SU926634A1 - Generator-calibrator - Google Patents

Description

iS) CALIBRATOR GENERATOR

I

The invention relates to radio metering technology and can be used in various fields of science and technology where sources of calibrated variables for voltage in wide frequency and dynamic ranges are needed, in particular, as an exemplary signal source for calibrating AC voltmeters.

A generator-calibrator is known which contains a voltage source connected in series, a switch, a matching device, amplifiers and a voltage divider.

The disadvantage of this calibrator is the narrow frequency range of output voltages, limited by the frequency properties of the output voltage divider and matching device.

Closest to the proposed technical entity to the achieved result is a generator-calibrator containing a reference source connected to the moving contact of the switching bodies, a power amplifier, the input of which is connected to a regulating element, the first input of which is connected to a generator connected to a time relay with the control unit, the output of which is connected to the relay and through its closing contacts with an additional relay, the second input of the regulating element is connected to

10 output of the amplifier, the input of which is connected to the output of the adder, the first input of which is connected to the memory element, the second to the first converter, and the third to the second

15 to the converter, with the break contacts of the relay 12 being included at the input of the memory element.

Claims (2)

A disadvantage of the known device is the impossibility of obtaining a wide range of gradations of the output voltage, due to the limited dynamic range of nps formakers, which limits the functionality of the calibrator. The purpose of the invention is to expand the functionality. The goal is achieved by the fact that the generator-calibrator is equipped with two inductive dividers, a differential pointer, a third converter and an attenuator, and an additional relay is equipped with opening contacts connected between the output of the attenuator and the input of the differential indicator, the output of which is connected to the relay opening contacts, the second differential input the pointer is connected to the first inductive divider connected through a second inductive divider and a third converter with a reference source the attenuator input is connected to the output of the amplifiers of the power bodies and the input of the first converter, and the input of the first inductive / divider is connected to the moving contact of the switch and the input of the second converter, the first fixed contact of the switch is connected to the input of the regulating element, and the second moving contact is connected to the input of the generator. The drawing shows a structural diagram of the generator-calibrator. The calibrator generator contains the reference source 1, the generator 2 connected via time relay 3 to the control module C, the output of which is connected to relay 5 and through its make contacts 6 to the additional relay 7, memory element 8 connected in series, adder 9 amplifier 10, the regulating element 11 and the power amplifier 12, as well as the first 13 and second k converters, whose outputs are connected to the corresponding inputs of the adder E, and the input of the attenuator 15 is connected to the common point of the power amplifier 12 and the first converter 13, f and o output The second terminal of the device and through the disconnecting contacts 16 of the additional relay 7 with the input of the differential pointer 17, the output of which through the disconnecting contacts 18 of the relay 5 is connected to the memory element B and the second input through the first 19 and second 20 inductive dividers and the third converter 21 is connected a reference source 1, with common inductive dividers 19 fi 4 connected to the input of the second converter 14 and through the switch 22 of the additional relay 7 with an adjustable element 11, and the output of the generator 2 is connected to the switch 22, with the knobs y the attenuator 15 are connected with the corresponding knobs of the first inductive divider 19. The device operates as follows. After a certain period of time or when changing the mode of operation with the help of time relay 3 and control unit k, the device is switched to the Correct mode, which corrects the calibration errors of the output voltage due to its own errors and instabilities of the broadband path, as well as external factors and load variations. In this case, the reference constant voltage of source 1 is converted into a variable (for example, a square wave) using a third converter 21, and is divided to the required value by a second inductive divider 20, which has a high division factor. This exemplary alternating voltage is fed through the first inductive divider 19 to one input of the differential pointer 17 and through the regulating element 11 power amplifier 12 and attenuator 15 to the second input of the differential pointer 17. If the output voltage of the attenuator 15 differs from the exemplary alternating voltage c. The output of the first inductive divider 19, differential pointer 17, generates control voltages, which through memory element 8 is fed into the output voltage stabilization system and changes the output voltage of the attenuator so as to reduce this difference to zero. At the end of the transient processes using the relay 3 of the time of the control unit C and turnip 5, the contacts 18 are opened and the correction voltage is detected by the memory element 8. The switch 22 is connected to the output of the generator 2 and the stabilization system maintains the output voltage at an arbitrary frequency of the generator 2 equal to the reference voltage from the output of the first inductive divide .19. 59 The stabilization system operates as follows. The reference voltage from the output of the second inductive divider 20 supplies .c to the converter 1, and the voltage from the output of the power amplifier 12 to the similar converter 13. The polarized output signals of the converters 13 and 14 are summed with the correction voltage from the memory element 8 in Adder 9. The sum signal is amplified by amplifier 10 and controls the gain of element 11 so as to reduce the sum signal to zero. At the same time, the output voltage of the attenuator 15 becomes different from the reference voltage from the output of the first inductive divider 19, set in correction mode. The key 16 switches off the differential pointer 17 from the output of the device in the Operation mode, and the contacts 6 provide a small delay in the operation of the additional relay 7 in order to exclude switching processes to the memory element 8. To match the established attenuations, the first inductive divider 19 and the attenuator 15 control bodies are interconnected. The advantage of the proposed device in comparison with the known one is that the introduction of a wideband attenuator from the system calibration of its division factor and the compensation of errors from the influence of load variations allows to increase the accuracy of setting the output voltage and expand the functionality of the device. In particular, in this structure there is no contradiction between accuracy and broadband, since these tasks are divided into two independent ones. The task of providing widebanding is solved by the attenuator and the first converter, and the task of ensuring the specified accuracy is solved with an inductive divider and differential pointer. Claim Generator Calibrator comprising a reference source connected to a moving contact of a switch, a power amplifier whose input is connected to a regulating element, the first input of which is connected to a generator connected to a time relay connected to a control unit whose output is connected to a relay and through its closing contacts with an additional relay, the second input of the regulating element is connected to the output of the amplifier, the input of which is connected to the output of the adder, the first input of which is connected to the element pan - ti, the second - to the first converter, and the third - to the second converter; moreover, at the input of the memory element, disconnecting relays are included, characterized in that, in order to expand its functionality, it is equipped with two inductive dividers, a differential pointer, and a third converter and an attenuator, and the additional relay is equipped with disconnecting contacts connected between the output of the attenuator and the input of a differential pointer, the output of which is connected to the disconnecting contacts of the relay, the second input dif A pointer is connected to the first inductive divider connected via a second inductive divider and a third converter with a reference source, the attenuator input is connected to the output of the power amplifier and the first converter input, and the first inductive divider input is connected to the moving contact of the switch and the second converter input, the first -the fixed contact of the switch is connected to the input of the regulating element, and the second moving contact is connected to the input of the generator. Sources of information taken into account in the examination 1.Generator-calibrator, model, Vvewlett Company Catalog Ritsy, USA, 1968. 2.Certificate of CLCP Ifi 3t07t, cl. G 05 F l / i + O ,. 197. joH J0h