SU1541705A1 - Device for protection of ac voltage to dc voltage from current overloads - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to expand the use of the device to protect the converter from overcurrent. In the absence of overcurrent, the output voltage of amplifier 5 increases, diode 8 rests, and the voltage at the first input of integrator 7 is kept constant regardless of the magnitude of the overload current. The output voltage of the integrator 7 rises linearly, and after a predetermined time, the diode 12 is opened, and the circuit is closed. The device provides a constant delay current-limiting, which allows its use in special purpose converters. 2 Il.

Description

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The invention relates to electrical engineering and can be used in control systems with controlled thyristor rectifiers.

The purpose of the invention is to expand the field of application of a device for protecting an alternating voltage converter against a constant overcurrent.

Figure 1 presents the block diagram of the proposed device; figure 2 is a timing diagram illustrating the operation of the device.

The device (FIG. 1) contains a voltage sensor 1, a converter 2, a current sensor 3, a load 4, an amplifier 5, a resistor 6, an integrator 7 a diode 8, a resistor 9, a zener diode 10, a driver 11 and a diode 12

The output of the voltage setting device 1 is connected to the first input of the converter 2, the output of which through the current sensor 3 is connected to the load 4. The output of the current sensor 3 through the voltage amplifier 5 and the first resistor 6 is connected to the first input of the integrator 7 and the first output of the diode 8, the second output which is connected to the first output of the resistor 9 and the first output of the Zener diode 10. The second output of the latter is connected to the common bus. The second output of the resistor 9 is connected to an auxiliary voltage source. To the second input of the integrator 7, connect the source of the reference voltage. The output of the integrator 7 through the diode 12 is connected to the input of the current-limiting converter 2.

The device works as follows.

The output signal of the voltage setting device 1 is fed to the first input of the converter 2. The output signal from the current sensor 3 is in the form of a voltage proportional to the current in the load 4, through the amplifier 5 and the first resistor 6 is fed to the first input of the integrator 7 and serially connected 1 first diode 8 and Zener diode 10. Through the second resistor 9 to the Zener diode 10 is supplied a constant voltage L p, which generates in it the initial current in the stabilization section. The resulting signal at the Zener diode 10 in the form of a constant negative voltage is applied to the anode of the diode 8 In the normal operation of the converter, when the load current 4 is less

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The maximum permissible negative signal at Zener diode 10 is greater in absolute value than the negative signal at the cathode of diode 8. As a result, diode 8 is kept in a closed state by the difference between the signal of Zener diode 10 and a signal proportional to the load current 4. Therefore, the chain consisting of a diode 8 and Zener diode 0, does not affect the signal coming from the output of amplifier 5 to the first input of the integrator 7. Under the action of the output signal of the setting element 11, the output signal of the integrator 7 has a negative sign and The value is close to the voltage of the power source. Diode 12 is held in the closed state and the output of integrator 7 does not affect converter 2.

In the overload mode, when the load current 4 exceeds the limit of the allowed current for the converter 2, the output negative signal of the amplifier 5 is in absolute magnitude greater than the negative signal at the Zener diode 10, Under the influence of the positive difference of these signals, the diode 8 is kept open, As a result This Zener diode 10, connected to the first input of the integrator 7 through the open diode 8, stabilizes the value of the input signal of the integrator.

Suppose at the time point C (FIG. 2) the current in the load 4 exceeds the maximum allowable value. In this case, the output signal 13 of the amplifier 5 exceeds in magnitude the negative signal 14 at the zener diode 10. At the same time, the diode 8 under the influence of the positive difference of the signals 13 and 14 opens and under-

5 switches on the first input of the integrator 7 to the zener diode 10; The current flowing from the output of the amplifier 5 through the series-connected resistor 6, the open diode 8 and the zener diode 10 creates a voltage drop across the resistor 6, which limits the rise of the signal at the first input of the integrator 7 regardless of the output change signal amplifier. Thus, the ratio of the signals at the first and second inputs of the integrator 7 at different values of the overload remains constant. Under the influence of the signal at the first input, which is in the mode of re

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load current is greater in absolute value of the output signal of the source, the output signal of the integrator 7 increases according to a linear law from the initial state U- to the value U

when diode 12 is opened,

The time from the moment of the overload to the moment when the diode 12 opens (times t, h t in FIG. 2) determines the current limit fit-tt-t.

so: y

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At

t,

15

where T is the time constant of integrator 7;

di - the difference of input signals during overload.

Due to the fact that when Lie is overloaded at a rate of 20 ke, the increase rate of the output signal of integrator 7 does not depend on the magnitude of the overload, i.e. delay & t constant, 25

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This makes it possible to select from the converter 2 for a period of time a fat pulse current exceeding the rated current. If, after the expiration of the time At, the current 0 of the converter 2 remains greater than the nominal, diode 12 is opened and a circuit of the automatic regulation of the converter 2 over current is formed.

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The integrator 7, through its output signal through the open diode 12 to the input of converter 2, limits its output current to a given level determined by the output signal of the source.

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Claims (1)

Invention Formula A device for protection of an alternating voltage converter into a constant against overcurrent, containing an output current sensor of the converter, an amplifier, an integrator, characterized in that, in order to expand the field of use, a zener diode, first and second resistors, first and second diodes, auxiliary a voltage source and a voltage source connected to the second input of the integrator, the amplifier output being connected through the first resistor to the first input of the integrator and the cathode of the first diode, the anode of which is Connected to the positive and negative poles of the auxiliary voltage source, respectively, through a zener diode and a second resistor, while the anode of the second diode is connected to the output of the integrator, and the cathode is intended to be connected to the input current limiting of the transducer to be protected.