SU540418A1 - Device for standby ignition of gas-discharge lamps with heating and electrodes - Google Patents

Description

one

The invention relates to control gears for gas-discharge light sources and can be used to ignite and ensure the normal combustion of gas discharge lamps with heating electrodes, in particular, for fluorescent ones located in luminaires whose housing is grounded.

Devices for group ignition of gas-discharge lamps with heating electrodes are known, which provide a stand-by ignition mode.

It is also known a device for waiting for ignition of gas discharge lamps with heating electrodes, containing a ballast choke and a semiconductor starter made in the form of a thyristor connected in a rectifying bridge diagonal, to the anode and control electrode of which a series-connected resistor-connected capacitor and diode are connected An additional thyristor is connected to the control electrode and the cathode of the same thyristor, the control electrode of which is connected to the anode through a limiting resistor vnogo thyristor.

However, after heating the electrodes, a voltage pulse of indeterminate polarity (negative or positive relative to the earth) is applied to the lamp, which creates different conditions for the discharge of gas discharge lamps, thereby reducing the usefulness of their ignition.

The purpose of the invention is to reduce the breakdown voltage and increase the reliability of ignition of gas discharge lamps.

This is achieved by the fact that the control electrode of the indicated thyristor is connected via a limiting resistor to the ground electrode.

discharge tube electrode.

A schematic diagram of the device is shown in the drawing.

A ballast choke 2 is connected in series with lamp 1. The non-contact semiconductor starter consists of a rectifying bridge, made on diodes 3-6, the diagonal of which includes the main thyristor 7 with a control circuit. A control circuit consisting of series-connected capacitor 8, shunted by resistor 9, diode -10, and additional thyristor 11, the anode of which is connected to control electrode of main thyristor 7, is connected to the anode and cathode of the main thyristor 7. Control electrode of additional thyristor 11 through the limiting a resistor 12 is connected to a grounded discharge-tube electrode, which is in direct electrical communication with the housing 13 of the lamp.

Power is supplied from the AC mains through terminals 14 and 15, the mains phase being connected to terminal 14 and a grounded neutral to terminal 15.

At any polarity of the half-wave voltage at the terminals 14, 15, a positive anode voltage is applied to the anode and cathode of the main thyristor 7. At the beginning of each half cycle, capacitor 8 and diode 10 flow through the thyristor control current pulse 7 and capacitor 8 is charged. Diode 10 prevents the capacitor from discharging when the thyristor 7 is unlocked. The process of heating the lamp electrodes occurs as long as the voltage on the capacitor will not reach the value required for unlocking the additional thyristor 11. The impulse to control the thyristor 11 enters the half-period when the clamp 15 has a positive potential relative to the clamp 14. After unlocking the thyristor ora 11 charge of the capacitor occurs in the circuit: clamp 15, grounded electrode of the lamp, diode 4, capacitor 8, diode 10, thyristor 11, diode 5, second electrode of the lamp, ballast choke and clamp 14. Due to the oscillatory charge of the capacitor 8, the pulse amplitude is obtained close to double amplitude value of network voltage. A voltage pulse of negative polarity is applied to lamp 1 relative to a grounded electrode, i.e., "minus on an ungrounded, and" plus on a grounded electrode.

The breakdown begins between the non-grounded Electrode (being a negative potential cathode) and the tube wall due to capacitive coupling to the luminaire body having a positive potential, and moves along the tube of the lamp to the second (grounded) electrode. This circumstance significantly reduces the breakdown voltage compared with the breakdown of the lamp.

positive polarity pulse relative to the grounded electrode. The required time for heating the electrodes determines the capacitance of the capacitor 8 and the value of the resistor 12. 5 The discharge resistor 9 is designed to quickly return the circuit to its initial state.

Similarly, the device operates with a series of inductive-capacitive ballast. The capacitive part of the ballast must be included in the phase conductor, and the inductive part in any wire.

The proposed device significantly reduces the voltage of the breakdown and ignition of a gas discharge lamp by nodac ing a negative

5 pulses relative to a grounded electrode (for example, for 40-watt fluorescent lamps, the breakdown voltage decreases by 150 V). As a result, the ignition reliability of gas discharge lamps is improved.

Claims (1)

Invention Formula A device for waiting for ignition of gas-discharge lamps with heating electrodes, 5 for example, fluorescent lamps located in luminaires whose casing is grounded, containing inductive ballast and a semiconductor starter made in the form of a rectifying bridge, the diagonal of which is included 0 the main thyristor, the anode and the control electrode of which are connected in series by a capacitor, shunted by a resistor, and a diode, and an additional thyristor is connected between the control electrode and the cathode of the main thyristor, in order to reduce the breakdown voltage and increase the reliability of ignition gas discharge lamps, the control elec. of the specified additional thyristor is connected via a limiting resistor to the grounding electrode of the gas discharge lamp. /four 0f5 I five 446 -w