SU1647284A1 - Temperature indicator - Google Patents

Abstract

The invention relates to a region of temperature measurements and improves the accuracy of temperature control. A signal from a resistance thermocouple (TC) 3 connected to a current source circuit based on operational amplifier 2 is fed to a second information input of an analog-digital converter (ADC) 4, the first input of which is supplied with voltage from divider 6 voltage. The A / D converter 4 generates a signal proportional to the voltage difference between the setpoint regulator, made in the form of a voltage divider 6 and the voltage drop across the thermal converter (RT) 3 connected to the current source circuit based on the operational amplifier 2. When the voltages are equal, the actuator 8 is activated, connected to the well-known output of the ADC 4. When the key 9 is closed, the value of the setpoint is indicated on the digital indicator 7, and the value of the current temperature when the key 10 is closed. 1 hp f-ly. 1 il.

Description

The invention relates to the field of temperature measurements and can be used in devices and systems for monitoring the temperature of objects in various industries.

The aim of the invention is to improve the accuracy of temperature control, as well as expanding the functionality by providing temperature measurement.

The drawing shows a diagram of a temperature alarm.

The temperature detector contains a source of DC voltage 1, an operational amplifier (OA) 2, a thermal converter 3 of resistance (TC), an analog-to-digital converter (ADC) 4, a first voltage divider 5, a second voltage divider 6, a digital indicator 7, an actuator 8, the first key 9, the second key 10, a model resistor 11.

The voltage divider 5 can be made in the form of series-connected two constant resistors 12 and 13, and the divider 6 - in the form of series-connected constant 14 and variable 15 resistors. As ADC 4, the KR572PV5A microcircuit can be used, and as a digital indicator 7, a block of liquid crystal indicators.

The temperature alarm operates as follows.

Operational amplifier 2 operates as a current source and supplies power to the protective circuit through terminals 3! and 3.2. The magnitude of this current I is determined by the magnitude of the voltage of the source 1, the ratio of the resistances of the resistors 12 and 13 and the resistance of the reference resistor 11. The voltage IRrc generated at the potential terminals 3.3 and 3.4 is fed to the second information input of the ADC 4. The voltage of the master from the output goes to the first information input of the ADC 4 voltage divider 6. At the input of the reference voltage of the ADC 4, the reference voltage U _O n is supplied, ensuring the disintegration of the input signal in the second cycle. As a result, at the output of '4.1 ADC 4, an information signal is generated proportional to the difference between the setpoint voltages and the drop on TS 3 Ts-IRtc. When the atom (keys 9 and 10 are open), the difference between the set and actual temperature values is displayed on the digital indicator.

When the temperature of the object changes, the resistance of the vehicle 3 changes, and at the same time the voltage drop across it. When the temperature of the object reaches the set value, the indicated voltages are aligned and on the know-determining output

4.2 ADC 4 there is a state change and switching of the actuator. The digital indicator 7 continues to display the current value of the temperature difference - actual and set.

When the key 9 is closed, the signal about the actual value of the temperature of the object is taken from the second information input of the ADC 4 and the setting value is displayed on the digital indicator 7, i.e. To set the required task value, it is necessary, having closed the key 9, to move the engine of the variable resistor 15, while watching the digital indicator 7.

Closing the key 10 removes the signal from the first information input of the ADC 4, which ensures the indication of the current temperature of the object.

The choice of the ratio of the resistances of the resistors 12 and 13 provides the necessary suppression of the initial value of the voltage drop across the vehicle 3.

Claims (2)

1. A temperature detector comprising a resistance thermoconverter, a DC voltage source, the first and second outputs of which are connected to the extreme terminals of the first voltage divider, consisting of constant resistors, the second voltage divider, which includes a variable resistor, the first terminal of which is connected to the second output source DC voltage, an operational amplifier, the non-inverting input of which is connected to the midpoint of the first voltage divider, the first switch and the actuator ment, characterized in that, in order to increase the temperature control accuracy. an analog-to-digital converter, an exemplary resistor, and a digital indicator connected to the information and sign-determining outputs of the analog-to-digital converter are introduced into it, the reference voltage input of which is connected to the first output of the DC voltage source, the first information input is connected to the variable resistor motor of the second voltage divider, and the second information input - with the first potential output of the resistance thermoconverter, the second potential output of which is connected to invert the input input of the operational amplifier, the output of which is connected to the first current output of the resistance thermoconverter, the second current output of which is connected via a model resistor to the second output of the DC voltage source connected to a common point of the analog-to-digital converter, the sign-determining output of which is connected to the input of the actuator this, the first key is connected between the second information input and the common point of the analog-to-digital converter, and the second output of the second divider 10 n voltage is connected to the first output of the DC voltage source. 2. The temperature alarm device according to claim 1, about τα and characterized in that, in order to expand functionality by providing temperature measurement, a second key is inserted into it, connected between the common point and the first information input of the analog-to-digital converter.