RU2130617C1 - Gear testing light-emitting diodes - Google Patents

Abstract

FIELD: electric measurement equipment, testing polarity of leads-out of light-emitting diodes. SUBSTANCE: gear includes AC source connected to terminals of tested light-emitting diode to which circuits with indicator light-emitting and additional diodes are connected in parallel opposition. In specific cases there is provided usage of stabilizer diodes or light- emitting diodes in their capacities. EFFECT: possibility of test of serviceability and polarity of light-emitting diodes with heavy reverse current. 3 cl, 1 dwg

Description

 A device for controlling LEDs relates to the field of measuring electrical quantities, in particular, to devices for indicating the presence and polarity of a current through a controlled LED before installing it in the equipment.

 When forming the leads of the LEDs before installing them in the equipment, it is necessary to check their operability in the operating mode and determine the polarity of the leads. To do this, you can use the device to check the parameters of semiconductor devices [1], but this is inefficient.

 The closest analogue of the claimed device is a probe for checking diodes [2], which allows you to determine the conclusions of the anode and cathode of the LED.

 An alternating current of industrial frequency from the secondary lowering winding of the transformer is supplied to a controlled LED through a current-setting resistor and an LED indicator connected in series with two parallel-connected LEDs. When a controlled LED is connected, the indicator diode matched with it by polarity is lit, indicating the polarity of the output. The disadvantage is that with a large reverse current of the monitored LED, the second indicator LED also shines, although with a lower brightness than the first, which reduces the reliability and reliability of the control.

 The problem to which the claimed technical solution is directed is to eliminate the false light emission by the indicator LED when monitoring the operability and polarity of the leads of the LEDs with high reverse current through a device with a power source of their alternating current of a given amplitude value.

 The essence of the claimed device is expressed in the combination of features set forth below.

 The device for controlling LEDs is designed to test their operability in the operating mode and determine the polarity of their conclusions. It contains a power source for their alternating current of a given amplitude. The output of this current source is connected to the terminals for connecting the terminals of controlled LEDs. The device also contains LED indicators for the polarity of the outputs connected to the terminals of the monitored LEDs.

 The device has the following distinctive features. LED polarity indicators are made of two identical counter-parallel connected circuits, which are connected in parallel to the terminals for connecting controlled LEDs. Each of these circuits is formed by a series-connected indicator LED and at least one additional diode with such a characteristic that the voltage drop across the entire circuit in the mode of emission of the indicator LED is higher than the direct voltage of the controlled LED in the mode of radiation, due to which there is no load on the terminals of the device the light is emitted by the indicator LEDs of both circuits, and when a working LED is connected to the terminals, one of the mentioned circuits is bridged by it, and the indicator the LED of this circuit does not emit light, and the second circuit provides light emission and an indication of the polarity of the terminals of the controlled LED.

 In the particular case, it is provided that an LED is used as an additional diode.

 In addition, in the particular case, the use of all LEDs of the same type as the controlled LEDs is provided.

 It is also provided in the particular case of using a zener diode as an additional diode.

 When used as an additional diode, the LED can be used as an indicator, which increases the information content and brightness of the display, since these LEDs can be located at both terminals and have opposite symbols - polarity indicators.

 The use of all the LEDs of the same type as the controlled ones simplifies the coordination of the currents of the controlled and indicator LEDs.

 The use of a zener diode as an additional diode makes it possible to use one zener diode, a stabistor or a similar element instead of several series-connected additional diodes in the case of a large variation in the forward voltage of the monitored LEDs.

 Regardless of the embodiment of the device, when monitoring LEDs with a large reverse current, reliable suppression of the LEDs of one of the circuits is ensured while maintaining the brightness of the LEDs of the second circuit unchanged, while the closest analogue [2] provides only a decrease in the brightness of the LEDs of the corresponding circuit under similar conditions. This simplifies control and increases its reliability.

 The drawing shows a diagram of a device with a connected controlled LED.

 The device for controlling the LEDs consists of an AC source 1 of a given amplitude, formed in a particular case by a transformer that reduces the voltage of the industrial frequency, 2 or another generator with a different frequency and a current-setting element 3, for example, a resistor. The output of source 1 is connected to terminals 4, 5 for connecting the LED under test 6. In parallel to terminals 4, 5, two circuits 7 and 8 are connected, including indicator LEDs 9, 10 and additional diodes 11 and 12.

 The device operates as follows. When there is no load at terminals 4, 5, during one half-cycle of alternating current, LED 9 emits light, and during the second half-cycle, light is emitted by LED 10.

 When the controlled LED 6 is connected to the terminals 4, 5, its forward voltage is lower than the voltage drop across the circuit with the corresponding indicator LED, which causes the latter to be extinguished. With the polarity of the LED 6 shown in the drawing, the indicator LED 9 is off, and the LED 10 continues to emit light.

 The device can also be used to control other types of diodes with a large reverse current.

Sources of information
1. A.I. Krivonosov. Optoelectronic devices. - M .: Energy, 1978.

 2. U. Verhallo. Probe for diodes. - J. Radio, 1993, N 6, p. 25.

Claims (4)

 1. Device for monitoring LEDs, designed to test their operability in operating mode and determine the polarity of their terminals, containing a power source with alternating current of a given amplitude, the output of which is connected to terminals for connecting the terminals of controlled LEDs, containing also LED indicators for the polarity of the terminals connected to terminals of controlled LEDs, characterized in that the LED polarity indicators are made of two identical counter-parallel connected circuits connected to the terminals for connecting controlled LEDs, and each of these circuits is formed by series-connected indicator LEDs and at least one additional diode with such a characteristic that the voltage drop across the entire circuit in the mode of emission of the indicator LED is higher than the forward voltage of the controlled LED in the mode radiation.  2. The device according to claim 1, characterized in that the LED is used as an additional diode.  3. The device according to claim 1 or 2, characterized in that all the LEDs are of the same type as the monitored LEDs.  4. The device according to claim 1, characterized in that a zener diode is used as an additional diode.