SU428302A1 - DEVICE FOR AUTOMATIC MEASUREMENT OF PHASE-FREQUENCY CHARACTERISTICS - Google Patents

Description

one

The invention relates to a phase-measuring technique.

A device for automatic measurement of phase-frequency characteristics (PFC) is known, comprising a two-channel generator, power splitters, mixers and an indicator.

However, the known device does not make it possible to measure the phase difference of external signals.

The purpose of the invention is the measurement of the phase difference of two external signals in a wide frequency range, along with the measurement of phase-frequency characteristics: the crank (PFC) of four-landers.

This is achieved by the fact that the proposed device is equipped with a phase detector, whose course is through an amplifier, the two-channel generator is connected to the input of the same phase detector, two high-frequency probes and a matched tee, one of the high-frequency jitters is connected to one of the mixers directly, and the other through a matched tee is connected to the second mixer and the second input of the phase detector.

The block diagram of the proposed device is shown in the drawing.

The device includes a two-channel oscillator /, a power divider 2, an amplifier

synchronization 3, phase detector 4, high-frequency probes 5 and 6, matched tee 7, mixers S and I indicator 10.

The input signals Ux and Uo, the phase difference 5 to be measured, are fed to high frequency probes 5 and 6, which are quadripoles with a high input impedance and an output impedance of 50 ohms.

A probe's transfer coefficient is usually 1. From a high-frequency probe 5, the signal is fed through a matched tee (instead of a tee, a power divider can be used) to the mixer and phase detector.

A signal from one of the generator channels is also fed to the input of the phase detector. The error signal received from the phase detector, with the unequal frequency of the input signal under study and the frequency of the generator, is amplified by the synchronization amplifier and serves to control the frequency of the generator.

With equal frequencies of the signal under study and the generator, the phase difference of the signals is measured.

The measurement process is as follows.

In case of equal frequencies of the studied signals and the generator (mode, synchronism) of the samples30, peak 6 is connected to the signal t / o- The own zero of the indicator (usually) 0 is set using the built-in phase shifter).

Probe 6 is connected to the signal Ux and measured.

High-frequency probes are usually performed on field-effect transistors, which makes it possible to have a high input resistance (wires) and a sufficiently small input capacitance (units pf). Therefore, the connection of the probe 6 to the reference signal when installing the device’s own zero device practically does not introduce an error in the measurement.

The frequency range of the proposed device is determined by the frequency range of the high-frequency probyks, i.e., up to 300-500 MHz.

Thus, the proposed device allows us to significantly expand the capabilities of the phase response meters and provide a measurement of the phase difference between the two signals.

Subject invention

A device for automatically measuring phase-frequency characteristics, containing two mixers, one input of which is connected via a power divider to a two-channel generator, and to an indicator, characterized in that, in order to measure the phase difference of two external signals in a wide frequency range, it is equipped with a phase detector, the output of which is via a synchronization amplifier, a two-channel generator is connected to the input of the same phase detector, two high-frequency probes, and a matched tee, one of which is high Frequency probes are connected to one of the mixers directly, and the other is connected to the second mixer and the second input of the phase detector through a matched tee.