SU798616A1 - Spectral meter of frequency-modulated generator delayed action - Google Patents

Description

(54) SPECTRAL MEASUREMENT OF THE INERTIONALITY OF FREQUENCY MODULATED GENERATORS

voltage, connected to one meter input, and a mixer, one input of which is connected to another meter input, and a local oscillator connected to the other mixer input, the first limiter connected in series, the first frequency detector and the first amplifier, and the first intermediate frequency amplifier, the first amplitude detector and two indicators, serially connected amplifier-limiter, second intermediate frequency amplifier, second amplitude detector, first subtraction unit, second block you reading, divider One and a half, as well as series-connected third intermediate frequency amplifier, third amplitude detector and third subtraction unit, serially connected second limiter, second frequency detector, second amplifier, fourth and fifth subtraction units, and serially connected second modulating generator unit and the comparison unit, the other input of which is connected to one input of the meter, and the output. to the first generator of modulating voltage, and the output of the first generator modules the voltage is connected to the input of the second limiter, the output of the amplifier-limiter is connected to the inputs of the second and third intermediate frequency amplifiers, the output of the first amplitude detector is connected to other inputs of the first and third subtractors, and the output of the last is connected to another input of the second subtractors, the output divider one and a half is connected to another input of the fifth subtraction unit, the output of which is connected to the second indicator, and the output of the second subtraction unit is connected to the first indicator.

A diagram of the spectral meter of inertia of frequency-modulated oscillators is shown in the drawing.

The device contains the generator I, the first modulating voltage generator 2, the mixer 3, the local oscillator 4, the first intermediate frequency amplifier 5, the second indicator 6, the limiter 7, the first frequency detector 8, the first amplifier 9 (the first amplitude detector 1O, the first indicator II, Comparison unit 12 Second modulating voltage generator 13, Limiter 14, Second limiter 15, Second intermediate frequency amplifier 16, Third

intermediate frequency amplifier 17, second frequency detector 18, second amplitude detector 19, third amplitude detector 2O, second amplifier 21, first volchchi unit 22, third subtraction unit 23, fourth subtraction unit 24 second subtraction unit 25, divider 26 by 1.5 and fifth subtracting unit 27.

The operation of the device is as follows.

The generator I under investigation is modulated simultaneously by two sinusoidal voltages with equal amplitudes and frequencies d and L, respectively. The equality of the amplitudes of the two modulating voltages is maintained automatically by means of the comparison unit 12, the first input of which is supplied with the modulating voltage from the first generator 2, and to the second input from the second frequency tunable generator 13 of the modulating voltage. In the event of a difference in the amplitudes of the two modulating voltages, the comparator unit 12 generates a control voltage for adjusting the amplitude of the first generator 2 of the modulating voltage.

The modulating voltage with the frequency f is fed to the generator 1 under study from the first generator 2, and the modulating voltage with the frequency Sl comes from the second generator tunable in frequency 13.

The output signal spectrum of the studied geytor I consists of the following components;

nes; tse frequency (L) with amplitude, proportional to the product of the zero order Bessel functions of the arguments, which are indices of frequency modulation p and Pg

- side frequencies Sho ± VlftjC with amplitudes proportional to the products) 3o (b2. rde 3, (p)) and oo (p; 2) Bessel functions of the Cth and zero order of the arguments b and ii2, respectively;

-additional side frequencies Sho t (pfil ,, ± ViQ.2), where p and h are any integers whose amplitude is proportional to the product of the Bessel functions of the arguments and) 2, for & l, the order of these functions is determined by the coefficients p and II .

Claims (2)

With small frequency modulation indexes (p) - 0; 5 and, 5), the width of the spectrum 579 is determined by only two pairs of side frequencies 51 and UiQ-2 Spectrum analysis is performed at an intermediate frequency. This allows to study the inertia of the generator with different carrier frequency by tuning the frequency of the local oscillator 4. Converting the carrier frequency of the signal of the generator I under investigation to the intermediate frequency is carried out in mixer 3 using the voltage of the local oscillator 4, the frequency of which is set according to the working range of the studied generator 1. . The voltage from the output of the limiter amplifier 14 divides into three intermediate frequency amplifiers 16.5 and 17, which have logarithmic amplitude characteristics. Amplifier 5 is tuned to an intermediate frequency. and designed to extract the mixer component corresponding to the carrier frequency in the spectrum of the signal (and obtain a voltage proportional to the logarithm of the amplitude of the carrier frequency spectrum C / O. Amplifier 16 is tuned to the frequency 51 + O. to extract the side frequency signal and get proportional to the logarithm of the amplitude of the spectral component of the lateral frequency 51 + O. The amplifier 17 has a wide bandwidth that does not overlap with the bandwidth of the amplifier 5. The wide band of the amplifier 17 provides The signal of the second side component of the spectrum fil + 2 ° over the entire frequency range 0.2 of the second modulating oscillator 18. The signals from the outputs of amplifiers 16.5 and 17 are fed to amplitude detectors 19, .10 and 2O, respectively. Further, from the outputs of amplitude detectors 19 And voltage is applied to subtraction unit 122. Subtraction unit 22, by subtracting signals proportional to the logarithms of the amplitudes of the spectral components, determines the logarithm of the frequency modulation index, which depends on; the ratios of the amplitudes of the components of the spectrum JjC) 3o () Di (: p ,,) 3o (Pi) 3o (, (iv Similarly, subtraction unit 23, comparing the voltages from the outputs of the amplitude detectors Yu and 20, produces a voltage 66 proportional to the logarithm of the index Frequency Modulation The determination of the frequency modulation indexes by the spectral method according to the ratio of the amplitudes of the spectral components provides the highest measurement accuracy. The voltages from the outputs of the subtraction blocks 22 and 23 go to the subtraction block 25, which subtracts voltages proportional to the logarithms and Dex modulation CL Therefore, at the output of subtraction unit 25, a voltage is obtained proportional to the logarithm of the product of the time constant for setting the frequency of the generator Cf to be measured by a constant value Si, since ev, |%, - ev,: iey ,,, (ehsi, -eh5i2). (2) The voltage from the output of subtracting unit 25 is fed to a reading indicator II, the logarithmic scale of which is calibrated in terms of constant time, i.e. in nanoseconds. The countdown of the time constant for establishing the frequency of the generator under investigation is only indicated on indicator 11 under the condition that equality (2) is fulfilled, which is ensured by selecting the frequency I. 2 of the second modulating generator 13 with the help of manual override organs. To monitor the fulfillment of relation (2), an auxiliary channel was introduced, the operation of which is carried out as follows. The voltage of the modulating oscillator 13 is fed to the input of the limiter 7, is limited in amplitude to eliminate parasitic amplitude modulation, and is fed to the frequency of the detector 8. The output voltage of the frequency detector 8, proportional to the value of the frequency SI, is amplified by the DC amplifier 9, and the logarithmic amplitude amplitude characteristic, and is fed to the input of the subtracting unit 24 as a voltage, the value of which is proportional to the logarithm of frequency S Similar to the voltage of the modulating oscillator 2 with frequency 2solebany I. 2 through the restrictor 15 is supplied to frequency detector 18, amplified in amplifier 21, further the DC amshshtudnoy logarithmic characteristic and is supplied to the second input of subtracting block 24. The output of the subtraction unit 24 is a voltage proportional to the difference of the logarithms of the frequencies I. and Slg which is fed to the subtracting unit 27. The second INPUT of the subtraction unit 27 is supplied with voltage from the divider 26, to the input of which from block 25 the voltage is subtracted, which is proportional to the logarithm of the product of the constant time C-t by the frequency -. The division factor of divider 26 is 3/2. The output voltage from the power supply unit 27 is supplied to the indicator 6. The readings of this device are zero if the relation- (2) is fulfilled. Thus, the process of measuring the time constant for setting the frequency of the generator I under study is reduced to selecting the frequency O. of the tunable generator 13, at which the indicator 6 reads are equal to zero, and the time constant PG of the time to establish the frequency Tc according to the indicator I. Formula of the invention Spectral an inertia meter of frequency-modulated oscillators containing the first modulating voltage generator connected to one meter input, and a mixer, one input of which is connected to another measurement input a second oscillator, a first limiter, a first frequency detector and a first amplifier, as well as a first intermediate frequency amplifier, a first amplitude detector, and two indicators connected to the other input of the mixer; In order to expand its functionality, serially connected amplifier-limiter, second intermediate frequency amplifier, second amplitude detector, first subtraction unit, second subtraction unit, divider by one and a half, and t Also connected in series are the third intermediate frequency amplifier, the third amplitude detector and the third subtraction unit, the second limiter, the second frequency detector, the second amplifier, the fourth and fifth subtraction units, as well as the second modulating voltage generator and the comparison unit, another input which is connected to one input, measuring 1, and the output to the first generator of the modulating voltage, and the output of the first modulating voltage generator is connected to restrict the second by w, the output of the limiting amplifier is connected to the inputs of the second and third intermediate frequency amplifiers, the output of the first amplitude detector is connected to other inputs of the first and third subtractors, and the output of the last is connected to another input of the second subtractor, the output of the divider is 1.5 with another input of the fifth subtraction unit, the output of which is connected to the second indicator, and the output of the second subtraction unit is connected to the first indicator. Sources of information taken into account in the examination I. USSR author's certificate 418814, cl. GOLR 29/06, 1972. 2. Frequency deviation meter type SZ-5.- Technical description and operating instructions, 1973.