SU676943A1 - Phase meter - Google Patents

Description

connected to the engine, the proton precession sensor, the first and second magnetic systems are enclosed in a magnetic screen, the first and second terminators are connected via the first and second filters to the first and second magnetic systems respectively, and the proton-precession sensor is connected through a frequency detector power amplifier input.

The drawing shows the block diagram of the phase meter.

The phase meter includes a protoinoprecession sensor 1, the first and second magnetic systems 2 and 3, the first and second limiters 4 and 5, the first and second filters 6 and 7, the frequency detector 8, the power amplifier 9, the engine 10, the recording device // and magnetic screen 12.

In the proposed device, the magnetic field is created by magnetic systems 2 and 3, installed one inside the other, having a common center, equal to the constant, connected through the main harmonic filters 6 and the amplitude limiting stages 4 to the phase meter inputs.

The magnetic system 2 is mounted stationary relative to the device body, and the magnetic system 3 is mounted on a rotary axis associated with the engine 10.

Limiters 4 and 5 ensure the equality of the amplitudes of the signals entering the magnetic systems 2 and 5 from the device input.

Phase meter works as follows.

When transmitted to the inputs of magnetic systems 2 and 3, deployed in space at a certain angle of currents having equal amplitudes and differing in phase, a rotating magnetic field arises in the sensor's working substance /, the amplitude of which depends on the angle of phase shift.

When measuring the phase shift of low-frequency signals, the order of units or tens of Hertzs during the recession of the magnetization vector around the rotating vector occurs almost in the same way as in the case of a stationary vector.

A frequency modulated signal (precession emf) arrives at the input of the frequency detector 8 from the sensor input /, and a harmonic signal appears at the detector output, the frequency of which, and the amplitude is proportional to the precession frequency deviation, which in turn depends on the ratio between rotation of magnetic systems in space.

Under certain conditions, the signal from the output of the frequency detector 8, through the power amplifier 9, enters the motor 10, which deploys the magnetic system 3 and outputs a signal to the device //.

In order to increase the measurement accuracy by reducing the influence of interference, the proton precessional sensor / and magnetic systems 2 N 3 are enclosed in a magnetic shield J2, although shielding is not necessary when the sensor is operated in strong fields (about 15-20 Oersted).

The proposed phase meter ensures high accuracy of phase shift in the shaft rotation angle, which is determined by the exceptionally high metrological characteristics of proton sensors, its speed depends less on the frequency of the input sigals than in the known devices.

Claims (2)

1. USSR author's certificate number 468184, cl. G 01 R 25/00, 1972. 2. USSR author's certificate number 448397, cl. o 01 R 25/00, 1970.