SU1185271A1 - Apparatus for measuring current follower gain factor - Google Patents

Abstract

1. DEVICE FOR MEASURING THE TRANSFORMER TRANSFER COEFFICIENT, which contains an input current source, one of the terminals of which is connected to the common bus of the device, a measuring device, one of the terminals of which is connected to the first terminal of the device, for connecting the measurement object, and the second terminal is connected to the common bus device, and the measuring element, in which, in order to improve the measurement accuracy, one of the outputs of the measuring element is connected to the second terminal of the device for connecting the measurement object, and the second output is with a common bus device; the second output of the input current source is connected to the third terminal of the device for connecting the measurement object. 2. The device according to claim 1, characterized in that, in order to reduce the sensitivity requirements of the measuring element, a switch and an exemplary impedance are introduced into it, one of the terminals of which is connected to the common bus of the device, and the second output is connected to the third through terminal of the device, while measuring-. 1C the body element is embodied as a sample impedance. .

Description

1 The invention relates to the measuring technique and can be used to measure the current transfer coefficient of current repeaters (PT), made according to the three-pole circuit. The purpose of the invention is to improve the accuracy of measurements of the transmission coefficient of current repeaters. FIG. 1 shows a block diagram of the device; in fig. 2 is a variation of the device; in fig. 3 and embodiments of a current repeater for connection in a device. The device (Fig. 1) contains a current follower 1, the first 2, the second 3 and the third 4 terminals for connecting the measurement object, the input current source 5, which includes, for example, a signal source 6 and a limiting resistance 7, a measuring instrument 8, for example, a milliammeter and measuring element 9, for example, a nanoamperemeter (microammeter). The device (Fig. 2) contains a current follower 1, terminals 2, 3 and 4 devices for connecting the measurement object, an input current source 5 including a signal source and a limiting resistance 7, a measuring instrument 8, for example, a milliammeter with an output resistance Z, measuring element 9, made in the form of the first exemplary impedance Z, the second exemplary impedance 10 (Zj) and the switch 11. In FIG. Fig. 3 shows a variant of the test repeater current 1 performed on the operational amplifier 12 with a differential input and sources (E, and E) of the power supply 13, the midpoint of which is isolated from the common bus of the devices. In FIG. Figure 4 shows a variant of performing a current repeater according to a three-pole circuit with connected power sources 13 having a midpoint connected to terminal 3 of a current repeater. The device works as follows. From the output of source 6, through the limiting resistance 7 (Fig. 1), the input current Ij, output current 1, is applied to the input of current repeater 1. measured by a milliammeter 8, and the residual current 1 ,, flowing through 71 common points of the PT and causing the difference of the decoded current from the input current, is measured by the second microammeter (nanoammeter) 9. The error S 5-1 of the transmission coefficient measurement S is determined by the expression T. (1) I, - I, From expression (1) it can be seen that the measurement error of the transfer coefficient depends significantly on the difference in currents 1 and Ij, which does not require (very high accuracy of measurement of the absolute value of the difference Ij. In the absence of a highly sensitive measuring device A nanoammeter (microammeter) in a wide range of transmission coefficient measurement frequencies can be produced according to the scheme shown in Fig. 2. In the device (Fig. 2) the difference current of the common point of terminal 3 of the PT, which flows through the first exemplary impedance 9, creates a drop on it voltage U (in the device according to fig. 1), this voltage drop is formed on the shunt Z ;, nanoammeter). In this case, the potential of the input terminal of the PT 4 will also be equal to U, since the input resistance of the PT is close to zero. For example, for the PT of FIG. 3, the voltage between the inputs of the operational amplifier 12 operating in the active mode is practically zero, since it is determined by the voltage of the static error and the voltage of the direct-current zero shift, which in modern operational amplifiers are small. When the switch 11 is open, a current I is measured with a milliammeter 8. When the switch 11 closes, the input terminal 4 of the PT connects an exemplary impedance Zj of a much lower rating than the resistance Z (the resistance Z and Zj are chosen so that when the resistance data is turned on, the phase of the output current 1 coincides with the phase of the input current Ig). Therefore, when the voltage U is increased at the PT input (at 2 0, Up 0), the current Iji through the resistance will increase, causing a decrease in the code

Claims (2)

1. DEVICE FOR MEASURING THE TRANSFER RATE OF THE CURRENT REPEATER, containing an input current source, one of the terminals of which is connected to a common bus of the device, a measuring instrument, one of which is connected to the first terminal of the device to connect the measurement object, and the second terminal is connected to the common the device’s bus, and the measuring element, which is related to the fact that, in order to increase the measurement accuracy, one of the terminals of the measuring element is connected to the second terminal of the device for connecting the measurement object, and the second the output is with the common bus of the device, the second output of the input current source is connected to the third terminal of the device for connecting the measurement object. 2. The device according to claim 1, characterized in that, in order to reduce the sensitivity requirements of the measuring element, a switch and an exemplary impedance are introduced into it, one of the terminals of which is connected to the device common bus, and the second terminal is connected to the third terminal through a switch - my device, while measuring it. The solid element is made in the form of an exemplary impedance. . , ₀ , SU .1185271 Fia. 1