SU1429274A1 - Asynchronous rectifier series - Google Patents

Abstract

The invention relates to electrical engineering. The aim of the invention is to increase reliability by stabilizing the amplitude of the supply voltage. The rotor windings of the asynchronous motor 1 of the asynchronous valve cascade via resistors 3, uncontrolled bridge rectifier 5, throttle 6, 7 rectified current, inverter 8 and matching transformer 10 are connected to the mains. Inverter 8 is controlled by pulse-phase control system 9. Resistors 3 are bridged thyristor -1b m by switch 4, controlled by control unit 11, connected to the output of logic element I.PI 12. Element OR 12 inputs are connected via network adapters) 3s 14 to the asynchronous valve cascade a mode control unit 25, sensors of the rotor and inverter currents 16, 17, the logical element OR 20 controlled by

Description

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key 21. The inputs of the element OR 20 through the matching amplifiers 18, 19 are connected to sensors 16, 17, respectively, and the output to the control input: key 21. 1Spuch 21 is connected between the input of the operational amplifier 24 and the output of the source 22 of the reference voltage. The second input of the amplifier 24 is connected to the output of the source 23 for supplying: voltage, and the output to one input: block 25, the second input of which is connected to the output of sensor 7. With the jpacTaHHH voltage, the output of the rectifier is 5 and an inverter 8 at the output of the element OR 20 a signal appears, the key

21 closes, and the information input of the unit 25 is connected to the source 22. The phase of the control pulses of the inverter 8 corresponds to the minimum voltage in the inversion mode. The current in the power circuit of the cascade increases to an acceptable maximum value. At the output of the element OR 12, a signal appears, under the action of which the switch 4 operates. A resistor is inserted into the rotor circuit, limiting the current. In this case, it is possible to avoid the operation of the normal protection during abnormal fluctuations in the supply voltage. 1 il.

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This invention relates to electrical engineering and can be used in electric drives of industrial machinery powered by sources with unstable voltage.

The aim of the invention is to increase reliability by stabilizing the amplitude of the supply voltage.

The drawing shows the block diagram of the asynchronous valve cascade.

The asynchronous valve cascade contains an asynchronous motor 1 with a phase rotor, the terminals of the windings of which are connected to the mains through the switch 2, and the windings of the rotor through the resistors 3, shunted by the thyristor switch 4, are connected to the input of the bridge rectifier 5, made of irIvolvl. The output of the battery is 5 through the choke 6 and the sensor 7 of the rectified rotor current is connected to the power input of the inverter 8, the control input of which is connected to the system 9 of the pulse-phase control. The output of the inverter 8 is connected to the primary winding of the matching transducer 10, the secondary winding of which is connected to the network. The control input of the thyristor switch is connected to the output of the control unit 11, the input of which is connected to the output of the logic element OR 12. The first input of the logic element OR 12 is connected to the output of the matching amplifier 13, and the second input - to the output of

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Auxiliary amplifier 14. The input of amplifier 13 is connected to the sensor 15 of the supply voltage, and the input of amplifier 14 to the output of sensor 7 of the rectified rotor current.

The asynchronous valve cascade is equipped with sensors 16 and 17 of the rotor voltage and the inverter, respectively, two matching amplifiers 18 and 19, an OR 20 element, controlled by the switching element 21, and 22 and 23 reference and driving voltages, respectively. amplifier 24 and mode control unit 25. The information input of the mode control unit is connected to the output of the sensor 7 of the rectified rotor current, the driving input to the output of the operational amplifier 24, the first input of which is connected to the output of the voltage source 23 and the second input to the output of the source 22 reference stress. The output of the mode control unit 25 is connected to the control input of the system 9 of the pulse-phase control. The control input of the switching element 21 is connected to the output of the logic element OR 20, the first input of which is connected to the output of the matching amplifier 18, and the second input to the output of the matching amplifier 19. The output of the amplifier 18 is connected to the inverter voltage sensor 17, and the output of the amplifier 19 - to sensor 16 for voltage of the rotor.

Asynchronous fan cascade works as follows.

The trigger threshold of the operational amplifiers 13, 18 and 19 is selected according to the conditions of the steady state.

The trigger threshold of amplifier 14 is set equal to the availability. the maximum value of the load current of the asynchronous valve cascade.

In the normal mode, the control input of the mode control unit 25 through the amplifier 24 is connected to the source 23 of the driving voltage. By varying the voltage of the source 23, the corresponding voltage of the amplifier 24 is set. This corresponds to a change in the voltage of the inverter 8 from the maximum value to zero and, accordingly, to the frequency of rotation of the asynchronous motor 1 from the minimum value to the subsynchronous rotation frequency.

When the voltage drops below the critical value in a rotary jj; enii asynchronous motor, a current arises which can cause the inverter to break down. This voltage drop is controlled by the matching amplifier 13. At its output, a voltage appears that passes through the logic element OR 12 and is a command to the control unit 11 to remove the control voltage from the thyristor switch 4, as a result of which the asynchronous rotor motor 1 introduces resistors 3; the rotational speed decreases, but due to the increase in torque, the drive continues to operate.

With increasing voltage at the input of the rectifier - 5 and the output of the inverter 8, controlled by amplifiers 19 and 18, a voltage appears at the output of the RSh 20 logic element, which is a command to connect the information input of the mode control unit 25 through the switching element 17 to the output of the source 22 of the reference voltage. The phase of the control pulses of the inverter 8 is set to correspond to the minimum: the voltage of the inverter mode of the inverter 8. The current in the power circuit of the asynchronous gate cascade increases to the maximum allowed

the value limited by the threshold value of the matching amplifier 14, at the output of which the voltage passes through the logic element OR 12 to the control unit 1 of the thyristor switch 4. Resistor 3 is introduced into the rotor circuit, limiting the current.

0After normal recovery

the amplitudes of w-1 voltage at the outputs of amplifiers 18 and 19, and therefore, at the logic of the logic element OR 20, the inverter 8 operates in

5 set steady state. In this way, it is possible to avoid triggering a regular signal during abnormal fluctuations in the supply voltage, which makes it possible to increase the reliability

0 work asynchronous valve cascade.

Claims (1)

Invention Formula 5 Asynchronous valve cascade containing a phase-rotor asynchronous electric motor, the windings of which through a rectifier bridge, the choke and the sensor of the rectifier of the rotor current are connected to the power the inputs of a controlled inverter with a pulse-phase control system, the output of which is connected to the terminals of the primary winding of a matching transformer equipped with a secondary winding for connecting to the network, about 11 (with the aim of increasing the reliability by stabilizing the amplitude of the niiTaicmiero voltage, the rotor voltage sensors of the asynchronous electric motor and the voltage of the inverter, two matching amplifiers, the OR element, the controlled switching element, the sources of the driving and reference voltages, an ion amplifier and a mode control unit, whose information input is connected to a sensor; - a rotor current output, setting input Q of the mode control unit is connected to the output of the operational amplifier, and the output of the control unit is connected to the control input of the pulse-phase control system, the first input is operational. A power amplifier is connected to the output of the source of the driving voltage, and the second input through the control switching element is connected to the output of the reference voltage sinker, which is controlled by a control 511429274 The corresponding input of the specified switching amplifier is connected by a corresponding element to the output elementally with the outputs of the voltage sensors OR, whose inputs are via the matching rotor and the inverter.