SU702548A1 - Device for firing a three-electrode (or two-electrode) high-pressure tube - Google Patents

Description

one

The invention relates to lighting engineering, in particular, to devices for firing high-pressure discharge lamps, and more particularly to devices for firing three-electrode (or two two-electrode) high-pressure lamps, the discharge gaps of which are fed by phase-shifted currents from a three-phase network.

A device for igniting two or three two-electrode high-pressure lamps connected in a split-phase 1 circuit is known.

The known device comprises a pulse generator, a pulse transformer, the secondary winding of which is connected in series with each of the lamps, high-frequency chokes connected in series with the lamp, one for each, and capacitors shunting the chokes, one for each choke.

The disadvantages of the known ignition device are:

a decrease in the likelihood of all the lamps igniting at the same time as a result of the ignition pulse being shunted by the chains of the lit lamps, which will cause the lamp with the highest ignition voltage to be supplied with the smallest amplitude pulses;

a significant increase in the size and weight of the device, as well as the power losses of the circuit due to the fact that the high-frequency chokes and the secondary winding of the pulse transformer are connected in series with the lamps and must be designed for the flow and start currents of the high-pressure discharge lamp to flow through them.

It is also known a device of the UIZU-220-02-HL1 type, which consists of an oscillating circuit containing a capacitor and a parallel circuit connected from a series-connected thyristor with zener diodes in the control electrode circuit and the primary winding of a pulse transformer, one of the terminals of the secondary winding of which is connected to the terminal for connection with the electrode of the gas discharge gap of the lamp directly, and the second output through the capacitor of the battery circuit and the resistor to the terminal for connection with the second electrode gas discharge lamp 2.

The aim of the invention is to simplify the scheme and improve the technical and economic performance of the device.

For this, the secondary winding of the pulse transformer is connected to the oscillating circuit capacitor through a diode and a strap from a specified diode and an additional diode connected to it with a terminal for connecting a second discharge gap, and both diodes are bridged by a capacitor connected between the resistor and the terminal for connecting the second electrode of the first discharge gap.

FIG. 1 shows the described device; in fig. 2 - its version with a high-frequency choke.

The device contains an oscillating circuit, made in the form of a capacitor 1, the primary winding 2 of a pulse transformer, also having a secondary winding 2. and thyristor 3 with a zener diode 4 in the control circuit. In addition, the device includes two control circuits, each of which consists of a voltage divider common to both circuits, containing a specified capacitor 1 oscillating circuit and a resistor 5, as well as a diode 6 for one control circuit and a diode 7 and with a secondary winding 2 for another control circuit. Both diodes 6 and 7 are shunted by a high-frequency capacitor 8.

The generation of pulses in the device is controlled by two circuits 6-1-5 and 2-7-5, which are connected in parallel to the lamps 9. The lamps 9 are powered from the three-phase AC network A, B, C through the chokes 10.

Diodes 6 and 7 protect the thyristor control circuit 3 from reverse voltage, and also unlock the control circuit for each of the lamps.

In order to ensure the use of low-voltage diodes 6 and 7 in the common for control circuits, a high-frequency choke 11 can be included in the circuit.

The device works as follows.

When the power is connected to the circuit, when the lamp is still not lit, the voltage is mainly applied to the series circuit of a resistor, an oscillator circuit capacitor, and a secondary winding of a pulse transformer. When the voltage on the capacitor reaches the stabilization voltage of the zener diodes, the latter begin to pass the current of the control electrode of the thyristor. The thyristor is opened and the oscillating circuit capacitor is discharged to the primary winding of the pulse transformer. The resulting high frequency voltage pulse is amplified by the secondary winding of the pulse transformer and fed to the lamp.

When the lamp is ignited, the voltage across the oscillating circuit capacitor, as a result of the voltage drop across the ballast choke, becomes less than the stabilization voltage of the zener diodes, and the circuit automatically stops generating pulses.

However, to turn on multiple lamps, one device is required for each lamp.

A significant positive effect of the described device is that when one of the gas-discharge gaps is ignited, its resistance at the initial moment is close to zero, and the total pulse of the first and second gaps will be applied to the second gas-discharge gap, which completely excludes the possibility of non-simultaneous ignition .

The simultaneous ignition of both bit intervals is especially important in a three-electrode lamp, since when only one gap is ignited, the second creates a significant cold zone where mercury condenses and the discharge will not normally be able to flare up. This will lead to a long start-up mode. The calculation of the throttle on such a regime indicates a significant increase in its weight and cost. When using the proposed device, the described mode cannot be, since, besides the fact that the total discharge of the first and second gaps will be applied to the discharge pitch of the unjust line, the total gap for the two gaps of the electrode spacing will also occur, which significantly will reduce the ignition voltage.

The device has a very high technical and economic indicators, since the cost of the proposed device as a result of using additional elements will increase by no more than 8-10%. This latter circumstance is especially important when you consider that the cost of the igniter is 33-50%. of the total cost of ballasts for high pressure lamps as a function of power.

Claims (2)

Invention Formula I. Device for igniting a three-electrode (or two two-electrode) high-pressure lamp, containing an oscillating circuit consisting of a capacitor and connected in parallel to it a chain of series-connected thyristors with zener diodes in the control circuit of the control electrode and the primary winding of a pulse transformer, one output of the secondary winding which is connected to the terminal for connection with the extreme electrode of one of the discharge gaps of the lamp directly, and the second output through the oscillator coupling capacitor tour and a resistor to the terminal for connection with the second electrode of the same gas discharge gap of the lamp, characterized in that, in order to simplify the circuit and improve the technical and economic performance of the device, the secondary winding of the pulse transformer is connected to the oscillating circuit capacitor through a diode and through a chain of the indicated diode and an additional diode connected to it — with a terminal for connecting the second discharge gap of the lamp, with both diodes bored by a capacitor. 2. The device according to claim 11, characterized in that, in order to avoid shunting a high-frequency high-voltage pulse, the device is equipped with a high-frequency choke connected between a resistor and a terminal for connecting a second electrode of the first discharge gap. Information sources, taken into account in the examination 1. The patent of Germany No. 962916, cl. 21 F 8402, 1958. five 2. Device type UIZU-220-02-HL1 according to TU 16535.836-74. fig 1 - R P1 NIS} 1I