CS240198B1 - Connection of a three-state indicator of conductive connection - Google Patents

Abstract

The purpose of the connection is to distinguish whether the test element (part of the circuit or electrical component) is shorted or has a working resistance or is broken. The wiring uses two light-emitting diodes (LEDs) that differ in the amount of voltage drop in the forward direction. The current from the voltage source is limited by resistance, either by one diode or by a second diode, or by no diode, depending on the resistance of the tested element.

Description

The invention relates to a three-state conductor connection indicator.

Previously known indicators are suitable either for conductive connection with low resistance (so-called low ohmic testers) or for connection with high resistance (high ohmic testers).

Low ohmic testers indicate conductive connection to resistor of tens or hundreds of ohms. The limit is not precisely defined except in the case of more sophisticated testers (eg with an operational amplifier in the comparator function) where the distinguishing limit is possibly adjustable. These testers do not distinguish the conductive connection of greater resistance from the non-conductive connection.

High ohmic testers indicate a conductive connection to a resistance of the order of hundreds of thousands or millions of ohms, but do not distinguish the degree of conductivity in the area of low resistances.

In electrical engineering, there is an interest to readily distinguish between small resistors (less than approx. · 10, which technically represent a short circuit), medium resistors (approx.

10, which represent the operating resistances of the device) and large resistors (greater than about 10, which represent a broken connection or insulation). The expression of this need is the existence of indicators resulting from the combination of a low-ohm and a high-ohm tester. However, it is all about mechanical merging, characterized in that the separate testers of both types are encapsulated together (even with some parts in common), but they are put into function alternately by switch, selector jack, etc., which complicates the operator. The use of such an indicator instead of a measuring instrument then loses its merit.

Removal of the deficiencies of the current state is achieved by the connection of the three-state indicator of conductive connection according to the invention, which is characterized in that the DC voltage source is connected via a common limiting resistor to the test element connected in series with a light-emitting diode with lower forward voltage; - a transistor emitter connected in series to a higher-voltage light-emitting diode in the forward direction. the transistor phrase is connected via a base resistor to the point where the test element meets the light-emitting diode with a lower forward voltage.

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For the indicator in the circuit according to the invention, either a light-emitting diode with a low pass-through voltage, or a light-emitting diode with a higher pass-through voltage, or neither a light-emitting diode with a lower pass-through voltage nor a light-emitting diode with higher forward voltage. Thus, more detailed information on the test element is provided than in the prior art indicators. Furthermore, the simplicity and the resulting economic advantages are also advantages of the connection.

In the accompanying drawing, an example of a three-state conductor connection indicator according to the invention is shown. Test element 2 connected in series with a light-emitting diode 2 with a lower forward voltage and a light-emitting diode 2 with a higher forward voltage connected in series with the collector-emitter transistor 2 are connected in parallel to a DC voltage source 2 via a common limiting resistor 7 » wherein the base of the transistor 2 s ^e through the base resistor connected to the lower terminal £ indicator, which meet the test element 9 and the diode 2 with a lower voltage in the forward direction.

If the upper terminal 2 and the bottom of the indicator clip 6 indicator disconnected or connected to the test element 2 ⁰ large resistance value, the diode 2 with a higher voltage in the forward direction is off, since the transistor 2 and ^e is closed. Also, the light-emitting diode 2 ^{with a} lower forward voltage is not lit because no current flows (or a small current).

If the upper terminal 2 of indicator and bottom terminal 2 indicator shorted or connected to the tested element 2 ⁰ to a small value resistor, the diode 2 ^{with a} lower voltage in the forward direction is lit, as it flows through the nominal current, the voltage source 2 of DC voltage and the resistance of the joint constraint seventh resistor LED 2 ^{with a} higher voltage in the forward direction is off, although the transistor 2 d ^ev saturation, since the voltage between the upper hub 10 and the lower hub 11 is equal to the forward voltage of the LEDs 2 ^{with a} lower voltage in the forward direction, which however, it is lower than the forward voltage of the light-emitting diode 2 with a higher forward voltage.

When the test element is connected at 2 ° to a resistance value of the order of tens to hundreds of thousands of ohms, the light-emitting diode 2 illuminates ^{with a} higher forward voltage because of the transistor. 2 ^e j opened. The light-emitting diode 2 ^{with a} lower forward voltage is not illuminated because it receives a small current at which no light emission occurs. Furthermore, the range of resistance values of the test element 2 can be effectively varied by means common to the synthesis of transistor circuits.

The wiring indicator according to the invention also makes it possible advantageously to check the state of the silicon-based semiconductor transitions by the good-bad method, in addition to distinguishing between the case of a punctured and a case of an interrupted transition. If an intact semiconductor transition is to be connected as a test element 2 of the conductivity areas

3 240 198 p on the upper terminal 5 and the conductivity region n on the lower terminal 5, the light-emitting diode 2 is illuminated with a higher forward voltage. In the case of a break-through transition, the light-emitting diode 1 illuminates with a lower forward voltage. In the case of an interrupted transition, neither the light-emitting diode 1 with the lower forward voltage nor the light-emitting diode 2 ^{with the} higher forward voltage are lit.

The wiring of the conductive connection indicator can be used especially when designing a small portable tester or as a part of wiring other electronic circuits.

Claims (1)

A three-state conductor connection wiring utilizing two light-emitting diodes with different forward voltage voltages, characterized in that the test element (9) connected in series with a light-emitting diode (1) with a lower forward voltage and a light-emitting diode (2) the higher forward voltage connected in series with the collector-emitter transition of the transistor (3) are connected in parallel to a DC voltage source (8) via a common limiting resistor (7), the transistor base (3) connected via a base resistor (4) to a point at which the test element (9) is connected to a light-emitting diode (1) with a lower forward voltage.