SU847532A1 - Device for igniting gas-discharge flash bulbs - Google Patents

Description

one

The invention relates to electrical engineering and can be used to power pulsed gas discharge pump lamps of optical quantum generators, in light signaling and photographic equipment.

A device for igniting gas flash lamps is known, which contains a power supply unit, a rectifier, two storage lines, two groups of gas discharge lamps connected in parallel to the storage lines through a two-core inductive leveling device. Ignition of gas discharge lamps is carried out from a common pulse transformer connected to the pulse generator l.

A disadvantage of the device is the low reliability of ignition of gas discharge lamps due to the parallel connection of the lamps during ignition and the possibility as a result of this mutual shunting of them. In addition, the charge of storage lines in this device is not fixed by the voltage level, which is unacceptable, for example, when pumping optical quantum generators. This device is not applicable for igniting a group of gas discharge lamps.

It is also known a device containing a source of direct voltage - storage capacitors, gas discharge lamps, an ignition unit connected by an input to the output of a control unit, an output connected by a pulse transformer, the secondary winding of which is connected to a group of communication capacitors, through each

10 of which are carried out by firing a separate lamppa, it is possible that a single ignition unit may include several lamps 2.

However, this device does not implement voltage monitoring.

The closest technical solution to the invention is a device for igniting a gas discharge lamp containing a voltage regulator, a rectifier, an ignition transformer, a lamp in parallel with which a voltage divider is connected, under a KJao4eHHHn output to a threshold element controlling the operation of the master oscillator connected output to the ignition unit Sz.

However, the device is complex and therefore has reduced reliability, it is not always advisable to use it,

thirty

especially in the simplest cases of the use of flashlights.

The purpose of the invention is to increase the reliability of the device.

The goal is achieved by the fact that a device for igniting gas-discharge flash lamps containing a constant voltage source connected via an output unit to the anodes of the isolating diodes, according to the number of lit lamps, cathodes of the separating diodes are connected to the plates of the storage capacitors, the other plates of which are connected together and connected through a choke to a common lead for connecting pulsed gas discharge lamps and to the end of the secondary winding of a pulse transformer, individual leads for lamp connections are connected via isolating chokes to cathodes of isolating diodes and via coupling capacitors to the beginning of the secondary winding of a pulse transformer connected to the output of the ignition unit, a voltage divider connected by an input to a series-connected DC source and charging unit, and the threshold element, and the output for connecting the clock pulses, is equipped with a controllable limiter for the amplitude of the control pulses, the control input of which is connected to the output de A voltage input, a sync input is connected to an output for connecting to a source of clock pulses, and the output is connected to an input of a threshold element connected by an output to an input of an ignition unit.

The drawing shows a schematic diagram of the device.

The circuit contains a source of constant voltage 1, charging unit 2, storage capacitors 3-5, connected to the charging device through separation diodes 6-8, gas discharge lamps 9-11, connected in parallel to storage capacitors through chokes 12-15, block 16 the ignition is connected to the lamps through a pulse transformer 17 and coupling capacitors 18-20, a voltage divider made using resistors 21 and 22, the output is connected to the control input 23 of the limiter 24 of the amplitude of control pulses consisting of a resistor 25, a diode a 26, a capacitor 27, an output 28 for connecting to a source of clock pulses and an output 29 connected to the input of the threshold element 30, the output of which is connected to the input of the ignition unit 16.

The device works as follows.

When switching on the source of constant voltage 1 through the charging device. 2 and separation diodes 7 and 8, a slow charge of storage capacitors 3-5 is produced. At the same time, the voltage of the driver 27 is charged through the resistor 22 of the voltage divider and the input 23 of the limiter 24.

By the time of charging the capacitors 3-5 to the required level of the operating voltage of the gas discharge lamps, the capacitor 27 is also charged to the level of the nominal voltage, determined by the ratio of the resistances of the resistors 21 and 22 of the divider.

. . The incoming input 28 launching. the sync pulse through the resistor 25 is fed to the input of the threshold element 30. The capacitor 27 does not block the input of the threshold element 30, since the diode 26 is locked by the nominal voltage of the capacitor 27. Under the action of the trigger amplitude of the nominal amplitude, the threshold element triggers and separates the pulse to the input of the block 16 to burn From block 16, a high-quality secondary winding impulse increased in amplitude up to several tens of kilovolts through a pulse transformer 17 and a capacitor 18-20 is fed to the ignition of the gas discharge lamps 9-11. In this case, the reactance of the chokes 12-15 for a high-quality ignition pulse is larger and the capacitors 3-5 do not bypass the secondary winding of the impulse transformer. Under the action of a high-voltage pulse in lamps 9–11, preliminary interelectrode breakdown occurs, which then passes into a high-current flash and discharge process of accumulative air conditioners 3–5.

Capacitors 18–20 have a small capacity (on the order of a few hundred picofarads). They simultaneously fulfill the role of current-limiting elements in the ignition circuit of the lamps. Thus, during ignition, the shunting of the remaining lamps with one lamp and the ignition of the lamps at the same time is eliminated. When using the proposed scheme, the number of lamps ignited by a single pulse transformer 17 can be increased.

In case the capacitors 3-5 turn out to be uncharged to the required input to the input 28 of the next sync pulse, the operating voltage of the lamps, then the capacitor 27 has a correspondingly low voltage, respectively, the sync pulse of the device after the resistor 25 is limited in amplitude and cannot trigger threshold 30, i.e. Ignition of 9-11 lamps with uncharged capacitor batteries cannot occur.

Claims (1)

The claims of the invention A device for igniting gas discharge flash lamps containing a constant voltage source connected via its output to the anodes of the 15 diode isolation diodes, whose number is equal to the number of lamps lit, the cathodes of the diode connected to the plates of the storage capacitors, the other plates of which are connected 20 together and connected through the inductor to the common terminal for connecting pulsed discharge lamps and to the end of the secondary winding of a pulse transformer, individual terminals for connecting The lamps are connected through isolation chokes to the cathodes of isolation diodes and through coupling capacitors with the beginning of the secondary winding of the pulse transformer, the primary winding connected to the output of the ignition unit, a voltage divider connected to the input to the DC voltage source and the charging unit, the threshold element and the output for connecting clock pulses, characterized in that, in order to increase the reliability of the device, it is equipped with a controlled limiter of the amplitude of the control pulses I, whose control input is connected to the output of the voltage divider, the synchronizing input is connected to the output for i-connection to the clock source, and the output is connected to the input of a threshold element, the output of which is connected to the input of the ignition unit.