SU826255A1 - Measuring system for testing phase meters - Google Patents

Description

(54) MEASURING SYSTEM FOR TESTING PHASOMETERS

The invention relates to a radio metering technique, primarily a photoelectric detector, and can be used to calibrate and calibrate electronic phase meters operating in a wide dynamic range of input signals,

It is known a device that implements a method for determining the error of a 4-phase phase, containing a source of harmonic signals, an ungraded phase shifter and an inverter, whose inputs are connected to the output of a source of harmonic signals, and the outputs to the closed and open contacts of the first and second switches, respectively, whose open and closed contacts are connected to the output source of harmonic signals, and switching contacts to the inputs of the phase meter being turned on 1

A disadvantage of this device is the necessity of performing mathematical mathematical calculations, and as a result, low productivity

  It is also known a device that implements a method for determining the errors of electronic phase meters, containing a generator, the output of which is connected to the inputs of the delay magazine and the delay line with a calibrated delay time and an open switch contact, the output of the delay magazine through an attenuator is connected to one of the inputs phase meter, the second input of which is connected to the switch contact of the switch, the closed contact of which is connected to the output of the delay line. The generator output is also connected to frequency meter 2.

The drawbacks of the device are the considerable time and amount of mathematical processing of intermediate results, due to the complex mathematical dependence of the magnitude of the error on the frequency of the signals.

The purpose of the invention is to increase speed and automate the verification results.

This goal is achieved by the TEM that a measuring system for phase meter calibration, containing a harmonic generator, a delay magazine, a delay line with a calibrated NO1 delay time value, with the inputs of the delay magazine and the trigger line connected to of the switch {s1am1ls switch contacts,

Claims (2)

Q to the second switchable contact of which the output of the delay line is connected, a. to. a switching contact — one of the inputs of a phase meter to be changed, the other input of which is connected to the output of the attenuator, the input of which is connected to the output of the delay magazine, is complemented by a second harmonic generator, a second switch, a balanced mixer ,. a low-pass filter, a programming unit, a divider with a controllable division factor, a shaper of short pulses, a reversible counter and a registering unit; the output of the first generator is connected to one of the switchable contacts of the second switch, to the second switchable contact of which the switch is connected to the output of the second generator and one from the inputs of the balanced mixer, and the switching contact is connected to the inputs of the delay magazine and the delay line, as well as to the second input of the balanced mixer and to the counting A variable division divider input, the control input of which is connected to one of the outputs of the programming unit, the other output of which is connected to the control input of the reversible counter, the counting input of which is connected to the output of the divider, and the information output is connected to the information input of the registering. The setup input of which is connected to one of the outputs of the short pulse generator, the other output of which is connected to the input of the programmer, and the input of the short pulse generator a connected to the output of the lowpass filter connected to the output WMOs house .. balanced mixer circuit of the measuring system for checking the electronic phase meters Images razhena the drawing. The device contains generators 1 and 2 harmonic signals, switches 3 and 4, a lock store 5 (and any ungraded phase shifter line b: kk with a calibrated delay time value, an attenuator, a phase meter 8, a balanced mixer 9, a low-pass filter 10, divider I with controlled division factor, programming unit 12, shaper 13 short pulses, reversible counter 14 and registering unit 15. The measuring system works as follows: At the position of the switches 3 and 4 indicated in the drawing, set the required operating frequency of the generator 2, zero store delay 5 delays, zero attenuation of the attenuator 7, and perform an initial balancing (setting zero readings of the phase meter 8 to be checked.) Then, setting the required attenuation of the attenuator 7, with store 5 encouraging on the scale to be checked If the frequency of the generator 2 is equal to tf, and the delay time of the store 5, then the phase shift between the input and output signals of the store is 5 pavans. Y.a fafjThe measured value of the phase shift V is recorded in the programming unit 12, from where, according to the signals from the imager, 13 short pulses are periodically rewritten into reversing H1 # counter 14, operating in summation mode. Balanced mixer, 9, low-pass filter 10 and shaper 13 short pulses form a sequence of short pulses whose frequency is equal to the frequency difference between the input signals of the balanced mixture-bodies 9. When the switches 3 and 4 are indicated in the drawing, this frequency is zero, and therefore, the indicator of the recording unit 15 has zero readings. Next, the switches. 3 and 4 are shifted to the opposite position, inputting the calibrated phase meter B into the second channel with a calibrated delay to delay line 6. Then, a frequency f of oscillator 1 is set at which the initial reading of the turned-off phase meter 8 is restored. The delay time is chosen to be significantly less than SU, therefore, the frequency f differs little from the frequency f. At the position of the switches 3 and 4, opposite to that indicated in the drawing, at the output of the imaging unit 13 short pulse pulses, a sequence of pulse signals with a frequency fg is flown. On the leading edge of the pulses, the contents of counter 14 are copied to the registering unit 15, and the trailing edge records the phase shift code Y from the programming unit 12 to the counter 14. During time C --- between the two output pulses of the former 13 to 14, the number of pulses arrives - --- i - jA where k is the division factor of the divider 11. The value of k is chosen from the ratio entered in the programming unit i2 before the start of measurements at each Consequently frequency change, the value of N is N. Since counter 14 is reversible and the counting starts from a certain number P, the number of pulses in the subtraction mode during the time tr will be proportional to the error of the phase meter AN V. Thus, the result of measuring the error of the phase meter being tested does not depend on the error of the store delays and phase shift introduced by the attenuator and automatically recorded by the device. By changing the store's lag time and performing the specified measurement sequence, the Hipctb phase meter is measured at the next digitized scale mark, etc. By adjusting the attenuation of the attenuator, it is possible at each level of the phase meter to determine its additional amplitude component of the error. Compared to those known in the proposed device, the accuracy of determining phase meter errors for any phase shift and a given ratio of a fflity of input signals within the dynamic range of the phase meter being tested without using certified phase shift measures and phase shifting attenuators is improved. The invention of the measurement system for phase meter calibration, comprising a generator of mono signals, a delay store, a delay line with a calibrated delay time value, with the inputs of the delay magazine and the rear line connected to one of the switch contacts, the second switch of which the output of the delay line is connected, and the switching contact is one of the inputs of the phase meter being turned, the other input of which is connected to the output of the attenuator, the input of which is connected to the output of the rear Holders, characterized in that, with purpose. increase of speed and automation of obtaining the results of verification; a second harmonic signal generator, a second switch, a balanced mixer, a low-pass filter, a programming unit, a divider with a controlled division factor, a short pulse former, a reversible counter, and a recording unit are entered into the device, the output of the first generator is connected to one of the switchable contacts of the second switch, to the second switchable contact of which the output of the second generator is connected and that yn of the inputs of the balanced mixer and the switching contact is connected to the inputs and store delay line zescherzhki and to the second input of the balanced mixer and to the count input of a variable divider; the division ratio, the control input of which is connected to one of the outputs of the programming unit, the other output of which is connected to the control input of the reversible counter, the counting input of which is connected to the output of the divider, and the information output - to the information input of the recording unit, the installation input of which is connected to one from the outputs of the short pulse shaper, the other output of which is connected to the input of the programming unit, and the short pulse shaper input is connected to the output of the lower part of the filter hundred., connected by the input to the output of the balanced mixer., Sources of information taken into account during the examination 1.Authorial certificate of the USSR 215324, cl. G 01 R 25/04, 15.07.66. 2. USSR author's certificate according to the application 2556663 / 18-21, cl. G 01 R 25/00, 06/30/78.