SU606141A1 - Multichannel ilf arrangement for digital measuring of phase shift angle - Google Patents

Description

3 to the introductory entry to the co-grator. FIG. 1 preassigned structural electrical circuit device; in fig. 2 depicts stress plots. Two parallel channels 1 contain input devices 2 connected in series and shapers 3 rectangular pulses. The block of formation of measuring pulses 4 is connected to the output of the first channel through switch 5, P -1 for example, where f, for example, is 24. The device also contains an electronic key 6, Miller integrator 7, block 8 of automatic control. The circuit of the adjustable power supplied to the integrato is made from a reference current source 9 after the current connected to it through a resistor divider 10 electronic switch 6 connected to it via an integrator resistor 7 loaded to the input of a digital voltmeter 11, and the second (controlled key) input is connected to the input of block 4. The input of block 8 is connected to the channel input half-period, and the output of block 8 is connected directly to the clamp Voltmeter triggering and through delay element 12 to the discharge relay 13, two normally open contacts 14 of which are on These are partly parallel to the capacitor 15 of the integrator. The sinusoidal signals U (reference) and 2-2.4 (one of 24 signals) in channel 1 receive rectangular pulses (FIG. 2a), which through block 4 arrive at the control input of switch 6. The voltage output of the reference post source current 9 through the divider 10 and the key 6 is connected to the input of the integrator 7, which is switched to the potential accumulation mode E (fkg, 2.6) during the half period by the switch 16 (position TT). The voltage at the output of the integrator 7 is measured by a digital voltmeter. At the output of the integrator receive the potential of EK-C-E ,, E, -at-K. - the gain of the integrator amplifier} E - the voltage of the reference DC source; Voltage E for a given frequency is adjusted in this way (strokes on 4Hi, 26) until the output of the integrator is half the SO 56 S 1 fiaBHOio half of the phase scaleVat voltage, le (fig, 2c): K-Ed-KM., Where K is natural numbers 1, 2, 3 180 receive Poi K «2 and K, the smallest discharge of a digital voltmeter, taking into account the phase scale, phase resolution of 1 ° by 1 V. Taking into account the accuracy of digital voltmeters 0.02-0, receive solution in phase to 0.02-0.03. Taking into account the linearity of the integrator in 0.05%, the error does not exceed 0, 1 - 0.2. Consider the cost of time. To accurately calibrate at a frequency, say, O, O5 Hz, it takes only 2-3 periods of a signal to accurately prepare a constant voltage from an EE source that determines 1W (} the digital voltmeter on the display panel, equal to the phase scale, t .e. 180 V - 18 O. This is based on the fact that the required value of the input potential is applied to the integrator in advance / 80 57, 0, ST5lB3, like, for К 1ОО, for a frequency of 1 Hz, taking into account the division through feedback and because of the frequency of the given C-elements. After calibration, the integrator translates to the accumulation of potential from the direct carbon measuring pulse, the duration of which is equal to the duration of the phase shift (the position of the phase switch 16), and measure the phase sequentially in many channels, and the voltage on the integrator code is obtained equal to the phase value in degrees, which is read off on the digital voltmeter board during a time less than One (Fig. 2d). Due to the fact that calibration is not MSHJH for a given frequency, all the phase relationships of the P-1 channels with respect to the first, for example, 24 channels, are measured on a phase scale without error for 28 periods, On from Eren in known devices, for example, 24 channels will be spent twice the period, i.e. 56, and since each period is a great loss of time (for | 0.001 Hz - 16 min), the advantage of this device is obvious. The device works as follows. The pulses from the signal U at the output of channel 1 Beaut automatic control unit 8, which gives the necessary time pulses (in accordance with Fig. 2) in terms of starting Miller integrator, digital voltmeter, capacitor discharge and repeating a periodic cycle in accordance with the frequency.

The measuring impulse shaping unit unlocks the electronic key 6. The latter transmits the DC voltage from the reference DC source 9 to the Miller integrator, and the voltage is adjusted manually by a rheostat divider (Only in the Floor position at the perimeter) ; Frequency range. The result of the divider adjustment is obtained on a digital display of a digital voltmeter. After the integration {t rj at the position of Paluperiod and t при at the Phase position, fig. A command to start a digital voltmeter to indicate the result and, through the element of gauge 12, to trigger the discharge pefie 13 to remove the potential from the capacitor. Element 12 provides a step equal to the measurement time, T.e.-fc, (FIG.

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2c and 2d). The process then repeats.

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Claims (1)

Invention Formula Multichannel infraniofrequency mouth Digital angle shear measurement phases, containing two formation units, in which the input unit and the square pulse former, the outputs of the units, one directly and the other through the switch, are connected to the measuring pulse generation unit, the automatic control unit, the integrator and the switch installed between the input of the second unit Formation and all parallel channels, a digital voltmeter connected to the integrator output, characterized in that, in order to improve speed and touchability, electronic cells are introduced into it h, the resistor divider, the reference source of DC voltage, the delay element and the discharge relay, the output of the measuring pulse shaping unit is connected to the integrator input via an electronic switch, yn: the connecting input of the electronic switch is connected to a reference constant voltage source via a resistor divider the input of the automatic control unit is connected to the upper input of the first formation unit, and the output is connected to the control input of the digital voltmeter and, through a delay element, to the discharge relay, which ladies attached to the input and output of the integrator. 4ff- .fI 1 I t Unk-Run tt ts Puz.i Rig.2