, C21, C22, C12, and and secondary signal layer J2 between be connected by the first metal ground connection via hole G1, the second metal ground connection via hole G2, the 3rd metal ground connection via hole G3.

Compared with prior art, its advantage is the utility model: (1) function admirable.Broader bandwidth, three dB bandwidth is that 1.1-2.7GHz(relative bandwidth is 80%) between, when bandwidth is between 1.4-2.4GHz time, return loss is greater than 14dB, insertion loss is less than 1.0dB, produces two transmission zeros at 0.8GHz and 2.8GHz, and Out-of-band rejection is greater than 15dB; (2) compact size.Relative size is 0.25 λ _g× 0.10 λ _g(λ _gguide wavelength when with respect to 1.9GHZ); (3) with low cost.It is that 3.38 thickness are the microwave-medium substrate of 0.5mm that structure adopts dielectric constant, two layer medium structure, and between medium, without electrical connection, processing is simple, can be mass-produced.

Accompanying drawing explanation

Fig. 1 is a kind of broadband band-pass filter circuit theory diagrams of the utility model.

Wherein, P1-input port, P2-output port.

Fig. 2 is a kind of broadband band-pass filter three-layer metal of the utility model layer cross-sectional view.

Wherein, P1-input port, P2-output port, J1-first signal layer, J2-secondary signal layer, J3-ground plane, G1-the first metal ground hole, G2-the second metal ground hole, G3-the 3rd metal ground hole, T1-adjustment sheet, the horizontal rectangular channel of D11-first, the horizontal rectangular channel of D12-second, the longitudinal rectangular channel of D21-first, the longitudinal rectangular channel of D22-second.

The three-dimensional structure schematic diagram of Fig. 3 the utility model broadband band-pass filter.

M1-the first transmission medium layer, M2-the second transmission medium layer.

The S parameter testing result figure of Fig. 4 the utility model broadband band-pass filter.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Fig. 1 is the circuit theory diagrams of this small sized wide-band band pass filter, forms by two low pass filters (LPF) and a high pass filter (HPF) cascade the broadband band-pass filter meeting the demands.Circuit is symmetrical structure, wherein inductance L 11 and capacitor C 11 form the first low pass filter unit, inductance L 12 and capacitor C 12 form the second low pass filter unit, inductance L 2 and capacitor C 21 and C22 composition high-pass filter unit, inductance L 01, L02 produce front end transmission zero, and capacitor C 0 produces low-frequency range transmission zero.

This small sized wide-band band pass filter 3 d structure model is similarly symmetrical structure, by three-layer metal conduction band and two-layer microwave PCB medium composition.

Its three-layer metal conduction band layer cross-section structure as shown in Figure 2, the horizontal rectangular channel D11 of ground plane J3 upper first, the second horizontal rectangular channel D12, first longitudinal rectangular channel D21, second longitudinal rectangular channel D22 is crack ground.

Wherein input port P1 and output port P2 match the input/output terminal microstrip transmission line of 50 ohm, and inductance L 11, L12, L2, L01 and L02 are three spiral inductances, and capacitor C 11, C12, C21, C22 are capacity plate antenna, and capacitor C 0 is coupling capacitance.

First signal layer J1 places two inductance L 11, L12, and secondary signal layer J2 places two symmetrical inductance L 01, L02 and inductance L 2; Bottom crown on top crown and secondary signal layer on first signal layer J1 forms capacitor C 11, C21, C22, C12, and gap and adjustment sheet T1 between two symmetrical capacitor C 21, C22 on first signal layer J1 form capacitor C 0 jointly.

Capacitor C 11 one end are connected with input port P1, and the other end is connected with inductance L 01, and are connected to ground by the first metallic vias G1, form series resonant circuit; After inductance L 11 one end are connected with input port P1, other end series capacitance C21, the other end of capacitor C 21 is connected with inductance L 2, and is connected to ground by the second metallic vias G2; Between two symmetrical capacitor C 21, C22, be connected by a very little coupling capacitance C0.In capacitor C 0, have two centrosymmetric adjustment sheet T1, design adjustment sheet by the mode of the right extension of left pole plate, the left extension of right pole plate, object is in limited size, to increase the coupling between two-plate.

Because filter is symmetric design, right half part and left-half are basic identical.

Between first signal layer J1 and secondary signal layer J2, incorporeity connects, and only forms capacity plate antenna by the coupling between sheet metal, and this capacitance size can be carried out corresponding adjusting by dull and stereotyped size, has solved the insecure problem of longitudinal connection between multilayer.Between secondary signal layer J2 and the 3rd signals layer J3, be connected by three metallization via holes.On first signal layer J1, realize the series connection of two inductance L 11, L12 and coupling capacitance C0, secondary signal layer J2 is upper in parallel two series resonant circuits (inductance L 01 and capacitor C 11 and inductance L 02 and capacitor C 12), have realized three ground hole equipotentials (ideally) and the unnecessary capacitive coupling of removal on ground plane J3.

Between first signal layer J1 and secondary signal layer J2, be coupled by capacitor C 11, C21, C22, C12, and between secondary signal layer J2 and ground plane J3, be connected by the first metal ground connection via hole G1, the second metal ground connection via hole G2 and the 3rd metal ground connection via hole G3, realized lamina and designed multiple-plate design.

Two layer medium, the first transmission medium layer M1 and the second transmission medium layer M2 are respectively between first signal layer J1 and secondary signal layer J2, secondary signal layer J2 and ground plane J3, its three-dimensional structure as shown in Figure 3, signal transmits between port Port1 and Port2, Port1 is input P1, and Port2 is output P2.

Embodiment mono-:

A kind of broadband band-pass filter, be suitable for being made in multilayer circuit board, formed by the first low pass filter unit, high-pass filter unit, the second low pass filter unit successively cascade, input port P1 is connected with the first low pass filter unit, the second low pass filter unit connects output port P2, circuit is symmetrical structure, wherein inductance L 11 forms the first low pass filter unit with capacitor C 11, capacitor C 11 one end are connected with input port P1 and inductance L 11, the other end is connected with inductance L 01, inductance L 01 ground connection; After one end of two symmetrical capacitor C 21 and C22 is connected and inductance L 2 high-pass filter unit in series, inductance L 2 ground connection, are coupled by capacitor C 0 between two symmetrical capacitor C 21 and C22; The second low pass filter unit is made up of inductance L 12 and capacitor C 12, and capacitor C 12 one end are connected with output port P1 and inductance L 12, and the other end is connected with inductance L 02, inductance L 02 ground connection; Inductance L 01, inductance L 02 produce front end transmission zero, and capacitor C 0 produces low-frequency range transmission zero.

The first described low pass filter unit and the second low pass filter unit symmetry, inductance L 11 and inductance L 12 symmetries, capacitor C 11 and capacitor C 12 symmetries, inductance L 01 and inductance L 02 symmetry, C21 and C22 symmetry in described high-pass filter unit.

This broadband band-pass filter 3 d structure model is symmetrical structure, comprise successively first signal layer J1, secondary signal layer J2 and ground plane J3, between three layer signal layers, be connected by two-layer transmission medium, described first signal layer J1 comprises symmetrical input port P1 and output port P2, top crown one end of capacitor C 11 is connected with input port P1, the other end is connected with inductance L 11, the other end of inductance L 11 is connected with the top crown of capacitor C 21, and gap and adjustment sheet T1 between two symmetrical capacitor C 21 and top crowns of C22 form capacitor C 0 jointly; One end of inductance L 12 is connected with the top crown of capacitor C 22, and the other end is connected with the top crown of capacitor C 12, and the top crown of capacitor C 12 is connected with output port P2; Wherein, input port P1 and output port P2 symmetry, the top crown symmetry of capacitor C 11 and capacitor C 12, the top crown symmetry of capacitor C 21 and C22, inductance L 11 and inductance L 12 symmetries;

The upper inductance L01 of described secondary signal layer J2 one end is connected with the bottom crown of capacitor C 11, the other end is connected to ground by the first metal ground connection via hole G1, series inductance L2 after capacitor C 21 is connected with the bottom crown of capacitor C 22, inductance L 2 other ends are connected to ground by the second metal ground connection via hole G2, inductance L 02 one end is connected with the bottom crown of capacitor C 12, and the other end is connected to ground by the 3rd metal ground connection via hole G3; Wherein, the bottom crown symmetry of capacitor C 11 and C12, inductance L 01 and inductance L 02 symmetry, the bottom crown symmetry of capacitor C 21 and capacitor C 22;

On described ground plane J3, dug up four corresponding with the bottom crown of secondary signal layer J2 upper electric capacity C11, C21, C22, C12 rectangular recess, and and secondary signal layer J2 between be connected by the first metal ground connection via hole G1, the second metal ground connection via hole G2, the 3rd metal ground connection via hole G3.

Described first signal layer J1, secondary signal layer J2 and ground plane J3 are respectively three-layer metal conduction band layer, and the two-layer transmission medium that connects three layer signal layers is microwave PCB medium.

Described input port P1 matches the input microstrip transmission line of 50 ohm, and described output port P2 matches the output microstrip transmission line of 50 ohm.

Described capacitor C 11, C21, C22, C12 are capacity plate antenna, and inductance L 01, L02, L11, L12, L2 are spiral inductance.

Described adjustment sheet T1 is two centrosymmetric adjustment sheets that are arranged in capacitor C 0, and by the right extension of left pole plate, the mode of the left extension of right pole plate designs.

Described microwave PCB medium is that dielectric constant is that 3.38 thickness are the microwave-medium substrate of 0.5mm.

Embodiment bis-:

(1) medium substrate adopts Rogers RO4003 substrate, thickness in monolayer 0.5mm, and metal layer material is silver-plated deposited copper, machining accuracy ± 0.01mm;

(2) in Fig. 1, L11=2.8nH, L12=2.8nH, L2=4.6nH, L01=0.8nH, L02=0.8nH, C11=1.3pF, C12=1.3pF, C21=2.8pF, C22=2.8pF, C01=0.31pF, C02=0.31pF;

(3) in Fig. 2, first input end microstrip transmission line P1 live width 2.3mm, length 7.0mm, inductance L 11, L12 live width 0.2mm, line-spacing 0.1mm, length 16.1mm; Inductance L 2 live width 0.2mm, line-spacing 0.1mm, length 19.1mm; Inductance L 01, L02 live width 0.2mm, line-spacing 0.1mm, length 4.5mm; Capacitor C 11, C12 live width 2.0mm, length 4.9mm; Capacitor C 21, C22 live width 2.8mm, length 6.7mm; Capacitor C 0 live width 0.2mm, gap 0.1mm, length 2.8mm, the first metal ground connection via hole (G1), the second metal ground connection via hole (G2), the 3rd metal ground connection via hole (G3) they are cylinder via hole, its radius 0.5mm, length 0.5mm;

(3) in Fig. 3, the thickness of the first transmission medium layer M1 and the second transmission medium layer M2 is 0.5mm.

Test result in conjunction with Fig. 4 shows, it is 1.1-2.7GHz that this minimized wide-band band pass filter has three dB bandwidth, and relative bandwidth is more than 80%, when bandwidth is between 1.4-2.4GHz time, return loss is greater than 14dB, and insertion loss is less than 1.0dB, and this overall filter physical size is 35 × 15 × 1mm ³, area relative size is 0.25 λ _g× 0.10 λ _g(λ _gguide wavelength when with respect to 1.9GHZ), test result and design theory are substantially identical, can meet the basic demand of modern broadband radio communication.

Claims (9)

1. a broadband band-pass filter, be suitable for being made in multilayer circuit board, it is characterized in that: formed by the first low pass filter unit, high-pass filter unit, the second low pass filter unit successively cascade, input port (P1) is connected with the first low pass filter unit, the second low pass filter unit connects output port (P2), circuit is symmetrical structure, wherein inductance L 11 forms the first low pass filter unit with capacitor C 11, capacitor C 11 one end are connected with input port (P1) and inductance L 11, the other end is connected with inductance L 01, inductance L 01 ground connection; After one end of two symmetrical capacitor C 21 and C22 is connected and inductance L 2 high-pass filter unit in series, inductance L 2 ground connection, are coupled by capacitor C 0 between two symmetrical capacitor C 21 and C22; The second low pass filter unit is made up of inductance L 12 and capacitor C 12, and capacitor C 12 one end are connected with output port (P1) and inductance L 12, and the other end is connected with inductance L 02, inductance L 02 ground connection; Inductance L 01, inductance L 02 produce front end transmission zero, and capacitor C 0 produces low-frequency range transmission zero.

2. a kind of broadband band-pass filter according to claim 1, it is characterized in that: the first described low pass filter unit and the second low pass filter unit symmetry, inductance L 11 and inductance L 12 symmetries, capacitor C 11 and capacitor C 12 symmetries, inductance L 01 and inductance L 02 symmetry, C21 and C22 symmetry in described high-pass filter unit.

3. a broadband band-pass filter, be suitable for being made in multilayer circuit board, this broadband band-pass filter 3 d structure model is symmetrical structure, comprise successively first signal layer (J1), secondary signal layer (J2) and ground plane (J3), between three layer signal layers, be that the first transmission medium layer (M1) is connected with the second transmission medium layer (M2) by two-layer transmission medium, it is characterized in that:

Described first signal layer (J1) comprises symmetrical input port (P1) and output port (P2), top crown one end of capacitor C 11 is connected with input port (P1), the other end is connected with inductance L 11, the other end of inductance L 11 is connected with the top crown of capacitor C 21, and gap and adjustment sheet (T1) between two symmetrical capacitor C 21 and top crowns of C22 form capacitor C 0 jointly; One end of inductance L 12 is connected with the top crown of capacitor C 22, and the other end is connected with the top crown of capacitor C 12, and the top crown of capacitor C 12 is connected with output port (P2); Wherein, input port (P1) and output port (P2) symmetry, the top crown symmetry of capacitor C 11 and capacitor C 12, the top crown symmetry of capacitor C 21 and C22, inductance L 11 and inductance L 12 symmetries;

The upper inductance L01 of described secondary signal layer (J2) one end is connected with the bottom crown of capacitor C 11, the other end is connected to ground by the first metal ground connection via hole (G1), series inductance L2 after capacitor C 21 is connected with the bottom crown of capacitor C 22, inductance L 2 other ends are connected to ground by the second metal ground connection via hole (G2), inductance L 02 one end is connected with the bottom crown of capacitor C 12, and the other end is connected to ground by the 3rd metal ground connection via hole (G3); Wherein, the bottom crown symmetry of capacitor C 11 and C12, inductance L 01 and inductance L 02 symmetry, the bottom crown symmetry of capacitor C 21 and capacitor C 22;

On described ground plane (J3), dug up four corresponding with the bottom crown of secondary signal layer (J2) upper electric capacity C11, C21, C22, C12 rectangular recess, and and secondary signal layer (J2) between be connected by the first metal ground connection via hole (G1), the second metal ground connection via hole (G2), the 3rd metal ground connection via hole (G3).

4. a kind of broadband band-pass filter according to claim 3, it is characterized in that: described first signal layer (J1), secondary signal layer (J2) and ground plane (J3) are respectively three-layer metal conduction band layer, the two-layer transmission medium that connects three layer signal layers is microwave PCB medium.

5. a kind of broadband band-pass filter according to claim 3, is characterized in that: described input port (P1) is to match the input microstrip transmission line of 50 ohm, and described output port (P2) is to match the output microstrip transmission line of 50 ohm.

6. a kind of broadband band-pass filter according to claim 3, is characterized in that: described capacitor C 11, C21, C22, C12 are capacity plate antenna, and inductance L 01, L02, L11, L12, L2 are spiral inductance.

7. a kind of broadband band-pass filter according to claim 3, is characterized in that: described adjustment sheet (T1) is for being arranged on two centrosymmetric adjustment sheets in capacitor C 0, and by the right extension of left pole plate, the mode of the left extension of right pole plate designs.

8. a kind of broadband band-pass filter according to claim 3, it is characterized in that: described inductance L 11=2.8nH, L12=2.8nH, L2=4.6nH, L01=0.8nH, L02=0.8nH, described capacitor C 11=1.3pF, C12=1.3pF, C21=2.8pF, C22=2.8pF, C01=0.31pF, C02=0.31pF;

Input port P1 live width 2.3mm, length 7.0mm, inductance L 11, L12 live width 0.2mm, line-spacing 0.1mm, length 16.1mm; Inductance L 2 live width 0.2mm, line-spacing 0.1mm, length 19.1mm; Inductance L 01, L02 live width 0.2mm, line-spacing 0.1mm, length 4.5mm; Capacitor C 11, C12 live width 2.0mm, length 4.9mm; Capacitor C 21, C22 live width 2.8mm, length 6.7mm; Capacitor C 0 live width 0.2mm, gap 0.1mm, length 2.8mm, the first metal ground connection via hole (G1), the second metal ground connection via hole (G2), the 3rd metal ground connection via hole (G3) they are cylinder via hole, and its radius is 0.5mm, and length is 0.5mm.

9. a kind of broadband band-pass filter according to claim 4, is characterized in that: it is that 3.38 thickness are the microwave-medium substrate of 0.5mm that the first described transmission medium layer M1 and the second transmission medium layer M2 are dielectric constant.

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