SU1140064A1 - Device for rejecting diodes by the time of back resistance restoration - Google Patents

Abstract

A DEVICE FOR DISASTERING DIODES BY RETURN RESISTANCE RECOVERY TIME, containing a forward current generator, a reverse voltage pulse generator, the first outputs of which are connected respectively to the common bus, and the second outputs are connected to the terminal of the tested diode anode, the terminal for connecting the cathode of which is connected to the first the output of the resistor, the second output of which is connected to a common busbar, characterized in that, in order to increase 1 g of grading performance, it is equipped with three single-oscillators and, a level shifter, three D-triggers, a decoder and four indicators, the second output of the direct current generator is connected to the input of the first one-oscillator, the output of which is connected to the C-input of the first D-trigger, D-input of which is connected to the output of the shifter Level and D - the input of the second D-flip-flop, the C-input of which is connected to the input of the third D-flip-flop and the output of the third single-oscillator, whose input is connected to the second output of the generator of the reverse voltage pulse generator J with the output of the second one-shot, the input of which is connected to the terminal for connecting the cathode of the test diode and the input of the level shifter, and the outputs of the D-triggers are connected respectively to the first, second and third inputs of the decoder, four outputs of which are connected respectively to the first, second, third and fourth indicators.

Description

The invention relates to electronic engineering, in particular, to the technique of measuring parameters of semiconductor diodes with respect to the recovery time of the reverse resistance J and can be used in their manufacture and at the input control. A device for controlling the reverse resistance recovery time is known, which contains a source of pulsed voltage, a load resistor, controllable diode and measuring device, for example, an oscilloscope connected in parallel to a controlled diode 1 J, A disadvantage of this device is It is that the load resistor vschel a considerable capacity especially at time reverse resistance measuring reduction in power diode. The use of visual control does not allow to automate the measurement process. The closest to the invention according to the technical essence is a device for sorting out the diodes with respect to the recovery time of the reverse resistance, comprising a forward current generator, a reverse voltage pulse generator, the first outputs of which are connected respectively to the common bus and the second outputs are connected to the terminal for connecting the anode the test diode, the terminal for connecting the cathode of which is connected to the first output of the resistor, the second output of which is connected to the common bus 23. The disadvantages of this device include STI inability to automate the measurement process and subjectivity in the evaluation of the measurement results, as the results of the evaluation is carried out visually on an oscilloscope. In this device, there is no control over the correctness of installation and the absence of short circuits in the circuit of the diode being tested. Due to these reasons, this device is characterized by low productivity and reliability of control. The purpose of the invention is to increase productivity. This goal is achieved by the fact that the device for marking the diode by the recovery time of the reverse impediment containing a forward current generator, a reverse voltage pulse generator, the first outputs of which are connected respectively to the common bus 5 and the second outputs are connected to the terminal for connecting the anode of the test diode The terminal for connecting the cathode of which is connected to the first terminal of the resistor. The second terminal of which is connected to the common bus is equipped with three single-oscillators. a level shifter, three D-triggers, a decoder and four indicators, the second output of the direct current generator is connected to the input of the first single-oscillator, the output of which is connected to the C input of the first D-trigger, whose P input is connected to the output of the level shifter and D-input of the second i) -trigger, the C-input of which is connected to the C-input of the third J) -trigger and the output of the third one-vibrator, the input of which is connected to the second output of the generator of reverse voltage pulses, 2-input of the third D -trigger connected to the output Tue of the one-selector, whose input is connected to the terminal for connecting the cathode of the test diode and the input of the level shifter, and the outputs of the D-triggers are connected respectively to the first, second and third inputs of the decoder, the four outputs of which are connected respectively to the first, second, third and fourth indicators Fig. 1 is a block diagram of a device for marking diodes in accordance with the recovery time of a reverse resistance; Figures 2 to 5 show stress diagrams at characteristic points of the circuit, which explain the operation of the device. The device for sorting out the diodes in accordance with the recovery time of the reverse resistance comprises a forward current generator 1, a generator of 2 reverse voltage pulses, the first outputs of which are connected respectively to the common bus, and the second outputs are connected to terminal 3 for connecting the anode of the test diode, terminal 4 for connecting the cathode which is connected to the first output of the resistor 5, the second output of which is connected to the common bus, three 6-8 one-shot, shaper 9 level shifts, three 10-12 D triggers, decoder 13 and four 14-17 indicators, with The second output of the forward current generator 1 is connected to the input of the first 6 one-oscillator, the output of which is connected to the C input of the first 10D flip-flop, D-input of which is connected to the output of the level shifter 9 and D-input of the second 111 -trigger, C- the input of which is connected to the C input of the third 12 D trigger and the output of the third 8 one-oscillator, whose input is connected to the second generator of the 2 reverse voltage pulses, the D input of the third 12 D trigger is connected to the output of the second single vibrator whose input is connected to the terminal 4 to connect the cathode The test diode and the input of the shaper 9 are the level shifts, and the outputs of the first 10, second 11 and third 12 D triggers are connected respectively to the first, second and third inputs of the decoder 13, the four outputs of which are connected respectively to the first 14, second 15, third 16 and the fourth 17 indicators, and the second output of resistor 5 is connected to the common bus. An example of a level shifter may be a chain of series-connected diodes that are shifted in the forward direction. The device uses a D-trigger. An example of a design can be a K155TM2 ICO chip. 3448.006.NT1. The main requirements for one-shot vibrators: the launch must be carried out on one of the fronts and ensure the formation of pulses of a given duration. It is possible to use K155AG1 6K0.348.006TU26 or K155AGZ 6K0.348.006.TU microcircuits, if the recovery time of the reverse resistance of the tested diode is more than 50 n. The operation of the device is controlled from the generator of the pulse of the reverse voltage 2, the single-oscillators 6-8 are started up in the presence of pulses at the terminals 3 and 4 for connecting the tested diode and control the switching of the triggers 10-12, the states of which by means of the decoder 13 are output to the indicators 14-17. The parameters of the pulses that are generated by the generator of the reverse voltage pulses are determined by the type of diode under test. The device works as follows. The test diode is connected to terminals 3 and 4 to connect the anode and cathode of the test diode. The direct current generator 1 is a DC regulator and provides the required mode in the forward direction diode circuit. The pulses come from the generator of the reverse voltage pulses 2, displace the tested diode in the opposite direction and launch single vibrators 6 and 8, with the pulse duration at the output of the single vibrator 6 (Ug) equal to the maximum allowable value of the recovery time of the reverse resistance for this type of tested diodes, and the duration pulse at the output of the one-shot 8 (U,) is significantly longer than the duration of the pulse of the one-shot 6, but less than the duration of the blocking pulse produced by the pulse generator about brother voltage 2. The one-vibrator 7 is triggered by a negative differential pulse of positive polarity on the resistor 5 in such a way that the pulse duration at its output (U l is longer than the pulse duration at the output of the one-shot 8, but less than the duration of the blocking pulse generated by the generator of the reverse voltage pulse 2 Shift driver level 9 provides a change in the logical state of the D-input D-triggers 10, 11 when a potential is established on the resistor 5 and corresponding to 10% of the maximum value reverse current passing through the test diode. Thus, the D-trigger 10 switches from the initial state (Uj) in the case when the recovery time of the reverse resistance of the test diode is greater than the maximum possible value. D-Trigger 1; switches from the initial state when the test diode is not closed after a significant reverse voltage delay, which corresponds to a short circuit in the circuit of the test diode, which is incorrectly installed. D-Trigger 12 switches from the home state if present

5n

positive polarity pulses on a resistor 5.

Thus, according to the operation diagram shown in Fig. 2, with a suitable diode and correct installation, only the D-trigger 12 is charged, which corresponds to the Rodin status indication (indicator 14 in Fig. 1).

In the case when the recovery time of the reverse resistance at the diode exceeds the maximum allowable value (Fig. 3), triggers 10 and 12 are energized, and this state leads to the activation of the Not good indicator (indicator 15 in Fig. T).

If there is a short circuit in the circuit of the tested diode (Fig. 4), the negative potential will be on the resistor 5 for the entire duration of the blocking pulse produced by the generator of the reverse voltage pulses H0GO 2. In this case, all three D-triggers 10-12 and The short-circuit indicator will turn on. (indicator 16 in FIG. 1) ,.

If the tested diode is incorrectly installed in a contact device (Fig. 5), only resistors of negative polarity are observed on resistor 5. As a result of this, one 64 "

the vibrator 7 remains in the initial state, which means that the D-trigger 12 also remains in the initial state, at the same time the D-triggers 10 and 11 will be switched and the indicator 17 will turn on again.

In the event of contact failure in the circuit of the tested diode, no indicator is lit.

Thus, as a result of the measurement, there is information about the compliance of the parameter being checked with the requirements of the technical standards, presented in the form

Valid or Not valid, and also about the wrong installation of the test diode in the contact device or the presence of a short circuit in the circuit of the test diode.

The application of the proposed device will not only reduce the laboriousness of the control operation by providing more complete information about the diode under test, but

and fully automate the verification process using industrial manipulators, which reveals the possibility of building automatic production lines for the production and control of diodes.

FIG. 2

Fi.Z

one

F

and,

n

P

J

and

- g /

7fig. four

Phi.

Claims (1)

DEVICE FOR DISPLACEMENT OF DIODES BY TIME OF REVERSE RESISTANCE RECOVERY, containing a forward current generator, a reverse voltage pulse generator, the first outputs of which are connected respectively to the common bus, and the second outputs are connected to the terminal for • connecting the anode of the test diode, the terminal for connecting the cathode of which is connected to the first the output of the resistor, the second output of which is connected to a common bus, characterized in that, in order to increase the performance of the screening, it is equipped with three single-vibrators, for a level shifter, three D-flip-flops, a decoder and four indicators, the second output of the direct current generator connected to the input of the first one-shot, the output of which is connected to the C-input of the first D-flip-flop, the D-input of which is connected to the output of the level shifter and D - the input of the second D-flip-flop, the C-input of which is connected to the Ci-input of the third D-flip-flop and the output of the third one-shot, the input of which is connected to the second output of the pulse generator - 5 sov reverse voltage, D) - the input of the third D-flip-flop is connected to the outputtorogo univibrator whose input is connected to the terminal for connecting the cathode of the diode and the test input of the level shifter and outputs -triggerov D are connected to first, second and third inputs of the decoder, the four outputs of which are connected respectively to the first, second, third and fourth indicators. SU, 1140064 Fig. / 1 140064