SU1083125A2 - Device for measuring phase climb in four-tepminal network - Google Patents

Abstract

A DEVICE FOR MEASURING THE PHASE DISTRIBUTION OF FOUR-POLES in aut. No. 885919, characterized in that, in order to extend the functionality by measuring the absolute phase angles in a wide frequency range, an additionally connected attenuator is additionally introduced into it. delay store, automatic switch, selective amplifier, amplitude limiter, phase detector, switching frequency amplifier, phase-sensitive rectifier and indicator, the second input of the additional automatic switch connected to the output terminal of the controlled four-pole network, the attenuator input and the control input of the additional phase detector combined and connected with one of the inputs of the first automatic switch, the control inputs of the additional automatic switch lyuchatel and. phase sensitive. The rectifier is connected to the outputs of the low-frequency control oscillator.

Description

The invention relates to a measuring technique and can be used to measure the phase angles of passive two-port networks, in particular, having a large attenuation in the passband - decades of stores, attenuations, blocking filters, phase correctors, matching transformers, attenuators, as well as for controlling physical properties. materials and real-phase synchro spores. Closest to the proposed technical solution is a device for measuring phase-to-four-poles, containing the first. first and second mixers, first automatic switch, low frequency control generator connected to the control input of the first automatic switch, phase detector, amplitude limiter, indicator, first and second radio frequency generators, high and low frequency filters, first and second phase shifters, first and a second selective amplifiers, a phase-sensitive rectifier, one of the inputs of the first and second mixers is connected to the output of the first radio frequency generator, the output of the second radio frequency generator t is connected to one of the inputs of the phase detector and the second input of the first mixer, the output of which is connected via series-connected low-pass filter, the first and second phase shifters to one of the inputs of the first automatic switch, and through the high-pass filter to another its input, .a. the output through a controlled four pole, shunted with a key, is connected to the second input of the second mixer, the output of which is connected via a successively connected first selective amplifier and limiter to the second input of the phase detector, the output of which through the second selective amplifier is connected to one and the inputs of a photosensitive output Press the second input of which is connected to the output of the low-frequency control oscillator, and the output - to the input of the indicator 1. The disadvantage of this device is the impossibility of measuring the absolute values of the phase angle of the controlled four-pole network in the entire operating frequency range, since the absence of this information about the absolute values of the phase angle does not allow one to fully appreciate the phase distortions of real quadrupoles in the frequency band. The purpose of the invention is to expand the functionality by measuring the absolute phase angles of quadrupoles with a large attenuation in a wide frequency range. The goal is achieved in that the device has four first and second mixers, a first automatic switch, a low-frequency control generator connected to the control input of the first automatic switch, a phase detector, an amplitude limiter, an indicator, the first and second second radio frequency generators, high and low frequency filters, first and second phase shifters, first and second selective amplifiers, phase-sensitive rectifier, one of the inputs The first and second mixers are connected to the output of the first radio frequency generator, the output of the second radio frequency generator is connected to one of the inputs of the phase detector and the second input of the first mixer, the output of which is connected through serially connected low-pass filters, the first and second phase shifters to one of the inputs of the first automatic switch and through the high-pass filter to its other input, and the output through a controlled quadrupole, shunted with a key, is connected to the second input of the second mixer, in The output of which through series-connected first selective amplifier and limiter is connected to the second input of the phase detector, the output of which through the second selective amplifier is connected to one of the inputs of the phase-sensitive rectifier, the second input of which is connected to the output of the low-frequency control generator, and the output to the input of the indicator, additionally introduced series-connected attenuator, mage ZIN delay, automatic switch, selective amplifier, amplitude limiter, phase a second detector, a switching frequency amplifier, a phase-sensitive rectifier, and a HHflHKatop, with the second input of an additional automatic switch connected to the output terminal of the controlled quadrupole, the attenuator input, and the control input. The additional phase detector is combined and connected to one of the inputs of the first automatic switch, the control inputs of the additional automatic switch and the phase-sensitive rectifier are connected to the low-current outputs of the control generator. The drawing shows the functional diagram of the device for measuring the phase shift of the quadrupoles. The device contains the first and second generators t and 2 radio frequencies, the first mixer 3, the low filter 4 and the high pass filter 5, the first AND second phase shifters 6 and 7, the first automatic switch 8, the low frequency control generator 9, a controlled quadrupole 10, a key 11 , second mixer 12, first selective amplifier 13, first amplitude limiter 14, first phase detector 15, second electoral amplifier 16, rectifier 17 first indicator 18, attenuator 19, delay store 20, second automatic switch 21, tert1 a selective amplifier 22, a second amplitude limiter 23, a second phase detector 24, a switching frequency amplifier 25, a second phase-sensitive detector 26, a second indicator 27. Moreover, one of the inputs of the first and second mixers 3 and 12 is connected to the output of the first. generator 1 RF, the output of the second generator 2 RF is connected to one of the inputs of the first. phase detector 15 and the second inlet of the first mixer 3, the output of which is connected through successively connected low pass filter 4, the first and second phase shifters 6 and 7 to one of the outputs of the first automatic switch 8, and through the high pass filter 5 to its other input and the output is via a controlled quadrupole 10, shunted with a key 11, is connected to the second input of the mixer 12, the output of which is connected through the first selective amplifier 13 and the amplitude 10 5 4 in series to the second inlet One first phase detector 15, the output of which through the second selective amplifier 16 is connected to one of the rfds of the first phase-sensitive rectifier 17, the second input of which is connected to the output of the low-frequency control generator 9, and the output to the output of the first indicator 18, the input of the attenuator 19 is combined with the control A second phase detector 24 is connected to one of the inputs of the first automatic switch 8, and the output of the attenuator is connected to a series-connected store. 20 delays, second automatic; the switch 21, the third selective amplifier 22, the second amplitude limiter 23, the second phase detector 24, the amplifier 25 of the switching frequency, the second phase-sensitive rectifier 26, the second indicator 27, the second input of the second automatic switch 21 is connected to the output-. The controlled terminal of the four poles 10, the control inputs of the second automatic switch 21 and the second phase-sensitive rectifier 26 are connected to the outputs of the low-frequency control generator 9. The proposed device works as follows. The radiofrequency signals of the first generator 1 C, S and m, CosCUii 1 | l) and the second generator 2 Ui Optsoe (w "i 2} with amplitudes and iv) f and iy") 2 initial fada (and {arrive at the inputs of the first mixer 3 As a result of mixing the initial frequency signals, the output signal is U5U, k tco4C r i1b4 r42V,) ttlfi4 (f2lj, where „| K, it, Otg is the amplitude of the mixed signal; - mixer conversion factor From the OUTPUT signal U Lowpass filter allocates 4 difference frequency frequency l 4UmiC06 (WrWiH + H - tf 1 + H, a 5 high-pass filter stresses the sum frequency / U5 l) (cO, + + + 45l, where The phase shifts introduced by the low- and high-pass filters are controlled by the frequencies of oscillators 1 and 2 so that their differential part remains rtocToHHHoftco -cOj Wp con and total CJ, 4-002 varies over the entire operating frequency range of the monitored quadrupole 10. The signal of the difference frequency U through the first and second phase shifters 6 and 7 connected in series is shifted in phase 1 (, cOpi 4 sr, - If i4 c. + 1), where q Cff are the phase shifts of the phase shifters at the difference frequency. The signals Ug and Ug are fed to the inputs of the first automatic switch 8, controlled by the voltage of the low-frequency generator 9. Switch 8 generates bursts of signals of the difference and sum frequencies that arrive alternately at the input of a controlled quadripole 10. The output of the quadrupole tO passes the attenuated packets of signals of the difference difference and cumulative frequencies UT JfpUw coslwpt 4 (, -CHa + 4, coe (coOt tf4 + 47 Cjj-4c) where the transmission coefficient and phase angle of the controlled four-pole 10 at the difference frequency Срр, ctMc gear ratio and the one-time angle of the controlled quadrupole 10 at the total time of the signal — cosPackets of signals weakened by the quadruple pole 10 — is balanced with the signal of the generator 1, receiving the output of the second mixer 12. Uq, U7-li, (co, bef, x (G3pb tf, - cf (, f:, - Um2, (tos uit t j-qi4-ci) 6-c VpVcos {2NV,., - q) -q) b-Cf7-4 pT U, o "U4Ug U, coetsv, t + tp kcUM3Co5x (Wctti |; + i 4c gq. (.). ,, / 4-KcU, U (5W2ttl | j4q 5-i gycos (.7w,., where 1 (2 is the conversion factor of the second mixer) 12 l / in. Thus, in the output signals Uq and 0 / (the harmonic components of the same frequency are contained in the CO. The filter alternately signals the first selective amplifier 13 tuned to the frequency Co 2 receive packets of single-frequency signals VV l MV Vn w WzCOSl Wit + -Qb-tfi g "with KfjU J ,, and “, 1cc (l / g1 + f., Where 1 (coefficient of amplification of the first selective amplifier t |., Is the phase shift introduced by the first selective amplifier 13. The amplified voltage is limited, in amplitude by the first amplitude limiter 14 at the level Ug, obtaining the ratios U, U COu Wtt + 42-C |) 4-4fe-4r 4t-fl4 - Vp)) Uc UoC06ivtfgt4C | 2 + lf9 + Chlz Ch 4- e where tfi4 is the phase shift introduced by the first amplitude limiter 14. The sequence of packets of one frequency at the input of the first phase detector 15 is one continuous phase-shift keyed signal l5Uwв ° 5 - 1 where ,,,, Uo is the amplitude of the phase-mapped signal at the output of the limiter 14,, + J5-H 6-ft p-Mc., the average phase of the manipulated signal, the phase modulation index (manipulation), C-phase detection using the detector 15 allocate the right-angle voltage of the switching frequency SI whose amplitude proportional to the phase shift keying index 1b 15 q1 5 1) where K15 is the conversion factor of the phase detector 15 v / degree. The low-frequency voltage is amplified by an amplifier 16 and rectified by a phase-sensitive rectifier 17. U | 7 4 bVuli V4o. where K is the gain gain of the bodies conversion factor. phase-sensitive rectifier 17 J k {, sK, total conversion coefficient. To exclude the phase shifts introduced by the 4 and 5 low and high frequencies filters, the channel symmetry operation is performed from the measurement result when the four-pole 10 key is locked () and the minimum value of the total frequency of the COF is shorted. An adjustable phase shifter 6 introduces an additional phase delay, and the indicator 18 is set to the signal path of the difference frequency before the phase shifter 7 is set to the zero position. Then, from the condition, 0, it follows that LS, r - ({. ((- (| iO, that is, the received value of the input delay is (, Then open the key 11 and the operation of setting zero on the indicator 18 is performed using the 7. Taking into account the value of C) g- (. The index of the phase modulation bCip, vanishes at frequency Qg, provided that phase shifter 7 introduces a phase shift Q C) p + (. To determine the phase angle of the controlled four-terminal 10 Cfg, corresponding to the beginning the working range at the frequency of COC is carried out additional measurements using switching devices educational channel, consisting of elements 19-27. The signal of the difference frequency is fed through an attenuator 19, the attenuation of which is set equal to the attenuation of the controlled four-pole network 10 to the delay store 20, then the delayed signal will be U | Q-, g ip m5COS -; twptl - V - 7 4 (where K; j5j are, respectively, the attenuation coefficients of the attenuator 19 and the store 20 delays} 6 - the delay of the store 20, the difference frequency Wp. Next, the delayed signal arrives at one of the inputs of the second automatic switch 21. The automatic switches 8 and 21 operate synchronously and out of phase so that only the packets of the difference frequency COP are passed to the output of the switch 21. In this case, for example, the first packet of oscillations passes through a controlled four-port -10, and the second through the attenuator 19 and the store, 20 delays, and then the first passes through the quadrupole 10, etc. Single-part packets are amplified by a selective amplifier 22 tuned to a frequency Qp. The two adjacent bursts of the output signals of amplifier 22 look like) CO "bNl) l - Vtfr f g, U, JCpK ,, Cf, -424Cf4 C; 9j, tifT +, whereK52.H22 is the gain and phase shift introduced by selective usi-. 22, respectively. The output signals of the amplitude limiter 23, which limits the levels of these oscillations at the level of the limitation Ug, are respectively U2j-UoCos wpit-t.) Cf, -q 2 + Cf4 + q) (,,, j4 (j, Uj, -4j4 (| 4 + Cf е + 9т -Ч L where with, -. Is the phase shift introduced by the amplitude limiter 23 .. The sequence of signal packets at the output of the limiter 23 is the phase-shift keyed signal of the difference frequency l zr tni4Co4v pl4 (f WM sit), where ,. VO amplitude of the phase-manipulated signal; - average phase of the manipulated signal (pp-Wpb-phase shift index, Phase-manipulated sig It is fed to one input of the second phase detector 24, the reference signal of which is the signal of the same frequency supplied from the output of the phase shifter 7. During the phase detection process, the square voltage of the switching frequency and the amplitude proportional to the phase modulation index, where K24 - The conversion factor of the phase detector is 24 V / deg. The output signal of the phase detector 24 after passing through the amplifier 25 of the switching frequency and being rectified by the phase-sensitive rectifier 26 is measured by the indicator 27 2bV2S 2 (, (t, where K25 is the gain of the amplifier 25; i (, is the conversion factor of the phase-sensitive rectifier 26j, the total conversion rate of the elements 23-2 Next, using the store 20 delays, by selecting a certain delay t, zero indication of the indicator 27 is achieved. Herewith 1) HAlf2 p Wpt. where cfp Wpt.: Phase angle of the controlled quadrupole 10 at the frequency QJ., is determined as follows. Phasor 7 at frequency a hastiler updated value. The angle is determined from the ratio CRr "(O p t therefore 1 7 Wpfc, i.e. the measured angle is determined from the readings of the phase shifter 7 and the store 20 of delays. The transition to the closest point of the operating frequency range from the value to C") c2 determines the change the phase angle y0 equal to the phase shift of the controlled four-pole network to within the time interval Ucj-Cj c As a result of a change in the phase modulation index itpj at the output of the phase detector 15, a corner appears. The voltage is 17 s (m, where e2 is the phase angle at the frequency of the MS, Indicator 18 will be proportional to the phase shift controlled by the quadrupole 10 at a given increment of the measuring signal 5e tfi C2-4 "). Entering an additional phase motor with a phase shifter 7, zero readings are again indicated; 18, which corresponds to la-4 crfr4t 0 where L (is the increment of the phase shift introduced by the phase shifter 7. The phase angle at the SL frequency (determined from the resulting Avens ratio U4 C2-4ciVblfT. Next, the phase glare measurement is repeated as the signal frequency changes to the value of ir, from (,. etc. to the maximum value of the primary frequency of CO - “Q g CO. P. Thus, the readings of the store and the store of delays at a low fixed phase-voltage O (, COt“ t, no 3BonHroT measure the absolute working phase angles of a quadrupole frequency with a large attenuation. 108 3125t

Claims (1)

DEVICE FOR MEASURING THE PHASE RADIATION OF FOUR-POLE VOLTAGES according to autosw., No. 885919, and the fact that, in order to expand the functionality by measuring absolute phase angles in a wide frequency range, series-connected attenuator, delay shop, automatic switch, selective amplifier, amplitude limiter, phase detector, switching frequency amplifier, phase-sensitive rectifier and indicator, the second input of an additional automatic the switch is connected to the output terminal of the controlled four-port terminal, the attenuator input and the control input of the additional phase detector are combined and connected to one of the inputs of the first automatic switch, the control inputs of the additional automatic switch and. phase sensitive. rectifiers are connected to the outputs of the low-frequency control generator.