CN1331502A - Broadband, high-power and high-isolation orthogonal polarized feed source - Google Patents

Broadband, high-power and high-isolation orthogonal polarized feed source Download PDF

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Publication number
CN1331502A
CN1331502A CN 00113071 CN00113071A CN1331502A CN 1331502 A CN1331502 A CN 1331502A CN 00113071 CN00113071 CN 00113071 CN 00113071 A CN00113071 A CN 00113071A CN 1331502 A CN1331502 A CN 1331502A
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waveguide
ridge
dypass
main road
isolation
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CN1158722C (en
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唐益民
何亚东
冯梅
李剑勇
何文琳
马升荣
陈友致
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Electronic Inst No29 Ministry Of Information Industry
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Abstract

A high-powder high-isolation broadband orthogonal polarizing feed source features that in the condition of meeting power capacity, the distance between ridges of ridge waveguide is compressed to force the TE10-mode electromagnetic waves input from dual ridges of the side channel into radiating mouth while a metal membrane is embedded in the transition segment of main channel to quickly attenuate the inversely transmitted electromagnetic waves. The isolation between side and main channel can reach more than 42 dB.

Description

A kind of broadband, high-power, high-isolation orthogonal polarized feed source
The invention belongs to electronic technology field, particularly microwave transmission device.
Orthogonal polarized feed source is the microwave device that can realize the two-way feed-in and transmit the orthogonal polarization mode of electromagnetic wave.
Before open content of the present invention, at first introduce several terms:
Isolation=101gP1/P2 dB, wherein, P1 is the microwave power of main road transmission, P2 is that the microwave signal of dypass transmission is infiltrated the microwave power in the main road.
Standing-wave ratio is a voltage standing wave ratio, is meant electromagnetic wave in transmission course, and the ratio of adjacent antinode voltage and node voltage is commonly referred to standing-wave ratio or standing wave.It is a key index of weighing the microwave device matching degree, and when microwave device and microwave transmission circuit mated fully, voltage standing wave ratio equaled 1.
At present both at home and abroad related scientific research mechanism is that the development work of orthogonal polarized feed source is carried out for many years to the microwave device that can realize two-way feed-in, transmission and radiation orthogonal polarization mode of electromagnetic wave, in orthogonal polarized feed source, the orthogonal polarization coupler is to play a kind of two-way orthogonally polarized wave can being coupled in the waveguide and the microwave device of directional transmissions, and it comprises main road rectangular waveguide coupler and dypass double ridged waveguide fin line coupler two parts.Theoretically, TE10 mould that transmits in the metal square wave guide and TE01 mould are a pair of desirable orthogonal modess, and the transmission between them is independent separately, isolation, orthogonal mutually, but in fact in the square wave guide coupled section, the TE of main road excitation 01The TE of mould and dypass excitation 10Mould will inevitably produce mutual coupling.This phenomenon is carried when high-power at orthogonal polarized feed source, and is especially remarkable.Therefore, how will lead, the mutual coupling of dypass waveguide drop to minimum, promptly main, the dypass isolation is high as far as possible, is the key point that improves the orthogonal polarized feed source quality.As far as our knowledge goes, domestic development status is: the primary electron portion 29 coupled resonance window method of utilizing is succeeded in developing the cross-polarized antennas of 3 centimetres of frequency ranges at the beginning of the eighties, its bandwidth of operation is narrower, isolation reaches 18dB, the double ridged waveguide cross-polarized antennas of power during 51,29 priorities of primary electron portion are succeeded in developing, these antenna bandwidth reaches 2: 1 bandwidth, but isolation is not all greater than 25dB.Technology report has 1) " design of ECW broadband double-circle polarization horn antenna " author is Ma Shengrong, see NO:1 ECM (Electronic Countermeasures) in 1988, the bandwidth of operation of the ECW broadband double-circle polarization horn antenna of this article introduction reaches 8~18GHz, voltage standing wave ratio is less than 2, isolation is 22dB, and the load power continuous wave reaches 200W; 2) " electronic warfare four ridged horn antennas " author rises elegant literary composition, see fourth phase ECM (Electronic Countermeasures) in 1994, the bandwidth of operation by four coaxial line excited ridge cross-polarized antennas of two-way of this article introduction is 2~18GHz, interport isolation is 20dB, load power only has 1W, because this antenna excitation mode of electromagnetic wave is impure, mate undesirable, the representative value of voltage standing wave ratio is 3.5: 3) " with the research of the dual polarized antenna of extraordinary rotary joint " author is Tang Yimin, the dual polarized antenna of the extraordinary rotary joint of the band of this article introduction is made of two dorsal fin lines, wherein the main road microwave transmits to port one 1 from port 9 inputs, the dypass microwave to port one 1 transmission, is seen shown in Figure 4 from port one 0 input.Its bandwidth of operation is 8~18GHz, and isolation is 22dB, and voltage standing wave ratio is less than 2, load power continuous wave 200W.External situation is just known to the inventor, general situation is: at the initial stage eighties, the main road double ridged waveguide input of Italy electronics corporation development, the orthogonal polarized feed source of the coaxial input of dypass N type, its bandwidth of operation is 8~16.5GHz, standing wave is less than 2, isolation is 20dB, load power continuous wave 200W.The technology report has: " The ortho-mode transducer offers a key to polarization diversity in EWSystems " (orthomode transition device---a kind of Primary Component that various polarization can be provided in electronic warfare system), and the author is Schlegel H﹠amp; Fowler W D, see Microwave System News 198414 in 1984, this article has been introduced the orthogonal polarization converter of Adams-Russell company development, its bandwidth of operation 6.5~18.2GHz, standing wave are less than 2, and isolation is more than the 30dB, but load power continuous wave 1KW, but the four ridge waveguide way of outputs of its oblique 45 ° of inclination have been subjected to significant limitation on antenna applications, see shown in Figure 5, the wherein ridge of the ridge of main road and dypass inclination at 45.Such orthogonal polarization device can only be used for working under the middle low power situation.
Indulge the above, can know the deficiencies in the prior art: they generally can only be worked under the situation of middle low power, and isolation is low, is no more than 30dB.
Task of the present invention provides the orthogonal polarized feed source of a kind of broadband, high-power, high-isolation, and its main road power reaches more than the 100KW, and dypass power reaches more than the 1000W, and isolation reaches more than 42 dB.
The orthogonal polarized feed source of prior art is by the main road rectangular waveguide---square wave guide changeover portion 1, dypass double ridged waveguide---, and fin line ridge waveguide changeover portion 2, orthogonal polarization coupled section 3, horn radiator 4 are formed, and its operation principle is to form TE by the electromagnetic wave that the electromagnetic wave of main road rectangular waveguide 1 transmission and dypass double ridged waveguide 2 are transmitted in orthogonal polarization coupled section 3 01Mould and TE 10Finish the feedforward of 10 meters of S-bands * 3 meters cut-parabolic antennas irradiation through horn radiator 4 the orthogonal polarization field of mould, sees shown in Figure 1.In order to reach the purpose of broadband, high power capacity, the work of master road port high-isolation, under the prerequisite that satisfies transmission continuous wave power main road 1 carrying 150KW and dypass 2 carrying 1500W operate as normal, the present invention adopts the ridge of dypass fin line ridge waveguide 2 narrow apart from pressing, the i.e. larynx neck region that links to each other with square wave guide 1 in dypass double ridged waveguide 2, the ridge spacing of two ridged fin lines is pressed narrow, and it and being connected by 7 pairs of ridge changeover portions of linear pattern and 8 pairs of ridge changeover portions of exponential type of dypass double ridged waveguide 2 and square wave guide section 1 realize respectively.Because the electromagnetic wave energy of ridge waveguide 2 mainly constrains near two ridges, by the method for conversion ridge spacing, forcibly electromagnetic wave energy further is strapped near two ridges, by the active traction of the two ridges of fin line, finish dypass double ridged waveguide 2 TE 10Be coupled to and form square wave guide 1 TE in the square wave guide 10Mould like this, just makes the TE of 2 pairs of ridge inputs of dypass 10The mould electromagnetic wave is forced to retraining by orthogonal polarization coupled section 3 and transmits to loudspeaker radiation mouth 4 directions, sees shown in Figure 2.This is that this orthogonal polarized feed source improves coupling in broadband, realizes first key point of high-isolation, is one of main innovate point of the present invention.
The present invention also proposes at the main road square---and the narrow limit of square wave guide changeover portion 1 embeds (taper) sheet metal 6, and this metallic membrane 6 is divided into two the waveguide of main road waveguide transition section 1, makes the pitching size of main road waveguide transition section 1 dwindle half, sees shown in Figure 3.Based on the cut-off waveguide theory, this metallic membrane 6 does not change main road 1 electromagnetic wave TE 01The transmission of mould and field distribution.But electromagnetic wave TE with respect to dypass 2 couplings 10, owing to the waveguide of this metallic membrane 6 with main road waveguide transition section 1 is divided into two, make the pitching size of main road waveguide transition section 1 dwindle half, that is to say that it makes the physical size of waveguide with respect to the electromagnetic wave TE of back to transmission 10Mould is shorter than by size, therefore, and the electromagnetic wave TE of dypass 2 couplings 10Mould ends rapidly during towards the main road port transmission, thus, has realized high-isolation.This is that this orthogonal polarized feed source improves coupling in broadband, realizes second key point of high-isolation, also is two of main innovate point of the present invention.
Satisfying under the condition of power capacity, in the process of making orthogonal polarized feed source, compression fin line ridge waveguide ridge spacing is with the TE of 2 pairs of ridge inputs of dypass 10Mould electromagnetic wave enforced guiding is to the radiation actinal surface, in the main road changeover portion, embed one simultaneously by metallic membrane, it makes the waveguide physical size be shorter than the cut-off waveguide size with respect to the back for the electromagnetic wave of transmission, and like this, it just makes the electromagnetic wave of reverse transfer decay fast, end rapidly, among the present invention, adopt in the time of these two measures, make orthogonal polarized feed source when satisfying broadband, high power capacity, the isolation of main road, dypass has had the raising of matter, reaches more than the 42dB.
Accompanying drawing and description of drawings:
Fig. 1 is the structural representation of orthogonal polarized feed source, and wherein, 1 is both square wave guide changeover portions of main road rectangular waveguide, and 2 is both fin line ridge waveguide changeover portions of dypass double ridged waveguide, and 3 are the orthogonal polarization coupled section, and 4 is horn radiator, and 5 are poly-tetrem alkene seal closure;
Fig. 2 is A-A cut-away view of orthogonal polarized feed source Fig. 1, and wherein, 2 is both fin line ridge waveguide changeover portions of dypass double ridged waveguide, and 6 is the cut-off waveguide metallic membrane; 7 is the two ridge changeover portions of linear pattern, and 8 is the two ridge changeover portions of exponential type;
Fig. 3 is B-B cut-away view of orthogonal polarized feed source Fig. 1, and wherein, 6 is the cut-off waveguide metallic membrane;
Fig. 4 is the quadrature coupled section of traditional orthogonal polarized feed source, wherein: the 9th, the main road input port, the 10th, the dypass input port, the 11st, the output port of orthogonal polarized feed source:
Fig. 5 is tilt 45 ° the quadrature coupled section of traditional orthogonal polarized feed source of the ridge of main road and dypass, wherein, the 11st, main road input port, the 10th, dypass input port, the 12nd, the output port of orthogonal polarized feed source.
Embodiment:
The main road rectangular waveguide adopts BJ-32, and the dypass double ridged waveguide adopts 24SJ2000,13mm<ridge spacing<8.4mm, and the width that adopts tapered metallic membrane is 16.5mm, forms orthogonal polarized feed source, its isolation reaches 42dB.By 10 meters * 3 meters cut-parabolic antennas of this orthogonal polarized feed source feed, the index that reaches is:
Operating frequency: 2~4GHz:
Parabolic antenna gain: 38.8~42.6dB;
Parabolic antenna azimuth plane half-power beam width: main road is 1.22 °~1.0 °, and dypass is 1.18 °~0.75 °;
Parabolic antenna pitching face half-power beam width: main road is 2.32 °~1.86 °, and dypass is 3.26 °~2.87 °;
The parabolic antenna voltage standing wave ratio is less than 2.0.

Claims (2)

1. high-power high-isolation orthogonal polarized feed source in broadband, form by main road rectangle one square wave guide changeover portion (1), dypass fin line ridge waveguide changeover portion (2), orthogonal polarization coupled section (3), horn radiator (4), it is characterized in that: the ridge of dypass fin line ridge waveguide (2) is narrow apart from pressing, the i.e. larynx neck region that links to each other with square wave guide (1) in dypass double ridged waveguide (2), the ridge spacing of two ridged fin lines is pressed narrow, and it and being connected by two ridge changeover portions of linear pattern (7) and the two ridge changeover portions of exponential type (8) of dypass double ridged waveguide (2) and square wave guide section (1) realize respectively; Narrow limit in main road waveguide transition section (1) embeds a sheet metal (6), and this metallic membrane (6) is divided into two the waveguide of main road waveguide transition section (1), makes the pitching size of main road waveguide transition section (1) dwindle half.
2. the high-power high-isolation orthogonal polarized feed source in a kind of broadband according to claim 1 is characterized in that: the ridge of described dypass fin line ridge waveguide (2) is apart from being pressed narrow scope to be: 13mm<ridge spacing<8.4mm; Described metallic membrane (6) is a taper pin type metallic membrane, and its width is: 16.5mm.
CNB001130714A 2000-06-29 2000-06-29 Broadband, high-power and high-isolation orthogonal polarized feed source Expired - Fee Related CN1158722C (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101841081A (en) * 2009-03-17 2010-09-22 韩国电子通信研究院 Double-ridged horn antenna having higher-order mode suppressor
CN101694903B (en) * 2009-10-22 2012-09-26 西安空间无线电技术研究所 Dual-arm coupling quadrature mode coupler with high cross polarization discrimination
CN105428815A (en) * 2015-12-29 2016-03-23 南京逸然电子科技有限公司 All-metal broadband high-gain low-profile resonant antenna
CN108199689A (en) * 2018-02-02 2018-06-22 成都海微特科技有限公司 A kind of ridge waveguide space combination power amplifier
CN108737014A (en) * 2018-06-21 2018-11-02 西安胡门网络技术有限公司 Portable anti-unmanned machine equipment
CN112864598A (en) * 2021-01-12 2021-05-28 北京邮电大学 Circularly polarized antenna suitable for millimeter wave communication and communication equipment

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101841081A (en) * 2009-03-17 2010-09-22 韩国电子通信研究院 Double-ridged horn antenna having higher-order mode suppressor
CN101694903B (en) * 2009-10-22 2012-09-26 西安空间无线电技术研究所 Dual-arm coupling quadrature mode coupler with high cross polarization discrimination
CN105428815A (en) * 2015-12-29 2016-03-23 南京逸然电子科技有限公司 All-metal broadband high-gain low-profile resonant antenna
CN105428815B (en) * 2015-12-29 2018-11-06 南京逸然电子科技有限公司 A kind of wide band high-gain low-profile resonant antenna of all-metal
CN108199689A (en) * 2018-02-02 2018-06-22 成都海微特科技有限公司 A kind of ridge waveguide space combination power amplifier
CN108737014A (en) * 2018-06-21 2018-11-02 西安胡门网络技术有限公司 Portable anti-unmanned machine equipment
CN112864598A (en) * 2021-01-12 2021-05-28 北京邮电大学 Circularly polarized antenna suitable for millimeter wave communication and communication equipment
CN112864598B (en) * 2021-01-12 2022-04-01 北京邮电大学 Circularly polarized antenna suitable for millimeter wave communication and communication equipment

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