US2866166A - Microwave power divider - Google Patents
Microwave power divider Download PDFInfo
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- US2866166A US2866166A US500239A US50023955A US2866166A US 2866166 A US2866166 A US 2866166A US 500239 A US500239 A US 500239A US 50023955 A US50023955 A US 50023955A US 2866166 A US2866166 A US 2866166A
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01P—WAVEGUIDES; RESONATORS, LINES, OR OTHER DEVICES OF THE WAVEGUIDE TYPE
- H01P5/00—Coupling devices of the waveguide type
- H01P5/04—Coupling devices of the waveguide type with variable factor of coupling
Definitions
- This invention relatesto microwave power dividers for dividing power among three output branches.
- microwave-power dividers In designing microwave rectangular waveguide circuits it is highly desirable to have choices of components with the guide terminals variouslypositioned-and angled, so that the components may be'conveniently joined together within the space and position limitations of the particular problem.
- the present power divider provides two hollow rectangular microwave guides having one narrow side in common and having a port in the common narrow side, so that for energy introduced into one end ofone-guide the device as so far described is a3-db directional coupler.
- a3-db directional coupler Such a device is described by Henry I. Riblet in an article entitled The Short-Slot'Hybrid Junctionf in Proceedings of r the Institute of Radio Engineers for February 1952, on pages 180-184.
- the instant invention additionally provides, in the output part of each guide, an adjustable reflecting post adjustably positioned in a longitudinal slot. These two reflecting posts are positioned at all adjustments at iden tical distances from the port, the resulting phase relations being such that no energy is reflected to the input terminal source. Output energy is taken from the other three terminals in relative amounts and phases regulated by the post adjustments.
- the principal purpose of this invention is to provide a microwave power divider having adjustable power division and adjustable phase.
- Another purpose of this invention is to provide a power divider based on the directional coupler principle of phase cancellation to eliminate reflections toward the microwave source.
- Another purpose of this invention is to provide a directional coupler having a pair of adjustable reflecting devices for controlling the output power ratio.
- a pair of microwave rectangular hollow guides 11 and 12 are positioned sideby-side and parallel, with one narrow side wall 13 common to the two guides.
- This Wall 13 is interrupted by an opening, aperture or port extending from the upper broad face 14 to the lower broad face 16 and having wall or septum edges 17 and 18.
- the port serves as a power dividing opening, and is so arranged that it serves as a three-decibel power divider, the port being impedance matched for highest efliciency.
- the guides are provided with longitudinal slots 19 and 21, one slot being positioned in the upper face longitudinal center line of each guide, it of course being understood that these slots may be protected by conventional choke grooves if desired.
- a metal plate 22 is arranged to slide along the guides above the face 14, its two edges,
- Two conductive screws, 24 and 26, are threaded through the plate 22 at such positions as to project through slots 19 and 21 into the interiors of the guides. These screws are at equal distances from the port.
- the heads of screws 24 and 26 are belted together by an endless steel cable 27, so that when one of them, such as screw 24, is rotated by its crank handle 28, both screws are rotated by like amounts, so that at all adjustments the insertions of the screws into the guides are equal and constitute equal reactances.
- posts 26 and 24 have been-described as conductive it will be understood that they. can alternatively be made of a low-loss dielectric, since dielectric posts also interpose susceptance, and will partially reflect incident microwave energy in accordance with the .depth of insertion.
- the port serving as a 3-db divider energy may be applied to either guide terminal as, for example, to guide 12 as indicated by the arrow 29.
- Onehalf of the energy then passes through the port and on toward the right in guide 11. It has been shown that the phase of the voltage of this energy at any point in guide 11 is advanced compared to the phase of the voltage passing to the right in guide 12.
- the slider In the operation of the power divider the slider is set at a selected position and the screw posts are screwed into the guides for equal selected distances.
- Microwave energy applied to the left end of either guide, as for example, to the left end of guide 12 then is divided into two halves by the port and each half impinges on one of the posts.
- the same fraction of the impinging energy is reflected while the remainder passes on to the right in the guide as indicated by arrows 31 and 32.
- the reflected energies combine in phase and pass out the left end of guide 11 as indicated by arrow 33. None of the reflected energy passes to the left in guide 12, so that no standing waves are generated in this guide, no loss is incurred here, and the microwave generating source is not aifected.
- Input voltage passing through the port is divided in half and advanced by 90 in phase.
- the post 24 reflects a fraction x of the voltage impinging thereon and one-half of this reflected voltage is again passed through the port with an additional phase advance of 90 to pass toward the left in guide 12.
- Its amplitude in terms of input voltage E is therefore xE/ 4 and its phase is relative to E, thus being in phase opposition.
- the magnitude is again halved at the port so that the amount at the input terminal is xE/4 with the phase unafiected by the port.
- the energy reflected from post 24 to the left in guide 11 at arrow 33 has a voltage amplitude of xE/ 4 and a voltage phase advance of 90.
- the voltage reflected from post 26 has an amplitude of xE/2 and, after passage through the port into guide 11, an amplitude of xE/4 and a phase advance of 90.
- the absolute phase relative for example to the input voltage phase at any selected point, is dependent upon the positioning of the slider 23, but this slider positioning has no effect whatever either upon the magnitude of voltages added to form voltage 33 or upon the neutralization of voltages at the input since the screw posts 24 and 26 are always equidistant from the port at all slider adjustments.
- the energy passing to the right past the screws and in each guide has a voltage magnitude
- These voltage phases are unaflected'by the screw posts, the voltage phase of output energy represented by arrow 31 being advanced by 90 relative to that represented by arrow 32 for all adjustments in concert of the screws 24 and 26 and of the slider 23.
- the phase of the output energy 33 relative to the phase of either 31 or 32 is .therefore adjustable by slider 23, and if the slots 19 and 21 have a length of at least one wavelength in guide any desired phase relation can be obtained.
- the total energy passing out the three terminals very nearly equals that applied over a relatively wide wavelength hand, since none is lost in reflections to the source and since the device is eflicient over a relatively wide band of wavelengths. Therefore if the input power be P, the power output at arrow 33 is 2:1 and the sum of outputs at arrows 31 and 32 is (l--x)P.
- a microwave adjustable power divider and phase adjuster having three output terminals comprising, a pair of parallel hollow rectangular waveguides having a common narrow wall provided with a single port directionally coupling one-half of the power applied to one of said waveguides to the other of said waveguides, slide means transversely spanning said pair of waveguides and movable longitudinally thereon, a pair of screw posts supported by said slide means, each said screw post protruding into the interior of a respective one of said pair of waveguides in the median longitudinal plane thereof and perpendicular to a broad face thereof, said screw posts being in side-by-side relation on the same side of said single port and at the same common distance therefrom, said common distance being adjustable by movement of said slide means whereby the phase of one said outut terminal is controllable relative to the phases of the other two said output terminals, the protrusions of said screw posts into the waveguide interior spaces being adjustable in concert and equal at all adjustments whereby the division of power between one said output terminal and the other two said output terminals is control
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Description
Dec. 23, 1958 Filed April 8. 1955 INVEN TOR. /0///V E ZJLEJAV Unitd States. tent MICROWAVE POWER DIVIDER John F. Zaleski, Valhalla, N. Y.,' assignor to General Precision Laboratory Incorporated, a corporation of New York Application April 8, 1955, Serial No. 500,239
1 Claim. -(Cl. 333--9) This invention relatesto microwave power dividers for dividing power among three output branches.
In designing microwave rectangular waveguide circuits it is highly desirable to have choices of components with the guide terminals variouslypositioned-and angled, so that the components may be'conveniently joined together within the space and position limitations of the particular problem. In employing microwave-power dividers'it is additionally desirable to have continuous adjustmentof the power division ratio, and to have control of the phase of one output or of the relative phases of' the outputs. These requirements are important, for-example, when microwave power is subdivided for transmission to several microwave antennas for simultaneous energization' at selected power amplitudes and in selected phase relations.
The present power divider provides two hollow rectangular microwave guides having one narrow side in common and having a port in the common narrow side, so that for energy introduced into one end ofone-guide the device as so far described is a3-db directional coupler. Such a device is described by Henry I. Riblet in an article entitled The Short-Slot'Hybrid Junctionf in Proceedings of r the Institute of Radio Engineers for February 1952, on pages 180-184.
The instant invention additionally provides, in the output part of each guide, an adjustable reflecting post adjustably positioned in a longitudinal slot. These two reflecting posts are positioned at all adjustments at iden tical distances from the port, the resulting phase relations being such that no energy is reflected to the input terminal source. Output energy is taken from the other three terminals in relative amounts and phases regulated by the post adjustments.
The principal purpose of this invention is to provide a microwave power divider having adjustable power division and adjustable phase.
Another purpose of this invention is to provide a power divider based on the directional coupler principle of phase cancellation to eliminate reflections toward the microwave source.
Another purpose of this invention is to provide a directional coupler having a pair of adjustable reflecting devices for controlling the output power ratio.
A further understanding of this invention may be secured from the detailed description together with the single figure of the drawing representing an embodiment of the invention.
Referring now to the drawing, a pair of microwave rectangular hollow guides 11 and 12 are positioned sideby-side and parallel, with one narrow side wall 13 common to the two guides. This Wall 13 is interrupted by an opening, aperture or port extending from the upper broad face 14 to the lower broad face 16 and having wall or septum edges 17 and 18. The port serves as a power dividing opening, and is so arranged that it serves as a three-decibel power divider, the port being impedance matched for highest efliciency. Thus, when microwave 2,866,166 Patented Dec." 23, '1958 2 energy approaches the port through either one of the guides, one-half passes on through that guide past the port and the other half passes through the port and on in the same direction in the other guide.
The guides are provided with longitudinal slots 19 and 21, one slot being positioned in the upper face longitudinal center line of each guide, it of course being understood that these slots may be protected by conventional choke grooves if desired. A metal plate 22 is arranged to slide along the guides above the face 14, its two edges,
such as edge 23, being bent snugly over the edges of the guide structure so that only longitudinal movement can be imparted to the plate. Two conductive screws, 24 and 26, are threaded through the plate 22 at such positions as to project through slots 19 and 21 into the interiors of the guides. These screws are at equal distances from the port. The heads of screws 24 and 26 are belted together by an endless steel cable 27, so that when one of them, such as screw 24, is rotated by its crank handle 28, both screws are rotated by like amounts, so that at all adjustments the insertions of the screws into the guides are equal and constitute equal reactances.
The operation of a screw post projecting intoa recitangular guide at its center line is well understood. It behaves as a capacitive shunt susceptance varying from zero susceptance at a Zero length of projection to maximum susceptance at a length of approximately one-quarter wavelength in free space, becoming inductive at greater lengths. At the maximum susceptance length substantially all of the microwave energy incident upon it is reflected, while at zero length none is reflected. At inter mediate adjustments intermediate amounts of energy are reflected, the remainder in each case passing on through the guide.
While the posts 26 and 24 have been-described as conductive it will be understood that they. can alternatively be made of a low-loss dielectric, since dielectric posts also interpose susceptance, and will partially reflect incident microwave energy in accordance with the .depth of insertion.
In the operation of the port serving as a 3-db divider energy may be applied to either guide terminal as, for example, to guide 12 as indicated by the arrow 29. Onehalf of the energy then passes through the port and on toward the right in guide 11. It has been shown that the phase of the voltage of this energy at any point in guide 11 is advanced compared to the phase of the voltage passing to the right in guide 12.
In the operation of the power divider the slider is set at a selected position and the screw posts are screwed into the guides for equal selected distances. Microwave energy applied to the left end of either guide, as for example, to the left end of guide 12, then is divided into two halves by the port and each half impinges on one of the posts. At each post the same fraction of the impinging energy is reflected while the remainder passes on to the right in the guide as indicated by arrows 31 and 32. The reflected energies combine in phase and pass out the left end of guide 11 as indicated by arrow 33. None of the reflected energy passes to the left in guide 12, so that no standing waves are generated in this guide, no loss is incurred here, and the microwave generating source is not aifected.
The explanation of this behavior is as follows. Input voltage passing through the port is divided in half and advanced by 90 in phase. The post 24 reflects a fraction x of the voltage impinging thereon and one-half of this reflected voltage is again passed through the port with an additional phase advance of 90 to pass toward the left in guide 12. Its amplitude in terms of input voltage E is therefore xE/ 4 and its phase is relative to E, thus being in phase opposition. One-half of the input voltage impinges on post 26 and a fraction x is reflected. The magnitude is again halved at the port so that the amount at the input terminal is xE/4 with the phase unafiected by the port. It is, therefore of the same amplitude but of opposite phase referred to thatreflected from post 24, so that these reflected voltages completely neutralize each other at the input terminal 29. Thus since these reflected energies are phase neutralized, they draw no energy fromthe system and represent no loss.
The energy reflected from post 24 to the left in guide 11 at arrow 33 has a voltage amplitude of xE/ 4 and a voltage phase advance of 90. The voltage reflected from post 26 has an amplitude of xE/2 and, after passage through the port into guide 11, an amplitude of xE/4 and a phase advance of 90. Thus the two energies passing to the left as represented by arrow 33 have equal amplitude and like phase, and therefore combine. The absolute phase, relative for example to the input voltage phase at any selected point, is dependent upon the positioning of the slider 23, but this slider positioning has no effect whatever either upon the magnitude of voltages added to form voltage 33 or upon the neutralization of voltages at the input since the screw posts 24 and 26 are always equidistant from the port at all slider adjustments.
The energy passing to the right past the screws and in each guide has a voltage magnitude These voltage phases are unaflected'by the screw posts, the voltage phase of output energy represented by arrow 31 being advanced by 90 relative to that represented by arrow 32 for all adjustments in concert of the screws 24 and 26 and of the slider 23. The phase of the output energy 33 relative to the phase of either 31 or 32 is .therefore adjustable by slider 23, and if the slots 19 and 21 have a length of at least one wavelength in guide any desired phase relation can be obtained.
The total energy passing out the three terminals very nearly equals that applied over a relatively wide wavelength hand, since none is lost in reflections to the source and since the device is eflicient over a relatively wide band of wavelengths. Therefore if the input power be P, the power output at arrow 33 is 2:1 and the sum of outputs at arrows 31 and 32 is (l--x)P.
It is obvious that, in place of the reflecting posts 24 and 26, other reflecting elements may be employed, such as tuned reactive hollow guide stubs as taught in Patent No. 2,685,065, granted to the same inventor. The mechanical arrangement of such stubs to provide control of the phase of one output is, however, not so simple as the arrangement of screw posts.
What is claimed is:
A microwave adjustable power divider and phase adjuster having three output terminals comprising, a pair of parallel hollow rectangular waveguides having a common narrow wall provided with a single port directionally coupling one-half of the power applied to one of said waveguides to the other of said waveguides, slide means transversely spanning said pair of waveguides and movable longitudinally thereon, a pair of screw posts supported by said slide means, each said screw post protruding into the interior of a respective one of said pair of waveguides in the median longitudinal plane thereof and perpendicular to a broad face thereof, said screw posts being in side-by-side relation on the same side of said single port and at the same common distance therefrom, said common distance being adjustable by movement of said slide means whereby the phase of one said outut terminal is controllable relative to the phases of the other two said output terminals, the protrusions of said screw posts into the waveguide interior spaces being adjustable in concert and equal at all adjustments whereby the division of power between one said output terminal and the other two said output terminals is controllable.
References Cited in the file of this patent UNITED STATES PATENTS 2,586,993 Riblet Feb. 26, 1952 2,593,120 Dicke Apr. 15, 1952 2,685,065 Zaleski July 27, 1954 2,728,050 Van de Lindt Dec. 20, 1955 2,768,356 Van de Lindt Oct. 23, 1956
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US500239A US2866166A (en) | 1955-04-08 | 1955-04-08 | Microwave power divider |
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US500239A US2866166A (en) | 1955-04-08 | 1955-04-08 | Microwave power divider |
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US500239A Expired - Lifetime US2866166A (en) | 1955-04-08 | 1955-04-08 | Microwave power divider |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE1192713B (en) * | 1962-01-19 | 1965-05-13 | Siemens Ag | Waveguide short-slot directional coupler coupled on the narrow side |
US3222677A (en) * | 1960-01-04 | 1965-12-07 | Litton Systems Inc | Lobe switching directional antenna with directional couplers for feeding and phasing signal energy |
DE1226179B (en) * | 1961-10-23 | 1966-10-06 | Hughes Aircraft Co | Rectangular waveguide elbow |
US4297658A (en) * | 1979-02-02 | 1981-10-27 | Spinner Gmbh Elektrotechnische Fabrik | 3dB Waveguide directional coupler |
FR2606936A1 (en) * | 1986-04-07 | 1988-05-20 | Motorola Inc | APPARATUS FOR COMBINING CERAMIC TRANSMITTERS PROVIDED WITH A VARIABLE ELECTRICAL LENGTH SECTION AND INTERFACE WITH COUPLING LOOPS |
WO2008027826A2 (en) * | 2006-09-01 | 2008-03-06 | Industrial Microwave Systems, L.L.C. | Microwave t-junction applicator |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2586993A (en) * | 1948-07-30 | 1952-02-26 | Raytheon Mfg Co | Balanced duplexer |
US2593120A (en) * | 1945-03-08 | 1952-04-15 | Us Sec War | Wave guide transmission system |
US2685065A (en) * | 1949-02-17 | 1954-07-27 | Gen Precision Lab Inc | Microwave power divider |
US2728050A (en) * | 1950-05-20 | 1955-12-20 | Hartford Nat Bank & Trust Co | Device for modulating ultra-short waves in a transmission line |
US2768356A (en) * | 1950-06-01 | 1956-10-23 | Hartford Nat Bank & Trust Co | Electrical impedance transformer for use at very high frequencies |
-
1955
- 1955-04-08 US US500239A patent/US2866166A/en not_active Expired - Lifetime
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2593120A (en) * | 1945-03-08 | 1952-04-15 | Us Sec War | Wave guide transmission system |
US2586993A (en) * | 1948-07-30 | 1952-02-26 | Raytheon Mfg Co | Balanced duplexer |
US2685065A (en) * | 1949-02-17 | 1954-07-27 | Gen Precision Lab Inc | Microwave power divider |
US2728050A (en) * | 1950-05-20 | 1955-12-20 | Hartford Nat Bank & Trust Co | Device for modulating ultra-short waves in a transmission line |
US2768356A (en) * | 1950-06-01 | 1956-10-23 | Hartford Nat Bank & Trust Co | Electrical impedance transformer for use at very high frequencies |
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3222677A (en) * | 1960-01-04 | 1965-12-07 | Litton Systems Inc | Lobe switching directional antenna with directional couplers for feeding and phasing signal energy |
DE1226179B (en) * | 1961-10-23 | 1966-10-06 | Hughes Aircraft Co | Rectangular waveguide elbow |
DE1192713B (en) * | 1962-01-19 | 1965-05-13 | Siemens Ag | Waveguide short-slot directional coupler coupled on the narrow side |
US4297658A (en) * | 1979-02-02 | 1981-10-27 | Spinner Gmbh Elektrotechnische Fabrik | 3dB Waveguide directional coupler |
FR2606936A1 (en) * | 1986-04-07 | 1988-05-20 | Motorola Inc | APPARATUS FOR COMBINING CERAMIC TRANSMITTERS PROVIDED WITH A VARIABLE ELECTRICAL LENGTH SECTION AND INTERFACE WITH COUPLING LOOPS |
FR2618608A1 (en) * | 1986-04-07 | 1989-01-27 | Motorola Inc | RADIO FREQUENCY SIGNAL COMBINATION APPARATUS |
WO2008027826A2 (en) * | 2006-09-01 | 2008-03-06 | Industrial Microwave Systems, L.L.C. | Microwave t-junction applicator |
WO2008027826A3 (en) * | 2006-09-01 | 2008-04-17 | Ind Microwave Systems Llc | Microwave t-junction applicator |
GB2454616A (en) * | 2006-09-01 | 2009-05-13 | Ind Microwave Systems Llc | Microwave t-junction applicator |
US20100163555A1 (en) * | 2006-09-01 | 2010-07-01 | Industrial Microwave Systems, L.L.C. | Microwave T-Junction Applicator |
GB2454616B (en) * | 2006-09-01 | 2011-08-17 | Ind Microwave Systems Llc | Microwave T-junction applicator |
US9657991B2 (en) | 2006-09-01 | 2017-05-23 | Industrial Microwave Systems, L.L.C. | Microwave T-junction applicator |
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