SU699364A1 - Differential frequency-amplitude converter of physical values - Google Patents

Claims (2)

The invention relates to the field of measurement of non-electrical quantities by electrical methods, in particular, to differential frequency-amplitude transducers of physical quantities and can be used in measurement technology. The well-known physical quantity meter, which includes a differential frequency sensor, an electronic inductive-capacitor generator, a differential frequency allocation unit, a total frequency allocation unit and a differential-total frequency separation unit, does not provide the required conversion accuracy l. The closest in technical essence to the invention is a differential frequency-amplitude converter of physical quantities, containing a differential inductive sensor, an electronic inductive-capacitive oscillator of frequency-modulated oscillations, the first half of the differential inductive sensor included in the oscillatory circuit, and Device 1. A disadvantage of the known converter is the low conversion accuracy. The purpose of the invention is to improve the accuracy of the conversion. This goal is achieved due to the fact that a second oscillating circuit is included in the proposed converter, into which the second half of the differential inductive sensor is connected, the output of the electronic inductive-capacitive oscillator being connected to the second oscillating circuit, also connected to the reading device. FIG. 1 shows a scheme of a differential frequency-amplitude converter of physical quantities; in fig. 2 - resonant characteristics of the oscillator-. of the foot contour, where A is the amplitude, f is the frequency. The converter contains a differential inductive sensor 1, an electronic inductive-capacitive oscillator 2 frequency-amplified oscillations, 6 oscillatory circuit 3 of which includes the first half of the differential inductive sensor 4. The second oscillatory circuit 5, which includes the second half 6 of the differential inductive sensor, is tuned to the amplitude-frequency selective mode and is connected to the output of the electronic inductive-capacitive auto-oscillator 2, as well as with the reading device 7, Into the inductive-capacitive auto-oscillator 2, which includes the first half 4 differential inductive transducer, electric self-oscillations are excited. Further, these auto-oscillations come to the oscillating circuit 5, consisting of the second half of the 6 differential inductive sensor. In this case, the oscillating circuit must be configured so that oscillations of the oscillator 2 fall on the inclined part of its resonance characteristic 1 cm. FIG. 2). FIG. 2 the solid line shows the resonant characteristic of the oscillating circuit 5; letters f ay.- frequency of the oscillator 2; Q is the resonant frequency-oscillating circuit 5 in the absence of the influence of a physical quantity on a differential inductive sensor. As can be seen from the graph, this state corresponds to the output sitale equal to ordinate С. When a physical value is applied to sensor 1, the frequencies of the auto-oscillator 2 and the oscillating circuit 5 change. Moreover, these changes occur in different directions, i.e. if the frequency of the oscillator 2 increases, then the resonant frequency of the oscillatory xsdtur decreases and vice versa. Ultimately, this leads to the summation of the signals of the halves of the differential inductively 1) sensor at the output of the converter, i.e. maintaining the differential nature of the sensor. FIG. Figure 2 shows the case when the frequency of the autogenerator increased by the value of D o, p and the resonant frequency of the oscillating circuit decreased by the value of q 1 from the effect of the physical quantity on the sensor. The altered state of the resistive characteristic of the 1 H contour is indicated by the dotted line. This state of the sensor will correspond to the output signal equal to the ordinate o (. TRICL way, the impact of a physical value on the sensor leads to an increase in the output signal of the transducer in the ordinate from the value C to the value d. Claims of the invention Differential often tao-amplitude converter of physical quantities, containing differential inductive sensor, electronic inductive-capacitive autogenerator a frequency-modulated oscillation, the oscillating circuit of which includes the first half of a differential inductive sensor, and a reading device, characterized in that, in order to improve the accuracy of the conversion, a second oscillatory circuit is inserted in it, which includes a second half of the differential inductive sensor, and the output An electronic inductive-capacitive oscillator is connected to a second oscillating circuit, also connected to a reading device. Sources of information taken into account in the examination 1. The author's certificate of the USSR L 239618, cl. G 01 P 15/10, 1969. 2. USSR author's certificate N9 169839, cl. G 01 L 1/14, 1963 prototype).