SU851800A1 - Device for igniting gas-discharge tubes - Google Patents

Description

(54) DEVICE FOR IGNITING GAS DISCHARGE The invention relates to electrical engineering and can be used in the production and operation of gas discharge lamps, in which the burning voltage is higher than the mains supply voltage. A device for igniting gas-discharge lamps is known, which contains a pulse transformer, a power triac, a storage capacitor, a control triac, a voltage divider and an integrating capacitor. However, it does not provide reliable ignition of gas-discharge lamps and has a high level of interfering effects on the supply network. Closest to the present invention is a device for firing gas discharge lamps comprising a ballast choke, a pulse transformer, two storage capacitors, a thyristor, a reverse diode, and a control unit, the ballast choke being connected to the output side to the mains, the other end to be connected with one side of the storage capacitor and with the windings of a pulse transformer, the end of the secondary winding of which is connected to the storage capacitor

A LAMP capacitor connected in series with the thyristor, in parallel with which is connected a reverse diode and the input of the control unit. Connected by its output to the control electrode of the thyristor f 2J. However, this device generates high voltage pulses in only one half period of the supply voltage. In addition, it has an initial turn-on voltage equal to the direction of its turn-off, especially when igniting tight lanes, i.e. when lamps are ignited, which are punched by high-voltage pulses of the igniting device, a part of the starting current is passed through but not fully ignited, at this moment the voltage of the ignition device itself is lower than the voltage of its switching on and off, which reduces the efficiency of the bulging lamp. When the lamp is illuminated by a single-half-wave Zsmsggios device, an increase in heating of one of the lamp's electrodes is observed, which is caused by an anode. As a result, the transmission ability of the lamp electrodes during the ignition process is not equal, which leads to the formation of the valve effect of the gas discharge lamp at the time of its ignition. It is possible that repeated start-up of the lamp in such a mode can lead to accelerated wear and tear. Using drossel as a high-voltage impulse transformer ensures that the ignitor turns off after ignition of the lamp due to a slight drop in voltage at the outlet of the drossel, but as the lamp heats up and inserts it into The ignition mode may again work uselessly and be a source of radio interference.

The purpose of the invention is to improve the reliability of ignition of lamps.

The goal is achieved by the fact that a device for igniting gas-discharge lamps, containing a power choke, a pulse transformer, two storage capacitors, a thyristor, a reverse diode and a control unit, the ballast choke being connected to the output side to the power supply network, the other end connected to one end of the storage capacitor and to the beginning of the transverse winding of the pulse transformer, the end of which is connected to the beginning of its secondary covering and to one of the plates of the other the capacitor, the other plate of which is connected to the thyristor anode and cathode of the reverse diode, connected by an anode to another terminal for connection to the power supply network and to one of the terminals for connecting the gas discharge lamp, the control unit is connected to the thyristor in parallel with the output and connected to the control the thyristor electrode, and the end of the secondary winding is connected to another outlet for connecting a gas discharge lamp, equipped with a diode, the anode of which is connected to the cathode of the thyristor and to another plate of the storage condensate ora, and the cathode is connected to the anode of the reverse diode.

The drawing shows a circuit diagram of the device.

The device contains a 5-terminal choke 1, a pulse transformer 2, a storage capacitor 3, a thyristor 4. A diode 5 is connected to the circuit of successively capacitor 3 and thyristor 4 unidirectionally with the thyristor. A circuit from the successively connected thyristor 4 and diode 5 is shunted by a reverse diode 6, and the capacitor 7 shunts the primary winding of the pulse transformer 2, the capacitor 3 and the thyristor 4. The thyristor 4 with an anode and cathode is connected to the input of the control unit 8, the input of which is connected to the control electrode of the thyristor 4. Lamp

9 is connected with one end to the end of the secondary winding of the pulse transformer 2, and the other to the output for connection to the mains supply.

The device works as follows.

During the positive half-period of the supply voltage, through the inductor 1 and diode 5, the capacitor 7 is charged. At the moment when the response level of the control unit 8 is reached.

the thyristor 4 is turned on, and the storage capacitor 7 is discharged through the primary winding of pulse transformer 2, capacitor 3 and thyristor 4. As a result, an oscillatory process occurs, the inverse recharge in which is closed through diodes 5 and 6. The oscillating voltage is transformed into the secondary winding transformer 2

and applied to the lamp 9, igniting it.

During the negative half-period of the supply voltage, through the reverse diode b, the primary winding of the transformer 2 and the ballast choke 1, the capacitor 3 is charged. At the time of operation of the control unit 8, the thyristor 4 turns on and the capacitor 3 begins to discharge through the thyristor 4, capacitor 7 and the primary winding

transformer 2. The oscillatory process arising in this process extends the process of ignition of the lamp 9 during this half-period. Presence of ignition voltage in both

half-periods provides reliable ignition of the lamps and a symmetrical mode of their work.

The economic effect of using the invention is achieved in

cost reduction account.

Claims (2)

1. US Patent 3976910, cl. H 05 B 41/18, 24.06.76. 2. The UK patent 1398383, cl. H 05. B 41/16, 1974.