SU1304107A1 - Gaseous-discharge light source - Google Patents

Abstract

The invention relates to the field of electrical engineering, in particular, to light sources used in display and optical information processing systems. The aim of the invention is to reduce the ignition voltage and increase the service life. When an alternating electrical voltage is applied to the electrodes 3 in the piezoelectric plate, ultrasonic waves are excited due to the reverse piezoelectric effect. The frequency of the alternating voltage is selected from the conditions for optimal excitation of ultrasound. Ultrasonic waves in a piezoelectric are accompanied by electric fields that exist both inside the plate and beyond. The intensity of this field is sufficient for the breakdown of gas near the plate, which causes it to glow at a sufficiently low voltage. 1 il. € sl with about 4

Description

eleven

. The invention relates to electrical engineering, in particular, to small sources of continuous or indirect radiation, used, for example, in display systems and processing of optical information.

The aim of the invention is to reduce the voltage, ignition and increase the service life.

The drawing shows a schematic diagram of the light source.

The gas-discharge light source contains a transparent flask 1 filled with a light-emitting medium (an inert gas or a mixture of them) at a pressure corresponding to a glow discharge. The flask contains a piezoelectric plate 2, on the opposite side surfaces of which there are narrow (fractions of a millimeter) conductive electrodes 3, conclusions 4 from which exit flask 1 and serve to fix the device and to apply electrical voltage to electrodes 3. On The inner surface of the bulb can be coated with a phosphor layer to change the spectral composition of the radiation.

 The device works as follows.

When a 3-variable electrical voltage is applied to the electrodes, light radiation is generated in the light source.

The appearance of the glow is explained as follows.

The alternating electric field, due to the inverse piezoelectric effect, excites ultrasonic waves in the piezoelectric plate. The frequency of the alternating voltage is chosen from the conditions of optimal excitation of ultrasound.

Compiled by V. Gorchanova. L. Veselovska Editor. Tehred. P. Oliynyk. Proofreader L. Pilipenko.

Order 1318/53 Circulation 699 Subscription

VNIIL of the USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, Projecto st., 4

ten

where v t p

04107 2

Thus, when excitation of resonant acoustic oscillations of the excitation frequency f in a piezoelectric plate is calculated by the formula 5 f nv / 2t

the speed of elastic waves in the piezoelectric; piezoelectric plate thickness;

1,3,5 ... is the number of the harmonic showing the number of half-waves stacked on the thickness of the plate.

Ultrasonic waves in a piezoelectric are accompanied by electric fields that exist both inside the plate and beyond. The intensity of this field is sufficient for gas breakdown near the plate, which causes it to glow. In this case, the voltage applied to the electrodes 3 depends on the thickness: of the plate and is a unit of ten volts. The spectral composition of the radiation depends on the composition of the gaseous medium and the applied phosphor deposited on the inner surface of the bulb 1.

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Claims (1)

Invention Formula A gas discharge light source containing a flask filled with an inert gas in the glow discharge pressure range, and two hermetically installed electrodes in it, characterized in that5 in order to reduce the ignition voltage and increase the service life, a piezoelectric plate is installed inside the flask , on the opposite side surfaces of which the said electrodes are located.