SU1051450A1 - Phase-meter - Google Patents

Abstract

The PHASOMEGG is a socializing two usipitep-boundaries, the outputs of which are coupled with the corresponding four differentiating elements, the outlets of the first and third of which are connected to the first trigger, and the second and the fourth corresponding to the second set, the second set of the three, and the second, and the second, the second, and the second, and the second, and the second, and the second, and the second, and the second, and the second, and the second, and the second, and the second, and the second, and the second; an intsikatorny block, which is connected with the fact that, with an extension chain of functional possibilities, by providing a measurement of the phase shift of the phases between the coherent signals, the multiple frequencies in the gradient phase There are two adjustable delay pins, two additional triggers, multiplication multipliers, the adjustable delay lines are connected by inputs to the outputs of the first and second controllers, and the outputs to the nerve inputs of the corresponding secondary triggers, the second ones connected, respectively, to the outputs of the second and first differential ementob, and the outputs to the inputs of the adder whose output is connected to the indicator unit through multiplication bpok.,

Description

The invention relates to a phase-measuring technique and can be used in non-destructive testing, in particular when monitoring the c7-structure of the meta-phase n of the higher harmonics of the secondary emf.

DP measurement of phase rotation between the integer cells by coherent signals of multiples, frequencies. Use the Lissajous shape figures method. In this case, the signal of the lower frequency is fed to the vertical plates of the skiptograph, and the highest (multiple) signal to the horizontal ones. A symmetrical Lissajous figure appears on the screen of the oscigtograph, and its type depends on a number of frequencies.

The non-residual of this method is v (em with low accuracy of detection of the SCBIG phase, not exceeding 5-10%.

The avuhpopuperiotsny phase meter is known (for example,), a well-designed center for measuring the phase shift of the phases between the coherent signals of the zinc frequency, which is associated with the color of the limit boundary, which is limited. Sotsitsineny with inputs corresponding to the four four and 4) fermentation elements, outputs of the first and third Of which € 5 are coupled with the inputs of the first trigger, and the outputs of the second and fourth - corresponding to the inputs of the second trigger, the outputs of the trigger are connected to the inputs of the adder, and the indicator unit 2.

 A disadvantage of the known device is the impossibility of measuring the phase rotation of the inter-face by coherent shifts of multiple frequencies in grazus. coherent signal phase.

The circuit of the invention is the extension of the functional possibilities by providing the measurement of the phase rotation of the inter-face with coherent signals of multiple frequencies in terms of the phase of the coherent signal.

The delivered circuit is achieved by the fact that the phase meter containing the color of the mustache is a heat limiter, the outputs of which are connected to the inputs of the corresponding four differentiating elements, the outputs of the first and third of which are connected to the inputs of the first trigger (and the outputs of the second and fourth), respectively trigger trigger outputs are connected to cjTviMaTOpa inputs, indicator bpok, BBeueijbi two adjustable delay lines, two additional triggers, multiplication bpok, with adjustable delay lines connected by inputs to the outputs First of first and second differentiating epementov and outputs - a first respective additional inputs E trigTe- trench, the second inputs of which are connected

respectively, with the outputs of the second and the first differentiating elements, and the outputs with the inputs of the adder, output; . through which the unit multiplied is connected to the indicator unit.

The drawing shows a block diagram of the device.

The phase meter contains limiter amplifiers 1 and 2, the outputs of each of which are connected to the inputs of the first 3 and. The second 4, third 5 and fourth 6 differentiating elements, ONE outputs of the first and second differentiating elements 3 and 4 are connected to adjustable lines 7 and 8 delays, other outputs with the inputs of the second and first triggers 9 and 10, the other inputs of which are connected with the outputs of the third and fourth differentiating elements 5 and 6, respectively, the outputs of the adjustable lines 8 and 7 of the gauge and the outputs of the first and second differentiating elements comrade 3 and 4 are connected respectively to the inputs of the additional flip-flops 11 and 12, the outputs of all flip-flops connected in series through the adder 13 and the NOC 14 multiplying the input connected to the display unit 15

In the x-limiting device, x 1 and 2, the reference and measured voltages applied to them are transformed; into rectangular pulses. The differentiating elements 3 and 4 produce positive pulses corresponding to the moments of the transition of the reference voltage through, each of which is triggered after a period of voltage. DI4) enzymes 5 and 6 produce similar negative pulses, corresponding to the zero transition times of the measured voltage. The impulses from differentiating 3nevacts 3 and 5 control the operation of trigger 10, from differentiating elements 4 and 6, the operation of trigger 9. On triggers 9 and 10, phase intervals of duration (1 - f / 180) will be generated. In addition, the pulses of the differentiated element 3 arrive at an adjustable delay line 7, where they shift in time by T / 2 h. In a similar manner, the pulse produced by differentiating element 4 is shifted in the adjustable delay line 8. Delayed in adjustable lines x 7 and 8 delay pulses arrive at the first inputs of the flip-flops 11 and 12; their inputs come in pulses from the diverting elements 3 and 4. At the trigger and .12, impulses are generated, and T / 2 –T / 2 Т T / 2 (). Impulses from all four flip-flops 9-12 are fed to the adder 13, and the total for the period is subtracted from the impulse by the sensitivity T. The resulting impulse is positive T T CHIP The TG is rectified and in block 14 of the mind. scissum multiplied by c. The indicator 10 504 bpoc 15 receives a constant voltage proportional to the phase shift between the coherent signals of a multiple frequency applied to the phase meter in degrees of the phase of the coherent signal. The phase meter, as compared with the known device, allows one to measure the phase shift between coherent signals of multiple frequencies in the phase of the coherent signal phase.

Claims (1)

A PHASOMETER containing two limiter amplifiers, the outputs of which are connected to the inputs of the corresponding four differentiating episodes, the outputs of the first and third of which are connected to the inputs of the first trigger, and the outputs of the second and fourth are respectively the inputs of the second trigger, the outputs of the triggers are connected to the inputs of the adder, indicator bpc, characterized in that, with a functional expansion chain by providing a measurement of the phase shift between coherent signals of multiple frequencies in degrees of the phase of the coherent drove, it introduced two adjustable delay lines, two additional triggers, a multiplication side, and adjustable delay lines are connected by inputs to the outputs of the first and second differentiating epechGentre outputs - with the first inputs of the corresponding additional triggers, the second inputs of which are connected respectively to the outputs of the second and first differentiating episodes, and the outputs - with the inputs of the adder ^ the output of which is connected to the indicator unit after ¹ bpc of multiplication. ),