SU1185272A1 - Apparatus for recording frequency dependance of attenuation of four-terminal network - Google Patents

Abstract

A DEVICE FOR REGISTRATION OF THE FREQUENCY DEPENDENCE OF A FOUR-POLES DROP, containing a reference frequency generator, a controlled frequency generator, two variable attenuators, a switching generator-tor, an output connected to the control inputs of the switch, the first and second synchronous detectors, the second output of the second detector, and the satellite interface. the first terminal for connecting the measurement object through the first amplitude detector connected in series, the first switching frequency amplifier, the first Synchro detector and an integrator connected to the control input of the first variable attenuator, the output of the second amplifier; the switching frequency is connected to the signal input of the second synchronous detector, the first output of the frequency sweep unit is connected to the oscillographic indicator, and the second output of the frequency sweep unit is connected to the control input of the generator of the controlled frequency, that is, p. The aim is to improve the measurement accuracy in a wide frequency range, a logarithm is entered into it, the latter’s input is connected to the second output (L of the amplitude detector, and the output of the logarithmifier is connected to the second amplifier’s switching frequency, the reference generator’s output is connected to the first through the variable attenuator to the switch input, the second input of which through the second variable attenuator is connected to the generator output of the controlled N) frequency, the switch output is connected to the second terminal for connecting eni the object of measurement, and the output of the second synchronous detector is connected to the input of the oscillographic indicator.

Description

11185272 The invention relates to a measurement technique and can be used to estimate the non-uniformity of the amplitude-frequency characteristics (AFC) of four-pole attenuators, attenuators, matching transformers, exemplary attenuation measures and other quadrupoles with high attenuation. The purpose of the invention is to improve the measurement accuracy in a wide frequency range due to the automatic support of the linear detection mode in the wide dynamic range of the measured quadrupole damping.

The drawing shows a block diagram of devices

The device contains a reference frequency generator 1 20, a generator 2 of a controlled frequency, the first and second variable attenuators 3 and 4, a switch 5, a switching generator 6, the first and second terminals 7 and 8 for connecting ..25 the object of measurement - the quadrupole 9 under study, connected in series first amplitude detec-. the torus 10, the first amplifier 11 switching frequency, the first synchronous detector SO and the torus 12 and the integrator 13, and the second amplitude detector 14 connected in series, the logarithm .15, the second amplifier 16 switching frequency, the second synchronous detector 17 o with cycles with cue indication t ope 18; block 19 frequency scan.

The device works as follows .40

The low-frequency voltage of the generator 1 of the reference frequency f, through a variable attenuator 3, and the high-frequency voltage of the generator 2 of a controlled frequency f through the variable 45 attenuator 4 is fed to the inputs of the switch 5 controlled by the switching generator 6. During continuous operation of the switch 5, its output passes the radio pulses of the reference and 50 controlled frequencies, the amplitudes of which are controlled by attenuators 3 and 4.

The amplitude of the radio pulses with the filling frequency f is set by 55 attenuator 3 to the level of the four-port input voltage 9

and ,, - | к, | and, where 5 of those of about 15

Radio pulses adjacent to each other with a filling frequency fjj and f are passed through the test quadripole 9 with the coefficient module | K | e, where b is the attenuation of a quadrupole in nepers. The amplitude U of the radio pulses of the reference frequency fjj at the output of the test four-port network 9 is determined by the active component of its coefficient, transmission, and has the following form:

and; ,

and the amplitude U, j of radio pulses of a controlled frequency f, is determined by the modulus of the complex transmission coefficient of the four-pole network (Kjj and can be represented by the expression:

  iKJUi | K, | 1KJ and ,.

The radio pulses attenuated by the quadrupole 9, via terminal 7, are fed to an amplitude detector 10, the output of which has an amplitude envelope, whose frequency corresponds to the pulse following frequency. switching generator 6. The apparent voltage of the corresponding polarity, proportional to the difference of the amplitudes of the radio pulses at the output of the four-way polar It integrates or discharges the integrator 13, which controls the transfer coefficient of the variable attenuator 3. The rectified voltage changes the output voltage of the integrator 13 until the amplitudes U and the radio pulses of the reference and controlled K are equalized to the complex attenuator transfer coefficient 3, equal to its active component CK;, K); IL is the amplitude of the output voltage of the generator 1. The amplitude of the radio pulses with a partial filling f is set by atator 4 to a similar level and; lK, lu ,, K2, | is the modulus of the complex transfer coefficient of the attenuator 4; Uj is the amplitude of the output voltage of the tunable generator 2.. frequencies. accordingly the equality k, kzi, / K /// K, / and ,,, will be fulfilled, where K is the value of the transmission coefficient of the attenuator 3, corresponding to the resulting equality. At the same time, the radio pulses adjacent to each other from the output of the commutator 5 through the amplitude detector 14 arrive at the logarithm 15, r the logarithm of the amplitudes of the different-frequency radio pulses occurs, the mathematical expression of which is ime; Jln (Ki; u,), flnClK.DU,), 4f Jif. where I - logarithm steepness: - K: nVTH4Ha L1 conversion. From the sequence of logarithmic radio pulses, the envelope Uj of their frequency has the form: Uy | (1n () - LnClK DU,) S. 2, The envelope voltage of the prologized pulses is amplified by the switching frequency amplifier 16 and rectified by a synchronous detector 17. Taking into account the equalization of the amplitudes Uj and; | radio pulses at the output 724 of the synchronous detector will be the voltage of the form: (° 1 7 It is known that the module of the complex transfer coefficient of the quadrupole 9 is (fetAfe) where 4b is the frequency deviation of the attenuation at the monitored frequency f relative to the reference frequency f. In this case the voltage the envelope will be proportional to the frequency deviation of the attenuation –tetiSb S e and, i.e. In t Y 4b. The voltage U acts on the vertical deflection plates of the oscillographic indicator 18, and the sweep voltage from the frequency sweep unit 19 stupidly ontally deflecting plates. Simultaneously deployed: voltage from block 19 changes the frequency of the controlled frequency generator. As a result, frequency deviations of the investigated quadrupole in the specified frequency range are recorded on the indicator screen.

Claims (1)

DEVICE FOR REGISTRATION OF FREQUENCY DEPENDENCE OF FOUR ATTENUATION ATTACHMENT, containing a reference frequency generator, a controlled frequency generator, two variable attenuators, a switching generator, an output connected to the control inputs of the switch, the first and second synchronous detectors, the input of the second amplitude detector is connected to the output of the switch terminal for connecting the measurement object through a first amplitude detector, a first switching frequency amplifier, a first synchronously connected in series the second detector and integrator is connected to the control input of the first variable attenuator, the output of the second switching frequency amplifier is connected to the signal input of the second synchronous detector, the first output of the frequency sweep block is connected to an oscilloscope indicator, and the second output of the frequency sweep block is connected to the control input of the controlled frequency generator which means that, with. In order to improve the accuracy of measurements in a wide frequency range, a logarithmator is introduced into it, while the input of the latter is connected to the output of the second amplitude detector, and the output of the logarithm is connected to the input of the second switching frequency amplifier, the output of the reference frequency generator is connected to the first input of the switch through the first variable attenuator, the second input of which through the second variable attenuator is connected to the output of the generator of controlled frequency, the output of the switch is connected to the second terminal for connection. the measurement object, and the output of the second synchronous detector is connected to the input of the oscilloscope indicator. > 1 1185272