SU1631531A1 - Power supply for electric heaters, primarily with a filament - Google Patents

Abstract

The invention relates to electrical engineering, in particular to sources of secondary power supply. The purpose of the invention is to expand the functionality by enabling the temperature to be controlled according to a given law. The device contains a regulator 1, a current sensor 2, a voltage sensor 3, an adder 4. a multiplier 5, amplifiers 6, 7 of the error signal, a reference source 8. The output of the adder 4 is a signal whose magnitude is proportional to the resistance of the load (filament) 13, depending on temperature. In amplifier 6, the output signal of adder 4 is compared with the reference signal of source 8. Amplified by amplifier 6, the error signal is fed to the reference input of amplifier 7, which is compared with the signal from current sensor 2. The result of this comparison is the voltage acting on the regulator 1 so that the temperature of the load 13 is monitored in accordance with the law specified by the source 8. 1 Il. (Ls

Description

The invention relates to electrical engineering and is intended for use in the implementation of power supply to heaters with increased requirements for reliability and / or the nature of heating.

The purpose of the invention is the expansion of functionality by providing the ability to control the temperature regime of the load according to a given law.

The drawing shows a functional diagram of the proposed power source of the electric heater.

The device contains a regulating body 1 (for example, a transistor in series type), a current sensor 2, a voltage sensor 3, an adder 4, a multiplier 5, the first 6 and second 7 mismatch signal amplifiers and a reference voltage source 8. The diagram also shows outputs 9 and 10 for connecting the primary DC voltage source, terminals 11 and 12 for connecting the load and the actual load (filament) 13. The input of the regulatory body 1 is connected to the terminals 9 and 10, and the output through the current sensor 2 is connected to the terminals 11 and 12 and the input of the voltage sensor 3 . The reference input of the amplifier 6 of the error signal is connected to the output of the source 8 of the reference voltage. The signal input of the amplifier 7 of the error signal is connected to the output of the current sensor 2, and the output is connected to the control input of the regulator 1. The first input of the adder 4 is connected to the output of the voltage sensor 3, the second input of addition is to its own output, the subtraction input is to the output of the multiplier, and the output is to the first input of the last and the signal input of the amplifier 6 of the error signal. The second input of the multiplier 5 is connected to the output of the current sensor 2, and the reference input of the amplifier 7 of the error signal is connected to the output of the amplifier 6 of the error signal.

The power source operates as follows.

The regulatory body 1 determines the current 1 in the load 13. In this case, a voltage U is formed at the terminals 11 and 12, depending on the temperature T of the load 13:

U = IR (T). O) where R (T) is the load resistance 13.

The current I is measured by the sensor 2 and the measurement result is supplied to the second input of the multiplier 5 and the signal input of the amplifier 7. The voltage U is measured by the sensor 3 and the measurement result is fed to the first input of the addition of the adder 4. At the output of the adder 4, a signal Щ is generated, which is supplied to its second input of addition .

the first input of the multiplier 5 and the signal input of the amplifier 6. At the output of the multiplier .. signal 5 is formed U5, equal to the product of the signals at its inputs:

U 5 = U4 I (2)

The signal U5 is fed to the subtraction input of the adder 4.

As a result, the output of the latter has a signal

U4 = U + U4 - U5. (3)

Solving equations (1), (2) and (3), we obtain U4 = R (T)

Thus, the signal Щ is proportional to the resistance of the load 13, which depends on its temperature T.

In the amplifier 6, the signal Щ is compared with the reference signal from the source 8. The mismatch signal amplified by the amplifier 6 is supplied to the reference input of the amplifier 7, where it is compared with the signal from the sensor 2. The result of this comparison is the voltage acting on the regulator 1 so that the temperature T of the load 13 (filament) was monitored in accordance with the law specified by the source 8.

The proposed power source, unlike the known ones, allows you to vary the value of the heating current of the filament with the simultaneous control of its condition, which makes it possible to control its temperature regime according to a given law. Temperature control allows you to increase the reliability of the filament, as this makes it possible to use gentle modes heating, eliminating both underheating and overheating of the filament.

Claims (1)

Claim The power source of the electric heater is mainly with a filament, containing a regulatory body, the input of which is connected to the terminals for connecting the primary DC voltage source, and the output through the current sensor is connected to the terminals for connecting the load and the voltage sensor input, the first error signal amplifier, whose opera input is connected to the output of the voltage reference, the second amplifier of the error signal, the signal input of which is connected to the output of the current sensor, and the output to the control input of the regulator a regulator, characterized in that, in order to expand the functionality by providing the ability to control the temperature of the load according to a given law, an adder and a multiplier are introduced into it, the first input of the addition of the adder connected to the output of the voltage sensor, the second input of addition to its own output, the subtraction input is to the output of the multiplier, and the output is to the first input of the last and the signal input of the first amplifier of the mismatch signal 5, the second input of the multiplier is connected to the output of the sensor then ka, and the reference input of the second amplifier of the error signal is connected to the output of the first amplifier of the error signal.