SU351343A1 - DEVICE FOR IGNITING PULSE LAMPS - Google Patents

Description

The invention relates to discharge initiation schemes in gas-filled emulsion lamiahs and can be used in lighting systems with a large number of closely spaced lamps.

Various ignition circuits of flash lamps are known with the help of a wire or other external metallic electrode: a sequential ignition circuit with an increased voltage, a parallel ignition circuit with an increased voltage. However, in practice, these circuits cannot be used to ignite a large number of well-connected lamps due to the need to use very high voltages. When using the known scheme of lamp salination with the help of an external electrode, the lamp turns into a three-electrode device, which reduces the reliability of ignition and makes it difficult to change lamps.

Also known are serial circuits of flashlamps for simultaneous operation of lamps or a series of consecutive flashes.

The purpose of the invention is to reduce the voltage of the ignition pulse, reliably initiate the discharge, and uniformly distribute the energy of the ignition pulse between the lamps.

This is achieved by the fact that each lamp of the group connected in series with respect to the main power source is connected to the generator of subdued pulses by means of transition capacitors, and the capacitance of the capacitors connected to the ends of the lamps is half the capacity of each of the remaining capacitors. Pa drawing shows a schematic diagram of the proposed device.

U-10 impulse lamps are connected in series to the main power supply // circuit via isolation choke 12 and using transition capacitors 13–23

24 ignition pulses are connected in parallel with the generator.

The capacitance of the capacitors 13 and 23, attached to the ends of the lamps, is equal to half the capacity of the remaining M-22 capacitors.

The power choke 12 eliminates the shunting of the ignition pulse by the output capacitance of the power source and is only necessary if the lamps are odd. The principle of operation of the circuit is as follows. The primary source // feed is applied to the la.mp / -10 nosomedator chain. When a high-voltage high-frequency pulse is applied from a generator of 24 nodjing impulses, the voltage between the electric current on the lamp reaches the breakdown level, a conductive channel forms in the lamp and the lamp goes into an ionized state. When injecting a discharge in some lamps, for example 1 and 3, the voltage on lamp 2 does not decrease, since a thin conductive cord in an ionized lamp has a rather high inductance, in the order of 2–20 µg, and a large resistance. Consequently, the voltage of the ignition pulse by ionized lamps is not shunted, and the voltage on the electrodes of lamp 2 continues to rise and, having reached the breakdown voltage of this lamp, ionizes it. Therefore, breakdown occurs in all lamps. Transition capacitors are charged through ionized lamps. The capacitor 14 is charged through parallel branches: lamp 1 - capacitor 13 and lamp 2 - capacitor 15; the capacitor 16 is charged through parallel branches: lamp 3 - capacitor 15 and lamp 4 - capacitor 17, etc. When the ignition pulse polarity changes, the capacitors begin to recharge along the same branches. As a result of initiating the discharge in all the lamps, the main current the source of the thread begins to flow through their nosledovatelnuyu chain.

Subject invention

A device for igniting flash lamps connected in series with respect to the main power source, comprising an ignition pulse generator and transient capacitors, characterized in that, in order to reduce the voltage of the ignition pulse, a reliable initiation

discharging and evenly distributing the energy of the igniting impulse between the lamps, lamps are connected in parallel to the generator of magnetizing pulses in parallel with the aid of transition capacitors, and the capacitance

capacitors connected to the ends of the lamp circuit, equal to half the capacity of each of the remaining capacitors.