SU1578848A1 - Method of supplying gas-discharge lamps - Google Patents

Abstract

The invention relates to electrical engineering, in particular to lighting engineering, and can be used for efficient operation of gas discharge lamps. The aim of the invention is to improve the lighting and energy characteristics of the lamps, increase their service life and reduce the level of radio interference. The invention consists in supplying gas-discharge lamps with bipolar symmetrical current pulses of increased frequency with smoothly varying front and cut with pauses of not more than 5-10 -5 s, between pulses and duty cycle of not more than 6. 1 sludge.

Description

The invention relates to lighting and can be used to ensure efficient operation of gas discharge lamps with both cold and heating electrodes.

The purpose of the invention is to improve the lighting and energy characteristics of lamps, increase their service life and reduce the level of radio interference,

The drawing shows an electrical block diagram of a power source for implementing the method for powering gas discharge lamps.

The power supply consists of rectifier 1, filtrate 2, high-frequency thyristor inverter 3 s.

driving oscillator 4, condenser 5, droplets 6, gas discharge lamp 7, and block 8 for heating the electrodes.

The power source works as follows.

The AC power supply voltage of the industrial frequency is rectified by rectifier 1 and smoothed by filter 2, then enters the input of the high-frequency thyristor inverter 3, the intermittent operation of which is determined by the choice of the frequency and duty cycle of the generator 4 pulses and the parameters of the capacitor 5 and the throttles 6 switched on in series with the lamp 7. During the start-up period, the

sg

 OS OS

J

but

electrodes of the lamp 7 from the block 8 heating. Intermittent operation of the inverter thyristors provides current through the lamp in the form of two-polar symmetric pulses. In addition, the presence of pauses in the lamp current leads to the simplification of the operation mode of the thyristors, which makes it possible to increase their switching frequency, which, in turn, makes it possible for the lamp to operate in the region of maximum light output, which is in the frequency range 10–40 kHz. The use in the throttle converter, operating in the partial saturation of the magnetic circuit, provides bipolar pulses with smoothly varying front and cut.

The presence of pauses at a point through the lamp leads to a favorable change in the electrokinetic characteristics of the plasma only as long as the duration of the pauses does not exceed 5–10 s. With longer duration

pause, the stationarity of the plasma in the cathode discharge region is disturbed.

A smooth increase in current pulses compared with a rectangular shape facilitates the operation of the electrodes and reduces the sputtering of the active coating of the electrodes, which leads to an increase in the service life of the lamp electrodes. In addition, the luminous flux of the lamp increases, the current consumed from the mains supply decreases, while simultaneously increasing the power factor of the mains supply.

Claims (1)

Invention Formula A method for supplying gas-discharge lamps, in which the lamps supply two-pole symmetric current pulses of increased frequency, characterized in that, in order to improve the lighting and energy characteristics of the lamps, increase their service life and reduce the level of radio interference, the current pulses have the form of front and slice, the duration of pauses is not more than 5 and the duty cycle is not more than 6, I