SU1092432A1 - Method of measuring modulus and phase of uhf-device reflection and transmission coefficients - Google Patents

Description

The invention relates to techniques for microwave microwave measurements and can be used in automatic measuring devices and systems.

A known method of measuring module 5 and the phase of the reflection coefficient, based on the branch of the incident and reflected from the studied load waves, measuring the ratio of these amplitudes and the ratio of their phases. The magnitude of the reflection coefficient is judged by the amplitude ratio, and the phase of the reflected wave is judged by the ratio of their phases. This method is also used to measure the modulus and phase of the transmitted wave. In this case, the incident and transmitted wave Г1 2 branches.

The disadvantage of this method is the difficulty of its implementation in automatic meters.

The closest technical solution to the proposed method is the measurement module and phase koeffi25 cients reflection and transmission of microwave devices based on measuring signals on the four probes spaced 3/8 in a waveguide path connected in measuring the reflectance to ³⁰ do vho- , and when measuring the transmission coefficient - to the output of the studied four-terminal network. These signals are subtracted in pairs and the resulting two difference signals are used to determine the desired coefficient [2 3.

However, this method has insufficient accuracy due to the presence of the operation of subtracting two approximately equal values. 40

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

This goal is achieved by the fact that according to the method of measuring the module and phase of the reflection coefficients 45 and transmitting microwave devices, based on measuring signals on four probes, separated by 3/8 in the waveguide path connected to the input of the reflection coefficient 50 and when measuring the transmission coefficient - to the output of the studied four-port network, the signals on the probes are measured sequentially with a predetermined period for equal periods of time, the first signal is detected by the received signal sequence nick the detected signal and its amplitude are judged on the module, but by its phase - a phase coefficients.

The drawing shows a functional diagram of a device that implements this method.

The device contains a microwave generator 1, a microwave path 2 loaded on load 3, four probes 4-7, connecting the microwave path 2 to the switch 8, the output of which is connected to the inputs of the amplitude detector 11 and phase meter 12 through a quadratic detector 9 and a bandpass filter, and a reference input which is connected to the reference output of the switch 8, the output of the amplitude detector 11 is connected to the indicator 13 of the module, and the output of the phase meter 12 is connected to the phase indicator 14. The distance between the probes is 3/8.

The method is implemented as follows.

The switch 8 periodically commutes with a frequency Ώ each of the output signals on the probes 4-7 in the common channel. Thus at the output of the switch 8 receive a signal in the form of a non-sinusoidal periodic sequence of voltages of four different values. This signal is detected by a quadratic detector 9 and fed to a band pass filter 10, which extracts the first harmonic from it. This harmonic is detected by an amplitude detector and fed to the indicator 13 of the module. The phase shift between the output signal of the band-pass filter 10 and the reference signal of the switch is converted by a phase meter 12 V, proportional to the phase of the reflection coefficient and fed to the phase indicator 14. Replacing a single-channel microwave path with a two-channel makes it possible to measure the module and phase of the transfer coefficient of the microwave device.

Thus, the proposed method improves the accuracy of measurements.

VNIIIPI Order 3249/29

Circulation 711 Subscription

Branch of PPP Patent ”, _{city of} Uzhhorod, Project 4,

Claims (1)

METHOD FOR MEASURING THE MODULE AND PHASE OF REFLECTION COEFFICIENTS AND TRANSMISSION OF MICROWAVE DEVICES, based on measuring signals from four probes spaced apart on an LD in the waveguide path connected when measuring the reflection coefficient to the input of the studied quadripole, the studied quadripole, while to its output, characterized in that, in order to improve accuracy, they measure sequentially with a given period for equal periods of time the signals on the probes, the obtained sequence signal is detected, isolated first harmonic detected signal and its amplitude judge module, and at its phase-to-phase coefficients.