SU1180854A1 - Device for controlling temperature - Google Patents

Abstract

1. A DEVICE FOR VANIA TEMPERATURE REGULATOR containing a load, a series-connected diode bridge and a stabilized DC voltage source, series-connected temperature-sensitive divider, an integrator, a thyristor turn-on driver and a thyristor, characterized in that, in order to improve the reliability and efficiency of the device, A converter of alternating voltage into rectangular impulses is inserted into it, connected between the output of a stabilized constant voltage source and the input of a heat source A voltage divider is connected to the input diagonal of the diode bridge, and a thyristor in series with the load is connected to the output diagonal of the diode bridge.

Description

2. The device according to claim 1, characterized in that the block for forming an alternating voltage into rectangular pulses contains a field-effect transistor, the gate of which is connected through a resistor to the positive bus, the output diagonal of the diode bridge, the source to a stabilized source of constant voltage, and the drain to the thermoresensitive divider, the source being connected via a zener diode to the gate.

3 A device according to claim 1, characterized in that a stabilized, constant voltage source comprises a transistor, the base and collector of which is connected via resistors to the positive diode bridge bus, and the emitter is connected to the negative bus through a zener diode to the base of the transistor.

The invention relates to automatic temperature control and can be used to control thermostats for various purposes. The purpose of the invention is to increase the efficiency and reliability of the device. The drawing shows the basic electrical circuit of the proposed device. The device contains a source of alternating voltage 1, a diode MOS 2 with a minus bus.3 and a positive bus 4, a source 5 of stabilized constant voltage, an alternating voltage conversion unit 6 into rectangular pulses, a load 7, a thyristor B, a driver 9 pulses turning on the thyristor, the integrator 10, the temperature-sensitive divider 11. The source 5 of a stabilized constant voltage consists of the transistor 12, resistors 13 and 14, the zener diode 15 and the capacitor 16. The block 6 converts the values of near-zero AC to r Coal pulses consist of a field-effect transistor 17, a resistor 18 and a Zener diode 19. The shaper 9 of the thyristor turn-on pulses consists of a resistor 20 and a $ 21 distor. The integrator 10 consists of a transistor 22, a resistor 23, a diode 24 and a capacitor 25j. A heat sensitive divider 11 consists of a thermistor 26 and a resistor 27, the device operates as follows. When the alternating voltage source 1 is turned on, the capacitor 16 is charged through the open transistor 12 and the resistor 14 until the voltage of the zener diode 15 is broken, after which the transistor 12 closes and the current consumed from the constant voltage source 5 is determined by the gate voltage source of the transistor 17. When the voltage between the buses 3 and 4 is less than the predetermined amount, the voltage across the capacitor 16 is 11.5 and the cut-off voltage of the transistor 17 OTC. TS- and Uci6 +. ots the channel of the transistor 17 opens and the capacitor 25 in the integrator 10 is charged by the current set by the voltage on the thermistor 26 and the resistance value of the resistor 23. Thus, each half-wave of the alternating voltage converts the voltage 6 that raises the voltage on the capacitor 25 until , while at the beginning of the next half-wave it reaches the voltage of the sample of the dynistor 21, after which the capacitor 25 is discharged through the resistor 19 to the control electrode of the thyristor 8. The thyristor 8 opens and connects the load 7 through the diode bridge 2 to source 1 variable voltage. When the voltage U54 Uci6 is out, the channel of the transistor T7 closes, and the zener diode 19 limits at the maximum permissible level, and after the discharge of the capacitor 25, the dynistor 21 returns to the closed state, and therefore, the thyristor 3 11808 6, at the end of the half-wave, also turns out to be closed . The pause between the switching on of thyristor 6 increases as the thermistor 26 is heated, and finally there comes a moment that the charge of the capacitor 26 from the current transferred by the converter 6 to the integrator 10 at the times when y4 clb + becomes equal its discharge, 0 from the leakage current of the dynistor 21 in the closed state, and the device will come to thermal equilibrium, from which the decrease in the resistance of the resistor can be deduced. 23 or thermistor cooling 26.. Thus, when heating occurs, the power dissipated by the device circuit is determined by the average value of the current flowing through the thyristor, but when thermal equilibrium sets in and heating should be stopped, the power dissipated by the circuit is determined by the current commensurate with the current the dynistor leakage in the closed state and does not exceed 0.5 nA.

Claims (3)

1. TEMPERATURE CONTROL DEVICE, comprising a load, a diode bridge in series, and a stabilized constant voltage source, a thermosensitive divider, integrator, thyristor on-pulse shaper and thyristor in series, characterized in that, in order to increase the reliability and efficiency of the device, a converter of alternating voltage into rectangular pulses, connected between the output of the stabilized source of constant voltage and the input of thermal sensitivity, was introduced Tel'nykh divider, to an input diagonal of the diode bridge is connected AC voltage source, and to output - a thyristor in series with the load. £ 2. The device according to π. 1, characterized in that the unit for generating an alternating voltage into rectangular pulses contains a field-effect transistor, the gate of which is connected through a resistor to the plus bus of the output diagonal of the diode bridge, the source to a stabilized source of constant voltage, and the drain to a thermally sensitive divider, moreover The source is 1180854 res zener diode connected to the gate. 3. The device according to p. 1, characterized in that it is stabilized. The DC voltage source contains a transistor, the base and collector of which through resistors are connected to the positive bus of the diode bridge, and the emitter is connected to the negative bus through the capacitor and through the zener diode is the base of the transistor.