SU692119A1 - Starting and control arrangement for a high-pressure gas discharge lamp - Google Patents

Description

The invention relates to the field of gas discharge lamps switching circuits, in particular to control gears for high pressure gas discharge lamps with cold electrodes.

Start-control devices for high-pressure discharge lamps are known, which contain a ballast choke connected in series with the lamp, and a lighting device containing a pulse transformer, the secondary high-voltage winding of which is connected in parallel with the lamp 1.

Known control gears provide ignition of the lamp by means of a lighting device and stabilization of the lamp operating mode using a ballast throttle. The lamp is ignited by a series of high voltage pulses (3.5-5.0 kV) generated by the high voltage winding of a pulse transformer. This leads to the sputtering of the material of the electrodes of the lamp during start-up and, consequently, to a decrease in their durability and deterioration of the light characteristics.

In addition, the throttle in such control gears must have reinforced insulation, since its breakdown is possible with a high pulse voltage.

The latter drawback is eliminated in the control gear containing the ignition sequential ignition device. This device, in which the secondary winding of the pulse transformer of the ignition unit is connected in series with the ballast element and the lamp, is closest to the proposed device 2. It has a high pulse voltage applied directly to the lamp and does not affect the ballast insulation.

an item. In this case, electrical breakdown of the gas interelectrode gap may occur if the device generates a series of pulses with an amplitude of the order of 1.01.5 kV, which is still not enough to ignite the arc discharge in the lamps. Reliable

Claims (5)

the ignition of the arc discharge is observed at an amplitude of pulses in a series of up to 3.5-5.0 kV and more (depending on the geometry of the lamp burner, filling gas pressure, material of the electrodes, etc.). However, the indicative increase in voltage of the electrode reduces the durability of the lamp electrodes and may also cause electrical breakdown between the contacts of the lamp holder. The aim of the invention is to increase the reliability of ignition of the lamp and increase its service life. This goal is achieved by the fact that a high-pressure gas-discharge lamp start-up apparatus containing a ballast element connected in series with a terminal of the network and a terminal for connecting a lamp and a secondary winding of a pulse transformer of the ignition unit, whose input is connected to a second terminal of the network and a second terminal for connecting a lamp, provided with a parallel chain connected in parallel with the ballast element of current-limiting and switching elements, and an output unit is connected to the input of the latter and a control, and a signal characterizing the state of the gas discharge lamp is supplied to the input of the control unit. The control unit input can be connected to the lamp voltage or to the lamp current. The control gear can be supplied with an optical contact with a photosensitive lamp with an Element whose output is connected to the input of the control unit, or located in the magnetic field of the dissipated ballast n & G6 s1: gement magnetic sensor with control unit input. FIG. Figure 1 shows a device in which the input of the control unit is connected to the voltage of the lamp; in fig. 2 is a schematic of the device in which the input of the control unit is connected to the lamp current; in fig. 3-scheme of the device, in which the input of the control unit TiHW pbdalSchёn to the light efficiency of the operator. Finding the ground in optical contact with the lamp; in fig. 4 is a diagram of a device in which the input of the control unit is connected to a MOTSHTO sensitive sensor, which is located in a magnetic field of a ballast element, the adapter contains a high-pressure discharge lamp 1, in series with which the ballast element 2 and the secondary winding 3 of the ignition pulse generator are connected 4, a control unit 5 and a series circuit 6 connected in parallel to the BADLAST element and consisting of a switching element 7 and a current limiting element 8, with the output b eye under the control of the switching element paired with an entrance connected in parallel with the lamp (FIG. 1), but the network device is connected to terminals 9 and 10. The apparatus shown in FIG. 1, works as follows. When the network voltage in the secondary winding 3 of the pulse transformer of the ignition unit 4 is applied to the network terminals 9 and 10, voltage pulses sufficient to break the interelectrode gap in the lamp 1. At the same time, the control unit 5 sends a signal to close the switching element 7, with which the ballast element 2 is shunted by a small in magnitude resistance of the current-limiting element 8. As a result, the current in the lamp circuit after breakdown increases sharply, which facilitates the transition of the discharge in the lamp to the arc. When the lamp is ignited, the control unit responds to a decrease in voltage on it. Disconnects the serial chain 6 from the ballast element. When the control unit 5 is switched on in series with the lamp 1 (Fig. 2), it switches off the series circuit 6, reacting to the arc discharge current flowing in the lamp circuit. When connecting the control unit to the photosensitive element 11, which is in optical contact with the lamp (Fig. 3), the control unit, which reacts to the signal of element 11, received from the lamp radiation, disconnects the series circuit 6. When the control unit is connected to the magnetosensitive sensor 12, located in the zone of action of the magnetic field of the scattering of the ballast element 2 (Fig. 4), the control unit, responding by means of the sensor 12 to the magnetic scattering flux of the ballast element that occurs when the ballast flows through the winding element of the arc-discharge current, disconnects the series circuit 6. After ignition of the lamp in all the above-described variants, the same operating mode of the arc discharge, stabilized by the ballast element, is established. Thus, high-pressure lamps with the proposed device reliably ignite at significantly lower impulse voltages (1.0-1.5 instead of 3.5-5.0 kV), which dramatically reduces the degree of sputtering of the electrode material to this way increases the service life of the lamps, and also increases the reliability of the product, a complete luminaire, for example, reduces the likelihood of breakdown between the contacts of the lamp holder almost to. The device is simple to manufacture, technologically and its production does not require special equipment. Claims 1. A starter for a high-pressure discharge lamp containing connected in series with a mains terminal and a terminal for connecting the lamp, a ballast element and a secondary winding of a pulse transformer of the ignition unit, in the course of which is connected to the second terminal of the network, and a second terminal for connecting the lamp, characterized in that in order to increase the reliability of ignition of the lamp and increase its service life, it is supplied with a series of current-limiting and switching elements connected in parallel with the ballast element, and the output of the control unit is connected to the input of the latter, and the input of the control unit a signal is given that characterizes the state of the gas discharge lamp. 2. Control gear according to claim 1, characterized in that the input of the control unit is connected to the voltage of the lamp. 3. Control gear according to claim 1, characterized in that the input of the control unit is connected to the lamp current. four; A control gear according to claim 1, characterized in that it is additionally provided with a light-sensitive element in optical contact with the lamp, the output of which is connected to the input of the control unit. 5. Control gear according to claim 1, characterized in that it is additionally equipped with a magnetically sensitive sensor located in the area of the magnetic field of the ballast element, the output of which is connected to the input of the control unit .. Sources of information taken into account in the examination 1. Japan patent No. 48-28724, cl. 93 D 01 (H 05 B), 1973. 2. Swiss patent number 537559, 20 cells. F 21 V 23/00, 1973. ten ffus.Z (pus.