SU1432475A1 - Temperature-regulating device with self-check - Google Patents

Abstract

The invention relates to automation, specifically to the technique of automatic temperature control, and can be used in thermostatic control systems with self-control. The purpose of the invention is to expand the functionality of the device by monitoring the health of its nodes. The device contains a transformer 1 with secondary windings 2 and 3, a rectifying diode 4, a setting device 5 and a temperature sensor 6, a differential amplifier 7, a second 8 and a third 9 capacitors, a feedback resistor 10, a first voltage divider 11, a voltage regulator 12 , power amplifier 13, first capacitor 14, second voltage divider 15, heater 16, two-threshold comparator 17, pulse shaper 18, Schmitt trigger 19, element EXCLUSIVE OR 20 ,. And 21 element, a correction capacitor 22. The voltage on the heater 16 is controlled by a two-line comparator 17. The result of the control is compared with the state of the voltage regulator 12 controlled by an IITit trigger 19. With different values of the signals at the outputs of the two-threshold comparator 17 and Schmitt trigger 19 a device failure signal is generated. 3 il. ie (L u 4 CO to 4 01 Ifnxai

Description

The invention relates to automation, specifically to the technique of automatic temperature control, and can be used in thermostats with self-control.

The purpose of the invention is to expand the functionality of the device by monitoring the health of its nodes.

Fig, 1 shows a functional diagram of the proposed device; FIG. 2 is a functional diagram of a pulse former; FIG. 3 shows the transfer characteristic of a two-threshold comparator.

The device contains a transformer 1 with secondary windings 2 and 3, connected in opposite, a step-down diode 4, a temperature setpoint 5, a temperature sensor 6, a differential amplifier 7, a second 8 and third 9 capacitors, a feedback resistor 10, a first voltage divider 11, voltage regulator 12, amplifier 13 |, first capacitor 14, second divider 15; voltage, heater 16, two-threshold comparator 17, impulse driver 18, Schmitt trigger 19, ORD element 20, element AND 21 , corrective capacitor | 22 rtorov 23 and 24, in-. | tagriruyuschuyu chain 25, element 2I-OR-NOT 26.

The rectifying diode 4 produces a half-wave rectification of the alternating current. Capacitors 8 and 9 are needed to form sawtooth voltages, the amplitudes of which are proportional to the target and true temperatures of the object, respectively. The first voltage divider 11 is required to create the desired DC mode for the input to control the switching off of the voltage regulator 12. The latter is designed simultaneously to amplify the output signal of the differential amplifier 7 in terms of power and to form a proportional control law.

The power amplifier 13 on the transistor enhances the output signal of the voltage regulator 12 in power. The first capacitor 14 forms positive feedback on alternating current. The second voltage divider 15 is a feedback divider for voltage stabilizer i 2. Comparator 17 is two-way

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govov: if (the admission of its input lies in the range between the following: the end of the hornhole (Fig. 3), a unit is formed at its output, otherwise it is zero, while in normal operation of the elements 13 and 16 at the output of the divider -15 voltage when voltage stabilizer 12 is turned on, voltage U is formed (fig.: 3). Zmitt's trigger 9 forms a unit when voltage stabilizer 12 turns on and zero. When it turns off, i.e. is practically an integral state sensor voltage regulator 12. The element EXCLUSIVE OR 20 practically produced It compares the signals from the output of the comparator 17 and the Schmitt trigger 19. Element I 21 generates a signal of the actuator failure, which includes the output stage of the voltage regulator 12, the power amplifier 13 and the heater 16, i.e. all the power, most loaded elements of the device ., I

The device works as follows.

On the temperature setting device 5 and the sensor 6 with respect to their common point, there are positive half-waves of the half-wave rectifier carried out by the rectifying diode 4, which are out of phase due to the counter-switching of the transformer windings 2 and 3. These voltages are smoothed by capacitors 8 and 9, converted to a constant sawtooth voltage. Provided that the voltage on the unit is equal to 5, and. sensor 6 in amplitude, which is caused by adjusting the setting device 5, the voltage between the differential inputs of the amplifier 7 is zero, i.e. The measurement circuit is balanced. At the moment of switching on the device, the resistance of the setting device 5 is greater than the resistance of the sensor 6 (when using the last resistance thermometer), therefore there is a voltage at the output of the differential amplifier 7. negative and voltage regulator 12 is turned on for power. As the temperature increases and, consequently, the resistance of the temperature sensor 6 increases, a constant imbalance signal in the form of a sawtooth voltage is supplied through the voltage divider 11 to the control input of the shutdown of the voltage regulator 12.

Since the temperature change in the cooling zone is a slowly varying process, and the switching off and on of the integrated voltage regulator 12 is performed by a sawtooth voltage, and the control input by turning off the voltage regulator I2 | Q has a certain switching threshold, the output voltage regulator 12 is formed rectangular and large, varying in length depending on the change-15 or adjustable temperature. Accordingly, a pulsed current flows through the power amplifier 13 and the heater 16, also varying in duration as a function of a change in the control temperature. The capacitor 14 provides positive feedback on alternating current, which improves the edges of the pulses fed to the heater 6.25

When the integrated voltage stabilizer 12 is turned on, the difference from the zero voltage -30 yenin to is formed at the signal output of the switch-off through the time determined by the delay of its elements. a positive voltage of a certain value, so a unit is formed on the Schmitt trigger 19 jack. If all the elements of the device are in good condition (i.e., the amplifier 13 with the sensor and the heater 16 are intact), a positive voltage is formed at the measuring input of the integral voltage regulator 12 (Fig. 3.), therefore, at the output of the two-threshold jQ

parator

unit is formed.

Thus, with the healthy, elements 13 and 16 and the good output stage of the stabilizer 12, the voltage on the inputs of the EXCLUSIVE 1SH120 element will be the same signals. Similarly, after the voltage stabilizer 12 is turned off, a zero is formed at the output of the Tsiitta trigger 19, and the voltage divider 15 is also removed from the output of the voltage divider 15.

the left voltage, so the output of the two-threshold comparator 17 will be zero. Thus, with a good output stage of the integrated voltage regulator 12 and equals x. power amplifier 13 and heater 16 at the inputs of the EXCLUSIVE OR element 20 will have the same signals, therefore, at its output there will be zero. it

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the condition is violated only at the moments when the voltage regulator 12 switches due to the delay in signal propagation from its two-channel shutdown control input: the signal output of the regulator 12, voltage — Schmitt trigger 19, and the output of voltage regulator 12 — force-: power hoist 13 - voltage divider 15 - two-threshold comparator 17. Therefore, in order to avoid false triggering of the diagnostics node, element 21 is locked at the first input by zero for a time greater than the difference between the propagation times of signals along the indicated channels It is, since 18 pulse shaper according to any of the input differential signal outputs at its output a pulse of negative polarity.

If, for example, a breaker type 16 heater fails, the voltage at the output of the voltage regulator 12 and the output of the power amplifier 13 rises by a small amount, since in this case the voltage regulator 12 begins to operate at almost idle speed, and Depends on the output resistance of the voltage regulator 12, the stabilization factor, etc. As a result, a voltage is applied at the measuring input of the voltage regulator 12, and this voltage becomes equal to the voltage U (FIG. 3), and% ul is formed at the two threshold comparator 17. If the transistor of the power amplifier 13 is broken through the collector-emitter type Short circuit, when the voltage regulator 12 is turned on, the voltage 16 on the heater 16 is equal to the supply voltage V, and a voltage is formed at the output of the voltage divider 15 (FIG. 3). ), and a zero is formed at the output of the double-threshold comparator 17. Thus, in these cases, at the output of the two-threshold comparator 17, when the voltage regulator 12 is turned on, zero is generated, and at the output of the Shitt trigger, 19 is one, therefore, at the output of the EXCLUSIVE I-fflH 20 element, one, and if the failure occurred when the voltage stabilizer 12 is turned on, after a time determined by the pulse duration of the driver 18, a failure signal is generated at the output of the element 21. If the failure occurred after the moment of switching on the voltage regulator 12, it is fixed at the same moment, and a unit is formed at the output of the element 21.

; If, for example, a transistor of power amplifier 13 has failed, a short circuit at the moment when the voltage regulator 12 was turned off, a unit is formed at the output of the two-threshold comparator 17, and a Schmitt trigger I9 output is 1-ul, so the output of the AND 21, a failure signal is immediately issued as a unit.

I If, for example, a transistor of a power amplifier 13 of the type Open Circuit-Emitter Circuit fails, at the moment when the voltage regulator 12 is turned on, the output voltage of the divider 15 relieves zero voltage less than: apr (Fig. 3), so the two-threshold output the comparator 17 is formed zero, and at the output of the Schmitt trigger 19 after turning on the voltage stabilizer - one, the failure signal is again formed.

Similarly, a failure signal is generated when a heater fails.

1 | 6 type Short circuit. invention formula

; A device for temperature control with self-control, which contains a transformer, a fast diode. Temperature sensor and setting unit, differential amplifier, power amplifier, heater, first and second, voltage, stabilizer, apr, first to third capacitors, rectifier diode cathode connected to one end of two transformer sides, switched on, two other output which

each connected respectively to

direct and inverse inputs of the differential amplifier, the output of which is connected to the input of the first voltage divider, the output of which is connected to the control output by turning off the voltage regulator, whose spdsod is connected to the input of the power amplifier and through the first compensator with the inverse of the differential amplifier and one temperature setpoint and the second capacitor, some outputs of the temperature sensor and the third capacitor are connected to the direct input of the differential amplifier, and the other terminals of the second and third In this case, the capacitors, the sensor, and the temperature setpoint device are connected to the anode of the rectifying diode and connected to the zero potential bus, the output of the power amplifier is connected to. the inputs of the heater and the second voltage divider, the output KOTOpoi o is connected to the measuring input of the voltage regulator, which is different. In order to expand the functionality of the device by monitoring the health of its nodes, the device contains a pulse shaper, a Schmitt trigger, a two-threshold comparator, an ORDER element and an AND element, the output, the first and second inputs of which are connected respectively to the signal output device malfunction, the output of the EXCLUSIVE OR element and the output of the pulse former, the input of which is connected to the Schmitt trigger output and the first input of the EXCLUSIVE OR element, the second input of which is chen to output two-threshold comparator whose input is connected to the output of the second voltage divider, and a Schmitt trigger input is connected to the signal output interrupting voltage stabilizer.

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Claims (1)

Claim A temperature control device with self-control, comprising a transformer, a rectifier diode, a temperature sensor and setter, a differential amplifier, a power amplifier, a heater, first and second voltage healers, a voltage stabilizer, first to third capacitors, a rectifier diode cathode connected to one terminal of two windings transformer connected on the other two other outputs of which are connected each respectively to the direct and inverse inputs of a differential amplifier, the output of which is connected with the input of the first voltage divider, the output of which is connected to the control switch disconnect of the voltage stabilizer, the output of which is connected to the input of the power amplifier and through the first capacitor with the inverse input of the differential amplifier and one terminal of the temperature setpoint and the second capacitor, one terminal of the temperature sensor and the third capacitor is connected to a direct input of the differential amplifier, and the other terminals of the second and third capacitors, sensor and temperature setter are connected to the anode rectifier ohm diode and are connected to the zero potential bus, the output of the power amplifier is connected to. the inputs of the heater and the second voltage divider, the output of which is connected to the measuring input of the voltage stabilizer, characterized in that, in order to expand the functionality of the device due to monitoring the operability of its nodes, the device contains a pulse shaper, Schmitt trigger, two-threshold comparator, EXCLUSIVE OR element and the AND element, the output, the first and second inputs of which are connected respectively to the signal output of the device malfunction, the output of the EXCLUSIVE OR element and the output of the form Vatel pulse input coupled to an output of the Schmitt trigger and the first input of the EXCLUSIVE OR gate, the second input of which is connected to the output of a window comparator having an input connected to the output of the second voltage divider, and a Schmitt trigger input is connected to the signal output OFF voltage stabilizer. Figure 2