RU10005U1 - SEMICONDUCTOR INDICATOR - Google Patents

Abstract

A semiconductor indicator comprising a housing integrally formed with the base part, a radiation source containing from 1 to n crystals, light emitting diodes and connected to electrical contacts located on the base part of the housing, characterized in that between the electrical contacts of the base part and the radiation source an electronic unit installed inside the housing is introduced, the inputs of the electronic unit being connected to the electrical contacts of the base part of the housing, and the outputs to the contacts of the radiation source .

Description

SEMICONDUCTOR INDICATOR

The utility model relates to electronic equipment and is intended for use in automation systems, regulation and control to indicate operating modes in cases where it is necessary to ensure the selection of signals but priority.

Various types of light sources RN-60-48, SC-12-15, SG60-15 are known, containing a housing, a base, an incandescent filament (1).

As an analogue, a light source of the SG-60-15 type was selected, containing a socle and a stepped housing in which a light-emitting element in the form of an incandescent filament was placed (2).

The goal of the useful model is to increase the service life and reliability of the product, as well as reduce energy consumption.

This goal is achieved by the fact that between the electrical contacts of the base part of the housing and the radiation source, consisting of crystals of light-emitting diodes, an electronic unit is installed inside the housing, the inputs of the electronic unit are connected to the electrical contacts of the base part of the housing and the outputs are connected to the radiation source circuits.

The proposed semiconductor indicator is presented in figure 1, figure 2, figure 3, figure 4. The electrical circuit of the electronic unit is shown in Fig. 3, Fig. 6, Fig. 7.

The semiconductor indicator includes a housing 1, made in one piece with the base part 2, on which the contacts 3 are connected, connected to the electronic unit 4, the radiation source 5, made of a transparent polymer compound that acts as a scattering lens, including a printed circuit board 6 with glued and boiled crystals 7, a light guide 8, contacts of a radiation source 9, pressed into a printed circuit board 6, one of which is connected by means of a conductor 10 with contacts in the base part 3, and the second by an electronic unit 4.

The case and base of the semiconductor indicator can be of several modifications for different application conditions:

- cylindrical with a bayonet type cap of different sizes (Fig.

- cylindrical with a threaded type cap of different sizes (Fig. 2);

- cylindrical with a flange 11 in the upper part of the housing with a thread and a nut 12 and a socle of a cylindrical type (Fig. 3);

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The contacts 3 of the base part of the M017T semiconductor indicator case are point, lamella, screw, flexible with round terminals at the ends.

The electronic unit 4, as shown in the electrical diagram (Fig. 5), depending on the operating mode, contains resistors 14, 15, a capacitor 16 or resistor 17 (Fig. 6) or resistor 18, a diode bridge 19 of four diodes (Fig. 7) )

The semiconductor indicator can operate on continuous, direct current or from bipolar power sources.

When the semiconductor indicator on alternating current (Fig. 5), one output of the resistor 14 is connected to the first contact of the base part 2, and the other is connected to the nerve terminal of the capacitor 16, the second output of which is connected to the contacts of the radiation source 9, the second resistor 15 is connected to the terminals of the capacitor 16, and the second contact of the base part 2 is connected to the contacts of the radiation source 9 by means of a conductor 10.

When the diode indicator is in direct current, the first output of the resistor 17 is connected to the first contact of the base part 2, and the second to the contacts of the radiation source 9, the second contact of the base part 2 is connected to the contacts of the radiation source 9 by means of a wire 10.

When the semiconductor indicator is operated with heteropolar sources of ignition, the first output of the resistor 18 is connected to the first contact of the base part 2, and the second to the nerve input of the diode bridge 19, the second input of the diode bridge 19 is connected to the second contact of the base part 2, the outputs of the diode bridge 16 are connected to the contacts radiation source 9.

The color of the glow of the radiation source is red, yellow, green, depending on the type of crystals of the light emitting diodes. The number of crystals of light emitting diodes from 1 to p. The use of light-emitting diode crystals as a radiation source reduces the current flowing through the semiconductor indicator, which leads to a reduction in energy consumption, an increase in the service life of the product and an increase in its reliability.

Authors: Voloshchin S.P. Arkhipov S.V.

Claims (1)

A semiconductor indicator comprising a housing integrally formed with the base part, a radiation source containing from 1 to n crystals, light emitting diodes and connected to electrical contacts located on the base part of the housing, characterized in that between the electrical contacts of the base part and the radiation source an electronic unit installed inside the housing is introduced, the inputs of the electronic unit being connected to the electrical contacts of the base part of the housing, and the outputs to the contacts of the radiation source .