RU2448406C1 - Method to control resonant inverter with antiparallel diodes - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: in a method to control a resonant inverter with anti-parallel diodes a minimum value is specified for duration of an interval of conducting condition of an antiparallel diode equal to the time of thyristor disconnection. If the duration of the interval of the conducting condition of the anti-parallel diode reduces below the specified minimum value, control sequences of pulses are selected and generated, providing for increased duration of the interval of the disconnected condition of the thyristor.

EFFECT: increased reliability due to provision of switching stability of operation of a thyristor resonant current inverter.

2 tbl, 2 dwg

Description

The invention relates to electrical engineering, can be used in control systems for semiconductor frequency converters for electrical technology.

A known method of controlling a resonant inverter with counter-parallel diodes [RF patent No. 2341000, MKI N02M 7/48, 12/10/2008], which consists in the formation and alternating supply of control pulses to the key elements of the inverter, forming the direct and reverse half-wave current in the load, task the time interval, measuring the voltage across the thyristors, setting the minimum and maximum values for the duration of the interval of the conducting state of the thyristor and the anti-parallel diode, the minimum and maximum values of the forward voltage I on the thyristors and the maximum value of the thyristor current, forming the direct and reverse half-wave current in the load, measuring the thyristor current, prohibiting the supply of the next control pulse to the thyristors if the duration of the interval of the conducting state of the thyristor and counter-parallel diode is less than or exceeds the corresponding minimum and the maximum value of the duration of the interval of the conducting state of the thyristor and counter-parallel diode, the forward voltage on the thyristors is less than or exceeds the corresponding The minimum and maximum values of the direct voltage across the thyristors are set at a predetermined value, and the thyristor current exceeds the specified maximum value of the thyristor current.

The disadvantage of the control method is the interruption of the supply of the next control pulse, which is unacceptable for technological processes requiring continuous operation of the inverter.

A known method of controlling a resonant inverter with anti-parallel diodes [RF patent No. 2289195, MKI H02M 7/5383, 12/10/2006], operating on a load in the form of a series oscillatory circuit, which consists in the formation and alternating supply of control pulses to the key elements of the inverter, forming direct and reverse half-waves of the current in the load, measuring the instantaneous value of the load current, determining the moments of transition of the instantaneous value of the load current through the zero value, calculating the current average value of the load current narrow, in accordance with which control sequences of pulses are selected and generated that determine the switching combinations of the key elements of the inverter, the switching being carried out at the moment the instantaneous value of the load current passes through the zero value, and the switching combinations of the key elements of the inverter provide time intervals equal to the number N = 1 , 2 ... 9 half-periods of the resonant frequency of the load current oscillations with the supply of energy to the load and the closed state of the load, and if the measured current If the current value of the load exceeds a predetermined threshold, then control sequences of pulses are selected and generated, which provide a reduction in the ratio of the interval of energy supply to the load to the interval of the closed state of the load, and if the measured current average value of the load current is less than the specified threshold, then control sequences of pulses are selected and generated, providing an increase in the ratio of the interval of energy supply to the load to the interval of the closed state of the load.

The disadvantage of the control method is the possibility of thyristor failure due to reduced time provided for the restoration of control properties.

The closest in technical essence to the proposed method is the control method of the inverter, which consists in the formation and alternating supply of control pulses to the key elements of the inverter, forming the direct and reverse half-waves of the current in the load, measuring the thyristor voltage, forming a predetermined time interval, subtracting the real-time locking from the preset if the real time is less than the specified time, the thyristor control time interval is reduced, if the real time is more than the specified time interval liters of control are increased (E.Berkovich et al. Thyristor converters of increased frequency for electrotechnological installations. L .: Energoatomizdat. Leningrad. Department, 1983, p. 158-159).

The disadvantages of the prototype are: 1) the method is developed for circuits of parallel current inverters without counter-parallel diodes; 2) low performance of the device in practical implementation.

The objective of the invention is to increase the reliability of the thyristor resonant inverter with counter-parallel diodes when supplying an electrotechnological load with parameters that vary over a wide range due to the time required to restore the control properties of the thyristor, as well as reducing the current load of the thyristors while maintaining the inverter rated power.

The problem is solved in that in the method of controlling a resonant inverter with counter-parallel diodes, which consists in the formation and alternating supply of control pulses to the key elements of the inverter, forming the forward and reverse half-waves of the current in the load, set the minimum value of the duration of the interval of the conducting state of the counter-parallel diode equal to the turn-off time of the thyristor, and with a reduction in the duration of the interval of the conductive state of the counter-parallel diode is less than the specified min Of the maximum value, control sequences of pulses are selected and generated, providing an increase in the duration of the thyristor off interval.

The invention is illustrated by drawings (figures 1 and 2). The drawings show a diagram of the device and timing diagrams. The following notation is used in the diagrams (from bottom to top): V (VS) - instantaneous value of the voltage across the thyristor, V (U5A), V (U6A) - signals from the sensor and multivibrator, respectively, V (U30A), V (U31A) - signals from the outputs of the logic circuit, V (U9A), V (U10A) - signals from the outputs of the trigger, V (C6: 1, C6: 2) - control voltage of the frequency generator, V (U12A) - signal at the input of the pulse shaper, I (VS1 : GATE) is the instantaneous value of the thyristor control current.

The device for implementing the control method includes an inverter 1, consisting of a series circuit connected through a input choke 2 to a power supply (rectifier), formed by a switching choke 3 and counter-parallel connected by a thyristor 4 and a diode 5. This series circuit is shunted by a series-connected switching capacitor 6 and a load 7 formed in parallel by a capacitor 8 and an inductor, which, in turn, consists of a series-connected inductance spine 9 and resistor 10. Parallel to the valve pair, a voltage sensor 11 is connected, the output of which is connected to the clock driver 12 to start the waiting multivibrator 13, a signal source of a given duration. The outputs from the sensor 11 and the multivibrator 13 are connected to the inputs of the logic circuit 14 connected to the trigger 15, the outputs of which are connected to two keys 16 and 17, controlled by voltage. The keys form two parallel circuits with voltage sources 18 and 19, respectively. Both circuits are connected to the input of a voltage controlled frequency generator 20. The frequency generator 20 is connected to the inverter 21 of the inverter control. The output of the shaper 21 is connected to the input of the output stage 22, the output of which is connected respectively to the control electrode of the thyristor 4. The method can be implemented for various circuits of thyristor resonant inverters with counter-parallel diodes, the most common of which are: bridge inverter with a load in the diagonal, bridge an inverter with a load in the filter tank circuit and an asymmetric single-cell inverter. The control pulse generator 20 is made on logic circuits, the pulse shaper 21 is assembled on field-effect transistors.

A device for implementing the claimed control method operates as follows. In the initial state, the thyristor 4 is turned off and the voltage on it is positive. At one of the outputs of the trigger 15 there is a high-level enabling logic signal that activates one of the keys (16, 17) controlled by voltage. As a result, a voltage determined by the voltage of one of the sources 18 or 19 is applied to the frequency generator 20. As a result, a signal with a certain frequency is supplied to the pulse shaper 21, along the edge of which a pulse of sufficient duration is formed to turn on the thyristor 4. A control signal is supplied through the output stage 22 to thyristor control electrode 4. The output stage 22 provides a control pulse amplification to the required level and galvanic isolation of the power and information parts of the device. When the thyristor 4 is turned on, an oscillating discharge occurs and the commutating capacitor 6 is recharged through the switching inductor 3 and the load 7. After the current of the thyristor 4 drops to zero, the counter diode 5 is turned on and the switching capacitor 6 is discharged in the opposite direction. The discharge of the switching capacitor 6 ensures the recovery of excess reactive energy accumulated in the electromagnetic field of the elements of the switching circuit, and the stabilization of the inverter operating mode under changing load conditions. When the on-board diode 5 is operating, the voltage on the thyristor 4 takes a negative value, a rectangular pulse is formed along the edges of it, while the clock driver 12 starts a waiting multivibrator 13, the signal duration of which is set according to the passport turn-off time of the applied thyristor 4. In the logic circuit 14, the durations of two signals are compared and a mismatch pulse is generated, which activates the trigger 15. Logic circuit 14 consists of two blocks on the elements NOT and AND, and implements a goritm according to the truth table (Table 1, 2). In the normal mode of operation of the circuit, the duration of the signal from the sensor 11 exceeds the duration of the signal from the multivibrator 13, which corresponds to the appearance of a resolving positive pulse at the output of the second block of the logic circuit 14 (table 2). A control pulse is supplied to the second input of trigger 15, which leads to the appearance of a high level signal at the first output of trigger 15, as a result, key 17 is opened, and voltage of source 19 is supplied to frequency generator 20. Source voltage 19 is selected so that frequency generator 20 outputs pulses with a resonant frequency of operation of the applied thyristor inverter circuit 1.

Table 1
The truth table of the 1st block of drugs table 2
The truth table of the 2nd block of drugs U _vd U _OP U _OUT U _vd U _OP U _OUT 0 0 0 0 0 0 0 one one 0 one 0 one 0 0 one 0 one one one 0 one one 0

In the "emergency" mode of operation of the circuit, when the time required for the thyristor to restore the locking properties becomes less than the specified one, the signal duration from the sensor 11 becomes less than the signal duration from the multivibrator 13, which corresponds to the appearance of a positive positive pulse at the output of the first block of the logic circuit 14 (table one). Accordingly, a control pulse is applied to the first input of trigger 15, which leads to the appearance of a high level signal at the second output of trigger 15, as a result, key 16 is opened, and voltage of source 18 is supplied to frequency generator 20. Source voltage 18 is selected so that the frequency generator 20 gave out pulses with a frequency lower than the resonant frequency per increment Δf, which is selected depending on the parameters and circuit of the thyristor inverter 1.

An example of a specific implementation of the method

The proposed method is implemented on a simulation model in an OrCAD environment. For implementation, an asymmetric single-cell resonant inverter with an on-parallel diode with frequency doubling with a load of 25 kW and a frequency of 22 kHz was chosen. As models of semiconductor elements, the thyristor model TB143-630-14 and the diode model DC143-800-20 [Bolotovsky Yu.I., Tanazly G.I. Orcad. Modeling. "Cookbook. - M .: SOLON-Press, 2005. - p.142-154]. The parameters of the standby multivibrator 13 are designed for the duration of a given signal, equal to 18.5 μs. The voltage sources 18 and 19 are selected so that the control frequency corresponds to 10.7 kHz and 11 kHz. The "emergency" mode was created by changing the frequency during frequency regulation of power. Upon reaching the value of the control frequency of the level, which leads to a decrease in the turn-off time of the thyristor below a predetermined one, the system worked and did not allow the inversion to fail due to insufficient time to restore the locking properties of the thyristor. When the frequency changes in the direction of increasing the time required to restore the locking properties of the thyristor, the system stopped working.

So, the claimed invention allows to increase the reliability of the thyristor resonant inverter with anti-parallel diodes when feeding an electrotechnological load with parameters that vary widely over time by providing the time needed to restore the control properties of the thyristor.

Claims (1)

The method of controlling a resonant inverter with counter-parallel diodes, which consists in the formation and alternating supply of control pulses to the key elements of the inverter, forming the forward and reverse half-waves of the current in the load, setting the time interval, measuring the voltage across the thyristors, characterized in that they set the minimum value of the interval duration conductive state of the counter-parallel diode, equal to the turn-off time of the thyristor, and with a decrease in the duration of the interval of the conductive state of the sun RIVER-parallel diode is less than a predetermined minimum value is selected, and generating the control pulse sequences providing longer duration of off-state interval of the thyristor.

Images