SU669218A1 - Digital temperature meter - Google Patents

Description

The invention relates to temperature measurements, namely, fry measurements; her temperature. A digital temperature meter is known, comprising a resistance thermometer included in a bridge measuring circuit, a null organ connected to the diagonal of a bridge circuit, controlled conductivity included in one of the arms of bridge 1. The disadvantage of the device is low measurement accuracy. The accuracy of the measurement is influenced by the resistance of the communication line of the thermometer with the measuring circuit. Closest to the proposed technical entity is a digital temperature meter containing a resistance thermometer connected in series with the primary winding of a current transformer, to the terminals of the secondary winding of which serially connected resistors are connected, one of which is shunted by a digital controlled conductivity whose control input is connected through the driver with reversible counter with digital reading device, pulse generator, connected (via key device with a reversible counter, a null organ whose input is connected to the output of a resistance thermometer, and the output is connected to the control input of a key device 2. The disadvantage of this 1-digit temperature meter is low measurement accuracy, non-linearity of the output signal when working with linear resistance thermometers. noBbiiuemie measurement accuracy and ensuring the linear dependence of the output signal on the change in resistance of the thermometer when working with resistance thermometers that have linear conversion characteristic. This is achieved by introducing two additional serial () temperature resistors connected to the secondary winding of the transformer, to the connection point of which the input of the nullorgan is connected, and the second output of the resistance thermometer is connected to the midpoint of two consecutively connected resistors) Ditch. The drawing is a block diagram of a digital temperature meter.

It contains a resistance thermometer I, a current transformer 2, a J-6 recorder, a bridge circuit, a digital alarm conductivity 7, a null organ 8, a pulse generator 9, a key device consisting of coincidence circuits 10 and II, a reversible counter 12 Shaper 3, digital readout device 14 and current limiting resistor 15.

The device works as follows. The input of the zero-organ 8 is supplied with a differential of the injector from the resistance thermometer 1, through which the primary current of the current transformer 2 flows, and the output voltage of the bridge circuit from the connection points of the series-connected resistors 3 and 4, 5 and 6. from the secondary winding of the transformer 2, the variation of the digital conduction value 7 connected in parallel to the resistor 5 causes a proportional change in the output voltage of the bridge circuit,

Linear dependence of the output voltage of the bridge circuit on the change in conductivity 7, i.e. from the output signal of the meter, is provided by compensating for the positive non-linearity of the bridge circuit characteristic from a change in the resistance of one of the bridge arms by the negative nonlinearity of the characteristic of the equivalent resistance made up of resistor 5 and conductivity 7, and is achieved by selecting the ratios of resistance values 3, 4, 5, 6 and conductivity 7. A digital tracking system consisting of a null organ 8, a generator 9, a matching circuit 10 and 11, a reversible counter through the imaging unit 13, causes a change in the digital output. Qdim 7 as long as the voltage drop across the resistance is not 1 m uravnovesits weekend voltage of the bridge circuit, wherein the output code of the counter 12, as well as the magnitude of the conduction 7, will be proportional to the measured temperature.

The application of the proposed temperature meter provides high accuracy of temperature measurement in a wide range with an accuracy of 0.1-0.2%, as well as high linearity of the output signal depending on the measured temperature.

Claims (2)

1. Netrebenko K. A., Reutov V. B. Analog-to-digital converter for resistor sensors. M., Energie, 1975, p. 9. 2. Forward number 2406469 / 18-10, class, G 01 K 7/16, 1976, according to which the decision to issue an author's certificate was made.