SU527035A1 - Device for creating a standby mode of a pulsed gas discharge lamp - Google Patents

Description

I

This invention relates to an impulse discharge lamp.

Ignition of pulsed lamps is used for the initial breakdown of the interelectrode space, in order to then discharge the battery capacitor capacitors. Most often, the lamp is ignited by a high-voltage pulse, but this creates a high level of interference and leads to a reduction in lamp life. In order to increase the service life of the MPa and reduce the interference created by the high-voltage ignition, the lamp is switched to the standby arc mode, during which the low-power arc discharge is constantly maintained in the laser, and the energy accumulator is connected to the lamp through switch, in particular through a thyristor.

A prerequisite for the steady burning of the pilot arc is the matching of the external characteristic of the power source with the current-voltage characteristic of the lamp. In the region of small currents characteristic of the stand-by arc mode, the volt-ampere characteristic of the lamp is incident. The falling external characteristic can be obtained by switching on the throttles in series with the power supply.

The presence of inductance in the lamp circuit increases the reliability of its burning, but ooh / ds

Conditions for the lamp to go to standby due to the inertia of the current build-up through the choke.

A device is known that allows an acceleration of current in a lamp circuit to be accelerated at the time of its ignition by connecting parallel to the terminals of a lamp or throttle different chains. In this device, such a chain consists of a resistor connected in parallel, and in order for the main current to pass through the lamp, the resistance of the resistor is chosen to be much higher than the resistance of the lamp in operating mode 1.

However, with large resistance values of the resistor at the time of ignition of the lamp, the current in its circuit may be insufficient to sustain combustion; for small values of the resistor, large thermal losses occur in it and to ensure normal lamp burning in the stand-by arc mode, the power of the source must be increased.

In the second known device for creating a stand-by arc of a pulsed gas discharge lamp, the inertia of current build-up in the circuit at the time of ignition of the lamp is reduced by connecting a chain consisting of a resistor and a diode parallel to the choke.

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In order to set the lamp in the steady-state mode “on duty”, the lamla current passed through the choke of the pilot arc. Using the circuit-free resistance of the resistor of much sick elements (thyristors) reduces to mini-mum droplet resistance. As a result, the maximum preparatory time, which will be this LR and large values of solotvleni 5, is determined only by the rise time of the toresistor current in the circuit at the moment of its rise through the choke.

Gigout 1 may not be sufficient for Fig. Figures 1-3 show the basic mode of the standby arc mode. Diagrams of various device options When reducing the value of the resistance to create the standby arc mode of the impulse resistor, the thermal gas discharge lamp will increase, the losses and to provide a normal standby mode for creating the standby mode of burning the magnification of mosh, but the presence of a flash gas discharge lamp (fig. source 1) contains a source of filament 1, pulsed. The disadvantage of this device is non-lamp 2, choke 3, decoupling yupdy diode 4, the starting current of sufficient magnitude that the thyristor 5 is MO, artificial switching unit 6. Jet result. extinction of the lamp. The stability of the nodzhig in this device is possible; the device works as follows, bake only the increase in power of re-power. Before igniting lamp 2, turn on the thermistor, which entails an increase in the 5, and the current from source 1 flows through the power of the source, decreasing to. .d and an increased throttle 3 and an open thyristor 5. At the time of the iMacco-overall characteristics of the oral-impulse ignition, the thyristor is turned off, the properties. The throttle current that has reached the technical-nominal value by this time is passed the device for the COSPU and provides in it the mode of duty Dani a mode of the duty arc of a pulsed arc.

discharge lamp containing the source ni-Device to create a standby mode

tani, pulse lamna, choke and chain-arc pulse gas gaz azd dnom1 na

ku consisting of a diode, a resistor and a condens-fig. 2 contains, besides all that is not enumerated,

the sator is connected to a pair of parallel terminals of a high-impedance 7. lamp. Pre-charged condensate

At the time of ignition, the device is ignited. An artificial switching node consists of a lead to the lamp through a diode and a resistor. A capacitor connected in parallel by opening the capacitor discharge to the lamna of the current through the sensing diode 4, the common point of the choke increases to a certain capacitor, diode 4 and the impulse lamp 2 of magnitude 3. 35 The high impedance resistor 7 is connected to the device. common point of the power source 1 and throttle during the discharge of the capacitor current throttling l 3.

villages may not reach the nominal value-the device works as follows

necessary to reliably burn the lamp. Before igniting the lamp 2, the pilot arc turns on during the standby mode, which leads to its 40stor 5 and provides a rapid increase in tokogasheniyu. through the inductor 3. Simultaneously, the known device will charge the capacitor 6 from the source 1 to either be secured or increased em-cut high-resistance resistor 7 and an open capacitor tic, or with the same capacitor 5. At the time of the pulse nodzhig, with the reduction of the inductance of the throttle However, the 45d resistance of the lamp drops sharply, for example, the nerve leads to a significant increase in the charged capacitor 6 of the weight and size of the device, and the second to the thyristor 5 and locks it. Current according to the external characteristics of the source, which has reached its nominal power and lamp. In addition, the device passes through the lamp and provides

during it has a large preparatory time in her mode “duty arc,

The term, which is due to the time-to-device in FIG. 3 additionally contains capacitor through choke and resistor capacitor 8.

and the rise time of the current through the choke. The artificial switching node consists of

The aim of the invention is to increase the 55 connected via a capacitor 8 of the parallel speed of current rise through the lamp in the primary thyristor 5, and the total

the ment of its ignition. The goal is to reach-point of the capacitor 8 and additional type by the fact that at the output of the device of the parallel-resistor 6 through the high-resistance resistor 7 is directly connected (Pe includes a thyristor with a node with a common point of the power source 1 and

and switch arrest. Pre-60drossel 3. The principle of operation of the device Anadaptive thyristor provides more logic to the previous one.

the rapid rise of current through the choke. According to the moment of pulsed ignition, therefore, at the time of ignition of the lamp, the magnitude of the additional thyristor, which is always closed in its circuit, has a nominal thyristor 5, the reverse voltage of the condenser, which ensures reliable ignition and 65sator 8.

additional capital switching thyristor

Claims (3)

1. A device for creating a duty mode of a pulsed gas discharge arc containing a power source and a choke, characterized in that the device is equipped with a thyristor rum with an art node (with The switching is connected in parallel to the power source and the choke, and the pulsed lamp is connected in parallel to the indicated thyristor through an isolating diode. 2. The device on. I, characterized in that the artifact switching node consists of a capacitor connected in parallel to an emitting diode, the common point of the capacitor, the diode and the impulse lamp drawing a high-resistance resistor connected to the common point of the power supply and the throttles. 3. The device according to claim 1, characterized in that the artificial switching node consists of an additional switching thyristor connected via a capacitor parallel to the main thyristor, the common point of the capacitor and the additional thyristor being connected to a common power source and Drossel. Sources of information taken into account in the examination: 1. Auth. St. No. 365867, cl. H 05В 41/30, 02.09.71 (analog). 2. Auth. St. No. 376907, cl. H 05В 41/30, 11.10.71 (a.nalog). 3. Auth. St. No. 361533, cl. H 05В 41/30, 04.30.71 (.prototype). -1-6 / 1 fuz.i