SU425131A1 - DEVICE FOR MEASURING THE NEIGHBORNESS OF MICROWAVE RESONATORS - Google Patents

Description

one

This invention relates to microwave measurement technology and can be used to measure the Q-factor of a microwave resonator.

A device for measuring the quality factor of a microwave-2 benzator by a modulation method is known. connected measured microwave resonator, amplitude detector and oscillographic indicator.

However, the known device has an insufficiently high accuracy of measurements, since the measurement of the passband of the resonator is reduced to aligning the calibration grid lines with the peaks of auxiliary pulses that do not have a pronounced maximum on the oscilloscope screen.

The aim of the invention is to improve the measurement accuracy.

For this, an automatic parameter meter (LIP) is entered into the device, the input of the carrier signal of the amplitude modulator is connected to the output of the microwave generator via a wave meter, and the input of the signal of the modulating frequency is connected to the output of an ANP pig generator, to the input of which

The low-frequency generator connected to the frequency meter, and the output of the amplitude detector is connected to the input of the oscillographic indicator LIP.

The drawing shows a block diagram of the device.

The device for measuring the Q-factor of the microwave resonators includes a microwave generator 1, a wave meter 2, an amplitude modulator 3, a resonator under study 4, an amplitude detector 5, an AIP 6, a low frequency generator 7, a frequency meter 8.

The device works as follows. The signal of the microwave generator 1 with a frequency fr is fed to the input of the carrier frequency of the modulator

3, to the second input of which a low-frequency, frequency-modulated voltage is applied from the output of the sweep-generator ANN 6 to the input of the “External oscillator of which is connected to a tunable low-frequency generator 7.

The deviation of the frequency AQ is set in such a way that it is greater in absolute value than the passband of the resonator under study 4. Next, rearranging the center frequency Q,

it is achieved that one of the side frequencies (r + d or / r-Q) corresponds to the resonant frequency of the resonator 4.

The signal passed through the resonator 4 is detected by the amplitude detector 5 and is fed to the input of the oscillographic indicator AIP 6, on the screen of which a resonance characteristic of the resonator 4 is observed.

The exact value of the bandwidth is determined using a tunable low-frequency generator 7 and an electron-counting frequency meter 8 as follows. By tuning the frequency of the low-frequency generator 7, a mark is obtained at the top, as well as on the slopes of the resonance characteristic at a level of 0.5 or 0.707, depending on whether the quadratic or linear detector 5 is used in measurements. The frequencies FI, FZ, FZ are measured using a frequency meter 8. The bandwidth of the resonator is equal to FZ-F. The quality factor of the resonator 4 is determined from the ratio

Q, LiA. F, -f,

where fr is the frequency of the microwave generator 1, measured by a wavemeter 2.

The + sign corresponds to the setting of the resonator on the top, and on the bottom side.

The measurement error in this case is associated only with the accuracy of setting the marks on the slope of the characteristic and the nonlinearity of the modulation characteristic of the sweep generator and does not exceed a few percent.

Subject invention

Q Meter

Microwave resonators containing a microwave generator, a modulating low-frequency generator, an amplitude modulator, a measured resonator, an amplitude detector, an oscillographic indicator, characterized in that

increase the accuracy of measurements; an automatic parameter meter (AIP) is inserted in it, the input of the signal of the carrier frequency of the amplitude modulator is connected to the microwave generator through a wave meter, and the input of the signal

the modulating frequency is connected to the output of the AIP sweep-generator, the input of which is connected to a low-frequency generator connected to the frequency meter, and the output of the amplitude detector is connected to the input of the oscillographic indicator of the AIP.