SU737847A1 - Multi-value measure of high ac voltage - Google Patents

Description

one

The invention relates to the field of electrical measurements, in particular to exemplary equipment for reproducing alternating high-frequency voltages, intended for the verification of high-frequency voltage measuring instruments, which are widely used in radar, radio navigation, space and ground communications, medium-sized engineering. .

Multiple measures (calibrators) of an alternating high-frequency voltage are known, containing an alternating high-frequency voltage generator, a stabilization system reproduced by this voltage level generator 15 and an attenuator for extending the voltages reproduced by the measure to low levels relative to the reference voltage level 11. 20

The disadvantage of these devices is that the 4to reproduction error of the voltage is determined by both the reproduction error of the voltage reference level and its continuity in time support, and the attenuator error. The error of reproduction of the reference level of the voltage: them (usually 1 or 10 V) in a wide frequency range (30-100 MHz) was

em O, O3-0.1%, and its short-term instability - 0.001-0.003%, the error introduced by the attenuator is attenuated at up to 70-80 dB in a wide frequency range t30-100 MHz) is 0, D-0.3 % The limits of permissible error of reproduction of alternating high-frequency voltage levels of 6 t O up to 80 dB relative to the reference level / x: leave 0.130, 14%, which does not currently provide the required accuracy margin when attaching Typeshne11Y7

Also known is a multi-valued Measure of an alternating high-frequency voltage, containing a series-connected alternating high-frequency generator. voltage amplifier:; a variable high frequency voltage, a comparison unit, an auxiliary high frequency AC voltage amplifier, a control unit and a control divider connected to the output of an alternating high frequency voltage generator, and an attenuator 2.

- The disadvantage of the known device is that the error is 0.13-0.4% when playing at variable levels of high hour 737847

iTOTHOfQ voltage OT up to 80 dB from the reference support level (usually I or 10 V), which does not provide for the required time to set the exact margin for calibration of measuring instruments.

The purpose of the invention is to improve the accuracy of many-valued measures of variable high-frequency voltage.

This goal is achieved by the fact that the variable value Miepa of a variable, high-xytaic ciTHOro "apr, containing successively connected alternating high-frequency voltage generator, variable high-voltage amplifier tjacrTOTHOro voltage, comparison unit / auxiliary high-frequency alternating voltage amplifier, 15 block control and control The divider connected to the output of an Ibpa alternating high-voltage voltage, as well as an attenuator, is driven by a low-frequency generator, electr. 20, t5 is a mechanical switch, p egulyruo MElM source of DC voltage, the second control unit, a high-frequency isMiepHtelnym preobrazvatalem and selective yndika- zero ", a torus, wherein the low frequency oscillator output is connected to the first input zlektromehanicheskogo switch, the second input switch connected zlektromehanicheskogo alternating high output amplifier 0 kf frequency voltage, one of the outputs of the second control unit and the other output of the second control unit are connected to the third input of the electromechanical switch sub-35 is connected to ONE input of the selective null indicator, the output of the electromechanical switch is connected to the input of the attenuator, the output of which is connected to the input of the measuring high-frequency converter, the output of the measuring high-frequency converter is connected to another input of the selective Hyjfb indicator, and An output of a controlled source of 45, one hundred volt, voltage is connected to another input of the comparison unit.

The drawing shows a block with a heme device. .

The device contains a low frequency generator 1 (for example, 1000 Hz), an alternating high frequency voltage generator 2, an alternating high frequency voltage amplifier 3, an electromechanical switch 4, an attenuator 5, an up-splitter b, an adjustable source; unit, comparison unit 8, second control unit 9, measuring high-frequency converter 10, control unit 11, auxiliary 60 AC high-voltage amplifier 12, selective null indicator 13. Generator output 1 low The astrote is connected to the first electromechanical device; 45

the coil 4, to the second input of the electromechanical switch 4 is connected the output of the amplifier 3 of variable high-frequency voltage, one of the outputs of the second control unit 9 is connected to the third input of the electromechanical switch 4, and the other output of the second control unit 9 is connected to one input of the selective zero indicator 13, the output of the electromechanical switch 4, is connected to the input of the attenuator 5, the output of which is connected to the input of the measuring high-frequency converter 10, the output of the measuring high-frequency transducer 10 is connected to the other input of selective null indicator 13, and the output regulated power. 7, a constant voltage is connected to another input of the comparison unit 8.

The device works as follows. . . .

During reproduction by the proposed device of the reference voltage level, the signal from the alternating high-frequency voltage generator 2 is fed to the input of the amplifier 3 of alternating high-frequency voltage. From the output of the amplifier 3 of the variable high-frequency voltage, the signal is fed to the input of the attenuator 5 and the input of the comparison unit 8. The indicator of the readout device attenuator 5 is set to zero, and the control signal to the electromechanical switch 4 is not applied, and its second input is connected directly to the output of amplifier 3. In comparison unit 8, the output voltage levels of the killer 3 of the alternating high frequency voltage are compared the reference and the voltage of the semiconductor diode that is used, for example, used in the comparison unit 8, the difference signal from the output of the comparison unit 8 is fed to the auxiliary power s 12 high-frequency alternating voltage and further to the control unit 11. From the output of the control unit 11, the signal is fed to the controlled divider 6 and, by changing its division factor, changes the signal level of the alternating high-frequency generator 2. Thus, the output voltage of the amplifier 3 of the alternating high-frequency voltage is automatically set to be equal to the reference voltage and kept constant in the measurement process.

When this device reproduces a voltage level different from the reference one, a signal is fed from one output of control unit 9 to the third input of electromechanical switch 4. In this case, the reference voltage level from the output of amplifier 3 of alternating high-frequency voltage and the turn signal generator 1 low frequency alternately with a frequency of, for example, 7 Hz, is fed to the input of the attenuator 5 by means of an electromechanical switch 4, while the pointer of the reading device of the attenuator 5 is set to zeroed. From the output of the attenuator 5, the high and low frequency signals are fed to the input of the high-frequency measuring transducer 10, and if the amplitudes of these signals are unequal, a difference signal is output to the input of the high-frequency measuring transducer 10, which is fed to one input of the selective null indicator 13. The frequency of the differential signal (Corresponds to the frequency of the control signal, for example, 7 Hz, and the selective. Zero indicator 13 is tuned to the nave. To increase the resolution, the selective zero indicator 13 seconds holds the phase detector, and the phase reference signal from the other output of the control unit 9 is fed to one input of the selective null indicator 13. By adjusting the low-frequency generator 1 level, the amplitudes of the signals indicated are equal to zero, the zero-indicator selective 13. Next, enter the indicator readout device attenuator 5 at the desired mark. Since the attenuation value of attenuator 5 depends on the frequency, due to the influence of the frequency range 1, the level of the alternating high-frequency voltage and the level The low frequency voltages at its output will differ by the magnitude of this frequency error, while registering an imbalance on the selective null indicator 13. The signal from the adjustable constant voltage source 7 is fed to another input of the comparison unit 8 and changes the threshold operation of a reference element, for example, a semiconductor diode; this changes the level of the reference alternating high-frequency voltage at the input of the attenuator 5. Change this level until a zero reading is obtained on the selective zero indicator 13, while the level of the reference variable high-frequency voltage input to the input of the attenuator 5 is changed by the frequency error of this attenuator 5. Then, the control signal is removed from another output of the control unit 9, the second input of the electromechanical switch 4 is directly connected to the output of amplifier 3. The level of reproducible alternating high-frequency voltage at the output of the attenuator 5. will be equal to the voltage level at its input, reduced by the attenuation value, set at attenuator 5.

.737847

The reproducing error of the high-frequency alternating voltage offered by the DEVICE-PTB is added up from the reproducing error and maintaining a constant attenuator during the measurement of the reference level of the transient voltage and the attenuator: in turn, the error of the attenuator. nnom

0 current or low frequency (for example, 1000 Hz) and frequency error in the range of frequencies (30-100 MHz). The accuracy of the reproduction of the reference level of the alternating high-frequency voltage (usually 1 or 10 V) in a wide frequency range up to 30-100 MHz is 0.03-0.1%, and its short-term instability is 0.001-0.003%. The error in determining the attenuation value is 70-80 dB at a constant

0 current or low frequency (e.g., 1000 Hz) is 0.001-0.003%. In the proposed device, the error in determining the attenuation value to 70-80 dB of the attenuator 5 in a wide range of frequencies (30-100 MHz) consists of the error introduced by the measuring high-frequency converter 10; the error r caused by the finite value of the resolution of the selective null indicator 13; errors caused by variation of the contact of the electromechanical switch 4; errors caused by short-term instability of low-frequency generator 1; errors. Caused by short-term instability of the reference level of an alternating high-frequency voltage.

The error introduced by the measuring high-frequency converter

40 10, is mainly of a random nature, since at its input, with the input and output attenuation of the attenuator 5, there are ALARM SIGNS. of the same frequencies, and their amplitudes equalize 4 (they are wired according to the same selective null indicator 13 in either case. When used in the VybiraradstbTShM converter 10 of highly stable ultrahigh frequency diodes and resistors, the error will not exceed 0.005-0, 01%.

 The error caused by the final "value of the resolution of the selective null indicator 13 does not exceed 0.005% when using, for example, a selective voltmeter with a lower pause of measurements of 130 nV.

w: The error caused by the variation of the contact system of the electromechanical switch 4 of the transducer 4 does not exceed 0.005% when using, for example, high-frequency relays with gold-plated iS contacts.

Claims (1)

Claim A multi-valued measure of alternating high-frequency voltage, comprising a series-connected alternator of high-frequency voltage, an amplifier of alternating high-frequency voltage, a comparison unit, an auxiliary amplifier of alternating high-frequency voltage, a control unit, and a controlled divider connected to the output of the alternating-high-frequency voltage generator, as well as an attenuator, characterized in that, in order to increase accuracy, it is equipped with a low-frequency generator, electromechanical a switch controlled by a DC voltage source, a second control unit, a high-frequency measuring transducer and a selective zero indicator, while the output of the low-frequency generator is connected to the first input of the electromechanical switch, the output of the AC high-frequency voltage amplifier is connected to the second input of the electromechanical switch, to the third input of the electromechanical switch is connected to one of the outputs of the second 15 control unit, and the other output of the second unit and the control is connected to one input of the selective null indicator, the output of the electromechanical switch is connected to the input 20 of the attenuator, the output of which is connected to the input of the measuring high-frequency converter, the output of the measuring high-frequency converter is connected to another input, je the selective null indicator, 'and the output of the adjustable constant source voltage is connected to another input of the comparison unit. 30 Sources of information taken into account in the examination 1. Generator-calibrator GK-6 .- '' Proceedings of the Tomsk Polytechnic Institute '', T. 231, 1971, p. 32-38, 35 2. US Patent No. 3248642, CL. CL 323-21, 1966 (prototype). TSNIIIPI Order 2563/7 Circulation 1019 Subscription Affiliate PPP ’’ Patent ’’, Uzhhorod, Project 4,