RU1802887C - Flash lamp - Google Patents

Abstract

Usage: in light-signal devices. SUMMARY OF THE INVENTION: An initiating electrode in the form of a translucent conductive coating is located on the outer surface of the flask. At least two wire spirals with an opposite winding direction are installed on said coating. At the intersections, the coils are electrically connected and grounded at the ends. The lamp has improved ignition reliability and shielding efficiency of electromagnetic radiation. 1 ill.

Description

The invention relates to electrical engineering and can be used for ignition and control of flash discharge lamps with sequential ignition, mainly in light-signal devices of moving objects.

An object of the invention is to increase the reliability of ignition and the shielding efficiency of electromagnetic radiation.

The drawing shows a General view of a pulsed lamp with a shielding electrode on its cylinder.

A flash lamp with a shielding electrode for initiating a discharge contains a transparent balloon 1 (with internal electrodes), counter-wound metal spirals 2 and 3, electrically connected at the intersection points and connected to the earthed reflector 4 fixed on the base 5 with free ends, an additional electrode 6, made in the form of a transparent conductive coating on a bulb lamp.

The step of winding spirals of metal wire is selected from the condition of obtaining the required cell size of the shielding electrode and initiating a discharge, and the size of the obtained cell of the screen determines the effectiveness of shielding a certain frequency spectrum of the radio noise. The cell size is calculated according to a known method (according to the book of D.R.W. White) or is experimentally determined.

When an igniting voltage pulse is applied to the inner electrodes of the lamp, the presence of a grounded electrode on the gas cylinder of the gas lamp, made in the form of counter-wound metal spirals connected at the intersection, causes the distribution of the electric potential on the walls of the cylinder and the inclusion of sections of the surface breakdown, based on its mechanism interacting with static charges on the walls of the lamp balloon. In this case, the ignition voltage of the lamp is substantially reduced, and the self-test voltage is approximately halved.

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The shielding of electromagnetic interference arising from ignition and operation of the lamp is ensured by the fact that when connected at the intersection of the spiral electrodes, the lamp bulb is enclosed in a mesh screen of electromagnetic interference, while the screening efficiency decreases with decreasing mesh size of the mesh screen. Thus, an optimal grid with an optical transparency of 80-85%, which provides frequency shielding up to 3 GHz, can be made of steel wire with a diameter of 0.05 mm and a cell size of 1.08 - 1.27 mm.

The use of this flash lamp with a new shielding electrode during sequential ignition will effectively shield the pulsed electromagnetic radiation of light-signaling devices, increase ignition reliability by reducing the ignition voltage and self-test at the moment of supply. Ignition voltage pulse, facilitate the design of light-signaling devices by eliminating the bulky mesh screen , wear0

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Much to the optical system, which is especially important when installing light-signaling equipment on moving objects, in particular, on aircraft. Reducing the weight and overall dimensions of the light-signaling equipment increases its operational characteristics.

Claims (1)

The claims A flash lamp containing a gas-filled balloon of light-transmitting material with hermetically sealed electrodes, on the outer surface of which there is an initiating electrode in the form of a translucent conductive coating, which means that, in order to increase the reliability of ignition and the effectiveness of shielding electromagnetic radiation , it is equipped with at least two wire spirals installed on the specified coating with the opposite direction of winding, spirals are electrically connected They are at their intersections and are grounded at the ends.