SU1054799A1 - Device for measuring q-factor of resonator of electromechanical filter - Google Patents

Abstract

DEVICE FOR MEASURING resonator Q mechanical filter comprising an excitation circuit composed of a serially connected generator of sinusoidal signals, switch exciter associated with zgikimami for connecting the test object, and angshiea response circuit consisting of series-connected mechanical vibrations transformation .vatel The object under study is an electrical amplifier, an amplitude selector, a pulse counter ,. 6 tons of l & {e e so that, in order to ensure accuracy of measurement, a nydKa synchronization unit, a reference voltage source, and an amplitude comparison circuit of the output signal with a reference voltage are introduced into it, consisting of a series-connected peak detector, a nullorgan, and an intstsator zero, the start-up synchronization unit being connected between the output of a sinusoidal generator and the control of the inputs of coaxial and counter inputs; 1, the comparison circuit is connected to the output of the amplifier; (About the response, and at the source a high-voltage reference voltage with a high voltage is connected to the second inlet; the HOUSE of a null organ, the output with a lower S voltage is coegiptHeH with the second input of the amplitude selector.

Description

The invention relates to measurements in acoustics and radio engineering, in particular, to devices for measuring the quality factor of electromechanical filter (EMF) resonators. A device comprising a converter, a switch, clamps of extremal magnitudes of the amplitude of an electrical voltage, a device subtracting voltages from a maximum minimum, converters of the resulting difference into a constant voltage, a unit comparing the voltages with a reference exponentially varying voltage, setting jvbtM separate generator. According to the measured time interval between pulses, corresponding to the maximum and minimum amplitude of oscillations, the logarithmic decrement coefficient C is judged. The disadvantage of this device is the complexity of signal processing; the difficulty of debugging the generator of the reference exponentially varying voltage; It is also known a device for measuring the oscillation loss factor of mechanical systems containing an excitation circuit consisting of a sinusoidal voltage generator, a switch and an exciter-induced exciter associated with the object under study, and a circuit , analysis of the response, consisting and successively connected by the mechanical oscillation generator. mechanically connected with the object being studied, the measuring amplifier, the amplitude selector, the pulse counter and the cycle counter. The device counts the number of impulses, corresponding to the number of damped oscillations, the amplitude of which exceeds the threshold value of 2-3. The disadvantage of this device is low accuracy due to the fact that it does not detect and fix the initial amplitude of the oscillations of the output signal. The purpose of the invention is to increase the accuracy and accuracy of measurements. The goal is achieved by the fact that a device for measuring the quality factor of resonators of electromechanical filters, contains an excitation circuit consisting of series-connected signal generator, a switch, an oscillator connected to the terminals for connecting the object under study, and a Response analysis circuit A block consisting of series-connected transducer of mechanical oscillations of the object under study into electrical, amplifier, amplitude selector, pulse counter. start synchronization, reference voltage source, and the value of the amplitude of the output signal with the reference voltage, consisting of series-connected pico (/ zero, zero-organ and zero-indicator), a start-up synchronization unit is connected between the output of the sinusoidal signal generator and control equalizing the inputs of the switch and the counter, the comparison circuit is connected to the output of the amplifier in parallel to the analysis circuit, and at the source of the reference voltage the high-voltage output is connected to the second zero-organ input, the output is smaller The voltage is connected to the second input of the amplitude selector. The drawing shows a diagram of the measuring device. The Q-factor measurement device includes a sinusoidal signal generator 1, switch 2, unit of converters with sample 3, amplifier 4, amplitude selector 5, counter b, peak detector 7, zero-organ 8, indicator zero 9, source of constant reference voltage 10 and the sync start-up sync unit II, the generator output of sinusoidal signals 1 is connected to the first input of the start synchronization circuit 10 and the signal input of switch 2, the output of which is connected to the input of the converter unit 3. The output of the converter unit 3 is connected to The amplifier's one, the output of which, in turn, is connected to the input of the detector detector 7 and the first input of the amplitude selector 5, The output of the peak detector 7 is connected to the first input of the null organ 8, the second input of which is connected to the first output of the reference voltage source 10. The second input the reference source for 1 p. of supply 10 is connected to the second input of the amplitude selector 5, the output of the null organ 8 is connected with the indicator zero 9, and the output of the amplitude control switch is connected with the signal input of the counter b. In addition, the control inputs of the counter 6 and switch 2 are connected to the output of the synchronization block of start 11, the second input of which is connected to terminal 12, and the third input to terminal 13. The device for measuring the quality factor works as follows. The rotation of the generator 1 determines the resonant frequency of the object (resonator) under investigation by the maximum deviation of the indicator of the zero indicator 9. Terminal 12 receives a pulse Initial state under the action of which the start synchronization unit 11 is earned. the signal that opens the switch, 2, prohibits the operation of the counter b and performs its reset. The electrical oscillations from the generator output of sine-wave signals 1 through the open switch 2 are transferred to the converter unit 3, converted into mechanical oscillations of the sample under study and then, when reversed, in the form of electrical oscillations arrive at amplifier 4. The amplifier allows to obtain the amplitude signal. From the output of amplifier 4, the signal goes to the peak detector 7 f where it is detected and supplied to the first input of the zero organ 8, to the second input of which a constant voltage is applied from the first output of the reference voltage source 10. The amplitude of the sinusoidal signals of the generator 1 or. modifying the gain of amplifier 4, achieve equal voltage at the inputs of the zero-organ 8, controlling its output voltage with the indicator zero 9. After setting zero on the indicator 9, the amplitude of the output signal from the amplifier is equal to With the first voltage, the second output of the reference voltage source 10. The magnitude, the voltage at the second output of the reference voltage source is rigidly associated were determined ratio with the magnitude of the first voltage is its output. The voltage from the second output of the source 1.0 is applied to the second input of the amplitude selector 5, the first input of which receives a signal from the output of the amplifier 4. Thus, a sinusoidal voltage acts on one of the inputs of the amplitude selector, and the second voltage - a constant voltage , the value of which is a certain part, for example 1/23, the amplitude of the sinusoidal voltage. Part of the positive half-wave of sinusoidal oscillations., Over and constant voltage / is converted by the amplitude selector 5 into rectangular pulses, which arrive at the input of the counter 6. With the start pulse applied to the terminal 13, the start-up synchronization unit 11 waits for the moment of zero crossing (from minus to plus) a sinusoidal signal from the output of the generator 1, after which its output signal closes the switch 2 and allows the counter 6 to operate in the pulse totaling mode. Termination of the supply of sinusoidal signals to the transducer block 3 at the same time ensures the same conditions in subsequent measurements. After the switch is closed in the sample under study, oscillations oscillate and impulses from the output of the amplitude selector 5 are counted by the counter until the amplitude of the damping oscillations falls to the level determined by the threshold voltage. After lowering the signal level below the threshold level, the pulses at the output of the amplitude selector disappear and the meter remains unchanged. The meter readings correspond to the value of the quality factor, if the amplitude of the oscillations is reduced by 1 times in comparison with its initial value.

Claims (1)

DEVICE FOR MEASURING THE QUALITY OF QUALITY OF RESONATORS OF ELECTROMECHANICAL FILTERS, containing an excitation circuit consisting of serially connected sinusoidal signal generators, a switch, an exciter of oscillations connected with clamps for connecting an object under study, and a response analysis circuit consisting of a series-connected transducer of mechanical vibrations of the object under study into electrical an amplifier, an amplitude selector, a pulse counter, ό t l and that in order to improve the accuracy and Measurement, a pulse synchronization block, a reference voltage source, and a circuit for comparing the amplitude of the output signal with the reference voltage are introduced. inputs of the switch and counter. The comparison circuit is connected to the output of the amplifier’s pair, exactly the response analysis circuit, and the output of the reference voltage source has a large output! voltage is connected to the second input of the zero-organ, the output with a lower voltage is connected to the second input of the amplitude selector. Сl £ * M C © c © i>