SU792235A1 - A.c. voltage wide-band calibrator - Google Patents

Description

The invention relates to electrical engineering and can be used as a source of calibrated alternating current under a wide range of frequencies, as well as in the construction of highly stable multi-valued measures of alternating voltage. Devices for obtaining a stable AC voltage are known, comprising a feedback circuit tf, a regulating element consisting of a comparison circuit with a reference voltage source, a rectifier and an integrating circuit l. The common drawbacks of the known devices are the low accuracy of maintaining the level of stabilization of the output voltage on the load due to the influence of the unknown reactive and active components of the load. The closest to the claimed device according to its technical nature is a wideband AC voltage calibrator containing an AC voltage generator, a variable amplifier, a differential amplifier, a comparator and an amplifier connected in series to the control input of the adjustable amplifier, the output of which is connected through an attenuator with an output cable, and also connected to one of the inputs of a differential comparator, the other input of which is connected to a source of reference voltage, and the output By connecting via an amplifier to the control input of the controlled amplifier 2. In this device, because of the final value of the output attenuator resistance, the accuracy of maintaining the output voltage stabilization level at the load is significantly reduced due to the effect of the unknown value of the load impedance, which does not allow for carrying out complete measurements often encountered in the practice of radio measurements. The solution of this problem by connecting one of the inputs of the differential comparator directly to the load, thus covering the output part of the calibrator with feedback, does not allow an increase in the stabilization accuracy. This is due to the fact that the error of the differential comparator, built, as a rule for broadband calibrators, in the form of detectors, connected by inputs to the reference source of emittable voltage sources and outputs connected to the Comparison devices, the output of which is control reaches 10-20% or more at low signal levels, on the order of a millivolt or less. As a result, practically feasible technical solutions were carried out by analogy with the prototype. The purpose of the present invention is to improve the accuracy of maintaining the output voltage level at the load. The goal is achieved by adding a third detector, a second comparator, a key, a memory, an adjustable divider, a control device, and a third detector between the load connection point and one of the inputs of the second comparator, to the broadband AC voltage calibrator, the output of which is connected via a key and a memory device to the control input of an adjustable divider, the input of which is connected to the output of the first detector, and the output to another The inputs of the comparing devices, while the outputs of the control device are connected to the second inputs of the key and attenuator. The drawing shows a block diagram of the device. The master oscillator 1, adjustable wuxi 1 driver 2, switchable attenuator 3 ,, output cable 4, load 5, first detector 6, reference voltage source 7, second detector 8, comparison device 9, amplifier 10, third detector 11, second comparison device 12 , KJH04 13, memory 14, adjustable divider 15, control device 16. An alternating amplifier 2 connected in series, an attenuator 3, an output cable 4, a load 5 are connected to a sssyaschuyu generator 1. The input of the first detector b is connected to the output of the adjustable amplifier 2, and the output through an adjustable divider 15 to one of the inputs of the first comparator 9, to the second input which through the second detector 8 is connected to the source of the reference voltage 7. The output of the comparison device 9 through the amplifier 10 is connected to the control to the circuit input of the adjustable amplifier 2. The third detector 11 is connected to the input The load connection box 5, and the output of connecting the pins to one of the inputs of the second comparing device 12, the second input of which is connected to the output of the adjustable divider 15, and the output of the comparing device 12 is connected via the key 13 and the storage device 14 to the control input of the adjustable divider 15 The control device 16 is connected to the key 13 and the attenuator 3. The proposed wideband ac voltage calibrator operates as follows. In the first mode of operation of the control device 16, closes the key 13 and switches the attenuator 3 to the zero-attenuation position or the selected nominal value. The difference in voltage across the output cable 4 and at the output of the adjustable amplifier 2 arising due to the influence of the connected unknown load 5 causes the difference value at the output of the storage device 14, which provides the necessary change in the conversion factor of the adjustable Cd divider. Due to the deep feedback, the equality of and-K Kd5 Cd, (1) V KAGORA is fulfilled. where K is the influence factor of the connected load; Cd is the conversion coefficient of the respective detectors. Cdt is the conversion ratio of the attenuator,, for a given mode of operation. In mode II of operation, the key 13 is opened and the attenuator 3 is set to the position required for operation. (Auto-adjusting dep - comparing device 9, amplifier 10, adjustable amplifier 2 ensures the equality of the DC-RC. CRD (2) where UQ is the value of the voltage of the source of the reference voltage. The voltage on the load is 5 Jb. ,, x Cd K (3 ) From expression (1), we find the value (4) (2) and we substitute it into the expression we get from where. Thus, the resulting expression for shows the independence of the output voltage bgj, from the KJ value of the influence factor of the connected load, or in other words, the stabilization error is corrected level single voltage due to the effect of the load impedance. In fact, the correction of this error occurs in 1 operation mode, when the state of the adjustable divider determines the correction factor of the multiplier introduced by the memory device

Claims (1)

Claim A broadband AC voltage calibrator, containing a series-connected AC voltage generator, an adjustable amplifier, the output of which is simultaneously connected to the input of the first detector and through a switched attenuator and an output cable with a load, as well as a reference voltage source connected through one of the second detector to one of the inputs of the comparison device, the output of which is connected through an amplifier to the control input of an adjustable amplifier, characterized in that, with the aim of higher Nia maintain accuracy level stabilization _t Khodnev You are a voltage across the load, it is further introduced a third detector, a second comparator device, the key storage device, adjustable divider, a control device, wherein the third detector is connected between the connection point of the load and one input of the second comparator , 'the output of which is connected through a key and a storage device with a control input of an adjustable divider, the input of which is connected to the output of the first detector, and the output - with other inputs s comparing devices, the control device outputs connected to the second key-input attenuator.