SU1145301A1 - Self-excited oscillator-based meter of quality factor - Google Patents

Abstract

Autogenerating METER solidly comprising controllable frequency oscillator in kolebatelnp loop which included a capacitive sensor, an amplitude detector coupled to the first output of the oscillator, and a recorder, characterized in that, in order povsheni sensitivity, it introduced a frequency detektrr, the frequency discriminator and an inverter, and to the first output of the oscillator, a frequency detector, the output of which is connected to the input of the oscillator, the second output of which is connected to the common input, hour otnogo discriminator, the output of the amplitude detector is coupled to the first input of the frequency discriminator and via an inverter - a second input of the frequency discriminator, which vhod (L connected to the input registrar.

Description

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The device relates to resonant measures of the quality of oscillatory circuits and can be used to measure the properties of substances and materials by the magnitude of the loss tangent when a capacitive sensor is switched on as an element of the oscillating circuit or by the value of the active resistance introduced into the circuit. . Self-oscillators are known for the quality factor of an oscillating circuit, the useful signal of which is associated with the parameter of the auto-oscillator mode. A self-oscillating meter with a shunt diode is a self-oscillator with an oscillating circuit in the anode circuit; the sensor is included as a contour element; Parallel to the circuit, a shunt diode is connected, the circuit of which contains a source of backwater voltage. When the Q factor changes, the high frequency current in the circuit limited by the diode is detected, and this signal is sent to the recorder .1 1. Using the high frequency oscillator mode parameter increases the sensitivity, but limiting the range of measured Q values is a disadvantage of an autogenerating meter with a shuntruktsimi diode. The closest to the present invention is an auto-oscillator Q-factor, which contains a single-circuit auto-oscillator assembled according to a common base circuit with an oscillating circuit in the load circuit, a sensor included as an element of the oscillating circuit, an amplitude detector and a recorder L - Implementation of the measuring mode characterized by a large steepness of the static characteristic in the region of the large values of the equivalent resistance of the autogenerator (with a significant amount of autoshift and a large positive feedback) leads to a further increase in sensitivity. However, the possibilities of increasing the sensitivity of autogenerator loss measurement instruments are not exhausted, since the sensitivity of autogenerating meters according to reactive parameters 12 frames is noticeably lower. In addition, an increase in sensitivity allows you to introduce more profound negative feedback and increase the stability of the instrument for a given sensitivity. The aim of the invention is to increase the sensitivity. The goal is achieved by including a capacitor sensor, an amplitude detector connected to the first output of the oscillator, and a recorder, into the oscillator circuit of which a capacitance sensor, an amplitude detector connected to the first output of the oscillator, and a frequency discriminator and inverter are inserted. the first output of the oscillator is connected to a frequency detector, the output of which is connected to the input of the oscillator, the second output of which is connected to the common input of the frequency discriminator, the output amplitude This detector is connected to the first input of the frequency discriminator and through the inverter to the second input of the frequency discriminator, the output of which is connected to the recorder's input. The block diagram of the device shown in the drawing. The device contains a frequency-controlled auto-oscillator 1, a capacitive sensor 2, an amplitude detector 3. a frequency detector 4, controlled by a frequency of 1F1, a differential frequency discriminator 5, an inverter 6 and a recorder 7. Capacitive sensor 2 is included as an element of the oscillator circuit of the auto-oscillator 1. First the output of the oscillator 1 is connected to the inputs of the amplitude detector o. 3 and the frequency detector 4, the output of which is connected to the frequency-controlled input of the oscillator 1. The second output of the oscillator is connected to common The input of the symmetric differential frequency discriminator 5. The amplitude detector 3 output is wired to the first frequency controlled input of the frequency discriminator 5 and through the inverter 6 to the second frequency controlled input of the frequency discriminator 5. The output of the frequency discriminator 5 is connected to the recorder input 7. Device works as follows.

Claims (1)

AUTO-GENERATED QUALITY METER, comprising a frequency-controlled oscillator, in the oscillatory circuit of which is included a capacitive sensor, an amplitude detector connected to the first output of the oscillator, and a registrar, characterized in that, in order to increase sensitivity, a frequency detector and a frequency discriminator are introduced into it and an inverter, and a frequency detector is connected to the first output of the oscillator, the output of which is connected to the input of the oscillator, the second output of which is connected to a common input, discriminator, the output of the amplitude detector is coupled to the first input of the frequency discriminator and via an inverter - a second input of the second variable frequency discriminator 5, whose output is connected to an input of the recorder.