SU1126897A1 - Device for measuring tuned circuit quality factor - Google Patents

Abstract

A DEVICE FOR MEASURING THE VIBILITY OF VIBRATING CIRCUITS containing a tunable high frequency generator, the output of which is connected to the first input of the measuring unit of the SRI frequency and frequency ratio and to the first input of the frequency modulator, the second input of which is connected to the output of the first tunable low frequency generator and the second input of the frequency measurement unit and the frequency ratio, and the output of the frequency modulator through the measuring unit containing the input and output elements of the communication, I5 measuring center A capacitor and clamps for an undercarriage, turning a measurable two-pole inductive in nature, are connected to an input of a CRi indicator, characterized in that, in order to expand the functional capabilities of the device by providing a measurement: an effective quality factor, an additional variable capacitor is introduced into it, the second and third switches and the second tunable low-frequency generator; at the same time, an additional variable capacitor is connected via the second switch C in parallel with the measuring capacitor and its rotor is mechanically rigidly connected with the rotor of the measuring capacitor of one axle, the output of the second tunable low frequency generator is connected to the second input of the frequency modulator through the first switch and to the first input of the frequency and ratio measurement unit through the third KEY.

Description

f The invention relates to a radio metering technique and can be used to measure the quality factor, the loss tangent of dielectrics, resistance, capacitance and inductance. A device for measuring the quality factor of resonant circuits, comprising a tunable high frequency generator, a measuring unit containing input and output elements zi, measuring capacitor and clamps for connecting an inductive measuring two-pole device, measuring circuit ij. However, this device measures only the effective quality factor of an inductive two-pole device (i.e., does not measure the quality factor taking into account its own capacitance; the quality factor of an inductive two-pole device does not take into account its own capacitance. At that, the measurement of the effective quality factor. by the error due to the frequency dependence of the coupling coefficients of the measuring oscillation of the teline circuit with external circuits through the input and output szi elements, since the quality factor of the oscillating circuit this device is defined by the expression g / i 2, respectively, the input where and,, Ug and the output voltage of the measuring unit; the coupling coefficients of the input and output elements of the communication, in which n and n are considered constant values throughout the entire frequency range. due to the frequency dependence of the communication elements in the specified device, the efficiency of the goodwave reaches 15% in the frequency range 30-300 MHz. The closest to the invention in technical essence is a device for measuring the quality factor of oscillatory circuits, A tunable high-frequency generator (HFH) connected to one input of a private modulator, the output of which is connected to a measuring unit containing a measuring capacitor 7, an input and output elements-element, and clamps for connecting an inductive two-pole device whose output connected to the input of the settings / 1 indicator for the detector, a resonant frequency search unit, including a first frequency derivative selection unit and a cul-organ, connected to the output of the amplitude circuit torus, and the first output - to the move of the allocation block by the second frequency derivative, the second nullorgan, two storage blocks, a low frequency (LFC) generator, whose output is connected via a switch to the second input of the frequency modulator, the frequency measurement unit and the frequency ratio The inputs of which are connected to extruders of tunable LFO and HFH, and a control unit, while the inputs of memory devices are connected to the outputs of the corresponding null organs, the outputs correspond to the inputs of the LFO and HFH, and the control inputs of null organs, blocks vb dividing the first and second frequency proizvodnyk, storage devices, a frequency modulator and a key connected to respective outputs of control unit 2j. The known device provides a measurement of the quality factor of a two-pole inductive nature / i.e. quality factor without taking into account its own efficiency and does not provide a measure of the effective quality factor of the bipolar-. nkka (i.e. good quality with its own capacity). However, the error of measuring the quality factor is excluded from this device due to the frequency dependence of the communication elements of the measuring unit, since the quality factor is determined by the formula, 707 natural resonance of the oscillating circuit; 2tkf. Band of progrescile coles of the teglary contour me: l: y points of inflection eio amplitude - frequency; av a: ternstkki (A "). The purpose of the invention is to expand the functional capabilities of the device at the expense of provision; the snake-dog 311 of the effective quality factor of an inductive two-pole device (i.e. the quality of the two-pole device taking into account its own capacity). The goal is achieved in that a device for measuring the quality factor of oscillatory circuits, containing a transposable high frequency generator, the output of which is connected to the first input of the frequency and frequency ratio measurement unit and to the first input of the frequency modulator, the second input of which is connected to the output of the first key a tunable low frequency oscillator with the second input of the frequency measurement and frequency ratio unit, and the output of the frequency modulator through the measuring unit containing the input and output Communication elements, measuring capacitor and clamps for connecting an inductive measuring two-port device, connected to the tuning indicator input, an additional variable capacitor, a second and third keys, and a second tunable generator low frequency are introduced, while the second variable capacitor is connected in parallel with the measuring capacitor and its rotor are mechanically rigidly connected with the rotor of the measuring condenser by one axis, the output of the second tunable ge The low frequency oscillator is connected to the second input of the frequency modulator through the first key and through the third switch to the first input of the frequency measurement and frequency ratio block. The drawing shows the functional scheme of the device. The device contains a tunable high-frequency oscillator 1, the output of which is connected to the first input of the frequency modulator 2 and the first input 3 of 3 is connected to the first input of the frequency measurement unit 4 to the frequency ratio, a tunable low-frequency generator 5 whose output is connected to the second input of the unit 4 frequency measurements and frequency ratios and through the first input of the key 6 - with the second input of the frequency modulator 2, tunable low frequency generator 7, the output of which is connected through the second input 7 of the key 3 to the first input of the block 4 and frequency measurement and the frequency ratio and through the second input of the key 6 to the second input of the frequency modulator 2. The output of the frequency modulator 2 is connected to the input of the measuring unit 8, which contains the input communication element 9 connected in series, the measured two-terminal 10 of inductive nature and the measuring capacitor 11, in parallel with which, through a switch 12, an additional capacitor 13 of variable capacitance, the rotor of which is mechanically rigidly connected with the rotor of the capacitor 11 by one axis of 1 D 1 on isolator material, and the output element 14, is turned on in communication. The output of the output communication element 14 is connected to the input of the setting indicator 15. The device works as follows. When measuring the quality factor of a two-pole inductive character (without taking into account its own capacity), switch 3 is turned to position 1, keys 6 and 12 are turned off, high-frequency generator 1 is tuned to its own resonant frequency f of the oscillating circuit of the measuring unit 8 according to the extremum of its amplitude-frequency characteristic ( LCH) using the indicator 15 settings. The resonant frequency of the oscillating circuit (oscillator frequency 1) is measured by block 4. Next turn on the key 6 3 position 1 and change the frequency P of the low frequency generator 5. As a result, at the output of the frequency node of the torch 2, the voltage frequency will change by magnitude. With a chadak generalized disorder. The oscillating circuit of the measuring unit 8 changes the generator frequency 5 to a value at which the voltage level at the output of the measuring unit 8 becomes equal to 0.7 of its maximum value, the izneeshge level is controlled by the indicator 15, and the set frequency of the generator 5F D determines half the bandwidth of the oscillating circuit of block 8. A signal with a frequency F is fed to the second input of block 4, wherein the quality factor of the measured two-pole 10 is determined by the ratio f): - i.e. 2i. 2F, S1, which is measured by block 4. This mode is similar to the mode of measuring the quality factor, performed in the prototype mode. When measuring the effective bone quality of a two-pole device (i.e., the quality factor taking into account its own capacitance), switch keys 3 and 6 into position P and switch 12 connect capacitor 13 parallel to capacitor 11. At the same time, the capacitance of the measuring capacitor changes (1 + n) times (n const is a predetermined value of the ratio of the capacitance of the capacitor 13 to the capacitor's capacitor 10 by changing the resonant frequency of the oscillating circuit by the value of Afo. By varying the frequency F of the low-frequency generator 7, the output voltage is set by indicator 15 oscillating circuit of the block As a result, the frequency is set at the output of the frequency modulator 2, is equal to f fo-ufg,, where uf ,, F, 4 is the frequency of the generator 7, the signal from which is fed to the first input of the block 4. With the choice of the value n |: -0.05 nonv the following relation: CR- 2AfiL.2Fz with f where Sz is the capacitance of the measuring capacitor 11;, + C is the total capacity of the quantity: of the battary circuit, including the own two poles of the measuring pole, It is known that, effective the quality factor of an inductive two-pole device, taking into account its own capacitance (5) Thus, substituting the expression (5) values from expressions (3) and (4) 5 we get 7 This quality is directly measured by unit 4. The proposed device has broader functionality compared to the prototype, since allows with relatively high accuracy to measure simultaneously both the quality factor and the effective quality factor (i.e. quality factor taking into account their own internal configuration) two-pole inductive characteristic of high frequencies (up to 300 MHz. The measurement error of the quality factor of two-pole inductive nature -Za uch and that of their own capacitance in the proposed device is the same as in the prototype, since the measurement of this quality factor is in both devices it is similar, and the sources of error are the same, while the measurement error of the effective Q-factor of two-pole inductive nature is determined by §Qg, (l + 2Sn), (7) where Sc is the capacitance measured capacitor capacitor 1; C is the total capacitance of the oscillating circuit taking into account the capacitance of the measured two-port; bf is the calibration error of the additional capacitor 13 relative to its capacitance relative to the capacitance of the measuring capacitor P. If you take the most unfavorable case 5 when: C., 95 С; § „0.1 J pJO, 05, measurement error; the effective Q-factor according to expression (7) will be no more than ± 3%, i.e., 5 times less than in the Q-meter

Claims (1)

DEVICE FOR MEASURING THE QUALITY OF VIBRATION CIRCUITS, comprising a tunable high-frequency generator, the output of which is connected to the first input of the frequency and frequency ratio measuring unit and to the first input of the frequency modulator, the second input of which is connected through the first key to the output of the first tunable low-frequency generator and to the second input unit for measuring the frequency and, the ratio of frequencies, and the output of the frequency modulator through the measuring unit containing the input and output communication elements', measuring condensate p and clamps for connecting a measured bipolar inductive nature, connected to the input of the indicator and tuning, characterized in that, in order to expand the functionality of the device by providing measurement ^ effective quality factor, an additional capacitor of variable capacity, the second and third switches and the second tunable low-frequency generator, with an additional capacitor of variable capacitance through a second key connected in parallel with the measuring capacitor and its rotor is mechanically and rigidly connected to the rotor of one osmo measuring capacitor, a second tunable oscillator output low frequencies through the first switch is connected to the second input of the frequency modulator, and in a third key '- to the first input frequency and frequency ratio measuring unit.