US3845421A

US3845421A - Polarization insensitive transmission phase shifter

Info

Publication number: US3845421A
Application number: US00430340A
Authority: US
Inventors: D Charlton; C Chen
Original assignee: Hughes Aircraft Co
Current assignee: Raytheon Co
Priority date: 1974-01-02
Filing date: 1974-01-02
Publication date: 1974-10-29
Anticipated expiration: 1991-10-29

Abstract

The apparatus of the present invention constitutes a four part polarization insensitive transmission type phase shifter which utilizes a single phase shifter to provide the same amount of phase shift to two independent signals. In operation one signal progresses and passes through the phase shift section in one direction, while the remaining signal progresses through the same phase shift section in the opposite direction. Since these two signals travel through the phase shifter in the opposite sense, reasonably good isolation between these two signals is achieved.

Description

United States Patent 1 Charlton et al.

[451 Oct. 29, 1974 POLARIZATION INSENSITIVE TRANSMISSION PHASE SHIFTER [75] Inventors: Donald A. Charlton, Huntington Beach; Chao C. Chen, Cerritos, both of Calif.

[7 3] Assignee: Hughes Aircraft Company, Culver City, Calif.

22 Filed: Jan. 2, 1974 21 Appl. No.: 430,340

[52] US. Cl 333/31 R, 333/l.l, 333/21 A, 333/31 A [5]] Int. Cl. l-l0lp l/l6, H03h 7/20 [58] Field of Search 333/l.l, 6-11, 333/21 A, 21 R, 31 R, 3] A, 98 R, 24.1,

[56] References Cited UNITED STATES PATENTS 3,519,956 7/1970 Hai et a]. 333/l.l

3,626,335 l2/l97l Hord et al 333/3l A Primary Examiner-James W. Lawrence Assistant ExaminerMarvin Nussbaum Attorney, Agent, or FirmR. H. Himes; W. H. MacAllister, Jr.

[57] ABSTRACT The apparatus of the present invention constitutes a four part polarization insensitive transmission type phase shifter which utilizes a single phase shifter to provide the same amount of phase shift to two independent signals. In operation one signal progresses and passes through the phase shift section in one direction, while the remaining signal progresses through the same phase shift section in the opposite direction. Since these two signals travel through the phase shifter in the opposite sense, reasonably good isolation between these two signals is achieved.

10 Claims, 7 Drawing Figures PAIENIEDMIZQ m4 WIINZ tem 5 32:;

H M/J III/1 Irv? Alli

POLARIZATION INSENSITIVE TRANSMISSION PHASE SHIFTER BACKGROUND OF THE INVENTION Dual polarization capability of phase shifters is gen erally desirable in phased arrays so that the resulting antenna system can receive waves that are polarized. Phased arrays of this type may require as many as I0,000 or more phase shifters. Since the distance between elements of the array is determined by basic design considerations, the space that can be allocated to each phase shifter is fixed. In a conventional phased array, dual polarization capability is accomplished by using two separate sets of phase shifters, one set for each polarization. Such a phase shifter is described in Us. Pat. No. 3,626,335 entitled Phase Shifting Means. Thus, in addition to volume restrictions, an additional phase shifter is required together with the requisite dual mode transducers for each element of the array.

SUMMARY OF THE INVENTION In accordance with the present invention, two orthogonal mode input-output transducers are incorporated with a conventional phase shifter which may be, for example, either the diode or the ferrite type. The transducers which are implemented at both ends of the phase shifter body are so designed that they provide a forward wave for one polarization through the variable phase shift section and a backward wave propagating in the reverse direction for the remaining orthogonally polarized wave. The forward and backward waves are arranged to obtain the same amount of phase shift when they pass through the phase shift section simultaneously in opposite directions. Isolation between the forward and backward waves depends on the impedance match condition of the input-output transducers.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. I illustrates a three-dimensional view of the polarization insensitive transmission phase shifter of the present invention;

FIGS. 2 and 3 show cross-sections 2-2 and 3-3 respectively;

FIGS. 4, 5 and 6 describe the transmit and receive polarization; and

FIG. 7 illustrates a dual polarization. non-reciprocal diode phase shifter.

DESCRIPTION Referring now to FIG. I of the drawings, the polarization insensitive transmission phase shifter of the present invention includes loop-type input and

output transducers

10,12, respectively, which are adapted to receive and transmit both vertically and horizontally polarized electromagnetic waves. In addition to the input and output transducers "M2 the phase shifter of the present invention includes a waveguide section 13 which may be of square or circular cross-section capablc of propagating both horizontally and vertically polarized electromagnetic waves. Waveguide section l3 has loop-type orthogonal transducers I4,l5 at each extremity and a non-reciprocal ferrite phase shifter I6 in the center portion thereof separated from

transducers

14,15 by reciprocal polarizers [7,18.

Input transducer l0 includes a vertical loop 20, as shown in the drawing. which connects through the center conductor of a coaxial transmission line 2| to a vertical loop 22 within transducer 14. In a similar manner. a vertical loop within transducer I2 connects through a coaxial line 23 to a vertical loop within the transducer I5. Further. input transducer I0 includes a horizontal loop 24, as shown in the drawing. which connects via the center conductor ofa coaxial line 27 to a horizontal loop within transducer I2.

As mentioned above reciprocal polarizers 17.18 are disposed intermediate the non-reciprocal ferrite phase shift section 16 and transducers I4,I5 respectively.

Reciprocal polarizers

17,18 include

dielectric slabs

29,30 respectively, which are disposed diagonally across the waveguide section I3 in opposite directions. In particular, FIG. 2 illustrates cross-section 2-2 of reciprocal polarizer I7 wherein dielectric slab 29 extends from the upper left corner to the lower right corner of a square waveguide section I3, as viewed in the drawing. FIG. 3, on the other hand. illustrates cross-section 3-3 of reciprocal polarizer 18 wherein dielectric slab 30 extends from the lower left corner to the upper right corner of the square waveguide section 13, as viewed in the drawing. The length of the

dielectric slabs

29,30 along the waveguide should be such as to introduce a one-quarter wavelength difference in the orthogonal modes propagated therethrough.

Referring again to FIG. I, the ferrite phase shift section 16 includes a ferrite core 32 disposed longitudinally along the center portion of waveguide Section I3. Adjacent to the outside of each sidewall of waveguide section I3 there is disposed a longitudinal electromagnetic yoke 34 which extends past the ferrite core 32 so as to produce a longitudinal controllable magnetic field therethrough.

Drive wheels

35,36 encircle the waveguide section 13 for a sufficient distance to produce a longitudinal magnetic field through ferrite core 32 which returns through yokes 34.

Drive wires

35,36 are momentarily connected through a reversing switch 37 across a rheostat 38 serially connected with a battery 39 whereby the ferrite core 32 remains magnetized at a constant value until

drive wires

35,36 are again ener gized through reversing switch 37 thereby enabling a reversible, variable magnetic field to be established through the ferrite core 32 to provide the same phase shift for both emitted and incident waves as will be hereinafter explained.

In describing the operation of the polarization insensitive phase shifter of the present invention. reference is made to FIG. 4 of the drawings which shows a schematic diagram of the device of FIG. I wherein a magnetic field is generated from left to right through the ferrite phase shift section 16, as shown in the drawing. During transmission, incident electromagnetic waves are applied to transducer I0 which applies a vertical component 40, FIG. 5, to transducer I4 and a horizontal component 41 to transducer 15. The vertical component 40 traverses dielectric slab 29 disposed at an angle of 3 l5 relative thereto. Vertical component 40, in turn, resolves into two equal components. one parallel to the dielectric slab 29 and the other perpendicular thereto. The length of the slab 29 is selected to delay the parallel component by relative to the vertical component thereby converting component 40 into counterclockwise circularly polarized wave 42. Upon progressing through the phase shift section 16 through which a magnetic field, M from left to right as viewed in the drawing, is generated, the counterclockwise wave 42 undergoes a phase shift which phase shift is retained after progressing through reciprocal polarizer 18. The reciprocal polarizer 18 delays the undelayed" component of wave 40 by 90, thus converting the circularly polarized wave 43 which has now undergone a phase delay of back into a vertically polarized component 43. This delayed vertical component 43 is thus energized as a vertical component in transducer 12.

The horizontal component 41 propagates a distance I along coax 25 prior to being launched in transducer 15 as a horizontally polarized wave. Upon traversing the dielectric slab 30 the component normal thereto increases in phase by 90 relative to the phase of the component parallel to dielectric slab 30 thereby converting component 41 into a clockwise circularly polarized wave 44, as viewed from right to left in the drawing. Upon propagating through the phase shift section 16, circularly polarized wave 44 encounters the same magnetic field as did the wave 42, the only difference being that the waves 42,44 propagate in opposite directions, thereby minimizing any interaction therebetween. The direction of the circular polarization of the waves 42,44 relative to the direction of the magnetic field, M, are the same, i.e., the screw sense of the waves 42,44 are the same, so that both waves 42,44 undergo the same phase change, in traversing phase shift section 16. Subsequently, the dielectric slab 29 delays the component normal to dielectric slab 30 of circularly polarized wave 44 thereby converting it back to:

a delayed horizontally polarized wave 45. Wave 45 propagates an additional distance I through coaxial line 27 whereby a wave 46 having a delay of 2l+rb, is applied to the horizontal input loop of transducer 12. Additional line can be inserted in the path of the vertical component 43 exterior to the phase shifter of the present invention to compensate for the additional distance traveled by the horizontal component 46, if this factor is critical.

To convert the operation of the phase shifter device of the present invention to receive, the direction of the magnetic field M, through phase shift section 16 is reversed by changing the position of reversing switch 37 so as to retain the same screw sense" with the circularly polarized waves. Electromagnetic energy incident on transducer 12 includes a vertical component 50 and horizontal component 51, FIG. 6. As before, the components are separated with the vertical component 50 launched along waveguide section 13 from right to left, as viewed in the drawing, by means of transducer 15 and with the horizontal component 51 launched along waveguide section 13 from left to right, as viewed in the drawing, by means of transducer 14. Upon progressing through polarizer 18, vertical component 50 resolves into a component parallel to dielectric slab 30 and a component nonnal thereto. Since the wave normal to dielectric slab 30 traverses it first, the vertical component 50 is converted to a counterclockwise circularly polarized wave 52, as viewed from right to left in the drawing. With the magnetic field, M, reversed the screw sense is the same as for wave 42, FIG. 5, whereby the wave 52 appears as wave 53 at the output of phase shifter 16 delayed by the same phase shift (35,. Wave 53 is converted back to a vertical component 54 by reciprocal polarizer 17.

Similarly, horizontal component 51 propagates through coaxial line 27 to transducer 14 which launched as a horizontally polarized wave through polarizer 17 which converts it into clockwise circularly polarized wave 55. Since the direction of the magnetic field, M, has been reversed the "screw sense" remains the same whereby the wave 55 undergoes the same phase shift dz, in progressing through phase shifter 16 and appears at the output thereof as wave 56. Wave 56 is converted to horizontally polarized wave 57 by reciprocal polarizer 18. Wave 57 must propagate through coaxial line 25 to transducer whence it is emitted as wave 58 with a total phase delay 0f 214-41,. The same compensation in the feed network used on transmit provides compensation for the 2! delay difference for the horizontal component 58 of an incident wave.

Referring to FIG. 7, there is shown a polarization insensitive phase shifter in accordance with the invention employing

switchable circulators

60,61 in lieu of

transducers

14,15 and

reciprocal polarizers

17,18 thereby enabling a conventional variable phase shifter 62 to be employed therebetween. As before,

transducers

64,65 are employed to provide input-output connections to the device.

Circulators

60,61 are defined as having three ports designated A, B and C. in one state, an input to port A is emitted from port B, an input to port B is emitted from port C and an input to port C is emitted from port A. In an opposite states an input to port A is emitted from port C, an input to port C is emitted from port B and an input to port B is emitted from port A. Referring to FIG. 7, port B of

circulators

60,61 are connected to opposite extremities of variable phase shifter 62. Transducer 64 resolves input energy into first and second orthogonal components available at

terminals

67,68, respectively, which are connected, respectively, to port A of

switchable circulators

60,61. Transducer 65 is adapted to combine the first and second orthogonal components applied at

terminals

69,70, respectively, which are connected to port C of

switchable circulators

61,60 respectively. Means for switching the

circulators

60,61 is not shown.

In the operation of the device of FIG. 7 to transmit from left to right, as viewed in the drawing, the

circulators

60,61 are switched to operate in a counterclockwise direction as indicated by the arrows. Thus, first and second orthogonal components from transducer 64 are applied to port A of

switchable circulators

60,61, respectively, and emanate from port B thereof and propagate in opposite directions through variable phase shifter 62 whereby each wave is delayed by 4),. The energy delayed by q), is applied to port B of the

opposite circulator

60 or 61 from whence it is emitted from port C thereof and applied to

terminals

69,70 of transducer 65. Transducer 65 combines the delayed orthogonal component whence the input wave delayed in phase by d), is emitted from the output thereof. To reverse the direction of operation from right to left, as viewed in the drawing, the

switchable circulators

60,61 are both switched to effect a flow of energy in the clockwise direction. Operation is the same as before.

What is claimed is:

1. A polarization insensitive phase shifter comprising:

first and second bilateral transducers each having first, second and third terminations for resolving electromagnetic energy available at said first termination thereof into a first component available at said second termination and a second component orthogonal to said first component available at said third termination;

a bilateral phase shifter having first and second terminations;

means coupled from said termination of said first transducer and from said third termination of said second transducer to said first termination of said phase shifter for launching electromagnetic energy available at a selected one of said first or second transducers through said phase shifter away from said first termination thereof and for coupling electromagnetic energy propagating through said phase shifter towards said first termination thereof to the remaining one of said first or second transducers;

means coupled from said third termination of said first transducer and from said second termination of said second transducer to said second termination of said phase shifter for launching electromagnetic energy available at said selected one of said first or second transducers through said phase shifter away from said second termination thereof and for coupling electromagnetic energy propagating through said phase shifter towards said second termination thereof to said remaining one of said first or second transducers.

2. The polarization insensitive phase shifter as defined in claim l wherein said means coupled from said second termination of said first transducer and from said third termination of said second transudcer to said first termination of said phase shifter and said means coupled from said third termination of said first transducer and from said second termination of said second transducer to said second termination of said phase shifter constitute first and second circulators, respectively.

3. The polarization insensitive phase shifter as defined in claim 1 wherein said means coupled from said second termination of said first transducer and from said third termination of said second transducer to said first termination of said phase shifter and said means coupled from said third termination of said first transducer and from said second termination of said second transducer to said second termination of said phase shifter constitute third and fourth transducers, respectively, disposed at opposite extremities of said phase shifter and first and second reciprocal polarizers disposed intermediate said phase shifter and said third and fourth transducers, respectively.

4. The polarization insensitive phase shifter as defined in claim 3 wherein said phase shifter includes means for propagating electromagnetic waves through a ferrite medium between the first and second terminals thereof, means for generating a magnetic field having flux lines parallel to the overall direction of propagation between said first and second terminals of said phase shifter, and means for reversing the polarity of said magnetic field thereby to control the direction of operation of said polarization insensitive phase shifter.

5. The polarization insensitive phase shifter as defined in claim l wherein said first component is horizontally polarized and said second component orthogonal to said first component is vertically polarized.

6. A polarization insensitive phase shifter adapted to introduce a phase delay from an input termination to an output termination, said phase shifter comprising:

a first transducer coupled to said input termination for resolving electromagnetic energy applied thereto into horizontally and vertically polarized components available at first and second terminations thereof, respectively;

a second transducer coupled to said output termination adapted to combine horizontally and vertically polarized components applied to first and second terminations thereof, respectively, for generating a composite output wave;

a bilateral phase shifting device having first and second terminations at opposite extremities thereof;

third and fourth transducers coupled to said first and second terminations of said phase shifting device. respectively, each of said third and fourth transducers having first and second terminations for horizontally and vertically polarized components. respectively;

means coupling said first termination of said first transducer to said first termination of said fourth transducer;

means coupling said second termination of said first transducer to said second termination of said third transducer;

means coupling said second termination of said fourth transducer to said second termination of said second transducer; and

means coupling said first termination of said third transducer to said first termination of said second transducer.

7. The polarization insensitive phase shifter as defined in claim 6 wherein said bilateral phase shifting device having first and second terminations at opposite extremities thereof includes a longitudinal waveguide section capable of propagating both horizontally and vertically polarized electromagnetic waves, a ferrite material disposed along a predetermined length inside said longitudinal waveguide section, means for generating a magnetic field of predetermined intensity in a selected direction through said ferrite material parallel to the longitudinal axis of said waveguide section, and means disposed at opposite extremities of said longitudinal waveguide section for bidirectionally converting said horizontally and vertically polarized components into circularly polarized waves.

8. The polarization insensitive phase shifter as defined in claim 7 wherein said means for bidirectionally converting said horizontally and vertically polarized components into circularly polarized waves constitute reciprocal polarizers.

9. A polarization insensitive phase shifter comprising:

first and second bilateral transducers each having first, second and third terminations for resolving electromagnetic energy available at said first termi nation thereof into a first component available at said second termination and a second component orthogonal to said first component available at said third termination;

a bilateral phase shifter having first and second terminations;

a first circulator coupled from said second termination of said first transducer and from said third ter- 10. The polarization insensitive phase shifter as delined in claim 9 wherein the direction of operation of said first and second circulators are simultaneously reversible thereby to control the direction of operation of said polarization insensitive phase shifter.

I! i i 1'!

Claims

1. A polarization insensitive phase shifter comprising: first and second bilateral transducers each having first, second and third terminations for resolving electromagnetic energy available at said first termination thereof into a first component available at said second termination and a second component orthogonal to said first component available at said third termination; a bilateral phase shifter having first and second terminations; means coupled from said termination of said first transducer and from said third termination of said second transducer to said first termination of said phase shifter for launching electromagnetic energy available at a selected one of said first or second transducers through said phase shifter away from said first termination thereof and for coupling electromagnetic energy propagating through said phase shifter towards said first termination thereof to the remaining one of said first or second transducers; means coupled from said third termination of said first transducer and from said second termination of said second transducer to said second termination of said phase shifter for launching electromagnetic energy available at said selected one of said first or second transducers through said phase shifter away from said second termination thereof and for coupling electromagnetic energy propagating through said phase shiFter towards said second termination thereof to said remaining one of said first or second transducers.

2. The polarization insensitive phase shifter as defined in claim 1 wherein said means coupled from said second termination of said first transducer and from said third termination of said second transudcer to said first termination of said phase shifter and said means coupled from said third termination of said first transducer and from said second termination of said second transducer to said second termination of said phase shifter constitute first and second circulators, respectively.

5. The polarization insensitive phase shifter as defined in claim 1 wherein said first component is horizontally polarized and said second component orthogonal to said first component is vertically polarized.

6. A polarization insensitive phase shifter adapted to introduce a phase delay from an input termination to an output termination, said phase shifter comprising: a first transducer coupled to said input termination for resolving electromagnetic energy applied thereto into horizontally and vertically polarized components available at first and second terminations thereof, respectively; a second transducer coupled to said output termination adapted to combine horizontally and vertically polarized components applied to first and second terminations thereof, respectively, for generating a composite output wave; a bilateral phase shifting device having first and second terminations at opposite extremities thereof; third and fourth transducers coupled to said first and second terminations of said phase shifting device, respectively, each of said third and fourth transducers having first and second terminations for horizontally and vertically polarized components, respectively; means coupling said first termination of said first transducer to said first termination of said fourth transducer; means coupling said second termination of said first transducer to said second termination of said third transducer; means coupling said second termination of said fourth transducer to said second termination of said second transducer; and means coupling said first termination of said third transducer to said first termination of said second transducer.

9. A polarization insensitive phase shifter comprising: first and second bilateral transducers each having first, second and third terminations for resolving electromagnetic energy available at said first termination thereof into a first component available at said second termination and a second component orthogonal to said first component available at said third termination; a bilateral phase shifter having first and second terminations; a first circulator coupled from said second termination of said first transducer and from said third termination of said second transducer to said first termination of said phase shifter; and a second circulator coupled from said third termination of said first transducer and from said second termination of said second transducer to said second termination of said phase shifter.

10. The polarization insensitive phase shifter as defined in claim 9 wherein the direction of operation of said first and second circulators are simultaneously reversible thereby to control the direction of operation of said polarization insensitive phase shifter.