CS198522B1 - Connexion for voltage selection of semiconductor - Google Patents

Description

The invention relates to a circuit for voltage classification of semiconductors.

In the manufacture and inspection of semiconductor products, especially thyristors, tricks and diodes, these products need to be sorted. The values of the blocking voltage for the T-shirts, the inverse and the blocking voltage for the thyristors and the inverse voltage for the diodes at the determined residual current classify the product in the appropriate voltage class. It is well known that bringing the thyristor or tricks to the closed state by the applied anode voltage is dangerous for the product. The risk of product destruction during sorting increases with higher voltage classes, even if the measuring voltage source limits the specific current only slightly above the specified residual current of the product. The phenomenon can be explained by the fact that the switching, for example of a thyristor, by the applied voltage takes place relatively slowly and thus a point thermal overload of the blocking transition occurs.

Until now, sorting of thyristors and triacs, especially of higher voltage classes, has been carried out in such a way that the AC measuring voltage applied to the product to be measured gradually increases, while the oscilloscope observes an increase in the residual current of the product in both half-waves. Once the specified residual current is reached, the voltage no longer increases and the product is assigned to the appropriate voltage class. This procedure is not only productive but also does not eliminate the danger of destruction of the measured product by electrical breakdown. It happens that the residual current still does not reach the specified value until it rises sharply at a certain voltage. In this case, the destruction of the sorted product is almost certain. These disadvantages

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9 Β 5 2 2 eliminates the voltage classification of the semiconductor products according to the invention.

SUMMARY OF THE INVENTION The present invention relates to a circuit for voltage classification of semiconductors, characterized in that an AC voltage source is connected via a current limiter to the primary winding of the air-gap transformer whose secondary winding is connected via at least one pair of resistors in series e by capacitor. the diode is connected in parallel between a cathode and an anode of a triac discharging, between which a pulse source is connected between the cathode and the control grid, to which a controllable resistor is connected to a third input, the sorted semiconductor connected by one electrode in series; the second electrode is connected to the other end of this secondary via a decoupling resistor ·

In the drawing there is an example of a circuit according to the invention which enables the classification of semiconductor products.

The essence of the invention is that the measurement voltage applied to the semiconductor product to be measured increases according to the einue waveform, the power frequency, until the measured value of the current flowing through the semiconductor product to be measured is reached. When the specified current value is reached, the rest of the voltage of the corresponding half wave is short-circuited by the electronic circuit of the measurement voltage source and at the same time discharges the electrical charge of the measured semiconductor product before it can destroy the semiconductor product.

The advantage of this voltage sorting of semiconductor products according to the invention is the possibility of productive sorting of products without the risk of their destruction. It can be used not only for manual sorting devices, but also for control machines.

An AC voltage source 1 is connected via a current limiter 2 to the primary winding 2 of the transformer 2 whose transformer metal core has an air gap to reduce the uniform magnetization under unbalanced load of the high voltage secondary winding. The high voltage across the secondary winding 2 is connected via a decoupling resistor 2 to a multiple series connected binary consisting of a resistor χ and a capacitor 8. In parallel to each pair consisting of, for example, a resistor χ and a capacitor 8, a first triac is connected. whose cathode and grid are connected to a pulse source X £ ·

The pulses in the χχ source for controlling triacs χχ, χχ are generated when the voltage drop across resistor 14 reaches a certain value. The residual current in the circuit with a sorted semiconductor X6, for example a thyriator, reaches the determined instantaneous value in the positive or negative half-wave of the line voltage. The resulting capacitance of the series capacitors 8, X 4 and the inductance of the windings 2 of the transformer 6 form a resonant circuit tuned to the frequency of the mains frequency.

The value of the decoupling resistor je is about one tenth of the capacitance of the series capacitors,, X £. The resistors χ, δ limit the free current of the capacitors,, X na to a suitable value for triacs XX, X2. The source of the pulse control 13 is formed, for example, by a blocking oscillator and output transformer having as many insulated secondary windings as triacs 13. The secondary winding 6 and the operating voltage of the triac are selected according to the high voltage ratio. the operation of the blocking oscillator is controlled by the instantaneous voltage drop across resistor X X. The current limiter 6 is formed, for example, by a diode bridging circuit in which the diode is alternating

198522 diagonal is connected to one pole of the alternating voltage source X and a pole of the primary winding 2 of the transformer 4. In the conversion dc diagonal of the diode bridge is connected a transistor into a conductive state excited auxiliary stream and upper-tier field weakening current flowing from the source 1 to the primary winding 2 * ^K overcurrent current occurs when triacs li, 12.

This connection can be used for voltage classification of semiconductor products. It is particularly suitable for classifying triac thyristors and diodes into voltage classes.

Claims (1)

SUBJECT OF THE INVENTION Wiring for voltage classification of semiconductors, characterized in that the AC power supply (1) is connected via a current limiter (2) to the primary winding (3) of the air-gap transformer (4), the secondary winding (5) of which is 6) connected to at least one resistor pair (7) in series with a capacitor (8), each pair connected in parallel between the cathode and the anode of the discharging triac (11), between which cathode pulse generator (13) is connected between the cathode and control grid; the third input of which comprises a controllable resistor (14), the sorted semiconductor (15) being connected by one electrode in series via the controllable resistor (14) to one terminal of the secondary winding (5) of the transformer (4) while the other is connected to the other the end of this secondary winding (5) via a separating resistor (6).