SU588666A1 - High-power gas discharge tube - Google Patents

Description

one

The invention relates to the field of gas discharge devices, in particular, to the power supply, ignition and control circuits of high-power arc xenon lamps powered by low-frequency alternating current and intended for use in lighting devices.

A device for igniting high-power gas discharge lamps is known, which contains a power source from which a working capacitor is charged, periodically discharging through a switch to the primary winding of a pulsed transformer. A lamp is switched on in series with the secondary winding of the latter, to which, simultaneously with the high-voltage high-frequency pulses induced in the secondary winding, the line voltage of the industrial frequency is applied. Under the influence of high voltage pulses in the discharge gap of the lamp, electrical breakdown occurs and conditions for ignition in the arc discharge lamp are created due to mains voltage 1.

The closest to the present invention is a device containing a power source connected through the contact of the switching unit to the AC power supply terminals, to which a working capacitor is connected via a resistor. The capacitor discharge circuit is formed by a switch, for example

a spark gap with a sealed enclosure, and the primary winding of a pulse transformer, which, in addition to the primary and secondary windings, has an additional winding 2. To stop the operation of this device after the lamp ignites, it is necessary to additionally use various time relays that J complicate the system design and reduce its fit ness

In addition, the time delay determined by the parameters of the time relay is set with a margin, taking into account the maximum possible time of the game hall. Therefore, in most cases, the device and the device continues to work for some time even after the lamia is ignited, which is why the resource of its work is wasted.

In the case of xenon lamps with a capacity of 20 kW or more due to the large

the currents consumed by the lamp, the current relay must be connected through a current transformer, which greatly increases the size of the device. A device of such large dimensions is difficult to reliably seal, which is necessary when it is used under the influence of atmospheric factors, for example, when installing a lighting device on the mast by a lamp. In addition, with large operating currents, the xenon lamp is supplied directly from

AC network, the inclusion in the power supply circuit of the relay or current transformer windings reduces the reliability of the switching circuit of high-current circuits.

The aim of the invention is to increase the reliability and efficiency of a device for igniting a gas discharge lamp.

This goal is achieved by the fact that, in. A device containing a power source connected via the contact of a switching unit to the terminals of a non-time current network, to which a working capacitor with a discharge circuit formed by a switch, for example a spark discharge with a sealed housing, and the primary winding of the pulse transformer are connected to the current-carrying circuit which is connected to the terminal for connecting the lamp, and the other to the network, and the pulse transformer has an additional winding, switching unit chen through a low pass filter to the additional winding of the pulse transformer and via a further switch to the network.

The drawing shows a diagram of a device for igniting high-power gas discharge lamps. From the power source 1, in this case, a voltage doubled rectifier, through the current limiting element 2, the voltage is supplied to the operating capacitor 3, the discharge circuit of which is formed by the switch 4, in this case the spark discharge, and the primary winding 5 of the pulse transformer. The contacts of the lamp 7 are connected in series with the secondary winding 6 of the transformer. The additional winding 8 of the pulse transformer is connected via a low-pass filter 9 to a switching unit 10, which can be an electromagnetic relay, optionally equipped with a simple transistor amplifier. The switching unit has an AND contact that connects the power source 1 to the network. Through switch 12, the switching unit is connected to the same network. The device works as follows. To ignite the lamp 7, the switch 12 is turned on and the supply unit 10 is energized, then the switching unit contact 11 connects the power source 1 to the network and the device begins to generate ignition pulses. Due to the fact that there is only a high-frequency voltage on the windings of the pulse transformer, there is no voltage at the input of the switching unit 10, since for high-frequency currents the low frequency filter 9 is a very large resistance. After the lamp 7 is ignited, when a high-frequency power frequency current flows through the transformer winding 6, the power frequency voltage appears on the additional winding 8, and for low currents

The frequency filter 9 is a low resistance, and the voltage from the winding 8 is fed to the input of the switching unit 10, in which it acts on the electromagnetic relay directly or after preamplification. The switching unit is activated by contact AND the power source 1 is disconnected from the mains, as a result of which the charging current to the capacitor 3 stops and the ignition device stops working.

With simple switching of high-current circuits, the possibility of idle operation of the ignition device is excluded, which increases its service life and reliability. The low frequency filter and the switching unit are small in size, so that the overall dimensions of the ignition device do not practically increase regardless of

increase lamp power. This makes it possible to manufacture the device as a compact unit with reliable sealing. Such a device can be installed directly at the mast on the mast, thus reducing

loss of high-frequency energy in the supply line and reduction of the required power while ensuring resistance to climatic factors. The lamp is ignited even if the formation of an arc discharge is delayed, which is usually observed at the end of the lamp's service life. This makes it possible to increase the durability of the lamp.

Claims (2)

1. USSR author's certificate No. 216849, cl. H 05 B 41/23, 1966. 2. USSR author's certificate number 501500, cl. H 05 B 41/23, 1974, 0