CN202259646U

CN202259646U - Waveguide traveling wave power synthesis amplifier

Info

Publication number: CN202259646U
Application number: CN2011203780596U
Authority: CN
Inventors: 褚庆昕; 龚志; 康智勇
Original assignee: South China University of Technology SCUT
Current assignee: South China University of Technology SCUT
Priority date: 2011-09-29
Filing date: 2011-09-29
Publication date: 2012-05-30
Anticipated expiration: 2021-09-29

Abstract

The utility model relates to a waveguide traveling wave power synthesis amplifier, which comprises at least two resistor diaphragm waveguide traveling wave power allocation/ synthesis devices and an amplification module. The power allocation/ synthesis devices are in cascade through first-grade or multi-grade rectangular waveguide E-T branch power divider structures. The allocation/ synthesis devices and the amplification module are connected in the way that a first-grade rectangular waveguide E-T branch power divider of each allocation/ synthesis device is connected with input waveguide and serves as the input of a synthesis amplifier, output ports of every grades of each allocation/ synthesis device are first respectively connected with the amplification module and then connected together to serve as the output of each allocation/ synthesis device, the output of the allocation/ synthesis devices are connected to serve as the output of the resistor diaphragm waveguide traveling wave power allocation/ synthesis devices. The synthesis amplifier has the advantages of multiple channels, broadband, low consumption and high separation.

Description

A kind of ripple guided wave power synthesis amplifier

Technical field

The utility model relates to the power synthesis amplifier that is used for microwave and millimeter-wave systems, relates in particular to a kind of ripple guided wave power synthesis amplifier with resistance membrane configuration.

Background technology

The radio communication high speed development, at a high speed, the requirement in broadband is more and more stronger, and frequency spectrum resource is very rare, and modern wireless communication systems is towards the high-frequency development, and millimeter wave, the submillimeter wave communication technology are stepped into practical application by research.Along with the rising of operating frequency, the semiconductor solid-state size of devices reduces, and power capacity descends, and the power output of individual devices is difficult to satisfy system requirements.Therefore people have proposed the mode that the power of a plurality of solid state device is synthetic and have realized the high power solid state power device.Power synthesis amplifier comprises power amplifier module and power division/synthesizer.Therefore power division/the synthesizer of a function admirable is most important to power synthesis amplifier.

A kind of novel synthetic technology, promptly quasi-optical/the spatial power synthetic technology, receive researcher's strong interest in recent years.This technology has been used the notion of optics, reaches the synthetic purpose of power through the relevant synthetic mode of same-phase in the space.Typical space power composite structure is a spatial power composite structure in the waveguide the most, and according to relevant report, this structure has realized that at X-band 24 the tunnel is synthetic.But, when operating frequency reached millimeter wave frequency band, the spatial power structure seemed not to be to be well suited in the waveguide; Because wave-guide cavity wave becomes very little when this frequency range; Be difficult to hold a plurality of amplifying circuits, and waveguide increases also much to the loss that the transformational structure of little band causes, will reach more than the 1dB as adopting the fin line structure; On the other hand, difficulty is also brought to heat radiation in crowded waveguide inner space.Therefore simple employing spatial power synthetic technology realizes that big figure, the high efficiency of millimeter wave band become a difficult problem.

A kind of solution is exactly with spatial power synthetic technology and traditional power synthetic technique realization combining power synthesis amplifier.Traditional power division/comprise network generally is that No. 2 power combiners are carried out cascade; Form binary tree composite structure or chain type composite structure; Realize the synthetic of more number, this No. 2 power combiners such as Wilkinson power splitter, branch line coupler, magic T etc.But existing binary system or chain structure, along with the increase of cascade progression, loss increases, and combined coefficient descends, and overall dimensions enlarges markedly.

For power division/synthesizer, the isolation of its output port also is an important index.Power division/synthesizer that application port is isolated, the amplifier unit of combining amplifier is separate, and the signal of input amplifier unit will also can effectively be avoided problems such as self-excitation fully by the power splitting decision of power divider.On the other hand, the high synthesizer of isolating can make that also the failure properties of combining amplifier is good, and promptly when having the amplifier unit damage, all the other amplifiers still can operate as normal, and power output only can drop in a predictable ratio.

In recent years, reported the capable wave power distribution/composite structure of some waveguides in succession, this structure helps realizing that microwave is high-end, the power synthesis amplifier of the high-power output of millimeter wave band.The implementation of but existing waveguide row wave power distribution/composite structure generally is to insert probe coupling output at the broadside place; The output port isolation is all poor; This structure can not realize that the broadband is synthetic, and the failure performance of combining amplifier is not ideal yet.

2008; People such as Larry W.Epp have delivered the article that is entitled as " A High-Power Ka-Band (31-36GHz) Solid-State Amplifier Based on Low-Loss Corporate Waveguide Combining " in the MTT-S meeting; Report the height isolation E-T power splitter of waveguiding structure, adopted the film resistor sheet to realize isolating.They utilize 5 grade of 2 road resistance diaphragm type power division/synthesizer to form 32 road power synthesis amplifiers.This arrangement works is in 31-36GHz; And the volume of this structure is very huge; Be not suitable for microwave and millimeter-wave systems, because the same with the high-isolation power divider of existing waveguiding structure, its power division way has only two-way; This structure will realize that big figure is synthetic just needs huge binary system network, therefore is necessary to work out the power synthesis amplifier that a minute multichannel, broadband, low-loss, compact conformation, high power division/synthesizer structure of isolating realize high power output.

The utility model content

The purpose of the utility model is to overcome shortcoming of the prior art with not enough, and a kind of ripple guided wave power synthesis amplifier is provided, and this structure realizes through one minute multichannel, broadband, low-loss, compact conformation, high power division/synthesizer of isolating.Utilize this power division/synthesizer, can form the tree-like power division/composite structure of multi-system, thereby realize big figure, broadband, high efficiency, high-frequency power synthesis amplifier.

In order to achieve the above object, the utility model is to be achieved through following technical proposals: a kind of ripple guided wave power synthesis amplifier is characterized in that: be made up of at least two capable wave power distribution/synthesizers of resistance septate waveguide and amplification module;

The capable wave power distribution/synthesizer of said each resistance septate waveguide comprises one-level rectangular waveguide E-T branch power splitter at least; Said each grade rectangular waveguide E-T branch power splitter is joined by input waveguide, first output waveguide and second output waveguide and constitutes; Wherein the input waveguide and first output waveguide are positioned on the same rectilinear direction, and second output waveguide is positioned on the vertical direction of input waveguide; The phase cascade as follows of the said rectangular waveguide of one-level at least E-T branch power splitter: first output waveguide of each grade rectangular waveguide E-T branch power splitter connects the input waveguide of next stage, and second output waveguide of each grade rectangular waveguide E-T branch power splitter is as the output port of this grade; The input waveguide of the connected next stage rectangular waveguide of first output waveguide E-T branch power splitter of said each grade rectangular waveguide E-T branch power splitter is measure-alike; On the branch location of the input waveguide of each grade rectangular waveguide E-T branch power splitter and second output waveguide, the film resistor sheet is set, said film resistor sheet is provided with on the conducting wall extending direction of next stage input waveguide;

The capable wave power distribution/synthesizer of said at least two resistance septate waveguides is connected with amplification module as follows: the first order rectangular waveguide E-T branch power splitter of the capable wave power distribution/synthesizer of said each resistance septate waveguide is connected with input waveguide, as the input of the capable wave power combining amplifier of resistance septate waveguide; The output port of each grade of the capable wave power distribution/synthesizer of said each resistance septate waveguide is connected with amplification module earlier separately; The output ports at different levels of the capable wave power distribution/synthesizer of each resistance septate waveguide are connected as the output of the capable wave power distribution/synthesizer of each resistance septate waveguide then, and the output with at least two capable wave power distribution/synthesizers of resistance septate waveguide is connected as the output of the capable wave power combining amplifier of resistance septate waveguide again.

Say that further said film resistor sheet is to be made up of two dielectric substrates, wherein dielectric substrate one side is coated with film resistor, and a side that is coated with film resistor is mutually bonding with another piece dielectric substrate; The theoretical length of said film resistor sheet is 1/4th guide wavelengths of the centre frequency of the capable wave power distribution/synthesizer of said resistance septate waveguide work; The resistance of said film resistor sheet is confirmed by following formula:

R_{s, j} = \frac{a}{L} \frac{Z_{o, j} Z_{j + 1}}{Z_{o, j} + Z_{j + 1}},

Wherein, R _{S, j}For resistance, a of the film resistor sheet that on the branch location of the input waveguide of j level E-T branch power splitter and second output waveguide, is provided with is that arbitrary grade of waveguide broadside size, L are film resistor leaf length, Z _{O, j}Be characteristic impedance, the Z of j level E-T branch power splitter output port _J+1Represent the characteristic impedance of j+1 level E-T branch power splitter input waveguide; When j=N-1, get Z _J+1=Z _{O, N}, Z _{O, N}Representative is the characteristic impedance of last output port.

On the branch location of said input waveguide and second output waveguide at each grade rectangular waveguide E-T branch power splitter the film resistor sheet is set; Said film resistor sheet is provided with on the conducting wall extending direction of next stage input waveguide and is meant; On wave guide wall, slot; In film resistor sheet insertion groove, the interface of two dielectric substrates of said film resistor is positioned on the sidewall extending direction of next stage input waveguide.

The size on the input Narrow Wall of Waveguide limit of said each grade rectangular waveguide E-T branch power splitter equals two narrow limits of output waveguide of this level size sum.

The said position of vertically turning round at the rectangular waveguide E-T of each grade branch power splitter also is provided for eliminating the coupling corner cut of the discontinuity of the said position electromagnetic field that vertically turns round, and in the position of turning round of last output port the coupling corner cut is set simultaneously.The size of coupling corner cut is selected through simulation optimization then, and the standard of selection is to guarantee the input coupling better, simultaneously also will be in machinable scope.

The narrow limit size of the output port of said each grade rectangular waveguide E-T branch power splitter, with the ratio of the narrow limit size of the input waveguide of first order rectangular waveguide E-T branch power splitter be this grade output port power demand distribution ratio.

The size of the input waveguide of said first order rectangular waveguide E-T branch power splitter is greater than the standard waveguide that is complementary, and the input waveguide of said first order rectangular waveguide E-T branch power splitter is through the quarter-wave impedance variations device series connection of one-level back realization and standard waveguide coupling at least; It is that principle is carried out that the size of the input waveguide of said first order rectangular waveguide E-T branch power splitter enlarges to guarantee that second level input waveguide adopts the single mode operation form in working frequency range.

Said amplification module is meant the synthetic amplification module of two probe spatial power.

The utility model design principle is following:

Shown in the E face simple principle figure of the capable wave power distributor of Fig. 1 resistance septate waveguide.Letter e place arrow has indicated direction of an electric field among the figure, and each alphabetical representative implication is following among the figure: P _iRepresent input power, P _{O, 1}P _{O, 2}P _{O, N-1}, P _{O, N}Represent power output, Z _iRepresent the characteristic impedance of input waveguide, Z ₁, Z ₂Z _N-1Represent the characteristic impedance of each level structure input port.Z _{O, 1}, Z _{O, 2}Z _{O, N-1}, Z _{O, N}Represent the characteristic impedance of output port.

1, the capable wave power distributor of resistance septate waveguide can be realized multichannel power division/synthetic.This structure has constituted N road row wave power distributor through cascade N-1 level E-T branch power splitter structure.

2, the capable wave power distributor of the resistance septate waveguide that the utility model proposed can be realized the transmission of row ripple, guarantees that the input port of each grade merit separation structure is matching status.As shown in Figure 1, for any j level power divider structure, need satisfy Z _j=Z _J+1+ Z _{O, j}, drawing of this formula is because E-T branch belongs to cascaded structure.Formal in physical structure, the Narrow Wall of Waveguide limit size sum that the size on the input Narrow Wall of Waveguide limit through guaranteeing every grade of power divider structure equals two delivery outlets of this grade realizes this formula.On the other hand; The vertical corner of E-T branch can cause the discontinuous of field; Effect is produced certain influence, and the utility model provides a kind of method to eliminate this discontinuity, promptly adds a coupling corner cut through the position of vertically turning round in E-T branch; Simultaneously also be provided with the coupling corner cut in the corner of last output port, such as among Fig. 1 mark.Through this two aspect, can guarantee that the input port of each grade E-T branch power splitter all matees, form the transmission of row ripple, thereby have the characteristic of broadband input coupling.Owing to be traveling-wave structure, the distance between the adjacent level E-T branch power splitter is little to the properties influence of whole power splitter.

3, the capable wave power distributor of the resistance septate waveguide that the utility model proposed can be realized the power division of arbitrary proportion or synthesize.As shown in Figure 1, the power output of any j output port does

That is to say, only need through regulating the characteristic impedance Z of j port _{O, j}And make power output satisfy required proportion requirement.Formal in physical structure; Satisfy the power division of the required ratio of a certain output port; Can be through regulating the narrow limit size of this output port, make the ratio of narrow limit size and the narrow limit size of the 1st grade input port of this output port get final product for the power demand distribution ratio.Because the ratio and the frequency-independent of guide properties impedance, so this structure has the characteristic that broadband power distributes.

4, the capable wave power distributor of the resistance septate waveguide that the utility model proposed can realize that merit divides the coupling and the isolation of output port, and this characteristic realizes through inserting the film resistor sheet in the branch location of each grade E-T branch.The direction of film resistor sheet is the conducting wall extending direction along the next stage input port.The length of film resistor sheet (as indicating L among Fig. 1) is approximately 1/4th guide wavelengths of centre frequency.Film resistor sheet resistance is optimal design as required; For the j level; A basic calculating formula of this resistance for

wherein a be waveguide broadside size, L is the film resistor leaf length.When j=N-1, should get Z _J+1=Z _{O, N}In the actual design, because the existence of discontinuity, the length of film resistor sheet and resistance be optimal design further.

5, when the power division way more for a long time, the narrow limit size of output port will become very little, this has increased difficulty of processing, also can increase loss.The capable wave power distributor of the resistance septate waveguide that the utility model proposed further provides a kind of method that increases the narrow limit of output port size, promptly through enlarging the method for first order input waveguide size.As shown in Figure 1, after first order input waveguide size enlarges, adopt multistage quarter-wave impedance variations device to realize the impedance matching of standard waveguide and first order input waveguide.For the size of first order input waveguide, can decide according to operating frequency, rule be guarantee second level input waveguide in working frequency range for single mode operation for well.

6, the capable wave power distributor of resistance septate waveguide that proposed of the utility model utilization constitutes the tree-like power synthesis amplifier of multi-system.Output port at a capable wave power distributor of multichannel resistance septate waveguide all connects the similar capable wave power distributor of multichannel resistance septate waveguide, then can form tree-like power divider of multi-system and synthesizer.Output port at the tree-like power divider of multi-system inserts amplifier, utilizes the tree-like power combiner of multi-system to carry out power again and synthesizes, and just can realize the big figure power synthesis amplifier.

Compared with prior art, the utlity model has following advantage:

1, the capable wave power distributor/synthesizer of the resistance septate waveguide that comprises in the combining amplifier of the utility model can realize that multichannel row wave power distributes/synthesizes, and realizes that broadband power distributes and the input coupling.This power division/synthesizer can be realized the power division of arbitrary proportion/synthetic, and realizes coupling and the isolation that merit is divided output port.Effectively increased the size on output port Narrow Wall of Waveguide limit through increasing the narrow limit of input waveguide size simultaneously, thereby reduced difficulty of processing and inserted loss.Owing to be traveling-wave structure, this power division/synthesizer has the characteristics of wideband operation.Owing to be waveguiding structure, this power splitter has the little characteristics of the loss of insertion.This structure can work in microwave, each frequency range of millimeter wave.

2, the combining amplifier of the utility model forms through the capable wave power distribution/synthesizer of a plurality of similar multichannel resistance septate waveguides of cascade, has realized the tree-like power division/composite structure of multi-system, and then has realized the big figure power synthesis amplifier.

Description of drawings

Fig. 1 is the E face simple principle figure of the capable wave power distributor of resistance septate waveguide in the utility model;

Fig. 2 is the perspective view of an embodiment of the capable wave power distributor of resistance septate waveguide in the utility model;

Fig. 3 is the structure chart of bottom 11 and top layer 12 among Fig. 2;

Fig. 4 is an A part enlarged drawing among Fig. 3;

Fig. 5 is the perspective view of embodiment two;

Fig. 6 is the vertical view of Fig. 5;

Fig. 7 is the structure chart of bottom 91 and top layer 92 among Fig. 5;

Fig. 8 is the enlarged drawing of D part among Fig. 7.

Embodiment

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

Embodiment one

An embodiment of the capable wave power distribution/synthesizer of resistance septate waveguide is shown in Fig. 2 perspective view in the utility model, and this embodiment is the example of an impartial power division.Present embodiment has formed four tunnel outputs by the cascade of three rectangular waveguide E-T branches.The size of the second output waveguide 41-44 of each grade rectangular waveguide E-T branch power splitter all is the same, the narrow limit of second output waveguide 41-44 size be first order input waveguide 31 narrow limit size 1/4th, guaranteed impartial power division like this.Second output waveguide 41-44 narrow limit size of each grade and next

stage input waveguide

32,33 narrow limit size sums equal the narrow limit of input waveguide 31-33 at the corresponding levels size; Also be provided for simultaneously eliminating the coupling corner cut 51-53 of the discontinuity of the said position field of vertically turning round in the position of vertically turning round of the rectangular waveguide E-T of each grade branch power splitter; Simultaneously coupling corner cut 54 also is set, has realized broadband row ripple transmission like this in the position of turning round of last output port.On the branch location of the input waveguide of each grade rectangular waveguide E-T branch power splitter and second output waveguide, inserted film resistor sheet 61-63; The direction of film resistor sheet is the conducting wall extending direction along the next stage input port, and these film+resistor discs make output mate and isolate.The method that present embodiment has been taked to enlarge first order input waveguide 31 narrow limit sizes enlarges the narrow limit size of output waveguide 41-44, thereby reduces the wastage and difficulty of processing.Between input standard waveguide 21 and first order input waveguide 31, be designed with two-stage quarter wavelength impedance transducer 22 like this, to realize good input coupling.

Overall structure shown in Fig. 2 perspective view can be divided into two parts processes, like bottom among Fig. 2 11 and top layer 12.The structure chart of bottom 11 and top layer 12 has shown the structural model of bottom 11 and top layer 12 among Fig. 3.Top layer 12 is the equal of the mirror image of bottom 11.They all are on a block of metal, to dig out various cavitys and form.Fig. 4 has provided A place partial view among Fig. 3, with the structure of explanation film resistor sheet.Film resistor sheet 62 is to constitute through two

dielectric substrates

621 and 622; A side of a dielectric substrate 621 plates film resistor therein; One side and another piece dielectric substrate 622 that will be coated with film resistor then are bonding, thereby constitute a complete film resistor sheet 62.When film resistor sheet 62 was placed, the interface of two dielectric substrates 621,622 was positioned on the sidewall extending direction of next stage input waveguide 32,33.The installation of film resistor sheet 62 can be taked on wave guide wall, to slot, and film resistor sheet 62 is inserted wherein, takes mode such as gluing to fix then.

Hereinafter calculates the acquisition of initial value of the resistance value of the film resistor sheet of explaining in the present embodiment 62 by way of example.The centre frequency of supposing this power divider work is 30GHz; The narrow limit size of the second output waveguide 41-44 of each grade rectangular waveguide E-T branch power splitter is 1.524mm; The narrow limit of second level input waveguide 32 is of a size of 4.572mm so, and the narrow limit of second level output waveguide 33 is of a size of 3.048mm.Can get Z through calculating _{O, 2}=139.6ohm, Z ₃=279.2ohm, the length L=3.56mm of resistor disc, broadside size a=7.112mm.The calculating resistance of film resistor sheet 62 is:

because the existence of discontinuity, the length of film resistor sheet and resistance can be further through instrument optimal design such as simulation softwares.

Embodiment two

As shown in Figure 5; This embodiment is the capable wave power combining amplifier of the tree-like resistance septate waveguide of multi-system that two stage power distributes or composite structure is formed that utilizes 5 the 4 road capable wave power distributors of output resistance septate waveguide to constitute; Wherein, the process that obtains of the parameters of the capable wave power distributor of 4 road output resistance septate waveguides is analogized by embodiment one.Fig. 6 is the capable wave power combining amplifier of this a resistance septate waveguide plan view.This combining amplifier distribution network belongs to the tree-like power distributing network of the quaternary, and with respect to the binary tree structure, its loss and overall dimensions can reduce.Output port at the capable wave power distributor of the first order 4 road output resistance septate waveguides B1 all is connected with the two-stage quarter wavelength impedance transducer, is transformed to standard waveguide output.Each delivery outlet at B1 all is connected with the similar capable wave power distributor of 4 road output resistance septate waveguides B2.Delivery outlet at B2 connects amplification module C, and then through the synthetic amplification module power output of power comprise network.The form of amplification module C is unfixing, only need satisfy required port and require to get final product.

Fig. 7 has shown the structural model of bottom and top layer among Fig. 5, and both present the mirror image symmetric relation.Amplification module C given here is a kind of existing pair of probe spatial power composite structure form, but the form of amplification module C is not limited thereto.Fig. 8 has provided the concrete structure figure of D place amplification module in the fabric.The groundwork process of amplification module is the waveguide input signal power that reduces through a narrow limit size; Be coupled in little band through plane probe 71 then; Connect amplifier 81 again, the power by amplifier output is coupled in the output waveguide through little band probe at last.Little band probe 71 in the amplification module all is that levels is simultaneous with amplifier unit 81, and this is actually a kind of two-way spatial power composite structure.All amplifier chips all are to be welded direct on bottom or the underlying metal cavity, and this can realize good heat radiation.Top layer and bottom surface can be designed to the sheet radiator structure, and the processing of turning black further improves heat radiation, also can further use fan to carry out forced heat radiation.

The foregoing description is the utility model preferred implementation; But the execution mode of the utility model is not restricted to the described embodiments; Other any do not deviate from change, the modification done under spirit and the principle of the utility model, substitutes, combination, simplify; All should be the substitute mode of equivalence, be included within the protection range of the utility model.

Claims

1. a ripple guided wave power synthesis amplifier is characterized in that: be made up of at least two capable wave power distribution/synthesizers of resistance septate waveguide and amplification module;

2. ripple guided wave power synthesis amplifier according to claim 1; It is characterized in that: said film resistor sheet is to be made up of two dielectric substrates; Wherein dielectric substrate one side is coated with film resistor, and a side that is coated with film resistor is mutually bonding with another piece dielectric substrate; The theoretical length of said film resistor sheet is 1/4th guide wavelengths of the centre frequency of the capable wave power distribution/synthesizer of said resistance septate waveguide work; The resistance of said film resistor sheet is confirmed by following formula:

R_{s, j} = \frac{a}{L} \frac{Z_{o, j} Z_{j + 1}}{Z_{o, j} + Z_{j + 1}},

3. ripple guided wave power synthesis amplifier according to claim 2; It is characterized in that: on the branch location of said input waveguide and second output waveguide at each grade rectangular waveguide E-T branch power splitter the film resistor sheet is set; Said film resistor sheet is provided with on the conducting wall extending direction of next stage input waveguide and is meant; On wave guide wall, slot; In film resistor sheet insertion groove, the interface of two dielectric substrates of said film resistor is positioned on the sidewall extending direction of next stage input waveguide.

4. ripple guided wave power synthesis amplifier according to claim 3 is characterized in that: the size on the input Narrow Wall of Waveguide limit of said each grade rectangular waveguide E-T branch power splitter equals two narrow limits of output waveguide of this level size sum.

5. ripple guided wave power synthesis amplifier according to claim 4; It is characterized in that: the said position of vertically turning round at the rectangular waveguide E-T of each grade branch power splitter also is provided for eliminating the coupling corner cut of the discontinuity of the said position electromagnetic field that vertically turns round, and in the position of turning round of last output port the coupling corner cut is set simultaneously.

6. ripple guided wave power synthesis amplifier according to claim 5; It is characterized in that: the narrow limit size of the output port of said each grade rectangular waveguide E-T branch power splitter, with the ratio of the narrow limit size of the input waveguide of first order rectangular waveguide E-T branch power splitter be this grade output port power demand distribution ratio.

7. according to each described ripple guided wave power synthesis amplifier in the claim 1 to 6; It is characterized in that: the size of the input waveguide of said first order rectangular waveguide E-T branch power splitter is greater than the standard waveguide that is complementary, and the input waveguide of said first order rectangular waveguide E-T branch power splitter is through the quarter-wave impedance variations device series connection of one-level back realization and standard waveguide coupling at least; It is that principle is carried out that the size of the input waveguide of said first order rectangular waveguide E-T branch power splitter enlarges to guarantee that second level input waveguide adopts the single mode operation form in working frequency range.

8. ripple guided wave power synthesis amplifier according to claim 1 is characterized in that: said amplification module is meant the synthetic amplification module of two probe spatial power.