KR101338756B1 - Apparatus for Temperature Detection Using Resistance Temperature Detector - Google Patents

Abstract

The present invention relates to a temperature measuring device using a RTD, and supplies a constant current to the RTD sensor, and receives a voltage according thereto to measure temperature. In particular, an input terminal may be selectively connected to each type of RTD sensor according to the number of wires, and the terminal for supplying a constant current to the RTD sensor is converted according to the type of RTD sensor connected to the input terminal. For example, when a 3-wire RTD sensor is connected, a constant current is supplied between the A and B channels, and when a 4-wire RTD sensor is connected, a constant current is supplied between the a and B channels. Accordingly, the temperature can be measured accurately even if any of the three-wire RTD sensor or the four-wire RTD sensor is connected to the temperature measuring device.

Description

Temperature measuring device using RTD {Apparatus for Temperature Detection Using Resistance Temperature Detector}

The present invention relates to an apparatus for measuring temperature using a resistance thermometer, and particularly to accurately measure temperature regardless of the number of wires (channels) of the resistance thermometer connected.

Various devices for measuring temperature are used in industrial sites, and these devices use RTD (Resistance Temperature Detector) to measure temperature.

For example, a programmable logic controller (PLC) system commonly used for factory automation includes an input module connected to a resistance thermometer sensor to measure temperature.

There are several types of the RTD sensor according to the wiring method, and the resistance value changes with temperature. The temperature measuring device supplies a constant current to the RTD sensor and measures the temperature using the voltage applied to the RTD sensor by the constant current.

The three-wire RTD sensor is composed of three channels A, B, and B as shown in FIG. 1A, and the four-wire RTD sensor is composed of four channels A, a, B, as shown in FIG. b). Here, Rt is a pure resistance element of the RTD, and each wiring has a resistance element according to the characteristics of the material.

In the three-wire type, two conductors are connected to one terminal and one conductor is connected to the other terminal, thereby eliminating the influence of the conductor resistance. In the 4-wire system, two conductors are connected to both terminals, which enables particularly accurate temperature measurement.

On the other hand, the conventional temperature measuring device has been insufficient to use both the three-wire and four-wire resistance thermometer because it is configured to be suitable to use only one type of resistance thermometer.

For example, a temperature measuring device using a four-wire RTD sensor is provided with four terminals for connecting each channel (A, a, B, b). In order to short-circuit the A terminal and the a terminal by short-circuit, change into 4-wire type and connect.

However, when used in this way, there is no method of removing the resistance component of channel A among the resistance components of each channel existing inside the 3-wire RTD sensor and measuring only the RTD value, thereby making it impossible to accurately measure the temperature.

That is, it was impossible to distinguish whether the voltage signal value input from the RTD sensor was purely from the RTD or included in the internal resistance component.

Accordingly, an object of the present invention is to provide a temperature measuring device capable of accurately measuring temperature irrespective of the type of RTD sensor connected to the present invention.

In order to achieve the above object, the temperature measuring device using the RTD according to the present invention supplies a constant current to the RTD sensor connected, and receives the voltage according to the measured temperature.

In particular, an input terminal may be selectively connected to each type of RTD sensor according to the number of wires, and to convert a terminal for supplying a constant current to the RTD sensor according to the type of RTD sensor connected to the input terminal. It is composed.

Temperature measuring device using a resistance thermometer according to the present invention, the input terminal for selectively connecting each type of resistance thermometer; A sensor interface unit for supplying a constant current to the RTD sensor connected to the input terminal and receiving a voltage signal measured by the RTD sensor; An amplifier for amplifying the voltage signal received from the sensor interface; An analog / digital converter converting the voltage signal amplified by the amplifier into a digital signal; And a microprocessor configured to transmit a terminal selection signal to the sensor interface unit according to the type of the RTD sensor connected to the input terminal, and to determine the temperature by receiving the digital signal converted by the analog / digital converter. .

In this case, the sensor interface unit is configured to convert a terminal to supply a constant current according to the terminal selection signal.

The input terminal may have four terminals to selectively connect the three-wire RTD sensor and the four-wire RTD sensor.

In this embodiment, when the 3-wire RTD sensor is connected to the input terminal, a constant current is supplied between the A and B channels, and when the 4-wire RTD sensor is connected to the input terminal, Supply constant current in between.

The microprocessor may also transmit the terminal selection signal to the amplifier, in which case the amplifier is configured to adjust the amplification degree according to the terminal selection signal.

According to the present invention, even if the number of wirings (channels) varies depending on the type of the RTD sensor connected to the temperature measuring device, the temperature can be accurately measured because a constant current is correctly applied to the RTD sensor.

For example, it is possible to measure the temperature accurately even if any of the three-wire RTD sensor or the four-wire RTD sensor is connected to the temperature measuring device.

Therefore, it is not necessary to provide a separate temperature measuring device according to the type of the RTD sensor can save the cost.

1 is an example of a 3-wire and 4-wire RTD sensor,
2 is an embodiment of a temperature measuring device according to the present invention;
3 is an example for explaining a terminal for supplying a constant current when the RTD sensor is connected to the three-wire and four-wire type,
4 is a specific embodiment of a temperature measuring device according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 shows an embodiment of the temperature measuring device 20 using the RTD according to the present invention, basically a RTD sensor 10 connected to the input terminal 21 using a constant current source 20-1. It is configured to supply a constant current, and receive the voltage accordingly and measure the temperature.

The temperature measuring device 20 performing this role may be configured in various ways.

In connection with the present invention, the types of the RTD sensors 10 are classified according to the number of wirings (channels), and each type of RTD sensors is selectively connected to the input terminal 21 of the temperature measuring device 20.

In this case, the channel means a passage of a signal, and the wiring means a physical wire, but the same meaning in terms of specifying each terminal.

Although the number of terminals of the input terminal 21 is shown to connect a maximum 4-wire RTD sensor, the number of terminals of the input terminal 21 is a RTD sensor 10 that can be connected to the temperature measuring device 20 Is the maximum number of wires.

As shown in the illustrated example, when the number of terminals provided in the input terminal 21 is four, the 3-wire RTD sensor and the 4-wire RTD sensor may be selectively connected.

At this time, the 3-wire RTD sensor is connected to terminals A, B and b, and the 4-wire RTD sensor is connected to terminals A, a, B and b.

In particular, the temperature measuring device 20 is configured to convert a terminal for supplying a constant current to the RTD sensor 10 according to the type of RTD sensor 10 connected to the input terminal 21. That is, the RTD sensor 10 has a different terminal from which the constant current is to be supplied and a terminal from which the voltage is to be measured, depending on the type thereof.

3 shows a constant current supply terminal for the 3-wire RTD sensor 11 and the 4-wire RTD sensor 12.

Referring to FIG. 3A, when the 3-wire RTD sensor 11 is connected to the input terminal 21, the temperature measuring device 20 supplies a constant current between the A channel and the B channel.

However, when the 4-wire RTD sensor 12 is connected to the input terminal 21 as shown in FIG. 3B, a constant current is supplied between the a channel and the B channel.

The type of RTD sensor may be configured to be set by the user, or may be configured to determine the temperature measuring device 20.

Figure 4 shows a specific embodiment of the temperature measuring device 20 according to the present invention, the temperature measuring device 20 is an input terminal 21 for selectively connecting each type of RTD sensor 10, The sensor interface 22, the amplifier 23, the analog-to-digital converter 24, and the microprocessor 25 may be configured.

The temperature measuring device 20 may be configured in the form of a module provided in the PLC system to measure the temperature.

The sensor interface unit 22 transmits a constant current to the RTD sensor 10 connected to the input terminal 21 and receives a voltage signal measured by the RTD sensor 10. To this end, the sensor interface 22 has a constant current source for generating a constant current.

In particular, the sensor interface 22 converts a terminal for supplying a constant current to the RTD sensor 10 according to a terminal selection signal transmitted from the microprocessor 25.

For example, if the RTD sensor 10 having a terminal selection signal connected to the input terminal 21 is a 3-wire type, the sensor interface 22 supplies a constant current between the A channel and the B channel as described with reference to FIG. 3A. do.

At this time, the sensor interface 22 receives the voltage between the A terminal and the B terminal, and the voltage between the B terminal and the b terminal terminal.

However, if the RTD sensor 10 having the terminal selection signal connected to the input terminal 21 is a four-wire type, the sensor interface 22 generates a constant current between the a channel and the B channel as described with reference to FIG. 3B. Supply.

At this time, the sensor interface 22 receives a voltage between the a terminal and the B terminal, the A terminal and the a terminal, the B terminal and the b terminal.

The voltage signal received by the sensor interface unit 22 from the RTD sensor 10 is an analog signal.

The amplifier 23 amplifies and adjusts the voltage signal received through the sensor interface 22 to the input voltage range of the analog / digital converter 24.

The voltage signal amplified by the amplifier 23 is converted into a digital signal by the analog / digital converter 24 and input to the microprocessor 25.

The microprocessor 25 transmits a terminal selection signal to the sensor interface 22 according to the type of the RTD sensor 10 connected to the input terminal 21. Then, the digital signal converted by the analog-digital converter 24 is input to determine the temperature.

The range to be amplified by the amplifier 23 may vary according to the type of the RTD sensor 10. In this case, the microprocessor 25 may also transmit a terminal selection signal to the amplifier 23. Then, the amplifier 23 adjusts the amplification degree according to the terminal selection signal.

As described above, the temperature measuring device 20 according to the present invention supplies a constant current to an appropriate terminal according to the type of the RTD sensor 10 to be connected, and inputs the voltage signal detected by the RTD sensor 10 through an appropriate terminal. Receive.

Therefore, regardless of whether a 3-wire RTD sensor or a 4-wire RTD sensor is connected, temperature can always be measured accurately within the measurable range of the RTD sensor.

It is to be understood that the present invention is not limited to the above-described embodiment, and that various changes and modifications may be made by those skilled in the art without departing from the technical spirit of the present invention. to be.

10,11,12: RTD sensor 20-1: constant current source
21: input terminal 22: sensor interface
23: amplifier 24: analog / digital converter
25: microprocessor

Claims (6)

In the temperature measuring device using the RTD for supplying a constant current to the connected RTD sensor, and measuring the temperature by receiving a voltage corresponding thereto,
An input terminal is provided which can be selectively connected to each type of RTD sensor according to the number of wires,
The input terminal has four terminals for selectively connecting a three-wire RTD sensor and a four-wire RTD sensor, and converts a terminal for supplying a constant current to the RTD sensor according to the type of RTD sensor connected to the input terminal. Is configured to
When the 3-wire RTD sensor is connected to the input terminal, a constant current is supplied between the A and B channels, and when the 4-wire RTD sensor is connected to the input terminal, a constant current is supplied between the A and B channels. Temperature measuring device using a resistance thermometer.
delete delete An input terminal for selectively connecting each type of resistance thermometer;
A sensor interface unit for supplying a constant current to the RTD sensor connected to the input terminal and receiving a voltage signal measured by the RTD sensor;
An amplifier for amplifying the voltage signal received from the sensor interface;
An analog / digital converter converting the voltage signal amplified by the amplifier into a digital signal; And
And a microprocessor which transmits a terminal selection signal to the sensor interface unit according to the type of the RTD sensor connected to the input terminal, and receives a digital signal converted by the analog / digital converter to determine a temperature.
The sensor interface unit is configured to convert a terminal to supply a constant current according to the terminal selection signal,
The sensor interface unit supplies a constant current between the A channel and the B channel when the 3-wire RTD sensor is connected to the input terminal, and between the a channel and the B channel when the 4-wire RTD sensor is connected to the input terminal. Supplies a constant current at
The microprocessor transmits the terminal selection signal to the amplifier.
The amplification unit is a temperature measuring device using a resistance thermometer for adjusting the amplification degree in accordance with the terminal selection signal. delete delete

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