SU543211A1 - A device for powering an arc gas discharge lamp in a pulsed mode - Google Patents

Description

The invention relates to the field of electrical engineering, in particular, to devices for powering arc gas discharge lamps of optical quantum generators.

Power supply devices for arc gas discharge lamps are known, which ensure the operation of these lamps in pulsed modes with a double frequency of the AC supply network 1.

The closest technical solution is a device for supplying an arc gas discharge lamp from an alternating current network, which contains a buffer capacitor connected in parallel to the network, a switch, a working capacitor, a switch control unit and a lamia ignition unit containing an immersion transformer, high-voltage winding of which is connected in series with the lamp , and a shunt co-detector, connected in parallel with the lamp and the specified high-voltage winding of the pulse transformer.

Most arc gas discharge lamps fed with the aid of a known device have a short gas deionization time inside the lamp bulb and therefore over time from the flash

up to an outburst equal to -t, where -d is the duration of the flash in s; / - frequency of the grid in Hz, the lamp has time to restore its electrical strength. As a result, for

Normal operation of the entire device as a whole, before each flash of lamia, it is necessary to apply an ignition pulse to it, which significantly reduces the lamp life and imposes high demands on the design of the device from the point of view provided with increased electrical strength of the insulation.

The aim of the invention is to increase the lamp life by eliminating the supply of ignition pulses before each flash of the lamp after starting the device.

To do this, in a device for imitating an arc-discharge lamia containing a buffer capacitor connected in parallel with an AC network, in series with one of the plates of a working co-detector, the second plate of which is connected to one of the clamps for connecting the lamia, and an ignition unit with a shunt capacitor and an imimage transformer, one of the terminals of the secondary winding of which is connected to the network, and the other with the second terminal for connection

the lamp, one output of the shunt capacitor of the ignition unit is connected to the common point of the buffer capacitor and switch, the second output to the common connection point of the working co-detector and the first clamp for connecting the Lamia, and in the primary winding circuit

transformer block ignition entered the switch.

The drawing shows a diagram of the proposed power supply device.

The power supply device contains a buffer capacitor 1 connected in parallel to the network, a switch 2 connected in series, a working capacitor 3, an arc gas discharge lamp 4, a high voltage winding of a pulse transformer 5 of the ignition unit 6 with a switch 7, and a shunt capacitor 8. The shunt capacitor 8 is connected between the connection points of the buffer capacitor 1 and the switch 2, on the one hand, and between the points of connection of the working condenser 3 with the lamp 4, on the other hand.

The power device works as follows. After the circuit breaker is closed, the ignition unit generates, at times close to the amplitude values of the power supply, an ignition pulse, which is applied to the lamp 4 and penetrates through the secondary winding of the transformer 5. The ignition circuit after the lamp closes to the lower output of the secondary winding of the ignition transformer 5 through the plunging capacitor 8 and the buffer capacitor 1. Simultaneously with the breakdown of the lamp 4, one of the controlled gates of the switch 2 is turned on, with the network through the switch 2, the working capacitor 3, the lamp 4 and the secondary winding of the transformer 5 passes a current pulse, charging the working capacitor 3 and causing the solenoid of the lamp 4. After the capacitor 3 is charged, the gate of the switch 2 is closed and the power current through the lamp 4 is stopped. The shunt capacitor 8 after the termination of the power current provides for the flow through the lamp 4 of a small current that keeps the lamp in working condition. Therefore, the next time the controlled valve of switch 2 is opened, which occurs with a different polarity of voltage

the mains supply, the need for impulse is eliminated and the ignition unit switch 5 is turned off.

Thus, in the proposed device, the ignition pulses are not applied to the lamp with each flash of the lamp after the device has started to work, which significantly increases the lamp life and reduces the dielectric requirements of the device.

Claims (2)

1. US patent number 3086158, class. 320-1, 1963. 2. USSR author's certificate L 363419, M. Kl.2 N 01S 3/09, 1970. J