SU377962A1 - INTEGRATOR - Google Patents

Description

The invention relates to the field of radio engineering and can be used in selective radio installations, in particular, in spectrum analyzers.

Integrators are known: they contain two parallel-connected capacitors, some of the terminals of which are connected to a power source, and the other terminals are connected to the anodes of oppositely connected semiconductor discharge diodes, a switching device made, for example, to a relay with mechanical output contacts.

An increase in the amplitude resolution in analyzing a single damped signal is ensured by the fact that collectors of the corresponding transistors are connected to the junction points of the anodes of the diodes and capacitors, while the bases of the transistors are connected directly to the output contacts of the relays .

Pa drawing presents the proposed circuit integrator containing capacitors / and 2, diodes 5: 4, resistors 5, 6, relay 7.

The work of the integrator proceeds as follows. Suppose the input function F (t) does not have a constant component, i.e. the voltage at the input of the integrator has a positive or negative value proportional to the input function F (t), and the capacitors I: 2 are discharged through diodes 3 and 4 when the integration time is equal to or greater than the transit time of the function F (t), or discharged through 5 m 6 resistors with the integration time much shorter than the passage time of the function F (t) Moreover, the charge currents of the capacitors and 2 flow in that case when the input negative voltage is applied to emitter circuit or negative - in the base circuit of the corresponding transistor cascade. Depending on the polarity of the input voltage and the position of the contacts of the relay 7, the left or right circuit driver opens. If the polarity of the input voltage changes into a "phase with switching of the relay 7, then the same transistor will always be open, and therefore the same" phase capacitor will be charged. Thus, the voltage between points S and 9 at the end of the integration will be proportional to the Fourier coefficient of the decomposition of the function F (t} in the Fourier series of the harmonic of the frequency with which the relay 7 was switched, so KaiK this voltage is proportional to the difference between the sum all positive instantaneous values of products per square wave

frequency P (l and the sum of all negative products of the same frequency in the analyzed time interval. From switching relays 10, 11, etc., it is determined. whether the input signal or part of it is fully supplied. Thus, it can be said that the relay 7 performs the function of the sign multiplier, and the relay 10, 11, etc., functions as the amplitude multiplier. By jointly controlling these relays, you can emit the required multiplication of the input function by the sine or cosine wave with the required accuracy: you can find the Fourier coefficients determined by by formulas : t

F (t) smn (ut-di

five

about t

In „{F {f).:. Osnwfdt

6

If the condition for finding a given harmonic coefficient permits the presence of

higher harmonic coefficients, then relays W, 11, etc., are excluded, and the input signal is directly supplied to relay 7.

Subject invention

An integrator containing two parallel-sized capacitors, some of which are connected to a power source, and the other leads are connected to anodes of counter-switched on semiconductor discharge diodes, a switching device made, for example, to a relay with mechanical output contacts, characterized in that in order to increase the resolution

ability to amplitude in the analysis of a single attenuated signal, to the points of connection of the anodes of the diodes and capacitors are connected collectors of the corresponding transistors, while the bases of transistors

connected directly to the wired contacts of the relay, and the emitters of the transistors are connected: to the said contacts through a resistor.