SU828114A1 - Resistance-to-voltage converter - Google Patents

Description

one

The invention relates to a measurement technique and can be used in tele-measurement and control systems.

Also known is a linear active-voltage-to-voltage converter, which contains a power source and a reference voltage, compensating the bridge branch from the divider reference resistors and the measuring bridge branch from measuring resistors, the common point of which is connected to one of the power supply terminals, the voltage meter, connected to the measuring diagonal of the bridge, measuring and additional current stabilizers, the outputs of which are respectively connected to the measuring and compensating branches of the bridge, and the reference voltage inputs and the current-setting inputs are connected to the voltage source and, via resistors, to a different power source 1, respectively.

This transducer does not have a wide measuring range. For example, since the compensating branch and the measuring branch of the bridge are powered by current stabilizers, the output current of which is not dependent on the divider from the reference resistors, changing the measurement range (respectively, the reference divider) towards the low-impedance resistors will narrow the voltage gauge. And a change in the measurement range towards high-resistance resistors will require widening of the voltage meter. To save the grades, it is necessary to re-adjust the current stabilizers.

In addition, in this device, the output current of each stabilizer is the collector current of the control transistor and is defined as the difference between the emitter and base currents. The presence of temperature dependence, as well as the non-identity of the base currents of the transistors leads to the appearance of significant measurement errors.

The purpose of the invention is to increase the accuracy of the measurement range.

Claims (2)

This is achieved by the fact that in a resistance to voltage converter containing power sources and a reference voltage, compensating a bridge branch from a divider of reference resistors and a measuring bridge branch from measuring resistors, the common point of which is connected to one of the power supply buses, the voltage meter connected to the measuring diagonal of the bridge, measuring current stabilizer, the output of which is connected to the measuring branch of the bridge, the current supply input through a resistor is connected to another power supply bus , an additional current stabilizer, the reference bearing of which is connected to a source of resistive voltage, the current setting input of the additional current regulator is connected to the compensating branch of the bridge, and the output is connected to the input voltage of the measuring current regulator and through a resistor to another power supply bus, and regulating elements of stabilizers are made in the form of a channel element. The drawing shows a diagram of the device. The device contains additional and measuring current stabilizers 1 and 2, consisting of regulating elements 3,4, amplifiers 5, 6, reference voltage source 7, bridge circuit of resistors 8, 9, 10 and 11, voltage meter 12, load resistor 13 is an additional stabilizer, a current-establishing resistor 14 of the measuring stabilizer, a power source 15. The converter operates as follows. When the source of the power supply circuit 15 is switched on in the circuit: resistors 8 and 10, regulating element 3 of the additional stabilizer 1 and resistor 13 flow current i, the value of which is determined by the expression. Up L8 + L, where UQ is the magnitude of the reference voltage. This current on resistor 13 creates a voltage drop of about. This voltage is the reference voltage for measuring stabilizer 2. If resistors 13 and 14 are equal, then in the measuring branch of the bridge, where resistors 9 and 11 are connected, the same current flows, Kaluy flows in the compensating branch. Resistor 10 is a reference, its value can be chosen equal to the nominal value of the measured resistor 11. The value of the resistor 8 determines the maximum deviation (A /) of the measured resistor from the nominal value. The voltage meter 12 indicates a voltage proportional to the deviation of the measured resistor from the reference value U I ,, - i-R, -i & R-L. The value of resistor 9 determines the mode of operation of stabilizer 2 and can be zero. When it is necessary to measure low-impedance resistors, low-impedance reference resistors are installed in the compensating branch of the bridge. To change the measurement range of the converter, it suffices to change the reference resonators. Since the regulating elements 3 and stabilizers are made in the form of channel elements (voltage-controlled, for example, MIS transistors), the control currents of the regulating elements 3 and 4 do not enter the currents flowing along the branches of the bridge. This reduces the conversion error. The output of the converter can be obtained in the form of a variable voltage. To do this, it is sufficient to apply a variable voltage as a supporting voltage. Claim 1. Inverter-to-voltage converter containing power and reference voltage sources compensating a bridge branch from a divider of reference resistors and measuring bridge bridge from measuring resistors whose common point is connected to one of the power supply buses, a voltage meter connected to the measuring diagonal of the bridge, the measuring current stabilizer, the output of which is connected to the measuring branch of the bridge, the current supply input through the resistor is connected to another power supply bus, to An additional current stabilizer, the voltage input of which is connected to a voltage source, characterized in that, in order to improve accuracy and extend the measurement range, the current supply input of the additional current stabilizer is connected to the compensating branch of the bridge, and the output is connected to the input voltage of the measuring voltage current stabilizer and through a resistor - with a different power source. 2. The converter according to claim 1, characterized in that, in order to reduce the conversion error, the regulating elements of the stabilizers are made in the form of a channel element. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 469100, cl. G 01R 27/02, 1976 (prototype).