SU1147987A1 - Device for checking resistance - Google Patents

Abstract

DEVICE THERMAL CONTROL OF RESISTANCE, containing a pavement measuring circuit, one arm of which contains terminals for connecting a controlled resistor, the other arms contain the first, second, third reference resistors, the power source, the first terminal of which is connected to the first output of the second reference resistor, two voltage comparators, This is due to the fact that, in order to increase the accuracy and extend the resistance control range, two voltage repeaters, four diodes, four input resistors, two inductors are introduced a voltage indicator, the voltage follower outputs are connected respectively to the inverting inputs of the first and second voltage comparators, the outputs of which are connected to the first terminals of the first and second indicators, respectively, the inputs of the first and second voltage followers are connected to the first conclusions of the first, second, .i third and the fourth input resistors and the first terminals of the first, second, third and fourth diodes, the second terminals of which are connected to the common bus, the first terminal for connecting to the controlled resistor is connected to the c-first terminal of the first reference resistor and to the second terminal the second input (resistor, the second terminal for connecting the controlled resistor is connected to the common bus, the second terminal of the first reference resistor is connected to the second output power source and the fourth output of the fourth input resistor , the first output of the power supply is connected to the second output of the first input resistor, 4ik the second output of the second reference resistor is connected to the second output: o this is the third input cut torus, non-inverting inputs of the first and second comparators and the second voltage you water of the first and second indicators are connected to a common mud.

Description

The invention relates to a control and measuring technique, in particular, to devices for controlling resistance. A device for measuring small and medium resistances is known, which contains a power source, serially connected exemplary and measurable resistances, an ammeter, and a voltmeter. When current passes through both resistances with a voltmeter, the voltage drops across the sample and the measured resistances and the measurement results are compared visually on a voltmeter scale. The disadvantages of this device are low measurement accuracy due to the fact that the produced voltmeters have a limited accuracy class. , as well as a visual comparison of measurement results, a narrow range of monitored resistance values due to the fact that serial voltmeters have low input resistance not A close technical entity to the present invention is a device for monitoring deviations of resistors resistance from predetermined tolerance zones, comprising a bridge measurement circuit consisting of two iodine reference circuits with a controlled resistor of voltage dividers and conductivity switches connected to the voltage source output, and a logical a device with two arms connected in series with DC amplifiers and a logical CX; they are NOT the outputs of which are connected to the input of the OR logic circuit. In addition, it is equipped with two additional balanced amplifiers, the non-inverting inputs of which are connected to the output of a voltage divider with a controlled resistor, their inverting inputs are connected to the outputs of the supports of the Hbtx voltage dividers, and their outputs are connected to the output of DC amplifiers of a logic device 2 However, in a known device, different currents pass through all the dividers, and the probability of error increases due to the fact that the same resistance causes different voltage increments. In addition, the known device has a narrow range of testing of monitored resistances due to the fact that the input resistances of balanced amplifiers are limited by the resistances of the dividers. The aim of the invention is to improve the accuracy and the expansion of the range of control resistances. The goal is achieved by the fact that a device for controlling resistance contains a pavement measuring circuit, one arm of which contains terminals for connecting a controlled resistor, the other arms contain the first, second, third reference resistors, the power source, the first terminal of which is connected to the first output of the second reference resistors, two voltage comparator, two voltage repeaters, four diodes, four input resistors, two indicators, and the voltage repeater outputs are connected according to Consequently, with inverting inputs of the first and second voltage comparators, the outputs of which are connected to the first terminals of the first and second indicators, respectively, the inputs of the first and second voltage followers are connected to the first terminals of the first, second, third and fourth input resistors and the first terminals of the first, the second, third and fourth diodes, the second terminals of which are connected to the common bus; the first terminal for connecting the controlled resistor is connected to the first standard of the first the second output resistor, the second terminal dp connecting the controlled resistor is connected to the common fault, the second output of the first reference resistor is connected to the second output of the power source and the second output of the fourth input resistor, the first output of the power supply is connected to the second output of the first the input resistor, the second output of the second reference resistor is connected to the t by the second output of the third input resistor, the non-wired inputs of the first and second voltage comparators and the second The conclusions of the first and second indicators are connected to a common bus. The drawing shows a schematic diagram of the proposed device. A device for controlling resistance contains a bridge measuring circuit 1 containing a power source 2, three reference resistors 3-5, terminals for connecting a controlled resistor 6, voltage comparators 7 and 8, voltage followers 9 and 10 with corresponding potentiometers 11 and 12, diodes 13-16, four input resistors 17-20, two indicators 21 and 22. The outputs of the voltage followers 9 and 10 are connected respectively to the inverting inputs of the first 7 and second 8 voltage comparators, the outputs of which are connected to the first terminals of the first 21 and second second indicators 22, respectively, inputs of the first 9 i.vtorogo voltage follower 10 are connected respectively to first terminals pervogochetvertogo input resistors 17-20 and pervogochetvertogo first terminals of diodes 13-16, BTOpJbie conclusions. which are connected to the common busbar, the first terminal for connecting the controlled resistor 6 is connected to the first terminal of the first 5 reference resistor and the second terminal of the second 18 input resistor, the second terminal for connecting the monitored resistor 6 is connected to the common busbar, the second terminal of the first 5 reference resistor is connected with the second output of power supply 2 and with the second output of the fourth 20 input resistor, the first output of power supply 2 is connected to the second output of the first 17 input resistor, the second output of the second 3 reference Cpd nen first resistor to the second input terminal of the third resistor 19, non-inverting inputs of the first 7 and second 8 comparators voltage and the second terminals of the first 21 and second 22 indicators are connected to a common bus. Voltage repeaters 9 and 10 on integrated operational amplifiers are designed to reduce the current applied from the input source (measurement circuit 1) and to provide a high input impedance that contributes to the curvature. 1 87, readable expansion of the range of control resistances. External potentiometers 11 and 12 are designed to adjust the shift of the zero of the repeaters 9 and 10 of the voltage and the comparators 7 and 8 together, the negative potential being set at the output of the comparator 7 and positive at the code of the comparator 8. Diodes 13-16 are protected from overload by repeaters 9 and 10. High-impedance input resistors 17-20 are designed to reduce the effect of the compared voltages on each other and to extend the range of resistance monitoring. An indicator 21 is used to indicate a fault on the upper limit, and an indicator 22 made on the LEDs on the lower limit. The device works as follows. The control of the upper and lower limits of the deviations of the monitored resistor 6 occurs simultaneously. If the magnitude of the monitored resistor 6 is within the normal range, then the total voltage taken from resistors 3 and 4 applied positively with respect to ground (point 23) to the input of the voltage follower 9 through the input resistor 17 will be Bbmie of the voltage taken from controlled resistor 6 and voltage follower 9 applied to the same through the input resistor 18 minus with respect to ground (point 24). Consequently, a repeater 9 kapr} at Bilssod 1x the positive potential remains, and the voltage comparator 7 does not change its state. Simultaneously, the input of the second repeater 10 voltage minus with respect to ground (point 25) through the input resistor 20 is supplied the total voltage from resistor 5 and controlled resistor 6, which turns out to be in absolute value greater than the voltage taken from resistor 4 and plus in relation to ground (point 26) of the voltage follower 10 applied to the same input through the input resistor 19. As a result, the potential of the voltage follower 10 remains negative and the voltage comparator 8 does not change its state.

Claims (1)

RESISTANCE CONTROL DEVICE, comprising a bridge measurement circuit, one arm of which contains terminals for connecting a controlled resistor, the other arms contain first, second, third reference resistors, a power source, the first terminal of which is connected to the first terminal of the second reference resistor, two voltage comparators, o It is important that in order to increase the accuracy and expand the range of resistance control, two voltage followers, four diodes, four input resistors, two indicators are introduced a, and the outputs of the voltage followers are connected respectively to the inverting inputs of the first and second voltage comparators, the outputs of which are connected to the first terminals of the first and second indicators, respectively, the inputs of the first and second voltage followers are connected to the first outputs of the first, second, j third and fourth input resistors and the first conclusions of the first, second, third and fourth diodes, the second conclusions of which are connected to a common bus, the first terminal for connecting a controlled ezistora connected spervm ⁴ output the first reference resistor and a second terminal of the second input resistor, a second terminal for connection controlled resistor is connected to the common bus, the second terminal of the first reference resistor is connected to vtorm terminal of the power source and vtorm terminal of the fourth input resistor, the first terminal of the power source connected to the second terminal of the first input resistor, the second terminal of the second reference resistor connected to the second terminal of the third input resistor, non-inverting inputs first- and second-voltage comparators and the second terminals of the first and second indicators are connected to a common bus. (/)