SU775634A1 - Device for multipoint measuring of temperature - Google Patents

Description

(54) DEVICE «1STV FOR MULTIPOINT MEASUREMENT OF TEMPERATURE

one

The invention relates to a technique for measuring temperature and can be used in process control systems. Multichannel devices with resistance sensors for measuring temperature are known in which time, frequency, exponential, or spatial channel separation is realized.

The closest in technical essence to the claimed device is a device containing thermoresistors connected to the measuring-converting unit 4.15.

In these devices, special blocks are used for channel selection, which complicates the equipment and is not justified if the number of ka is 20 or less and the dynamic range of change of the measured parameters is narrow, as is often the case when permitting control of technological processes or when measuring time 25 temperature variations in the sea in stationary conditions.

The purpose of the invention is to simplify the apparatus and increase the speed of the device.

The goal is achieved by the fact that in a device for multipoint temperature measurement containing thermistors connected to a measuring-converting unit, thermistors are made of a material with the same temperature coefficient of resistance and connected in series at the input of the measuring-converting unit, and the nominal values of their resistances at the initial temperature of the scale form a power series with a base equal to the required number of divisions of the measuring scale.

The block diagram of the device is represented in the drawing.

The device contains resistor sensors 1, 12, ... / In- temperature, connected in series to the input of the measuring and computing unit. 2. The nominal resistance value of the sensor ROI at the initial temperature is set by the expression.

(one)

O-i

where a is the number of quanta of the measuring scale. Resistance values R of the i-th sensor for the difference & the measured and initial temperatures are determined by the expression. . where oL is the temperature coefficient of sensitivity, the same for all sensors. The device works as follows. When exposed to temperatures of 0. |,. , QY in the channels of the resistance of the sensors take the values in accordance with the expression (2). The total resistance RS of the sensor sensors is equal to. ©) This resistance is measured by block 2 and the series of measured temperatures 0 is presented as the values of positional bits of the position representation in the system with the base number O of the result of measurements and calculations

, -9, ..-- cee, 9 С4)

The temperature value in all channels is obtained in one measurement. This achieves an increase in speed.

Consider an example. It is required to control the temperature at three points. Assume that the maximum dynamic range of temperature changes is 10 ° C from 20 to. A definition of temperature deviation with a sensitivity of 1 ° C is sufficient. Therefore, q - 10.

Suppose it uses three sensors with nominal resistance values at 20 ° C. RO-I 1 ROI 10 and ROT, 10 Ohms, respectively, and a temperature coefficient ci 3-10. The total resistance of the circuit of) three sensors connected in series

will be R,;. Q ROI W m Assume that the temperature of the sensors took the value of 22.27 and 23 ° C, i.e. , e, 7 ° s, 03.

The resistances of the sensors are equal.

Claims (4)

1. USSR Author's Certificate No. 474766, cl. fi 01 R 27/00, 1976. 2. USSR author's certificate number 581484, cl. G 01 O 23/24, 1977. 3. USSR author's certificate No. 327456, class, G 05 O 23/24, 1970. 4. For Germany FRP No. 1941587, publisher. 1976 (prototype). ), 00-L 1-g -1, OobOll, 2 02 oQ®2-0 + 0.00b-10-7 - S, 2- (Ohm, -O .®-L ° ° °°° 1 °° -0 ° 9 Ω. Consequently, the total resistance of the sensor circuit, measured by block 2, is Ry, R- (+ Ro + Ra 112.116 Ω. Substituting the obtained value into formula (4), we get 1-16 -1- 11 --b72-fOO-iv. -FO- -И 2 .:.-10-i So, we can write down 6 2c, & f, © ,,. In the case of a larger temperature range than at 10 ° C, with preservation of value 10, it is necessary to increase the price of one division, increase proportionally the value of оС and leave the sensors unchanged. Thus, the proposed device does not contain any special equipment for channel separation and has improved speed.