SU438066A1 - Microwave phaser - Google Patents

Description

one

The invention relates to radio engineering, namely to devices for simulating microwave signals with varying phase.

A mechanically controlled phase shifter, a ferrite, an electrically controlled phase shifter, an electrically controlled phase shifters are known, using the effect of rotating the phase of the total vector when adding two oscillations with varying amplitudes.

The last phase shifter is the prototype of the present invention, it contains input and output power dividers, a 90 ° phase shifter and attenuators electrically controlled by modulators connected in a balanced manner.

The disadvantages of the known phase shifter are that there is no possibility of controlling the phase from 0 to 2 liters, that when the phase of the output microwave signal changes, its amplitude also changes and when the control signal changes, the phase changes according to a nonlinear law.

The purpose of the present invention is to ensure the independence of the amplitude of the output signal from a change in its phase and preserve the linearity of the change in phase with a change in the control signal.

This goal is achieved by the fact that an attenuator and a 45 ° phase shifter are connected to the input power divider via an N-tee, connected via an adder to the output power divider.

The drawing shows a block diagram of the device.

 The device contains an N-tee 1, an attenuator 2, an input power divider 3, a 90 ° phase shifter 4, a 45 ° phase shifter 5, attenuators 6 and 7 electrically controlled by modulators 8 and 9, an output power divider 10 and an adder 11. The device works as follows in a way.

The incoming microwave oscillations are divided by the waveguide N-tee 1 into two parallel channels and are shifted relative to the input by 180 ° and 0 °. From the common-mode arm, the signal goes to the power divider 3, and two channels are formed, in the shoulder of one of them there is a 90 ° phase shifter 4 and an electrically controlled attenuator 6, which is controlled by the modulator 8 through

COS2 Act -

where a, is the control signal, in the other arm is the second attenuator 7, which is controlled by the modulator

9 according to the law COS2 (-. Both of these channels

V 4 2 /

connected to the output of the divider 10.

From the output of the antiphase arm of the N-tee, the microwave signal passes through an attenuator 2,

reducing voltage V 2 times, and 45 ° phase shifter 5. This signal is fed to adder 11, to the input of which the output of divider 10 is also connected.

At the output of the adder, there will be a microwave signal, in which the phase will vary linearly, in accordance with the control signal ai, and the amplitude will be constant with the phase change.

The described can be expressed mathematically.

The signal arriving at the adder from the output divider:

2L sin t cos - + 2Asin (cu / + -) cos X 2V /

x (tt).

where L is the amplitude of the signal arriving at

controlled attenuator; W-control signal; ω is the circular frequency of the microwave signal.

The signal coming to the adder from the anti-phase arm of the tee:

U2D81pG in / + - j or L sin sh + L sin (t - f -.

2 /

Then the output of the adder will be a signal that will be:

2L sin wt cos - + 2L sin (cos X

 /

X (- -) - Lsina) / - Lsin / w + 4 2 U

Let us transform the obtained expression, and according to the addition formula of sinusoidal values, we obtain that the amplitude of the signal at the output of the adder is L, and the phase is equal to a. From this it follows that the amplitude of the output signal does not depend on the phase, the change of which is linear to the control signal.

Subject invention

Microwave phase shifter containing input and output power dividers, 90 ° phase shifter and attenuators, electrically controlled by modulators, connected in a balanced circuit, characterized in that, in order to ensure that the output signal amplitude is independent of the phase change and preserve the linearity of the phase change at by changing the control signal, an attenuator and a 45 ° phase shifter are connected to the input power divider via an N-tee, connected via an adder to the output power divider.