SU1072015A1 - Device for temperature control - Google Patents

Abstract

A TEMPERATURE CONTROL DEVICE containing a series-connected temperature-sensitive bridge, a differential amplifier and a pulse width modulator, to the second input of which is connected a sawtooth voltage generator, serially connected temperature change rate generator and a comparison element pulse generator and a thyristor actuator through which a heater voltage regulator and a heater element that connects a pulse shaper and a reference element pulse generator and a thyristor actuator through which a heater pulse generator and a heater pulse generator and sequencer are connected. to a power source, characterized in that, in order to increase the reliability of the device and expand the area its application, an And element and a differentiating amplifier, input connected to the output diagonal of the thermosensitive bridge, and the output to the second input of the comparison element, the first input of the And element connected to the output of the comparison element, the second input - with the output of the pulse width modulator, the third - with the output form S rovatel pulses, and the output element And is connected to the thyristor actuator. e vl N0 D yi

Description

The invention relates to radio electronic devices and can be used to programmatically control the temperature of various objects. A device for temperature control, in which a heating and cooling control action is formed based on a difference in the reference signal, and a feedback signal on the rate of temperature change, determined from the difference in the signals of two thermal sensors with different thermal inertia, is known. The magnitude and direction of the rate of change of the tetrature is determined by the level and polarity of the reference signal. In the mode of stabilizing the temperature at a given level of control, it is carried out directly by the signal of the thermal sensor, and feedback on the rate of change of temperature is switched off til. The disadvantage of this device is the presence of two thermal sensors with different thermal inertia, which limits the possibility of its use. In addition, when switching from heating to stabilization mode, KONMyTaTop automatically switches the device from speed control to temperature control of the object, which leads to thermal transients. The closest to the invention to the technical essence is the device, for programmed temperature control, containing a heater, the {sensitive sensor element is the element of the thermosensitive bridge, the pyroelectric sensor with its coils covering the ohmic winding, differential amplifier, indicator, current-frequency converter, an integrator, a temperature change rate sensor, a reference element, a pulse former and a third-order performer. In this device, a pyroelectric sensor is a converter of the rate of change of temperature into an electrical signal on the plates of electrodes installed perpendicular to the polarization vector C21. However, in a known device, a pyroelectric sensor is located outside the te1 "residual object, which disturbs the conversion of the temperature of this object into a change in the output of the thermally sensitive bridge, and its turn in the temperature change of the pyroelectric sensor, which leads to a decrease in reliability and device speed and rate limiting. The inclusion of an ohmicche-kP winding in the output diagonal of the heat-sensitive bridge for heating the pyroelectric sensor requires a high power source of alternating voltage, supplying the bridge, which limits the possibility of using many types of thermal sensors due to their self-heating. In addition, a disadvantage of the known device is the phase method for adjusting the magnitude of the thyristor switch-on angle, which creates a high level of radio radiation (1x. The aim of the invention is to increase the reliability of the device and expand the field of application. The goal is achieved by containing successively connected thermosensitive 4ost, differential amplifier and pulse width modulator, to the second input of which a sawtooth voltage generator is connected, Consequently, the connected variable speed setting unit, the reference element, the pulse shaper and the thyristor Executive element through which the heater is connected to the power source, the element and the differential amplifier, input connected to the heat sensitive bridge approach diagonal, are entered, and the output is sent to the second element at the input of the comparison element , the first input of the element I is connected with the output of the comparison element, the second input with the output of the modulator of the pulse width., the third with the output of the pulse generator, and the output of ementa and connected to the thyristor actuators. FIG. 1 shows the functional scheme of the proposed device; in fig. 2 - diagrams for how the device operates while maintaining a given rate of change in temperature. The device has a thermostatic device 1 and a heater 2 and a thermosensitive element 3, which is an element of a thermosensitive bridge 4, which is powered by a constant voltage from source 5. The output diagonal of the heat sensitive bridge 4 is connected to a differentiating amplifier b, the output of which is connected to the first the input element of the comparison element 7, the output of the setpoint adjuster 8 of the temperature variability and the differential amplifier 9, the output of which is connected to the second input of the modulator 10 W, is connected to its second input pulses, the output of the sawtooth generator 11 is connected to its first input. The output of the comparison element 7 is connected to the first input of the element 12, the output of the pulse width modulator 10 is connected to the second input, and the impulse 13 is output to the third input. The signal from the output of the element 12 is fed to the control electrode of the thyristor actuator (thyristor) "14, followed by which the 2 ps heater is connected to the electrical network 15. The device operates as follows. The transducer for changing temperature into an electrical signal is a temperature-sensitive element 3 and a differentiating amplifier. B. As the temperature in the thermostating object increases, the voltage taken from the output diagonal of bridge 4 decreases, and the voltage at the output of the differentiating amplifier b is where K is the proportionality coefficient associated with the measurement conditions. This voltage and the voltage from setpoint 8 of the rate of change of temperature 8, applied to the comparison element 7, cause the output of the resolution pulses and the inhibitors of the inclusion of the actuating element 1 to its output through the I element 12. The inputs of this circuit are fed directly from the pulse width modulator 10 and the impulse generated at the time of the power supply voltage across the zero, from the 13-pin pulse terminal. At the moment of coincidence. All three input voltages from the output element I 12 to the thyristor actuating element 14 feed pulses that open it. The rate of temperature change is determined by the duration of the switching pulses of the switch Tir1 stor 14 and is set by the level of the constant voltage from the setter 8. As the temperature approaches the set value, the unbalance voltage from bridge 4 decreases the differential amplifier 9 goes out of the saturation and output from the modulator 10 of the pulse width 10 on the element And 12 receive 10 4 pulses, modulated by the duration of the sawtooth voltage from the generator 11 of the puloir voltage. This avoids overshoot of temperature and temperature at high rates of change. When the set temperature is reached, the speed control is switched off, so Kak-K-a | - O and control of the thyristor by the executive element 14 is carried out by it-. pulses from the modulator output 10 pulse virines. Thus, in the proposed device, it was possible to increase reliability and increase speed by directly differentiating the output voltage of the temperature-sensitive bridge, as well as reducing the level of radio interference.

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Claims (1)

A TEMPERATURE CONTROL DEVICE, comprising a thermally sensitive bridge in series, a differential amplifier and a pulse width modulator, to the second input of which a sawtooth voltage generator is connected, a temperature change rate controller and a comparison element are connected in series; pulse generator and thyristor actuator element through which the heater is connected to a power source, characterized in that, in order to increase the reliability of the device and expand its field of application, an I element and a differentiating amplifier are inserted into it, connected to the output diagonal of the thermally sensitive bridge , and the output to the second input of the comparison element, the first input of the element And is connected to the output of the comparison element, the second input - with the output of the pulse width modulator, the third - with the output of the importer pulses, and the output of the And element is connected to the thyristor actuator. 1072015 A 1072QrT5