SU699681A1 - Device for power supply and ignition of xenone lamps - Google Patents

Description

one

The invention relates to the field of electrical engineering and can be used in devices for powering and igniting xenon lamps used as a light source in lighting and projection devices of cinema equipment.

Xenon lamp ignition devices are known, comprising a rectifier supplied from an auxiliary winding of a power rectifier transformer, made on a thyristor with a control circuit 1.

The closest in technical essence to the proposed invention is a device for powering and igniting xenon lamps, containing a power supply rectifier connected to the network through a three-phase transformer, one output of which is connected to the first terminal for connecting the xenon lamp directly, and the second is connected to another terminal for connecting a lamp through a smoothing choke, and an ignition circuit connected to the indicated terminals consisting of an additional winding of a three-phase transformer and a connection connected with it sequentially controlled valve with

control circuit, shunted by high-speed current sensor power rectifier 2.

A disadvantage of the known device is the low reliability of re-ignition.

The purpose of the invention is to increase the reliability of re-ignition of a xenon lamp.

This goal is achieved by the fact that in a known device for powering and igniting xenon lamps a high-speed sensor is made in the form of a pulse transformer installed in the gap of the smoothing throttle of the power supply circuit.

The drawing shows the scheme of the described device.

The xenon lamp 1 is connected via a smoothing choke 2 to the rectifier 3, which is connected to a three-phase transformer 4.

The xenon lamp ignition device consists of an additional winding 5 of a transformer, a thyristor 6 and a control circuit consisting of a diode 7 connected by the anode to the midpoint of the additional winding 5, and a cathode to the capacitor plate 8 and a capacitor 9 connected in series with the resistor 10. Parallel to this chain, a series circuit is connected, consisting of the primary winding of a pulse transformer 11, two basic diodes 12 and a resistor 13. The secondary winding of a pulse transformer is shunted by a diode 14 and turned on In the circuit of the cathode control electrode of the thyristor 6, which is connected to the transformer 5, there is a series circuit connected to the terminals of the power rectifier 3. The pulse transformer 11 is located in or close to the gap of the smoothing throttle 2.

When the supply voltage is turned on, the windings of the power transformer from its additional winding 5 are supplied to the thyristor 6. In addition, power is supplied to the diode 7 and the capacitor 8, as a result of which the voltage for the auxiliary generator appears on the elements 9, 10, 12, 13, which is generated in the secondary winding of a pulse transformer 11 with a frequency of about 5-20 kHz necessary to turn on the thyristor 6. The thyristor 6 opens and an increased voltage on the electrodes of the xenon lamp 1, which greatly exceeds the nominal voltage at the output of the power rectifier 3, which accelerates and facilitates the process of igniting the xenon lamp. The lamp resistance drops sharply and the power rectifier 3 turns on, while in the gap of the smoothing throttle 2 there is a magnetic field, which causes the magnetic circuit of the pulse transformer 11, resulting in the transformation of pulses into the secondary winding and at the same time into the power thyristor circuit 6, the thyristor 6 stops the pulsating overvoltage shuts down. When the lamp goes out for whatever reasons (defect in the lamp, leakage in the circuit, aging of the lamp, etc.), the magnetic field in the gap of droplets 2, the magnetic circuit of the pulse tansformator will disappear. And again it will be able to transform into the secondary winding the pulses that will open the thyristor 6

and on the electrodes of the xenon lamp 1, the increased pulsating voltage reappears, which will ignite the lamp, the power rectifier 3 is put into operation and the ignition circuit is turned off.

The advantage of the proposed device is that the xenon lamp re-ignition process is carried out regardless of the mezanism features of the ignition circuit, which disables the ignition circuit, since it has no mechanical movement of the contacts, and the control is performed by the magnetic field of the power supply of the rectifier filter, which increases reliability circuit, provides re-ignition of the xenon lamp.

Claims (2)

1. USSR Author's Certificate No. 311430, cl. H 05 B 41/231, 1970. 2. USSR author's certificate number 415839, cl. H 05 B 41/231, 1972.