SU1265732A1 - Two-position temperature controller - Google Patents

Abstract

The TWO-POSITION temperature controller is in the field of automatic temperature control and can be used to control thermostats for various purposes. To increase the accuracy and simplify the device in the controller with a measuring-heating bridge, which is powered through key elements controlled by the output of the comparator, resistors are connected in parallel with the key elements. Simplified embodiments of the controller are given. 4 il. i (L

Description

The invention relates to automatic temperature control and can be used to control thermostats for various purposes. 5 if the comparator 6 is balanced, then after turning on the key elements 7 and 8, its output transistor remains open and keeps them open. The aim of the invention is to increase accuracy and simplify the device.

In FIG. 1 is a circuit diagram of a two-position temperature controller ·, in FIG. 2-4 are simplified versions of this circuit. ”The two-position temperature controller contains a measuring and heating bridge 1, consisting of a temperature-sensitive heater (sensor-heater) 2 with a positive temperature coefficient of resistance, heater 3, the resistance of which is independent of temperature, and resistors 4 and 5, a comparator 6, the inputs connected to the output diagonal of the measuring and heating bridge 1, the power diagonal of which is connected to the power buses through the key elements 7 and 8, connected by outputs respectively enno to the collector of the output transistor and the emitter of the comparator 6, 9-limiting resistor, resistors 10 and 11 connected in parallel to the core elements 7 and 8, additional resistors 12 and 13.

The regulator operates as follows.

I

When the power is turned on, the measuring-heating bridge 1 is supplied with a reduced voltage, determined by the resistances of the resistors 10 and 11, as well as the resistances of the heaters 2 and 3. If the temperature on the sensor-heater 2 is lower than the set temperature, then the voltage at the non-inverting input of the comparator 6 is less than at the inverting , and its output transistor opens. At the same time, current is supplied to the control inputs of the key elements (base of transistors) 7 and 8 through a limiting resistor 9, and they open. Resistors 10 and 11 are shunted and full voltage is supplied to bridge 1 from the power source E _(the balance of the bridge does not change, but the voltage on its output diagonal and at the input of the comparator increases sharply, and the thermostatically controlled object heats up even after reaching the sensor-heater 2 of the set temperature, the voltage on the output diagonal of the bridge temperature converter 1 changes sign, the output transistor of the comparator 6 and the key elements 7 and 8. close. The voltage on the bridge 1 decreases sharply and the thermostat begins to cool object, then the process repeats,

In this on-off temperature controller amplitude of the temperature ripple thermostated ob20 ekte at temperatures close to the temperature statirovaniya has a small value determined mainly quality integral comparator 6 and does not depend on temperature okruzhayu25 o _f the second medium, in addition, the controller no elements of the pulse generator, which simplifies its scheme *

In cases where the accuracy of regulation is of secondary importance, and most importantly, the simplification of the device, the controller can be made with one key element (Fig. 2 and 3) or even completely without key elements (Fig. 4). In these cases, 35 the quality of regulation is somewhat reduced due to the influence of the in-phase component of the signal, but the regulators are extremely simple,

Claims (1)

The invention relates to automatic temperature control and can be used to control thermostats for various purposes. The purpose of the invention is to improve the accuracy and simplify the device. FIG. Figure 1 shows the principle of the electrical circuit of the two-position temperature controller, FIG. 2-4 - simplified versions of this circuit. The two-position temperature controller contains the measuring-heating bridge 1, consisting of a temperature-sensitive heater (heater sensor) 2c with a positive temperature resistance coefficient, heater 3, the resistance of which does not depend on temperature, and resistors 4 and 5, a comparator 6, the inputs connected to the output diagonal of the measuring-heating bridge 1, the power diagonal of which is connected to the power buses through the key elements 7 and 8 connected by the outputs corresponding to with the collector and emitter of the output transistor of the comparator 6, the limiting resistor 9, the resistors 10 and 11 connected in parallel to the key elements 7 and 8, the additional resistors 12 and 13. The regulator works as follows. I. When the power is turned on, the measuring-heating bridge 1 is supplied with a lower voltage determined by the resistances of the resistors 10 and 11, as well as the resistances of the heaters 2 and 3. If the temperature at the sensor-heater 2 is lower than the specified one, then the voltage at the non-inverter input comparator 6 is smaller than the inverter, and its output transistor opens. At the same time, the resistor 9 is supplied with current to the control inputs of the key elements (transistor base) 7 and 8, and the opening of them occurs. Resistors 10 and 11 are shunted and full voltage is applied to bridge 1 from power source E ,. the balance of the bridge does not change, the BUT voltage on its output diagonal and on the input of the comparator increases dramatically, and if the comparator 6 is balanced, after switching on the key elements 7 and 8, its output transistor remains open and keeps them open. The temperature-controlled object heats up and after the heater temperature sensor 2 reaches the set temperature, the voltage on the output diagonal of the bridge temperature converter 1 changes sign, the comparator output transistor 6 and the key elements 7 and 8 close. The voltage on bridge 1 decreases sharply and cooling of the temperature-controlled object begins to cool. The process then repeats. In this two-position temperature controller, the amplitude of temperature pulsations at the thermostatted object at temperatures close to the setting temperature is small, determined mainly by the quality of the integral comparator 6 and does not depend on the ambient temperature, in addition, there are no pulse generator elements in the controller, which simplifies its circuit. In cases where control accuracy is of secondary importance, and most importantly, device simplification, the controller can be performed with one key element (Fig. 2 and 3) or even completely without key elements (Fig. 4). In these cases, the quality of regulation is somewhat reduced due to the influence of the common-mode component of the signal, but the controls are extremely simple. DETAILED DESCRIPTION OF THE INVENTION A two-position temperature controller comprising a measuring-heating bridge, a comparator, as well as two key elements, the input diagonal of the measuring-heating bridge being connected to the power rails via: appropriate; The key elements, the control inputs of which are connected to the outputs of the comparator, the inputs of which are connected to the output diagonal of the bridge, are different in that, in order to improve accuracy and simplification, two power sources are inserted in it connected in parallel with the key elements.