SU936473A1 - Device for igniting pulsed gas-discharge lamp - Google Patents

Description

one

The invention relates to electrical engineering and can be used to ignite gas discharge lamps when powered from an alternating current network, such as flash lamps, used in photography.

A device for ignition of pulsed gas-discharge lamps is known, in which the lamp is powered by pulses directly from an alternating current network and ignited by means of a pulsed generator that generates an impulse at the moment of closing the sync contacts of the camera. A pulse transformer is supplied to the lamp. The absence of high-capacity storage capacitors allows to reduce the size and weight of the device l.

However, in this device, the sync contacts, and hence the camera body, are galvanically connected to the network, and special

measures to ensure the safety of the device.

The closest to the invention according to the technical essence is a device for ignition of pulsed gas discharge lamps with mains -condenserless power supply, containing a continuously operating voltage pulse generator connected to a pulsed lamp through a switching unit consisting of in parallel synchronous contacts isolated from the network by windings of isolation and step-up pulse transformers, and the discharge current sensor, which turns off the generator after the flash of the lamp 2 J.

The disadvantage of this device is the presence in it of two separate pulse transformers of various designs {insulating. and boost). As each of these transformers is a non-standard element, manufacturing. devices is complicated. With such a series connection of two pulsed transformers of small size, the efficiency in the transmission of pulse energy is greatly reduced, and in order to bring a pulse of sufficient energy to the lamp, it is necessary to increase the power of the pulse generator for reliable ignition. However, at the same time, considerable power is released on the current-limiting resistance of the pulse generator, and cooling measures are needed to eliminate overheating of the device during long-term operation. In addition, an increased power pulse passing directly through the sync contacts causes their quick burning, which reduces the reliability of the device. The purpose of the invention is to simplify and increase the reliability of the device. This goal is achieved by the fact that a device for igniting pulsed gas discharge lamps containing a voltage pulse generator, a pulse boost transformer, a discharge current sensor with a break contact, and terminals for connecting a sync contact, take the input of a voltage pulse generator connected to the terminals for connecting to AC mains, one of which is connected to one of the terminals for connecting a pulsed gas discharge lamp, and the other is connected to another terminal through the coil of the discharge current sensor Connecting a pulsed gas discharge lamp, which is connected to one of the terminals of the secondary winding of a pulsed boost transformer, connected by another output to a terminal for connecting the ignition electrode of a pulse discharge lamp, the primary winding of the pulse transformer is connected in series with the disconnecting current sensor and connected to the output of the generator voltage pulses, supplied with a thyristor and a resistor, and the pulse boost transformer is made with the third control winding, conclusions than the third winding, a control connected to the anode and cathode of the thyristor, a resistor is arranged between the anode and the control electrode tiristo pa, and terminals for connecting the sync contacts 34 are connected to the cathode and a control electrode of the thyristor. The drawing shows a schematic diagram of the device. A device for igniting a pulsed gas discharge lamp comprises a pulse generator 1 consisting of a diode 2, a resistor 3, a capacitor and a switching element 5, a discharge current sensor 6 with a coil 7 and a disconnecting contact 8, a pulse boost transformer 9 with a primary winding 10, the secondary winding 11 and the control winding 12, the thyristor 13, the resistor 14, the terminals 15 for connecting the synchronous contact, the terminals 16 for connecting to the AC network and the pulsed gas discharge lamp 17. The device operates as follows. When the device is turned on into the AC network, the generator of voltage pulses 1, shifted with respect to the moment when the half-period voltage has a maximum value, for a certain number of electrical degrees, which is optimal for the operation of the pulse lamp 17, starts operating. The pulses go to the primary winding 10 pulsed transformer 9, in this case a pulsed voltage is induced on the control winding 12, which, entering through the resistor I on the control electrode of the thyristor 13, opens it. Due to the open winding 13 of the control winding 12, the voltage at the output of the winding 11 is not enough to ignite the lamp 17. The thyristor 13 shunts only the first half-wave of the induced transformer 9 of the pulse-; but since :; A generator of relaxation pulses is used in the generator, in which a capacitor is periodically discharged to a load, the pulse being formed has a steep leading edge and a gentle, exponentially falling rear edge, a short pulse of large amplitude induced by the leading steep edge of the pulse on the winding at the unshunted winding 12, with a shunted winding 12, a small amplitude pulse. The back gentle pulse front on the winding 11 is induced by a long pulse of opposite polarity

small amplitude, in all cases insufficient to ignite the lamp due to the low flow in the transformer core.

Thus, despite the continuous operation of the generator 1, when the synchronous contacts are open, the voltage of the pulses at the output of the winding 11 is small and insufficient to ignite the lamp 17. Shunting the control winding 12 does not lead to an increase in the energy consumed by the generator 1, since the current consumed by the generator T is determined by the matching of the resistor 3 in the generator 1.

A small pulse energy eliminates the need for special measures to cool both generator 1 and transformer 9 and thyristor 13. When the contact closes, the voltage supply circuit to the control electrode of the thyristor 13 is shunted, and it will not open, the thyristor does not bypass the winding 12. In this the period parallel to the winding 12 is connected to the resistor 1, but its resistance is several orders of magnitude greater than the resistance of the open thyristor, respectively, less and its shunting effect on the winding 12. As a result, erednom pulse poctypayuschem from generator 1 to the coil 10, the pulse amplitude of the induced windings 11, be sufficient to ignite lamp 17. confident outbreak occurs. The discharge current sensor 6 is activated and the contact 8 turns off the generator 1. When the voltage passes through zero, the lamp turns off.

Claims (2)

1.Hi to Ya. T. Electronic lampflash. Kiev, State Publishing House of Technical Literature, 1961, p. 79. five 2. USSR author's certificate N- 225017, cl. H 05 8, 41/32, 19b7.