RU136270U1 - DEVICE FOR IGNITION OF DISCHARGE LAMPS - Google Patents

Abstract

The utility model is aimed at improving the reliability of the device for ignition of discharge lamps. To this end, the device comprises a working capacitor charged via a current-limiting element from the network through a current limiter, connected via a switching element unlocked from a control unit parallel to the primary winding of a pulse transformer, the secondary winding of which is connected in series with the lamp, the switching element is made in the form of a rectifier bridge with a transistor in the diagonal, in parallel to the secondary winding of the pulse transformer, a capacitor is connected in series with which a resistor is connected Which resistance is determined from the above formula. 1 ill.

Description

The utility model relates to electrical engineering and can be used to ignite discharge lamps.

A device for igniting gas discharge lamps powered from an alternating current main through a current limiter, comprising a working capacitor charged through a current-limiting element from the mains through a current limiter, is connected via a switching element unlocked from a control unit and parallel to the primary winding of a pulse transformer, the secondary winding of which is connected in series with the lamp , the switching element is made in the form of a rectifier bridge with a transistor in a diagonal parallel to the secondary winding pulse transformer connected capacitor (RU No. 126249, IPC HO5B 41/23, publ. 03.20.2012).

When the transistor is turned on, the device generates a high-voltage pulse, ionizing gas filling the lamp. However, the current flowing through the switching element when it is unlocked is not limited to any external elements, which can cause breakdown of the switching element.

The technical effect is to increase the reliability of the device.

The technical result is achieved by the fact that the device contains a working capacitor charged through a current-limiting element from the network through a current limiter, connected via a switching element unlocked from the control unit parallel to the primary winding of a pulse transformer, the secondary winding of which is connected in series with the lamp, the switching element is made in the form of a rectifier bridge with a diagonal transistor connected in parallel to the secondary winding of the pulse transformer tion which included a resistor whose resistance is determined by the condition:

10KUc / I _pr ≥R≥KUc / I _pr

where: R is the resistance of the resistor;

K is the ratio of the number of turns of the secondary winding of the pulse transformer to the number of turns of the primary winding;

I _pr - the maximum permissible pulse current of the switching element;

Uc is the amplitude of the mains voltage. In FIG. 1 shows the proposed device including a working capacitor 1 connected through a switching element 2, comprising a rectifier bridge with a transistor in the diagonal, unlocked from the control unit 3 parallel to the primary winding of the pulse transformer 4. A circuit consisting of series-connected secondary windings of the pulse transformer 4 and the lamp 5 is connected to the network through the current limiter 6. The shunt capacitor 7 is connected to the network through the current limiter 6. The working capacitor 1 is connected through the current anichitelny element 8 parallel to the shunt capacitor 7. In parallel, a secondary winding of the pulse transformer connected additional capacitor 9 connected in series with it a resistor 10 whose resistance is determined by the condition:

10KUc / I _pr ≥R≥KUc / I _pr

where: R is the resistance of the resistor;

K is the ratio of the number of turns of the secondary winding of the pulse transformer to the number of turns of the primary winding;

I _pr - the maximum permissible pulse current of the switching element;

Uc is the amplitude of the mains voltage.

The resistor 10 resistance K. limits the pulse current of the switching element 2 to values less than the maximum allowable.

The device operates as follows. A working capacitor 1 is charged through a current-limiting element 8. As soon as the voltage U on the capacitor 1 reaches a certain value (usually within 0.5-1 of the amplitude value of the mains voltage), the control unit 3 generates a pulse that unlocks the switching element 2 (usually for a period of 1- 100 μs). During this time, the working capacitor 1 is discharged through the primary winding of the pulse transformer 4, the secondary winding of which is connected in series with the lamp 5 to the network directly or through the current limiter 6, induced on the secondary winding of the EMF provides a breakdown of the interelectrode gap of the discharge lamp. The shunt capacitor 7 protects the current limiter from breakdown. Due to the energy stored in the additional capacitor 9, connected with a resistor 10 connected in series with it, parallel to the secondary winding of the pulse transformer, the current through the interelectrode gap of the lamp reaches values sufficient for the lamp to ignite reliably. The resistor 10 limits the current flowing through the switching element when it is unlocked, protecting it from breakdown. After an arc discharge occurs in the lamp, the device turns off.

The choice of the resistance limits of the resistor 10 is determined by the fact that when the resistance R <KUc / I _{pr the} pulse current through the switching element 2 will exceed I _pr - the maximum permissible pulse current of the switching element. When K. IOC R> 10KUc / I _direct current discharge of capacitor 9 through the interelectrode gap lamp 5 reaches values sufficient to reliably ignited lamp

Claims (1)

A device for igniting gas-discharge lamps powered from an alternating current main through a current limiter, comprising a working capacitor charged through a current-limiting element from the network through a current limiter, connected via a switching element unlocked from a control unit parallel to the primary winding of a pulse transformer, the secondary winding of which is connected in series with the lamp, the switching element is made in the form of a rectifier bridge with a transistor in a diagonal parallel to the secondary winding of the pulse of the transformer connected to the capacitor, characterized in that a resistor is connected in series with the capacitor, the resistance of which is determined from the condition: 10KU _c / I _pr ≥R≥KU _c / I _pr , where R is the resistance of the resistor; K is the ratio of the number of turns of the secondary winding of a pulse transformer to the number of turns of the primary winding; I _pr - the maximum permissible pulse current of the switching element; U _c - the amplitude of the mains voltage.

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