SU399997A1 - FREQUENCY SENSOR - Google Patents

Description

one

The invention can be used in telemetry and in devices for centralized control when measuring at a distance of minor changes in the active resistance of primary converters of non-electric values to resistance.

Frequency sensors are known that contain a C-generator with a G-shaped phasing circuit, an uncoupling transformer, the primary winding of which is connected to the output of the / C-generator, and a measuring bridge, in one of the arms of which a primary transducer of non-electric value into resistance is connected.

The aim of the invention is to improve the stability of the sensor.

This is achieved by connecting the output diagonal of the measuring bridge to the parallel branch of the L-shaped phasing circuit, the input diagonal of which is connected to the secondary winding of the isolating transformer.

The drawing shows a schematic diagram of the proposed sensor.

Resistance 1, capacitors 2 and 3, measuring bridge 4, made on resistances 5-8, form a positive feedback circuit of an amplifier on transistors 9-13, entering the A / C generator. The measuring bridge 4 as resistance

5 (transducer of non-electric value into resistance) may include resistance thermometers, strain gauges, ohmic thickness gauges, etc. The primary winding 14 of the isolating transformer 15 is connected to the output of the generator amplifier, and the secondary winding 16 to the input diagonal of the measuring bridge 4. Other ( output) diagonal bridge is connected in parallel to the capacitor 3 and forms an L-shaped phaseing / C-circuit of the generator. The thermistor 17 and the resistor 18 form an inertial feedback circuit of the generator.

The generator amplifier is made of transistors 9-13 with non-direct connections. The first cascade on transistors 9, 10 is made according to a cascade scheme, which ensures a high gain factor of the amplifier.

In idle mode, the imbalance of bridge 4 would result in a voltage on the output diagonal of the bridge if the resistances 6, 7, 8 are equal to R, and the resistance 5, which is the primary transducer, is also equal to R and changes by ± A /. But, since the measuring bridge 4 is connected to the generator's phasing / C-circuit and an external voltage t / 2 is applied to its output diagonal, the imbalance of the bridge leads to a change in the equivalent resonance of the parallel branch of the generator's phasing L-shaped circuit. This, in turn, leads to a change in the frequency of the generator. At the same time, a decrease in resistance 5 relative to the initial value of R leads to a decrease in frequency, and an increase in resistance 5 leads to an increase in the frequency of the sensor. So, by changing the ratio of the element values, entering them into the generator phase circuit (it is almost enough to change the values of resistance 1 and capacitor 3), you can change the appearance of the output frequency response of the sensor. The output frequency response of the sensor will be linear if the condition g 3p-1 is satisfied, where; e / ,, / С ,. - resistance magnitude 5; C and Cz - the values of the capacitors of the capacitors 2 and 3; R is the initial value of the resistance 5. Under the conditions g 1/3 / 7-1, the output frequency response of the sensor will be hyperbolic, i.e. the period of electrical oscillations of the sensor in this case will change but linearly. The frequency stability of the sensor with a stable measuring bridge is mainly determined by the stability of the elements of the phase generator, which it values from the generator. The subject of the invention is a frequency sensor containing a C-geyerator with an L-shaped phasing circuit, a switching transformer, the primary winding of which is connected to the output of the C-Heater, and a measuring bridge, one of whose arms includes a non-electric value primary transducer differing By the fact that, in order to increase the stability of operation, the output diagonal of the measuring bridge is connected to the parallel branch of the L-shaped phasing circuit, the input diagonal of which is connected to the secondary side winding transformer.

Output