SU779891A1 - Autocompensation ac bridge - Google Patents

Description

The adder, the adder, to one of the inputs of which an additional amplifier is connected, and the generator, is provided with an additional image. A standard measure and a comparator of currents with two windings of comparison and a secondary winding, one of the comparison of the current comparator is connected between the input of the amplifier and the object of measurement, and the Other - with an additional reference measure the secondary winding of the current comparator is connected to the input of the additional amplifier to an exemplary measure one of the inputs of the adder is connected to the generator and an additional exemplary measure, and the other to the output of the additional amplifier. The schematic diagram of the proposed AC auto-compensation bridge is presented in the drawing. The bridge contains an amplifier 1, covered by a deep negative link through a feedback circuit consisting of object 2 of measurement and model measure 3, additional model measure 4 and a comparator of 5 currents with two windings of comparison b and 7 connected in series with object 2 of measurement and an additional exemplary measure 4. The secondary winding 8, connected to the input of the additional amplifier 9 of the correcting channel, is also applied to the comparator 5 currents. The output signal additionally) of amplifier 9 sums up with the signal of generator 10 using an adder 11, to the output of which sample measure 3 is connected. The signal of generator 10 is also fed to an additional exemplary measure. The device operates as follows. The signal of the generator 10 through the adder 11 is supplied to the reference measure 3 and is amplified by the amplifier 1, in the feedback circuits of which the measurement object 2 is switched on. If we assume that the input impedance of amplifier 1 is small enough, and the current comparator 5 operates in the short circuit mode, when the correction circuit is broken, the output signal of the main channel amplifier is described by the expression (-Tj:; input and output voltages of the autocompensation bridge; object impedances 2 measurements of an exemplary measure - the transfer coefficient / pass resistance of the main amplifier 1. As can be seen from (1), the error of the transfer coefficient of the main channel is 2i / 2pr1, i.e. From the rated values, the current of the object 2 of the measurement, as well as the output voltage UBUIX of the main amplifier 1. For current distribution 3) proportional to the measurement error, a comparator 5 currents is used, through which one of the windings of the comparison generates an additional exemplary current measures 4, and through another - the current of the object 2 of measurement. The magnitude of this current is equal to FWH and fn (&} k. 7.. And -o This current is amplified by an additional amplifier 9, which is a current-to-voltage converter with a feed-through resistance Z p. The output signal of amplifier 9 is fed to adder 11, and then to the input of the main channel of the device. Under the influence of this signal, the current -zu flowing through the measurement object increases, and therefore the output voltage of the device increases and the measurement error decreases. Obviously, the degree of correction of the measurement error depends on the coefficient ne Reducing (pass resistance Z aa) of an additional amplifier 9, which determines the accuracy of the transmission of the signal of the main channel to the output of the entire device. , measurement, autocompensation bridge is equal to AND -ff - 2o Zo. Thus, npi, the measurement error of the whole device is determined by the product of the transmission coefficient errors of each catch. If, for example, the error of the transmission coefficients of each channel is equal to. 1%, then the measurement error of the entire instrument will be equal to 0.01%. The proposed device does not contain inertial links at all, so its speed can be very high and is limited only by the frequency properties of the amplifiers used. Compared with the prototype, the increase in speed achieved in the proposed device can be 5-10 or more times.

Claims (2)

Formula of Invention An autocompensation AC bridge containing an amplifier, a measurement object connected to the amplifier output, an exemplary measure connected to the amplifier input, an adder to one of the inputs of which an additional amplifier is connected, and a generator, characterized in that, in order to increase speed, it is equipped an additional exemplary measure and a comparator of currents with two windings of comparison and a secondary winding, and one of the windings of comparison of the comparator of currents connected between the amplifier input and the object to be measured, and the other in series with an additional model measure, the secondary winding of the current comparator is connected to the input of the additional amplifier, the output of the adder is connected to the model, one of the inputs of the adder is connected to the generator and the additional reference measure, and another - to output: an additional amplifier. 0 Sources of information taken into account in the examination 1.Grinevich FB et al. Exact on-j junction devices for bridges with close inductive coupling. - Preprint 5 17 NE 2 AN of the Ukrainian SSR, Kiev, 1970. 2. Kuznetsov E.N. and others. Converters of the parameters of passive values with error correction. - Devices 0 and control systems, No. 2, 1978. U S