RU205269U1 - Temperature regulator - Google Patents

Abstract

The utility model relates to the field of electrical engineering, electronics and automatic temperature control, and can be used to adjust and maintain the heating temperature of soldering irons at a given level. The technical result is achieved due to the fact that a temperature controller containing a comparator, a temperature setting device connected to the input of the comparator, a positive voltage stabilizer, an electronic switch, a heater and a thermocouple connected in series, an amplifier whose output is connected to an electronic switch, while additionally equipped with a thermocouple signal amplifier, the output of which is connected to the comparator input, and an integral timer, the input of which is connected to the comparator output, and the output connected to the input of the amplifier, and the electronic key of the temperature controller is made on a bipolar pnp transistor. The technical result is to increase the reliability of the temperature controller and increase the accuracy of temperature control of the soldering iron.

Description

The utility model relates to the field of electrical engineering, electronics and automatic temperature control, and can be used to regulate and maintain the heating temperature of soldering irons at a given level.

Known temperature controller (RF patent No. 2263339, IPC G05D 23/20, publ. 27.10.2005, bull. No. 30), consisting of a heater, a sensor and a temperature sensor connected to the inputs of the amplifier, key, voltage converter with the first transformer and the second transformers, pulse generator, mains voltage rectifier, filter and heater.

The disadvantage of this temperature regulator is the difficulty in setting up and insufficiently good repeatability in production, which is due to the construction of a voltage converter according to an autogenerating circuit.

Known temperature controller (RF patent No. 2239864, IPC G05D 23/19, publ. 10.11.2004, bull. No. 31), consisting of a temperature sensor and a temperature sensor connected to the inputs of the first amplifier, a thyristor switch connected to the output of the heater, the second amplifier, output connected to the control electrode of the thyristor, resistor and diode.

The disadvantage of this temperature controller is the difficulty in setting up and the ability to work only from an alternating voltage source.

Known heating temperature regulator (RF patent No. 2105345, IPC G05D 23/19, publ. 20.02.1998), consisting of a temperature setpoint, a comparison element, a temperature sensor, a sample-storage element, a pulse-width modulator, a sync pulse generator, a one-shot, an element And, heater and switch.

The disadvantage of this temperature controller is the significant complexity and insufficient accuracy of temperature control.

The closest to the useful model is the simplest T12 soldering station (The simplest T12 soldering station. Access mode: https://handmade32.ru/elektronika/prostejshaya-payalnaya-stantsiya-na-zhalah-t12/. - Heading with screen), consisting of a comparator, a temperature sensor, a resistor, a capacitor, a resistor divider, a second comparator, a positive voltage stabilizer, an amplifier, an electronic switch on a field-effect transistor with a p-type channel, a heater and a thermocouple. This device is designed to work with soldering irons equipped with a T12 tip, the heater of which is connected in series with a thermocouple.

The disadvantage of this simplest soldering station on T12 tips is insufficiently high reliability of operation and low control accuracy in static and dynamic modes due to the low level of the thermocouple signal, which is 6 mV at a temperature of 300 ° C, which is at the level of the minimum input voltage of the comparator, and also due to the influence of noise on the input circuits of the temperature controller, induced in the measuring circuit by the heater current.

The problem to be solved by the claimed utility model is to develop a temperature controller that provides high accuracy of temperature control and low sensitivity to interference.

The technical result is an increase in the reliability of the temperature controller and an increase in the accuracy of the temperature control of the soldering iron.

The technical result is achieved due to the fact that a temperature controller containing a comparator, a temperature setting connected to the input of the comparator, a positive voltage stabilizer, an electronic switch, a heater and a thermocouple connected in series, an amplifier, the output of which is connected to an electronic switch, is additionally equipped with a signal amplifier thermocouple, the output of which is connected to the input of the comparator, and an integral timer, the input of which is connected to the output of the comparator, and the output is connected to the input of the amplifier, and the electronic key of the temperature controller is made on a bipolar transistor of a pnp structure.

The essence of the proposed temperature controller is to introduce a thermocouple signal amplifier and an integral timer into it, which forms a pulse of fixed duration to control an electronic key on a bipolar p-n-p transistor, which will improve the accuracy of temperature control and increase the reliability of the temperature controller.

FIG. 1 shows a block diagram of a temperature controller. FIG. 2 shows the voltage diagrams at the characteristic points of the temperature controller circuit.

The block diagram of the temperature controller (Fig. 1) contains a thermocouple signal amplifier 1, a temperature setpoint 2, a comparator 3, to the inputs of which signals are supplied from the outputs of the amplifier 1 and a temperature setpoint 2, an integral timer 4 controlled by the output signal of the comparator 3, a positive voltage stabilizer 5 , an amplifier 6, an electronic switch 7 on a bipolar pnp transistor, a heater 8 and a thermocouple 9 connected in series and connected between the positive (+ U) and negative (-U) terminals of the power supply. The input of the signal amplifier of the thermocouple 1 is connected to the output of the electronic switch 7 on a bipolar pnp transistor. The output voltage of the positive voltage stabilizer 5 is intended to power all temperature controller units.

The temperature controller works as follows.

The thermocouple signal amplifier 1 amplifies the output voltage of the thermocouple 9, which is fed from the output of the thermocouple signal amplifier 1 to the first input of the comparator 3, the second input of which is supplied with voltage from the temperature sensor 2. FIG. 2, a shows the amplified voltage of the thermocouple signal at the output of the thermocouple signal amplifier 1 (continuous line) and the voltage of the temperature sensor 2 (dashed line). Comparator 3 compares these voltages, and in the case when the voltage of the signal of the thermocouple 9 becomes lower than the voltage of the temperature setpoint 2 (time t ₁ ), a low voltage level appears at the output of the comparator 3, and at this moment the integral timer 4 starts, at the output of which a voltage pulse of a fixed duration t _and = t ₂ -t _{1 is formed} (Fig. 2, b), which is amplified by an amplifier 6 and fed to an electronic switch 7 on a bipolar transistor of a pnp structure, opening it.

In this case, from the positive (+ U) output of the DC power supply through the series-connected electronic switch 7 on the bipolar pnp transistor, the heater 8, and through the thermocouple 9 to the negative (-U) output of the DC power supply, a current begins to flow (Fig. 2, c, periods of time t ₁ -t ₂ , t ₃ -t ₄ , t ₅ -t ₆ ). During the time of the open state of the electronic switch on the bipolar transistor of the pnp structure, a positive voltage is present at the output of the signal amplifier of the thermocouple 1, which is equal to the output voltage of the positive voltage stabilizer 5. After the end of the pulse at the output of the integral timer 4, the electronic switch 7 on the bipolar transistor of the pnp structure is closed, and the current from the positive (+ U) terminal of the DC power supply through the series-connected heater 8 and thermocouple 9 is terminated. Since the thermocouple 9 is heated, at the input of the signal amplifier of the thermocouple 1 there is a voltage proportional to the temperature of the heater 8, which is amplified by the signal amplifier of the thermocouple 1 (Fig. 2, a, time periods t ₀ -t ₁ , t ₂ -t ₃ , t ₄ -t ₅ ).

When the voltage of the thermocouple 9 from the output of the signal amplifier of the thermocouple 1 becomes lower than the voltage of the temperature setpoint 2 (times t ₁ , t ₃ , t ₅ in Fig. 2, a), then a low voltage level is formed at the output of the comparator 3, which starts the integral timer 4 , the pulse from the output of which is amplified by the amplifier 6 and opens the electronic switch 7 on the bipolar pnp transistor, and the process is repeated.

If the voltage of the thermocouple 9 from the output of the signal amplifier of the thermocouple 1 is higher than the voltage of the temperature setpoint 2, then a high voltage level is formed at the output of the comparator 3, while the start of the integral timer 4 does not occur.

In the experimental model of the temperature controller, the LMC6482AIMX operational amplifiers were used for the thermocouple signal amplifier and the comparator, the L78L05ABZ positive voltage stabilizer, the KR1006VI1 integral timer, and the electronic switch - a bipolar pnp-transistor of the TIP127 type.

Thus, a temperature controller containing a thermocouple signal amplifier, a temperature setting device, a comparator, to the input of which signals from the outputs of the amplifier and temperature setting device are fed, an integral timer controlled by the output signal of the comparator, a positive voltage stabilizer, an amplifier, an electronic switch on a bipolar pnp transistor , a heater and a thermocouple connected in series, provides an increase in the reliability of the temperature controller and an increase in the accuracy of the temperature control of the soldering iron.

Claims (1)

A temperature controller containing a comparator, a temperature setting device connected to the input of the comparator, a positive voltage stabilizer, an electronic switch, a heater and a thermocouple connected in series, an amplifier whose output is connected to an electronic switch, characterized in that the temperature controller is additionally equipped with a thermocouple signal amplifier, the output of which connected to the input of the comparator, and an integral timer, the input of which is connected to the output of the comparator, and the output is connected to the input of the amplifier, and the electronic switch of the temperature controller is made on a bipolar transistor of a pnp-structure.

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