PL179503B1 - System for checking temperature measurement paths - Google Patents

Abstract

A system for checking temperature measuring channels, consisting of a resistance simulator connected to a measuring channel by a multi-wire line, characterized in that the outputs of the resistance simulator (2) are connected to the inputs (xi, Χ2, Χ3, Χ4) of a capacitance simulator (1) in parallel to the temperature measuring channel (3), wherein the input (xj) is connected via an input of an adjustable capacitor (4) to an input of an adjustable capacitor (5), the output of which is connected to an input of a switch (6), and the input (x2) is connected to an input of an adjustable capacitor (7), the output of which is connected to an input of a switch (6), wherein the input (x3) is connected to an output of an adjustable capacitor (4) and to an input of an adjustable capacitor (8), the output of which is connected to an input of a switch (6), and the input (x4) is connected to an input of an adjustable capacitor (9), the output of which is connected to an input of a switch (6), the output of which is grounded.

Description

The subject of the invention is a system for checking temperature measurement paths cooperating with thermoresistance sensors, applicable in industrial temperature measurement technology.

There are simulators from the American company Rosemount and the Austrian company Burster consisting of an adjustable resistor or a series of adjustable temperature-scaled resistors. The disadvantage of known simulators is the lack of simulation of the actual electrical parameters of RTD sensors.

There is known from the Polish patent description No. 143 360 a method and a system for checking temperature meters, consisting of a temperature meter, a digital-to-analog converter, a summing-up system, a code converter, a multiplexer. The known circuit checks the temperature meters with an output signal from a thermocouple.

The disadvantage of this solution is the complete inability to check the temperature measurement systems cooperating with RTD sensors.

In order to eliminate the above disadvantages, the invention has been developed, the essence of which is that the outputs of the resistance simulator are connected with the inputs of the capacitance simulator in parallel to the temperature measurement path. The first input is connected through the input of a regulated capacitor to the input of another regulated capacitor. The output of this capacitor is connected to the input of the switch. The second input of the capacitance simulator is connected to the input of the next adjustable capacitor, the output of which is connected to the input of the switch. The third input of the capacitance simulator is connected to the output of a regulated capacitor and to the input of another regulated capacitor. The output of another adjustable capacitor is connected to the input of the switch. The fourth input of the capacitance simulator is connected to the input of the next adjustable capacitor, the output of which is connected to the input of the switch. The switch output is grounded.

The subject of the invention is illustrated in an exemplary embodiment, in which Fig. 1 shows a schematic diagram of the system. The system consists of a capacitance simulator 1, which is connected in parallel with the resistance simulator 2 to the measuring line 3, where the outputs of the resistance simulator 2 are connected to the inputs x "x ₂ , x ₃ , x _{4 of the} capacitance simulator 1. The first input X, the capacitance simulator 1 is connected via the input of the regulated capacitor 4 to the input of the next regulated capacitor 5, the output of which is connected to the input of the switch 6. Second input x2 of the capacitance simulator 1

179 503 is connected to the input of the next adjustable capacitor 7, the output of which is connected to the input of switch 6.

The third input x _{3 of the} capacitance simulator 1 is connected to the output of the regulated capacitor 4 and to the input of another regulated capacitor 8, the output of which is connected to the input of switch 6.

The fourth input x _{4 of the} capacitance simulator 1 is connected to the input of the next adjustable capacitor 9, the output of which is connected to the input of the switch 6, the output of which is grounded.

When the switch 6 is turned on, the following capacitors 4, 5, 7, 8, 9 are connected to ground, the values of which correspond to the internal capacitance of the thermoresistance sensor simulated with the resistance simulator 2. When changing the resistance value in the resistance simulator 2 within the range specified by the requirements of the temperature measurement path 3, the presence of harmful oscillations in the measurement path.

When the switch 6 is disconnected, successive capacitors 4, 5, 7, 8, 9 are disconnected from the ground, which results in the disappearance of harmful oscillations in the temperature measuring line 3 if they occur. The capacity simulator 1 is used as an additional element that checks the properties of the temperature measurement line 3, when active elements are used to build the track.

179 503

Publishing Department of the UP RP. Mintage 60 copies. Price PLN 2.00.

Claims (1)

Patent claim A system for checking temperature measurement paths consisting of a resistance simulator connected to the measurement path by a multi-wire line, characterized in that the resistance simulator outputs (2) are connected with the inputs (x "x ₂ , X3, x ₄ ) of the capacitance simulator (1) parallel to the path measuring temperature (3), where the input (x,) is connected through the input of the adjustable capacitor (4) with the input of the adjustable capacitor (5), the output of which is connected to the input of the switch (6), and the input (x ₂ ) is connected to regulated capacitor (7) input, the output of which is connected to the switch input (6), where the input (x ₃ ) is connected to the regulated capacitor output (4) and the regulated capacitor input (8), the output of which is connected to the switch input ( 6), and the input (x ₄ ) is connected to the input of the adjustable capacitor (9), the output of which is connected to the input of the switch (6), the output of which is grounded.