SU611159A1 - Method and apparatus for measuring ac voltage parameters - Google Patents

Description

Miragel on odiom (in each channel (on the trance diagram}) ormators and shapers are not shown separately, they are combined in the input of} X) Signs 3 and 4, respectively) and a triggered .c isomer 5, connected to the outlets of forlitzvdvatel . In addition, the converter 6 and 7 and amplifiers 8 and 9 enter the device. The output of the triggering phase meter 5 is made in the form of two separate channels, in which the OD1Sh output of the phasemeter is sheedipen with the input of the converter b, the output of which is connected to the input of the amplifier 8, and another phase meter output is connected to the input of the converter 7, the output of which is connected to the input of the amplifier 9.

The proposed method is described as follows.

Channel 1 provides the voltage Uj, and channel 2 supplies the voltage of the ultrasound of the same frequency, between which it is necessary to determine the phase shift. These voltages fall, respectively, on the input devices 3 and 4, which convert the input voltage from one voltage to the same short-duration pulses. A short impulse edge frequency is formed at the time of the transition of the input sinusoidal voltage across zero in one direction. Trigger Phase Meter 5. Converts the time between four leading fronts of short pulses coming through channels 1 and 2 into a constant voltage pulse so that at output 10 of the phase meter WO is proportional to the time between the leading fronts of the two closest short pulses following the input device 3, and the output 11 - the following from the outputs of the input devices 4 and 3.

Thus, the length of the focal impulse, which retracts from phase meter 5 to output 10, is proportional to the angle –f phase shift, and on output b to angle p, which complements the angle f to a full period of 2ft. In this case, the sum of 7 pulses of pulses from the outputs of the input devices 4 and 3 and of the emission ratio is at the frequency, i.e.

f-r t Long pulses come from the outputs of the phase meter 5, respectively, to the inputs of the transducers 6 and 7, where they are converted into a constant eg. the wives of Ui and U2. These voltages are applied to amplifiers 8 and 9, from outputs 12 and 13 of which they are fed to the EOM, where they are converted into lectures.

pictorial signals, which are functional to the phase and tote according to 01e, expressing

  2U f.

W4

where c | and Q are constants defined by naramegra. electrical circuit;

it 3.14;

f is a signal proportional to the phase shift angle;

f - signal, 1 radio frequency

Claims (2)

1.A method of measuring AC voltage parameters, recognizing the preliminary transformation of the current and voltage into measuring signals with the subsequent conversion of these signals into pulses of constant current, about tl and ch and yushchi and with that. In order to measure the angle of phase shift, the frequency drift and the frequency error, caused by phase drift, simultaneously measure frequency and phase, for which direct current signals are sent two similar channels in which they are transformed into Uj and UZ, and Uj is proportional to the phase shift angle i, and Uj to the complement of the phase shift angle to the full period (2-φ). . 2. The device for carrying out the method of claim 1 with two input channels, including the two measuring trans 1) ormators one by one in the current measurement channel and the voltage measuring channel, two formers and trigger phase meter connected to the outputs of the formers, distinguished by that, transducers and amplifiers were introduced into it, b5, with the output of the trigger phase meter being made in the form of two separate channels, in each of which the output of the phase meter} 5a is connected to the input of the converter, the output of which is connected in series with the amplifier. Sources of information taken into consideration. in the examination :. 1. Arkhlpenko AF and others. Devices and automation devices. Novocherkassk, 1974. 2.Turichin M.M. Electric measurements of non-electric quantities. M., Energie, 1966. Iz / J