CS212397B1 - Pulse power supply start circuit wiring - Google Patents

Abstract

The invention relates to the connection of the starting circuit of a pulsed power supply for its slow start-up and at the same time quick preparation for a new connection to the power supply network after disconnection. _ The mains voltage is supplied to the input terminals and is prepared at the output terminals by means of a triac for powering the converter of the power supply. The auxiliary transformer and electronic circuits are the source of the auxiliary supply voltages of the converter. The transformer on its primary winding tap is also the source of the supply voltages of the starting circuit. Rectified voltages are generated in the filter capacitors with the help of rectifier diodes. The emitter voltage of the second transistor is created by the second Zener diode and serves to determine the delay Tzp. After the time Tzp has elapsed, the first zero crossing of the input mains voltage, when its derivative is 0, switches the triac via the thyristor, the third transistor and the first transistor. From this moment on, the mains voltage is at the output, while its beginning is always determined by the zero crossing of the input mains voltage. Measures to block the operation of the overcurrent protection of the pulse source at the time of switching on the network are not necessary. The invention can be used in network converters to limit charging current peaks when connecting the converter to the network.

Description

The invention relates to the connection of a starter circuit of a pulse power supply for its slow start-up and at the same time a quick preparation for a new connection to the power supply after disconnection.

Existing known solutions do not fully ensure the time sequence of partial activities when the power supply is connected to the mains and the preparation of a new start after the mains disconnection is fast enough.

These drawbacks are eliminated by the circuit according to the invention, characterized in that the first input terminal e the output terminal are connected together, the second input terminal forms a common circuit conductor and is connected to the second output terminal by a triac and its working electrodes, the primary winding of the auxiliary transformer is connected with its first outer terminal to the first input terminal, second outer terminal to the common conductor, while the winding branch is connected to the cathodes of the first and second rectifier diodes, the anode of the first rectifier diode is connected to the common node formed a second diode of the first filter capacitor connected to a second discharge resistor terminal and a common conductor, the diode cathode is connected to a second terminal of the fifth resistor, further to a first terminal of the sixth from Accordingly, the second terminal of the delay capacitor is connected to the common conductor, while the second terminal of the sixth resistor is connected to the base of the second PNP transistor, the emitter of this transistor is connected to the common conductor through the second Zener diode. second rectifier diodes, the collector of the second transistor is connected via the eighth resistor to the base of the third NPN transistor and simultaneously through the ninth resistor to the anode of the second rectifier diode, which is additionally connected to the third transistor emitter and second filter capacitor, the anode of the thyristor is connected to the triac control electrode via a tenth resistor, the thyristor control electrode is connected to the collector of the first PNP transistor via a fourth resistor and the emitter is connected to a common conductor The base of this transistor is connected to the anode-cathode via a third resistor and an anode-cathode at the same time. It is also connected to the anode of the first Zener diode via a second resistor in series with a differentiating capacitor. the first input terminal, while the cathode of the first Zener diode is connected to a common conductor.

FIG. 1 shows the pulse power supply starter circuit, and FIG. 2 shows a timing diagram.

The first input terminal 8 is directly connected to the first output terminal 64, while the second output terminal 8 forms a common circuit conductor and is connected to the second output terminal 8 via triac 13 and its working electrodes, the primary winding of the auxiliary transformer 8 being its first extreme terminal 41. connected to the first input terminal 1 by the second outer terminal 42 to the common conductor, while the winding tap 43 is connected to the cathodes of the rectifier diodes 14.1. The anode of the diode 14 is connected to a common node formed by the terminals of the first filter capacitor 16 18 and the anode of the discharge diode 19, wherein the second outlet of the first filter capacitor 36 is connected to the second outlet of the discharge resistor 30 and to the common conductor, the cathode of the discharge diode 19 is connected to the second outlet of the fifth resistor 18 further to the first outlet of the delay capacitor 20 and the first outlet of the sixth resistor 26, the second terminal of the delay capacitor 20 is connected to the common conductor, while the second terminal of the sixth resistor 21 to the base of the second PNP transistor, the emitter of this transistor is connected to the common conductor via the second Zener diode 23 via the seventh resistor 24 with the anode of the second rectifier diode 15.

The collector of the second transistor 22 is connected via the eighth resistor 25 to the base of the third NPN 27 and simultaneously through the ninth resistor 26 to the anode of the second rectifier diode 52, which is simultaneously connected to the emitter of the third transistor 27 and the second filter capacitor 17. is connected to a common conductor circuit, wherein the collector of the third transistor 27 is connected to the cathode of the thyristor 28, wherein the anode of the thyristor is connected via the tenth resistor 29 is connected to the control electrode of the triac ££ _control electrode of the thyristor 28 is connected via a fourth resistor 12 connected to the collector of the first transistor 11 of the PNP type, whose emitter is connected to a common circuit conductor, to which, on the one hand, through the third resistor S. ^8, on the other hand, the base of the first transistor is connected via anode-cathode 10; a capacitor 2 connected to the anode of the first Zener diode 6, which is simultaneously via the first resistor J connected to the first input terminal 2, while the cathode of the first Zener diode 6 is connected to a common circuit conductor.

The line voltage is applied to the first input terminal 1 'and the second input terminal 2 and via triac 13 occurs at the first output terminal 1' and the second output terminal J for supplying the power supply converter.

The source of the auxiliary supply voltage of the inverter is the auxiliary transformer 8 and the non-drawn electronic circuits. This transformer at its branch 43 of the primary winding is also a source of power to the starter circuit.

The rectified voltages are generated at the first filter capacitor 16 and the second filter capacitor 17 by the first rectifier diode 14 and the second rectifier diode 15.

The voltage rise on the delay capacitor 20 is slowed by the fifth resistor 18 and its course is indicated by U (20) in FIG. The emitter voltage of the second transistor 22 is formed by the second Zener diode 23 and serves to determine the delay Tzp for stabilizing the auxiliary supply voltages of the pulse source.

After the time TZP first zero crossings of the input mains voltage - 1'až waveform 2 in FIG. 2 τ when the derivative is 0, switches the triac 13 through the thyristor 28 _f of the third transistor and the first transistor 27 of the eleventh

From this point on, the output formed by the first output terminal 1 'and the second output terminal J has a line voltage, the beginning of which is determined by the passage of the input force voltage at zero - the course 1 * to 2.

The initial pulse stabilizer current is determined by the current necessary to charge the filter capacitors, and in this case is limited by a defined rate of harmonic voltage rise and filter capacitor size.

There is no need to take additional measures to block the operation of the overcurrent protection of the pulse source at the time the grid is switched on; the protection remains active as soon as the grid is connected. The regeneration time of the starter circuit after disconnection of the mains is given by the discharge of the delay capacitor 20. In FIG.

The regeneration time in the circuit according to the invention is shortened by the discharge diode 19 and the discharge resistor 10.

The invention can be used in power converters to limit the charging current spikes in ¹ when the converter is connected to the mains.

Claims (1)

SUBJECT OF THE INVENTION Pulse power supply starter circuit connection, characterized in that the first input terminal ('') is directly connected to the first output terminal 1 '), while the second output terminal (2) forms a common circuit conductor and is connected to the second output terminal (3) by means of the triac (13) and its working electrodes, the primary winding of the auxiliary transformer (4) is connected to the first input beam (1 by the second extreme terminal (42) to the common conductor with its first extreme outlet (41), a rectifier diode cathode (14, 15), a diode anode (14) is connected to a common node formed by the terminals of the first filter capacitor (16) of the discharge resistor (30), the fifth resistor (18), and the discharge diode (19); the filter capacitor (16) is connected to the second discharge resistor outlet (30) and to the common conductor, the discharge diode cathode (19) is connected to the water of the fifth resistor (18), further with the first terminal of the delay capacitor (20) and the first terminal of the sixth resistor (21), the second terminal of the delay capacitor (20) is connected to the common conductor of PNP type (22), the emitter of this transistor is connected to a common conductor via a second Zener diode (23) in terms of anode-cathode and simultaneously through a seventh resistor (24) with the anode of the second rectifier diode (15) collector of the second transistor (22). ) is connected via the eighth resistor (25) to the base of the third transistor (27) of the NPN type and simultaneously via the ninth resistor (26) to the anode of the second rectifier diode (15) which is simultaneously connected to the semitor of the third transistor (27) and to the second filter capacitor ( 17), the second terminal of which is connected to a common circuit conductor, the collector of the third transistor (27) being connected to the cathode of the thyristor (28), the anode of the thyristor being over the tenth the resistor (29) is connected to the triac control electrode (13), the thyristor control electrode (28) is connected via a fourth resistor (12) to the collector of the first PNP transistor (11) whose emitter is connected to a common circuit conductor the base of the first transistor is connected via the third resistor (9) and the anode-cathode (10) in the sense of the anode-cathode, which is simultaneously connected to the anode of the first Zener diode (6) ), which is simultaneously connected via the first resistor (5) to the first input terminal (1), while the cathode of the first Zener diode (6) is connected to a common circuit conductor.