SU661358A1 - Resistance temperature coefficient measuring device - Google Patents

Description

I

The invention relates to electrical measuring equipment and can be used to determine the temperature coefficients of the electrical parameters of elements and devices, in particular, to measure the temperature coefficient of resistance of resistors.

A device containing a non-equilibrium bridge circuit, in the measuring diagonal of which parallel connected indicator and variable resistor is known, is connected in series to the diagonal power supply of the bridge measuring circuit in series 1e power supply, variable and fixed resistors storing the elements 1.

The disadvantage of this device is that it contains a fundamental error in the measurement, depending on the difference between the nominal resistance of the measured resistor and the resistance of the measured resistor at the temperature of the hot resistor. This error, especially when measuring the temperature coefficient of resistance (TCR) of non-fitted resistors, can be quite significant.

The aim of the invention is to improve the measurement accuracy.

This goal is achieved in that the device for measuring the temperature coefficient, which contains the pavement measuring circuit, the measuring diagonal of which includes a parallel connected indicator and a variable resistor, and the supply diagonal of the bridge measuring circuit and a series-connected variable and fixed resistors, memory elements, introduced an additional power source included in the measuring diagonal of the bridge measuring circuit in series with the indicator torus, and storage elements included in the power diagonal mos5 tovoy measuring circuit in series with the power source.

The drawing shows a schematic diagram of a bridge disequilibrium for measuring TCRs.

Claims (1)

The bridge circuit contains one of the measured resistors 1 and three fixed resistors 2-4, fixed 5 and variable 6 additional resistors (the variable resistor is used to adjust the sensitivity of the bridge circuit depending on the magnitude of the measured resistance). The memory elements 7 consist of resistors, the number of which corresponds to the number of resistors to be measured. The indicator (galvanometer) 8 is shunted with a variable resistor 9, which serves to provide a reading in units of TKS with regard to the rocking Ikeralnye heating temperatures: The power supply is turned on in the supply diagonal, the additional power supply 1 and 1 is in the measuring diagonal of the metering circuit. When a resistor 1 with a nominal resistance is included in the bridge circuit, the resistor 6 is set to the corresponding position, the storage elements 7 are set to the middle position, the power supply sources 10 and 11 provide a zero reading of the galvanometer. In this case, the resistance of the re: resistor 4 must lie outside the range of the measured resistances. When turned on, the measuring resistor 1, the value of which is different from the nominal one, the readout of the galvanometer will become different from zero. Zero counting is achieved by changing the resistance of the storage elements 7, thereby ensuring the sensitivity of the circuit corresponding to the actual resistance of the measured resistor. After heating the measured resistor 1, its resistance changes, and the galvanometer 8 has a count equal to the TCR of the measured resistor. The proposed device can be used to measure the temporal coefficients of the electrical parameters of the elements and devices with the conversion and measurement signal into a resistance sensor, for example, by mechanical means. - The technical and economic effect of the implementation of the invention consists in the elimination of principal inconsistencies in the measurement of temperature coefficients due to the difference between the nominal and actual values of the electrical parameter. Claims. A device for measuring the temperature coefficient of resistance, containing-. 1tseo pavement measuring circuit, the measuring diagonal of which is connected in parallel; connected indicator and variable resistor, and the diagonal of the power supply measuring circuit includes a power source and series-connected variable and fixed resistors that store, distinguished by the fact that, in order to improve the measurement accuracy, an additional power source is inserted that is included from The measuring diagonal of the bridge measuring circuit is sequential with the indicator, and the memory elements are included in the diagonal of the power supply of the bridge measuring circuit in series with the power source. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 216125, cl. G 01 R .17,.; 10, 1966. ten