SU1355944A1 - Method of determining reflection factor of microwave oscillator - Google Patents

Abstract

This invention relates to a radio metering technique and improves measurement accuracy. A device that implements sp-b contains a directionalizer, a branch driver 1, a power meter 2, a load 3, a transmission line 4 of variable length, r-r 5 microwave frequencies. To increase the measurement accuracy, two nearest extreme values of the branch part of the electromagnetic are measured; waves with a smooth change in the length of the line 4 and determine the coefficient. reflection on f-le given in f-le of the invention. 1 PC. from with sd ate with 4 4

Description

technology and can be used when measuring the reflection coefficient of the output of the generator and microwave amplifier in the process of setting up and operating.

The purpose of the invention is to increase the measurement accuracy.

The drawing shows a block diagram of an apparatus for implementing a method for measuring the reflection coefficient of a microwave generator.

The device for the implementation of a preport is determined from the expression

1G.1

t; oKC

(2)

1g „(

+ 1)

ten

Relationship (2) is obtained for the case when the power of the microwave generator under study is unchanged during the measurement process. However, in devices. The SHF, terminating in transistor and lamp amplifiers of the cascade method, contains a directional g, the output power depends on the coupler 1, the power meter 2, the load resistance. When measuring the load 3, the line 4 of the transmission of the variables is the proposed method of resistance

length, microwave generator 5.

A device that implements the proposed method works as follows.

After turning on the microwave generator 5 volts. transmission line 4 establishes the resultant field, which is the sum of all the incident and reflected waves that appeared upon repeated reflection from load 3 and microwave generator 5.

With a sufficiently large (20 dB) transient attenuation of the directional coupler 1, the transmission coefficient of its main channel and CWS (H) is close to unity. The transmission coefficient of the transmission line 4 of variable length 4 and its SWR (H) is also close to unity; therefore, the influence of the coupler 1 and line 4 of the transmission on the floor level in transmission line 4 can be neglected. It is known that the amplitude of a wave running from a microwave generator to a load is determined by the expression

Y

1-yr

2JPE

(one)

Up is the amplitude of the wave delivered by the microwave generator to the matched load;

 - reflection coefficients of the microwave generator and the load, respectively; 1 - the length of the transmission line between

Microwave generator and load; / (- wavelength in the transmission line, the problem.

2l

P -7

Indications P

MQ "t

min

meter

2 power proportional to the power dissipated in the load 3.

torus is determined from the expression

t; oKC

1G.1

(2)

1g „(

+ 1)

load, reduced to the output of the tested active device, varies depending on the length of the communication line.

As is known, the maximum value of the power of the microwave generator develops in a critical mode, which is. It is provided if the output stage (transistor or tube) is loaded with a critical resistance, which is generally different from (the load resistance at the output of the microwave generator. Therefore, between the output of the active stage and the output of the microwave generator, usually a transformer is included. the device is implemented in such a way that 1;

c, ko1 and the generator is loaded on the characteristic impedance.

To take into account the change in power of the studied microwave generator in the measurement process of the proposed method, in Equation (2), it is necessary to enter the correct coefficient K equal to the standing wave load factor.

Then the formula for calculating the reflection coefficient K, I takes the following form:

(3)

R e e N and

A method for determining the reflection coefficient of a microwave generator, including

3 (355944

the supply of an electromagnetic wave, vo-g},

microwave generator, to the input j

transmission lines when connected to ii -

load output, branch part (

electromagnetic wave propagated by 1H | | ()

from the microwave generator to the load. “T,

Where R., R. - measured extremes in order. what whh

 the maximum values of the ot aim to improve the measurement accuracy,

f branch power:

measure the two closest extremes, "

the value of the branch part of the electromagnetic wave with a smooth change of -11Ln1.

1 1G SRI of the transmission line length and determine

the reflection coefficient of the microwave generator (modulus of the coefficient is reflected by the load formula.

Claims (1)

la inventions coefficient determination A microwave oscillator comprising: (355944 supplying electromagnetic wave excited by the microwave generator to the input transmission line when connected to its output load, branch portion of the electromagnetic wave propagating ³ yuscheysya from the microwave generator to the load, characterized in that, in order increase the accuracy of measurements, measure the two closest extreme values of the branch part of the electromagnetic wave with a smooth change in the length of the transmission line and determine the reflection coefficient of the microwave generator according to the formula Eia & 5__L 1 'C to ^{| =} - where P ^ _M ~ John ^measurable P ^ennye extreme values of the branch of power; ir | “Load reflection coefficient modulus.