SU606114A1 - Multichannel temperature measuring device - Google Patents

Description

one

This invention relates to a measurement technique.

A multichannel temperature measuring device is known, comprising a measuring current generator included in a bridge circuit, a comparison resistor TeptvfOMeT-ry resistance connected to the measurement circuit using a three-wire link and a switch .1,23.

A disadvantage of the known device is the linear dependence of the output voltage on the resistance of thermometers.

The closest in technical essence to the proposed is a multichannel device for measuring — temperatures, containing measuring current generator included in the bridge circuit, compressing current generator, comparison resistor and resistance thermometers. One pin of each thermometer is connected

to the common wire of the three-wire communication line, and another output is connected to the output of the compensating switch by means of the communication link; through the contacts of the common switch,

to the input of the measuring and compensating current generators and through the contacts of the measuring switch and the amplifier with a capacitive output to the output of the device equipped with an output capacitance.

The disadvantage of the described device is that for any changes in the compensating current, an additional signal appears at the output of the device, reducing the measurement accuracy. In addition, when switching from one channel to another in the low-pass filter, a transient occurs, which limits the speed of the device and reduces the measurement accuracy.

The aim of the invention is to improve measurement accuracy.

Claims (3)

This goal is achieved due to the fact that the output KOMNiyTaTop, equipped with a key of the comparison channel and output capacitances according to the number of measurement channels, and an additional transition key, sequentially connected to the output of the amplifier, are additionally entered into the device. The control switch of the transition key is connected to the output of the multivibrator and the control input of the output switch. connected to the output of the distributor impups. The key of the comparison channel is connected to the zero bus, and the resistor is connected to the bridge arm parallel to the resistance thermometers, the common wire of which is connected to the output of the measuring current generator. The output of the compensating current generator is connected to the input of the compensating switch. In the drawing, a functional diagram of the proposed device is shown. The device contains thermometers 1 resistance, resistance 2 three-wire communication line, measuring 3 and compiler 4 current generators, comparison resistor 5, compensating 6, common 7, measuring 8 and output 9 switches, amplifier 10 with capacitive output 11 output capacitor 12, additional transient switch 13, multivibrator 14, pulse distributor 15, switch channel key 16. The device operates as follows. Multivibrator 14 generates pulses that switch the pulse distributor 15 and turn off the additional transient switch 13 for the transient time in the amplifier 1O. The pulse distributor is connected to the control inputs of the switches 6-9, which ensures the alternate closure of each channel's keys. When a resistor is inserted into the measuring circuit, it is compared with 1-5 at the capacitive output 11 of the amplitude step 1O, using a key 16 of the comparison channel, a potential equal to zero. When alternately switching on the term of the meters of the output resistance, the voltage corresponding to the difference between the resistances of thermometer 1 and comparison resistor 5 is set. The presence in the circuit of the compensating current generator 4 only the resistance 2 of the communication line leads to a significant decrease in the error of this generator on the measurement error: so, if the resistance value of the communication line is 0.7 Ohm, then a change in the magnitude of the compensating current will cause an error output voltage of only O, O1%, which significantly changes higher than in Known Devices Stee. Thus, in the device, only one precision current generator is needed, and the requirements for the coarseness of the generator can be reduced, which, together with an increase in the measurement accuracy, reduces the cost of the device. Since in this device the switching frequency is limited only by transients in the amplifier, along with an increase in measurement accuracy, the switching speed of the switches increases. Formula of the Invention A multichannel device for measuring the temperature, containing a measuring current generator included in the bridge cxeNiy, a compensating current generator, a comparison resistor and resistance thermometers, one output of each of which is connected to a common wire and a three-wire connection and a different output of each thermometer, using a communication line connected to the output of the compensating switch, through the contacts of the common switch to the input of the measuring and compensating current generators n contacts of the measuring switch a torus and an amplifier with a capacitive output to the output of a device equipped with an output capacitance, and the control inputs of the switches are connected to the output of the Multiple Speaker via a pulse distribution unit, characterized in that, in order to improve accuracy, an output switch provided with a switch channel is added to the device and output capacitors by the number of measurement channels, and an additional transition switch connected in series to the amplifier output, the control input of the additional transition switch with the control input of the additional output switch is connected to the output of the pulse distributor, the key of the reference channel is connected to zero thickness, and the comparison resistor is connected to the bridge arm parallel to the resistance thermometers, the common wire of which is connected to the output of the measuring current generator, and the output of the compensating the current generator is connected to the input of the compensating switch. Sources of information taken into consideration in the examination: 1. Electric, measurements of non-electrical quantities, ed. P. V. Novshisogo., Publishing house Energie, 1975, p. 1-4. 2. Authors certificate of the USSR 283633, cl. Q 01 K 7/10, 1969. 3.Termite-32 ББ2,2О6.101 temperature transducer information transducer, At the enterprise, Kaliningrad M.o. -lu: / l I 77 TTG t bykoZ