NL8700344A - ELECTRONIC IGNITION DEVICE FOR A HIGH PRESSURE DISCHARGE LAMP. - Google Patents

Description

* NL 34.076-dV / jp *

Electronic ignition device for a high pressure discharge lamp.

The invention relates to a series-system electronic three-point ignition device for high-pressure discharge lamps, the input of which is connected to a high-frequency filter capacitor and a series-connected capacitor, a resistor and a rectifier diode to the primary winding of a high-voltage pulse transformer. , and the output of which is formed by the secondary winding of the pulse transformer, while a semiconductor switch is connected in parallel to a series circuit consisting of the resistor 10 and the diode and connects the capacitor to the primary winding of the pulse transformer.

In contrast to the high-pressure mercury vapor lamps, the currently used high-pressure metal halogen lamps and high-pressure sodium lamps are in no way suitable to be ignited with the mains voltage, since the ignition requires a voltage impulse of 2 to 5 kV.

The electronic ignition device of the high-pressure discharge lamps is required to supply an ignition pulse or an ignition pulse series to the non-burning lamp and thereby ionize the gas present in the discharge tube. After the ignition of the lamp has been carried out, the ignition device must be in a passive state, no further impulses must be delivered.

The parallel or two-puhts ignition units which are commonly used today are connected in parallel to the discharge lamp, in which an inductive ballast of the discharge lamp also takes part in the generation of the high-voltage pulses. Therefore, the ballast 30 must be insulated according to the high voltage. This condition places high demands on the inductive ballast, which can only be met with a larger amount of material and higher costs.

In a different and currently used solution, the inductive ballast is performed with a suitable tap, the tap-off ballast functioning as a high voltage pulse transformer, which boosts the voltage boost generated by --- 8700344 ftp * -2 - a separate ignition device to the desired level. transforms.

The drawback of this latter solution is that the inductive ballast here also requires insulation in accordance with the high voltage generated.

The known series-produced three-point ignition devices have a built-in pulse transformer, the primary winding of which is connected to the output of the ballast and the secondary winding for the ignition of. the discharge lamp generates the required high voltage pulse. The advantage of this known solution is apparent from this, that the ballast only limits the current of the discharge lamp and does not participate in the generation of the impulse, so that an isolation from the high voltage is not necessary.

The main drawback of the known circuit is - as with the other electronic ignition units - that for connecting the; primary winding of the charged, capacitor, which is in series. switched with the primary winding of the pulse transformer, semiconductor switching elements, i.e. thyristors or triacs are used, the ignition of which requires a separate ignition circuit, which makes the electronic ignition device complicated and expensive.

The object of the invention is to provide an electronic ignition device for high-pressure discharge lamps, which consists of few parts, can be manufactured simply and inexpensively and, moreover, enables reliable ignition of the discharge lamp even at relatively extreme parameters of the supply voltage.

The invention is based on the recognition that the complicated and expensive ignition circuit of the semiconductor switching element connecting the capacitor to the primary winding of the pulse transformer can be omitted if instead of a thyristor or triac a SIDAC (bi-directio multi diodethyristor) is used, which is a semiconductor device with two terminals, which does not require an external ignition circuit.

According to the invention, the ignition device 40 of the type mentioned in the opening paragraph is therefore characterized in that

870 0 34 4V

The semiconductor switch is a SIDAC connected to a diode whose polarity is opposite to the polarity of the rectifier diode and thus bridges the series circuit consisting of the resistor and the diode.

The main advantages of the ignition device according to the invention can be mentioned: due to the use of the diodes, the consumption is low, with the semiconductor switching element with two terminals the ignition device can be manufactured simply, inexpensively and without auxiliary power circuit 10, the device being for any voltage and frequency customary in practice, ideally suited for reliable ignition of the high-pressure discharge lamp.

The invention is explained in more detail below with reference to the drawing, which shows a diagram of an exemplary embodiment of the electronic ignition device according to the invention.

The illustrated electronic ignition device 1 according to the invention is based on the three-point series system, which is connected with its input to the output of an inductive ballast 2, which is connected to the phase conductor of the electrical network. The output of the ignition device 1 is connected to an electrode 4 of a high-pressure discharge lamp 3, which in this case is a sodium discharge lamp, while the third point is connected to the neutral conductor of the electrical network. A high-frequency filter capacitor 5 is connected to the input of the ignition device 1, to which a series circuit is connected in parallel, which consists of the primary winding 7 of an impulse transformer 6, a capacitor 8, a resistor 9 and a rectifier diode 10. The secondary winding 11 of the pulse transformer 6 forms the output of the ignition device 1. On the resistor 9 and the diode 10, which are connected in series with each other, there are a number corresponding to the mains voltage, in this example two, SIDACs 12 and one diode 13 connected in series therewith is connected in parallel. Diodes 10 and 13 have opposite polarities. Detailed information on the semiconductor switching element used is included in the product catalog of the Japanese company Shindengen (1985).

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When the ignition device 1 is now connected to the mains voltage, the capacitor 8 is charged according to the primary winding 7, the resistor 9 and the diode 10 to approximately twice the peak value of the mains voltage. As a result of diode 13, the polarity of which is opposite to that of diode 10, the two begin. SIDAC1s 12 in the next half, period of the mains voltage at a predetermined voltage level, after which the capacitor 8 through the diode. 13 and the filter capacitor 5 on the primary winding 7 of. the pulse transformer 6 is connected and discharged. In accordance with the transfer ratio of the pulse transformer 6, a high voltage pulse appears on the secondary winding 11, which ignites the discharge lamp 3.

The filter capacitor 5 prevents the frequently occurring high-frequency disturbances from coming into the network when the discharge lamp is ignited.

Since the presence of the diode 10 charges the capacitor 8 to twice the peak value of the mains voltage, a lower winding ratio is required to achieve the required high voltage than if no diode 10 were present. As a result, a smaller pulse transformer 6 can be used with a discharge lamp belonging to a certain power class, since the winding number of the secondary winding 11 is lower. On 25 of these. In this way, the dimensions of the pulse transformer 6 become smaller and thus of the entire ignition device 1, while furthermore the Ignition device 1 is capable of generating a pulse with the required high voltage even at a higher load capacity.

The voltage pulse formed by the presence of the diode 13 is at least 20% wider, and therefore also the energy content is greater, than without the diode 13. Of course, the voltage pulse with the high energy content is for the high-pressure discharge lamp 3 particularly favorable.

8700344

Claims (1)

-5-. Series * electronic three-point ignition device for high-pressure discharge lamps, the input of which is connected to a high-frequency filter capacitor and a capacitor connected in series with the primary winding of a high-voltage impulse-5 transformer, a resistor and a rectifier diode, and whose output is formed by the secondary winding of the pulse transformer, while a semiconductor switch is connected in parallel to a series circuit consisting of the resistor and the diode and connects the capacitor to the primary winding of the pulse transformer, characterized in that the semiconductor switch has a SIDAC (12) (bi-directional diode thyristor), which is connected to a diode (13) whose polarity is opposite to that of the rectifier diode (10) and thus the one from the resistor (9) and the diode ( 10) bridges existing series chain. .870 034 4