SU174386A1 - RESONANT LEVEL - Google Patents

Description

The known resonant level gauges based on the use of the dependence of the resonant frequency of the sensor on the level of the medium being measured in it, with high technical indicators, allow only a visual reading of the level values using a switch instrument or a digital indicator. However, in a number of cases, it is necessary to record with high accuracy the values of the measured level on the ribbon of an oscilloscope loop.

To do this, a low-frequency oscillator (submodule), matching amplifiers, and a standard loop oscilloscope are used in the proposed resonant level gauge. The level of the measured average is determined by the position of the pulse top from the sensor relative to the axis of symmetry of the high-frequency scale pulse.

The drawing shows the block diagram of the gauge.

The RF sensor is made as a segment of a long line 1 and is placed in a vessel with the measured medium (the sensor is considered as an oscillatory circuit, and there is a continuous and unambiguous relationship between the resonant frequency of this circuit and the level of the measured medium in the sensor). VCG generator 2 is equipped with a frequency modulator

3, a submodulator 4 and a low frequency generator driver 5 with a frequency set in accordance with the speed of a tape drawing device. Generator 5 non-periodically changes the frequency in the sensor's operating range. There are also a set of scale circuits 6, a detector 7, matching amplifiers 8, 9, 10, a loop 11 or an electronic 12 oscillographs, and a detector 13.

There are two modes of operation; in the first case, a visual indication is carried out using an electronic oscilloscope, in the second case, recording the readings on a loop oscilloscope tape.

The gauge uses oscillating circuits whose resonant frequencies are chosen to be equal to the resonant frequencies.

sensor corresponding to the selected level values.

At the moment the oscillator 2 frequency enters the sensor's start band and the circuits 6, the outputs of the detectors 7, 13 are pulses that, after appropriate amplification in amplifiers 8, 9, go to different tracks of the oscilloscope loop 11. The position of the pulse tops from the sensor relative to the oscillatory detection circuits of the invention A resonance level gauge comprising an RF generator for driving a resonant sensor and oscillating circuits tuned to frequencies corresponding to predetermined values of the measured level, A 100-bit modulator for periodically varying the generator frequency over time, corresponding to a level measurement range, characterized in that, in order to improve accuracy while continuously measuring the measured values, it is equipped with a low-frequency generator with a frequency set in accordance with the speed of a recording device during the recording device and connected to frequency modulator to torus.