SU438981A1 - Amplitude Phase Detector - Google Patents

Description

(54) DETECTOR OF AMPLITUDE-PHASE RELATION

Claims (1)

The invention relates to the field of electrical measuring equipment and can be used in bridges and compensators of alternating current. When balancing AC bridges, amplitude-differential, quadrature, phase-zero, and phase-shifter amplifiers are widely used. Amplitude-phase ratio detectors are known, comprising two matching devices connected to an adder, a differential element, a coincidence circuit, two limiter amplifiers connected to the first and second inputs of a coincidence circuit. However, they do not allow one to achieve the quasi-equilibrium state of the bridge by the excess component of the impedance, operating with only two signals — unbalance voltage and powering the bridge circuit, without introducing a methodological error in the measurement result. The purpose of the invention is to reduce the method error of detection amplitude-phase ratio. To do this, an additional amplifier is introduced into the ctector, the input of which is connected through the differentiating element to the output of the adder and the input of the first amplifier limiting device and the output to the third input of the matching circuit, the output of the first matching device connected to the input of the second amplifier limiting device. 1 shows a block diagram / etektora. It includes matching devices 1 and 2 adder 3, differentiating the circuit 4, limiting amplifiers 5, 6 and 7 and the coincidence circuit 8. In FIG. Figure 2 shows a topoarapical diagram of the iviocTa alternating current balancing process, where and is the voltage of the bridge circuit; R, R.UQ ,, h -r circle equilibrating potential points of the bridge c. and d, U, are the voltages between which definite amplitude-phase relations are established, equal to the corresponding-Evaluated voltage in the measuring diagonal and the potential voltage of the potential point d, the distance of the artificial potential point: O - center of the circle At the moment of quasi-equilibrium bridge circuit we, by the predominant component of the measured resistance, the potential point from the bridge should be located on the equilibrium circle Ru l / ap This position is characterized by the following equality: M-OfCcosJ io where is the phase The second angle between the voltages Uj and (Fig. 2) urccos -nfj is the phase angle determined by the ratio of the amplitudes of the two voltages, one of which, C (Fig. 2), is the chord of the equilibrium circle (for example, D Tsaz), DR goe - g, the radius of the same circle. FIG. 3 shows timing diagrams. The detector operates as follows. The voltages 21/2 and LJ removed from the bridge circuit, go through matching devices 1 and 2 (Fig. 3) to the inputs of the adder, which subtracts the voltage vectors U. and SUg Voltage and goes also to the amplifier-limiter 5. The vector difference (Fig. 3) is fed to the limiting amplifier 6 and through the series-connected circuit 4, which serves to shift the vector difference by an angle of + 9О (-90) (Fig. 3) to the limiting amplifier 7. The pulses of these voltages from the outputs of the booster amplifiers 5, 6 and 7 go to the coincidence circuit 8, which in case of coincidence Neither of these impulses, but produces a signal (Fig. 3, a), carrying information about TOMj, in which direction the equality is violated, i.e., about the deviation from the state of quasi-equilibrium. As can be seen from Fig. 3, the coincidence of the owls at the outputs of the limiting amplifiers occurs only when H arccos 31 The case of a mismatch of pulses from the splicers of the limiting amplifiers corresponds to the O. PccoS-ii inequality. for balancing the bridge circuit in a separate balancing method according to the amplitude-phase ratio. Formula of the invention The amplitude-phase ratio detector containing two matching devices, connected data to the adder, the differentiating element of the coincidence circuit; two amplifiers of the limiter, connected to the first and second inputs of the coincidence circuit, characterized in that, in order to reduce the methodological detection environment of the amplitude-phase ratio, an additional amplifier-limiter, an input of 1x through the differentiating element is connected to the output c; u.mattor and the input of the first amplifier-ol-rich and the output-with the third input of the coincidence circuit, and the output of the first matching device is connected to during the second limiting amplifier. Ut