RU2062506C1 - Electronic regulator of temperature - Google Patents

Abstract

FIELD: electric heating devices. SUBSTANCE: device has temperature-sensitive resistor 1, transistors 3 and 7, which have opposite conductance. Reference stabilizing diode 4 is connected in series to emitter-base junction. In addition device has additional temperature feedback 11 to temperature-sensitive resistor 1, and emergency protection circuit which has two transistors 12 and 13 connected in thyristor circuit. To increase security against fire, emergency protection unit switches device off when emergency mode is detected. EFFECT: increased stability of temperature, increased reliability, simplified design. 2 cl, 2 dwg

Description

 The electronic temperature controller is designed for use in electrical and radio devices and devices for various purposes, in particular for control and monitoring of the heating temperature.

 A device for controlling the temperature [1] is known, comprising a measuring bridge located in the thermostat housing, the output diagonal of which is connected to the input of an operational amplifier connected to a power amplifier connected by the output through a resistor to the base of the transistor-heater, whose collector is connected to the base of the heater on the field-effect transistor a power source, the gate of which is connected to the output of the power amplifier, while the field-effect transistor heater operates in an unsaturated mode in order to ensure I set the heating temperature.

Its main disadvantages are:
a) low temperature control range up to 100 ^o C, because transistor heaters no longer allow;
b) the complexity of the device and the inability to control the temperature in large volumes, for example a few m ³ ;
c) low reliability of the transistors at a temperature of 100 ^o C or more;
d) a large temperature drift of the parameters of operational amplifiers and their tendency to self-excitation at high amplification factors.

 It is known that the temperature controller of the PTR-2 type thermostat [2] contains a thermal resistance included in the bridge circuit with resistors powered by an alternating voltage from a network transformer, and a phase-sensitive PC amplifier with three transistors to control the operation of the MKU-48 relay, which is the load in the collector of the third transistor and is designed to signal deviations from the set temperature and to regulate it. The disadvantages of this device are low accuracy and instability of temperature control due to the instability of the parameters of the PC amplifier, the complexity of the design and power consumption in the initial state.

 The closest solution is a temperature controller [3] containing a thermistor connected to a power source, a resistor, limiting resistors, two transistors of the opposite type of conductivity, a reference zener diode, as well as a heater and an actuator.

 The aim of the present invention is to increase the stability of temperature control and simplify the device. This goal is achieved by the fact that in the electronic temperature regulator the first output of the temperature regulator is connected to the output of the driving resistor and the base of the first transistor, and through the first limiting resistor to the collector of the second transistor, the base of which is connected through the second limiting resistor to the collector of the first transistor, in the emitter circuit of which the reference a zener diode connected to the second terminal of the thermistor by another output, while the actuating element is made in the form of an electromagnetic relay and is included in the collector the secondary circuit of the second transistor, as well as the fact that it contains an emergency protection unit made on two transistors connected according to the thyristor circuit and connected between the collector of the second transistor and the common power bus, while the control input of this circuit is an emergency excess input parameter.

 The invention is illustrated in the drawing, where figure 1 shows the electrical circuit of an electronic temperature controller.

 It contains a thermistor 1 connected to a driving resistor 2 and the base of the first transistor 3, a reference zener diode 4 connected in series with the emitter-base junction of the first transistor, the collector of which is connected through the limiting resistor 5 to the limiting resistor 8 and the base of the second transistor 7, the emitter of which a limiting resistor 8 with a common power bus, and a collector with a winding of a relay 9, which is an actuating element, and through a limiting resistor 10 with the base of the first transistor. The temperature regulator also contains a heating resistor 11 and an emergency protection unit on transistors 12 and 13 included in the thyristor circuit and an input resistor 14, a limiting resistor 15, a heater 16, a reference zener diode 17.

 The temperature controller works as follows. Using a thermistor 1 and resistors 2, 10, 11, the opening and closing of transistors 3 and 7 is provided, i.e. pulse mode of operation. In the open state, currents flow through the transistors, the contact of the relay 9 is closed, so the heating element (for example, a spiral) is connected to an AC voltage of 220 V and at the same time an additional heating resistor 11 is connected to it through a resistor 15. The set temperature is set smoothly by a variable resistor 2. V when transistors 3 and 7 are closed, the relay contact is open and currents through resistors 11, 15 and the heating element 16 do not leak. The passage time of the currents and their pause depend on the temperature of the environment surrounding the temperature sensor on the thermistor 1 and the resistor 11, while maintaining the average heating temperature with high accuracy due to the large total gain of the transistors 3, 7 and their exact threshold for opening and closing using a zener diode 4 .

 In figure 2, the temperature sensor is connected through an additional amplifier.

 In emergency cases, when a voltage drop is applied through the resistor 14 to the input of the thyristor circuit on transistors 12 and 13, this protective circuit operates, while the contact of relay 9 opens and the voltage is removed from transistor 7, which excludes its transition from a closed to an open state and, therefore, passage of heating current. The device is powered by a zener diode 17. In some practical cases, the resistance of the resistor 8 may be zero, and the resistors 11 and 15 may be absent. You can run the device in the form of an integrated circuit.

Claims (2)

 1. An electronic temperature regulator containing a thermistor associated with a power source, a driving resistor, limiting resistors, two transistors of the opposite type of conductivity, a reference zener diode, and a heater connected to the network through an actuating element, characterized in that the first terminal of the thermistor is connected to the output of the driving resistor and the base of the first transistor, and through the first limiting resistor with the collector of the second transistor, the base of which is connected via a second limiting resistor to the the first transistor, in the emitter circuit of which a reference zener diode is connected, connected to the second terminal of the thermistor by another output, while the actuating element is made in the form of an electromagnetic relay and is included in the collector circuit of the second transistor.  2. The electronic temperature controller according to claim 1, characterized in that it contains an emergency protection unit made on two transistors connected according to the thyristor circuit and connected between the collector of the second transistor and the common power bus, while the control input of this circuit is an emergency excess input parameter.

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