SU879282A1 - Measuring converter - Google Patents

Description

(54) MEASURING CONVERTER

Claims (2)

The invention relates to a measurement technique, in particular, to devices for measuring various non-electrical quantities, such as deformations and displacements. A measuring transducer is known that contains an electromagnetic resonant sensor that is connected via a cable connection to the positive feedback circuit of a wideband amplifier, the output of which is connected to a recorder 1. The disadvantage of this transducer is the lack of multipoint measurements and measurements at different distances between the sensor and the electronic unit Since the increase in the length of the connection with the sensor reduces the relative phase change with a change in the resonant frequency of the sensor, which limits the measurement power. Closest to the invention is a measuring transducer comprising an electromagnetic resonant sensor and an electron-counting frequency meter 2}. The disadvantages of this converter are the inability of multipoint measurements and measurements at various distances with the sensor and electronic units, since an increase in the length of the connection with the sensor leads to the loss of stability of the tracking system when registering fast processes. The purpose of the invention is to enable multipoint measurements at various distances. The EG target is achieved by the fact that the measuring transducer is equipped with a noise signal generator, the output of which is connected via a sensor to the frequency counter input. FIG. 1 shows a measuring transducer; in fig. 2 diagram, according to his work (frequency is plotted on the abscissa axis, signal amplitude is plotted on the ordinate axis). Measuring transducer with. holds the noise signal generator I, the output of which is connected via sensor 2 to the input of an electron-counting frequency meter 3. In case of multipoint measurements, the baud of generator 1 is also connected via sensor 4 to an input of electron-counting frequency meter 5, and through sensor 6 to an electron-counting frequency meter input 7, etc. Sensor 2 (4, 6) is an electromagnetic resonant system (cavity resonator, delay line with non-oddities at the ends, etc.). The noise signal generator 1 is made so that the linear region of the spectral distribution of its signal overlaps the region of possible values of the resonant frequency of the sensor 2 (4, 6). As the driver element, the generator 1 contains a primary noise source, for example, an avalanche-transit diode or a Zener diode in the noise source mode, or a combination of a noise source with a spectrum carrier. Works transducer as follows. The signal of the noise signal generator I (Fig. 2a) passes through sensor 2 (4, 6), changing its spectral distribution in accordance with the resonance curve of sensor 2 (4, 6) (Fig. 2c). Having passed through sensor 2 (4, 6), the signal component of generator 1, the level of which exceeds the amplitude discrimination threshold of frequency meter 3 (5, 7) (Fig. 2e), is recorded last. The change in the measured value leads to a change in the resonant frequency of sensor 2 (4, b) (Fig. 26). The value of the signal, which is measured by a frequency meter 3 (5, 7), changes accordingly and is recorded by frequency meter 3. As a result, the value of the measured velshchiny is unambiguously related to the readings of the frequency meter 3 (5, 7). Thus, multipoint measurements at various distances are possible, since a number of sensors can be connected to the noise signal generator, the length of the connection with each of which is limited only by the attenuation in the cable to a level lower than the discrimination threshold frequency. The described transmitter allows multipoint measurements at various distances, including cases where the features of the object being monitored and the measurement conditions do not allow electronic units to be placed near the sensor. A measuring transducer comprising an electromagnetic resonant sensor and an electron-counting frequency meter, characterized in that, in order to enable multipoint measurements at different distances, it is equipped with a noise signal generator, the output of which through a sensor is connected to the frequency counter input. Sources of information taken into account in the examination of 1.Aimer RKg Bechelor DB / Mody DK, Lashinski G. Measurements on microwave using active systems. TIIER No. 1, 1974, p. 145-147 (translation from English) i 2.Viktorov V, A., Lunkin B.V., Sovlukov A.S. High-frequency method of measuring non-electrical quantities. M., Science, 1978. with. 93-94. ff.f