CN106549203A - A kind of change-over circuit of coupled microstrip line to rectangular waveguide - Google Patents

Abstract

The invention discloses a kind of change-over circuit of coupled microstrip line to rectangular waveguide, the change-over circuit is a coupling probe, the rectangular metal paster for having annular groove is dug centered on the coupling probe, rectangular channel between two conductors of the annular groove and coupled microstrip line is connected, the rectangular metal paster of annular groove periphery is connected with two conductors of coupled microstrip line, rectangular metal paster outside annular groove and annular groove constitutes the flute profile ring and Microstrip Loop of coupling probe, the operating frequency of change-over circuit is determined by the resonant frequency of Microstrip Loop and flute profile ring, coupling probe is extended vertically into.Change-over circuit of the present invention can be realized on monolayer pcb board, with simple structure, it is easy to the advantages of processing.Test result indicate that, the present invention have big bandwidth (26.5 40GHz), low insertion loss (<0.41dB) and big return loss (>15dB), can be applicable in microwave and millimeter wave circuit and system with Waveguide interface.

Description

A kind of change-over circuit of coupled microstrip line to rectangular waveguide

Technical field

The present invention relates to a kind of change-over circuit, the change-over circuit of more particularly to a kind of coupled microstrip line to rectangular waveguide, Can be used in the circuit and system of the microwave with Waveguide interface and millimeter wave.

Background technology

In recent years, difference microwave and millimeter wave circuit due to its to interference and environment noise inhibitory action, in communication system In application it is more and more universal.Coupled microstrip line be in differential system using most planar transmission lines, with small size, it is low into This advantages of.On the other hand, as rectangular waveguide has high q-factor characteristic, which is widely used in microwave and millimeter wave circuit, uses To realize the circuits such as various high q-factor transmission lines, wave filter, power splitter and duplexer.In many microwave applications, rectangular waveguide Can occur in simultaneously in a circuit or system with coupled microstrip line, therefore this is accomplished by one and realizes transmission mould therebetween The change-over circuit of formula matching.

Change-over circuit of the coupled microstrip line to rectangular waveguide, it is possible to achieve the differential transmission modes in coupled microstrip line are to square The conversion of the TE10 main moulds in shape waveguide.The bandwidth of transformational structure is an extremely critical performance indications, is realized as wide as possible Bandwidth be research an important directions.With the bandwidth of operation of current communication system it is more and more wider, existing coupling microstrip Line cannot meet demand of the communication system to big bandwidth to the change-over circuit of rectangular waveguide, be to limit entering for communication bandwidth One of bottleneck problem that one step is improved.Therefore it is very urgent to the demand of the change-over circuit of broadband couple device microstrip line to rectangular waveguide.

In existing research report, the rectilinear change-over circuit of coupled microstrip line to rectangular waveguide mainly has three kinds of modes Realize.Researcher Z.Tong et al. realizes translation function in W-waveband using difference paster antenna.Referring to document [1] Z.Tong, A.Stelzer,A Vertical transition between rectangular waveguide and coupled microstrip lines,IEEE Microwave and Wireless Components Letters,22(2012),251- 253。

Researcher T.Yuasa et al. realizes translation function using short-circuit slot line structure.Referring to document [2] T.Yuasa, T.Oba,Y.Yahara,Y.Morimoto,T.Owade,M.Miyazaki,A millimeter wave wideband differential line to waveguide transition using short ended slot Line, European Microwave Conference,Vol.44,Rome,2014,1004-1007。

Researcher M.Ortner et al. is proposed based on multi-layer PCB structure design change-over circuit.Referring to document [3] M.Ortner,Z.Tong,T.Ostermann,A millimeter-wave wide-band transition from a differential microstrip to a rectangular waveguide for 60GHz applications, European Conference on Antennas and Propagation(EUCAP),Rome,2011,1946-1949。

In three of the above method, the change-over circuit that first method is realized, relative bandwidth is 11%, echo in working frequency range Loss is less than 0.5dB more than 15dB, insertion loss；The change-over circuit that second method is realized, relative bandwidth is 20.2%, work In frequency range, return loss is more than 10dB, and insertion loss is less than 1.92dB；The change-over circuit that the third method is realized, with a width of 33%, in working frequency range, return loss is more than 15dB, and insertion loss is less than 2.3dB.

The first change-over circuit relative bandwidth too small (11%)；Second change-over circuit relative bandwidth less (20.2%), And insertion loss larger (1.92dB)；The third change-over circuit relative bandwidth improves, and reaches 33%, but which employs many Layer PCB construction, circuit are more complicated, and difficulty of processing is big, high cost.And its insertion loss is very big (2.3dB).These three methods are all There is the limitation of itself.

The content of the invention

It is an object of the invention to provide a kind of change-over circuit based on monolayer PCB circuits, the change-over circuit substantially can be carried Rise bandwidth of operation and insertion loss is little, easy to process.

The coupled microstrip line based on monolayer PCB circuits (the PCB back sides are metal ground plate) that the present invention is provided is to square wave The change-over circuit led is a coupling probe, and the rectangular metal paster for having annular groove, the annulus are dug centered on the coupling probe Rectangular channel between two conductors of shape groove and coupled microstrip line is connected, the rectangular metal paster and coupling microstrip of annular groove periphery The rectangular metal paster of two conductors connection of line, annular groove and annular groove periphery constitute the flute profile ring of coupling probe and Microstrip Loop, Microstrip Loop are fully enclosed in the outside of flute profile ring, and the operating frequency of change-over circuit is by Microstrip Loop and the resonance of flute profile ring Frequency determines that define twin nuclei closely, coupling probe is extended vertically in rectangular waveguide and realizes coupled microstrip line In difference modess and rectangular waveguide in TE10 main moulds conversion.

If the resonant frequency of Microstrip Loop and flute profile ring is respectively f1 and f2, so change-over circuit just may be simultaneously operated in Near f1 and f2 two frequency bins, very wide working band can be realized by selecting appropriate f1 and f2, the change-over circuit.Resonance Frequency f1 and f2 corresponding wavelengths λ 1 and λ 2 are respectively equal to the girth of Microstrip Loop and flute profile ring.Using the relation, can be with preresearch estimates Resonant frequency f1 and f2 are as follows：

In formula, c represents the light velocity, ε_e1、ε_e2The equivalent relative dielectric constant of dielectric-slab is represented,

For given working frequency range, resonant frequency f can be preselected₁And f₂, and dielectric board material, then by public affairs Formula (1) and (2) are assured that the size of Microstrip Loop and flute profile ring.The size for adjusting Microstrip Loop and flute profile ring can realize difference Working band.

The present invention has the effect that：

(1) with very wide bandwidth of operation, whole Ka wave bands (40.6%, 26.5-40GHz) can be covered；

(2) insertion loss is less than 0.41dB；

(3) using one side PCB construction, low cost, it is easy to process；

(4) circuit structure is simple, convenient to carry out Integration Design with other microwaves, millimetre-wave circuit.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the present invention.

Fig. 2 is the top view of the present invention.

Fig. 3 is the pictorial diagram (two change-over circuits connect back-to-back in figure) of the present invention.

Fig. 4 is the object test and simulation comparison figure of S parameter of the present invention.

In Fig. 1：1-rectangular waveguide, 2-metallization, 3-waveguide short of via face, 4-coupled microstrip line, 5-medium base Piece 6-rectangular metal paster

In Fig. 2：Length L2-the microstrip line of the width L1-Microstrip Loop of the width W2-microstrip line of W1-Microstrip Loop is inserted Length b-the waveguide for entering the long side of groove width a-waveguide of the groove width S2-microstrip line of length S1-flute profile ring in waveguide is short The diameter L of metal patch in length D on side-annular groove_short- coupling probe and the distance in waveguide short face

Below in conjunction with the accompanying drawings and embodiment is described in further detail to the present invention.

Specific embodiment

Embodiment

As shown in figure 1, the coupling microstrip based on monolayer PCB circuits (the PCB back sides are metal ground plate) that the present invention is provided Line is a coupling probe to the change-over circuit of rectangular waveguide, is realized on dielectric substrate 5, and digging centered on the coupling probe has annulus The rectangular metal paster 6 of shape groove, the rectangular channel between the annular groove and two conductors of coupled microstrip line 4 are connected, annulus The rectangular metal paster 6 of shape groove periphery is connected with two conductors of coupled microstrip line 4, the square of annular groove and annular groove periphery Shape metal patch constitutes the flute profile ring and Microstrip Loop of coupling probe, and Microstrip Loop is fully enclosed in the outside of flute profile ring, conversion electricity The operating frequency on road depends on the resonant frequency of Microstrip Loop and flute profile ring.The coupled microstrip line 4 and 1 perpendicular shape of rectangular waveguide State, coupling probe are stretched into from the narrow side of rectangular waveguide 1 and realize in rectangular waveguide 1 coupling, between coupling probe and waveguide short face 3 Distance be L_short。

In the present embodiment, using 5880 dielectric substrates of RT/Duroid, the substrate relative dielectric constant is dielectric substrate 5 2.2, thickness is 0.127mm.It is machined with row metallization via 2, the metallization via on three sides of dielectric substrate 5 respectively 2 good contacts that dielectric substrate 5 and cavity can be realized in assembling, make both more firmly be combined together, in addition gold Categoryization via 2 is also prevented from the propagation of waveguide higher modes.

In the present embodiment the width W2 of coupled microstrip line 4 and gap (groove width S2 of microstrip line) be respectively 0.34mm and 0.2mm, can provide the differential impedance of 100 Ω.Rectangular waveguide 1 is standard WR-28 rectangular waveguide, and its cross sectional dimensions is 7.112mm × 3.556mm, cut-off frequency are 21.09GHz.

For test conversion circuit performance, two same change-over circuits are adopted and are connected in back-to-back fashion by the present embodiment Get up (see Fig. 3), and input and output are Ka frequency range standard rectangular waveguides.Imitated through electromagnetic simulation software Ansoft HFSS After true optimization, optimal parameter size is obtained, (definition of each physical descriptor in table is shown in that Fig. 2 and accompanying drawing are said shown in table specific as follows It is bright)：

1 coupling line of table is to the concrete size of the rectilinear change-over circuit of rectangular waveguide

Test result shows：The working band of the back-to-back change-over circuit is 26.5-40GHz (relative bandwidth 40.6%), Cover whole Ka frequency ranges.Return loss is more than 15dB in this working frequency range, and insertion loss is less than 1.2dB.The insertion loss Contain the loss of the coupled microstrip line of 25.5mm length, and the loss of two change-over circuits.In the working frequency range, couple micro- The loss of band wire is about 0.015dB/mm, then its total losses of the coupled microstrip line of 25.5mm length are about 0.383dB, deduct this section After coupled microstrip line loss, the loss of single change-over circuit is less than 0.41dB.

Table 2 is the comparison of the present embodiment and three kinds of change-over circuits described in background technology.

As can be seen from the table, in three kinds of modes [3rd] plant change-over circuit bandwidth of operation it is most wide, reached 33%, but Multi-layer PCB circuit is which employs, circuit structure is complicated, and difficulty of processing is big, high cost.The present embodiment realizes most wide work band Wide (40.6%), while one side PCB construction is adopted, the advantage of little with difficulty of processing of low cost.

The above is only the preferred embodiment of the present invention, but protection scope of the present invention is not limited thereto, any The protection model in the present invention should be all covered in the transformation and replacement that are carried out based on technical scheme provided by the present invention and inventive concept In enclosing.

Claims (1)

1. change-over circuit of a kind of coupled microstrip line to rectangular waveguide, it is characterised in that：The change-over circuit is a coupling probe, Digging centered on the coupling probe has the rectangular metal paster of annular groove, the annular groove and two conductors of coupled microstrip line it Between rectangular channel connection, annular groove periphery rectangular metal paster connect with two conductors of coupled microstrip line, annular groove The flute profile ring and Microstrip Loop of coupling probe, the operating frequency of change-over circuit are constituted with the rectangular metal paster of annular groove periphery Determined by the resonant frequency of Microstrip Loop and flute profile ring, coupling probe extends vertically into the difference realized in rectangular waveguide in coupled microstrip line The conversion of the TE10 main moulds in merotype and rectangular waveguide.