SU1352562A1 - Phase shifter - Google Patents

Abstract

This invention relates to microwave radio technology and stabilizes forward losses. Phaser (B) contains segments of transmission line (OLP) 1, 2, electromagnetically interconnected by a communication section, and absorbing elements, which are located in ILP 2 at its ends or at a communication section. OLP 1 contains a ferroelectric 6: on a diel. substrate 7. The ratio of the phase velocities v, v, respectively, of the FPV 1, 2, when there is no connection between them, is chosen from the condition 1 i V, / v, The electromagnetic wave propagating through the PFL 1, branched off in the OLP 2. a small part of the energy is diverted. By applying a control voltage to it, it is possible to reduce the effective Diel. permeability OLP 1, the phase shift of the PV and its dissipative losses. At the same time, a part of the energy is increased, branching off into OLP 2 and absorbed in absorbing elements. The parameters of the communication site are selected so that the decrease in dissipative losses in OLP 1 is compensated for by an increase in the energy that is branched from it. At the same time, the direct losses of the PV are constant. 3 il. § (L

Description

The invention relates to microwave radio technology and can be used in various transceiver and measuring equipment.

The purpose of the invention is to stabilize direct losses.

FIG. 1 shows a phase shifter on coplanar segments of the transmission line; figure 2 is the same, the view from the second segment of the transmission line; FIG. 3 shows a waveguide structure of a phase shifter.

The phase shifter contains the first 1 and second 2 segments of the transmission line, absorbing elements 3, placed in the second segment 2, associated with the first backward link 1, in which in the case of a coplanar design slots 4 can be made, and in the case of a waveguide structure - holes 5. The first segment 1 contains a ferroelectric 6 on the dielectric substrate 7. The ratios of the phase velocities v, v, respectively, of the first 1 and second 2 segments, if there is no connection between them, are chosen from the condition 1: v, / v, 4.

Phaser works as follows.

The electromagnetic wave propagating along the first segment 1 branches into the second segment 2. A small part of the energy branches into the second segment 2, since the ferroelectric 6 provides a large difference in the effective dielectric constant of the transmission lines of the first 1 and second 2 segments. Applying a voltage to a ferroelectric 6 from a control source (not shown) reduces the effective dielectric

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permeability of the first segment 1, phase shift of the phase shifter and its dissipative losses. This increases the part of the energy that is branched off in

5, the second segment 2, the thickness of the dielectric substrate 7, the length of the communication section, the dimensions of the slots k or holes 5 must be chosen so that the decrease in dissipative losses in

The first segment of I is compensated for by an increase in the energy branched from it. In this case, the direct losses of the phase shifter remain constant. The branched energy is absorbed in the absorbing elements 3. The ability to change these independent parameters allows for various combinations of amplitude and phase modulation, to compensate for parasitic

20 amplitude modulation.

Claims (1)

Invention Formula The phase shifter containing the first segment of the transmission line, including a ferroelectric, is characterized in that, in order to stabilize direct losses, absorbing elements are introduced into it and the second segment of the transmission line, which is electromagnetically connected to the communication section with the first segment of the transmission line, with In this case, the absorbing elements are located in the second segment of the transmission line in the communication section or at the ends in the second segment of the transmission line, and the ratio of the phase velocities, v, of the first and second segments of the transmission line, respectively, is absent and the connections between them are 1 e Vj, / V, -4Y. / V rw. fie.Z