RU1426371C - Microwave phase shifter - Google Patents

Abstract

FIELD: microwave technology. SUBSTANCE: phase shifter has rectangular-to-round waveguide adapter 1, E-port tee-joint 2, reciprocal polarization transducer 3, phase section 4, nonreciprocal polarization transducer 5, and round-to-rectangular waveguide adapter 6. Phase section 4 is essentially round waveguide section filled with ferrite and provided with magnetic system 7 presented by solenoid wound on inlet portion of round waveguide section. Linearly polarized H₁₀ wave arriving at phase shifter passes through components 1-3 where it is transformed into circularly polarized wave. Phase shift of wave built up by phase section 4 depends on ferrite parameters, magnetic field, and length of phase section 4. Then circularly polarized wave is transformed into linearly polarized wave. Return wave passed through reciprocal transducer 3 is polarized orthogonally in respect to direct wave polarization and functions to excite E-port of waveguide tee-joint thereby decoupling phase shifter input. EFFECT: improved speed, reduced mass and size. 1 dwg

Description

 The invention relates to microwave technology and can be used in microwave systems in the microwave range and in measuring equipment.

 The purpose of the invention is an increase in speed, a decrease in size and weight.

 The drawing shows a microwave phase shifter.

 The microwave phase shifter comprises a transition 1 from a rectangular to a circular waveguide, a waveguide tee 2 with an E-arm, a mutual polarization converter 3, a phase section 4, a nonreciprocal polarization converter 5, a transition 6 from a circular waveguide to a rectangular one and a magnetic system 7 of phase section 4.

 The microwave phase shifter operates as follows.

Transition 1 receives a linearly polarized wave of H ₁₀ . After passing through the transition 1, the waveguide tee 2 and the mutual transducer 3, such a wave is converted into a wave with circular polarization. At the output of the phase section 4, the wave acquires a phase shift determined by the parameters of ferrite, the magnetic field generated by the magnetic system 7, and the length of the phase section 4. Subsequently, the wave with circular polarization turns into a nonreciprocal transducer 5 into a wave with linear polarization of the input wave and through transition 6 goes to the output of the device. For the backward wave, after passing through the mutual transducer 3, a wave is formed whose linear polarization is orthogonal to the polarization of the direct wave. As a result, when such a wave passes through the waveguide tee 2, its E-arm is excited. Thus, the input of the device is decoupled.

Claims (1)

 A microwave phase shifter comprising a transition from a rectangular to a circular waveguide, a waveguide tee with an E-arm connected to it, a reciprocal polarization transducer, a phase section and a nonreciprocal polarization transducer, made on a segment of a circular waveguide filled with ferrite, a magnetic system of a phase section, transition from a circular a waveguide to a rectangular one, characterized in that, in order to increase speed, reduce dimensions and mass, a mutual polarization converter, a phase section, a nonreciprocal spruce polarization and the transition from rectangular to circular waveguide are connected in series, wherein the input mutual polarization converter connected to the output waveguide tee with E-arm, and the magnetic system of the phase section is designed as a solenoid, wound around a portion of the input circular waveguide segment.