CS196017B1 - Connection for testing the semi-conductor valves - Google Patents

Description

The invention relates to a test device, semiconductor valves, in particular thyristors, triacs and diodes. ·

The most common failure of power semiconductor valves is the short circuit between the cathode and the anode. It arises either as a result of exceeding one of the limit parameters of the valve, or less frequently as a result of the gradual degradation of its closing and blocking ability. On the other hand, power semiconductor valves do not interrupt the system due to their design.

It is known to connect a simple thyristor testing device consisting of a power transformer, a pair of light indicators, e.g., a red and a green indicator, each of which is fed via an opposite oriented diode, each at the opposite half-current frequency and limited resistance to the ignition electrode of the tested thyristor. The disadvantage of this circuit is that the signal, which, with good thyristors, lights up by passing half-waves of current in its forward direction, illuminates together with the second indicator even when thyristors are broken, so the indication is not entirely unambiguous. Permanently applied current to the control electrode of the tested thyristor limits the range of thyristor sizes that can be tested at a single limiting resistance value, and further increases the dimensioning requirements of the heaviest and most dimensional part of the instrument - the power transformer.

According to the invention, the above-mentioned shortcomings eliminate the circuit for testing semiconductor valves, in particular thyristors, triacs and diodes, consisting of a power transformer and

196 017

198017 oriented semiconductor cores, each of which is connected with a light indicator, which consists in that the first outlet of the supply transformer are connected cathodes of the first diode and second diode, as well as one light indicator terminal for indicating good test valve and one outlet of the first a second diode of the first resistor is connected to a first diode of the second resistor and an anode of a protective diode, the cathode of which is connected to the control electrode of the auxiliary thyristor, the anode of which is connected to the second terminal of the light indicator for a first output terminal to which a positive capacitor terminal is connected and one light indicator terminal for indicating a faulty test valve, and a second light indicator terminal is connected to the anode of the first diode and the cathode of the third diode having an anode connected the negative terminal of the memory capacitor and the second terminal of the second resistor are connected to the second terminal of the power transformer, the anode of the fourth diode, one terminal of the third resistor, the capacitor of the pulse source and the other pole ^: filter knndenzátor ,. the positive pole of which is connected to the cathode of the fourth diode, the second terminal of the pulse source capacitor and connected via a diac to the third output terminal. It is a further object of the invention that a protective capacitor is connected to the secondary winding of the transformer.

The main advantage of the connection according to the invention is that the light indicator for indicating a good valve is fed in one half-wave of the mains voltage via an auxiliary thyristor, whose switching is blocked by a voltage generated in the opposite half-valve. . The ignition pulse source consists of a diac and a capacitor, charged in one half period through the resistance of the filter capacitor and in the other half cycle discharged so that the ignition pulses occur only during the half period in which the light indicator to indicate a good valve can illuminate. According to the invention, by blocking the two light indicators together, the unequivocal indication of a good or punctured valve and the possibility of saving the power supply transformer is achieved, which is further aided by a source of short ignition pulses. The ignition pulse generator, designed so that the pulses are generated only in the half-period in which the indicator to indicate a good valve can be lit, enables triacs to be tested in addition to thyristors and diodes. A further advantage of the circuitry according to the invention is that it is suitable for locating a faulty thyristor, triac or diode in all power electronics devices. In most cases, it is not necessary to remove the test valve from the device, as operation is not impaired by normal commutation protection and ignition circuits.

An exemplary circuit according to the invention is shown schematically in the attached drawing.

The circuit according to the invention for testing semiconductor valves, in particular thyristors, triacs and diodes, is fed from a power transformer 1, to the first of which the cathodes of the first diode 6 and the second diode 9 are connected. a first resistor 13 terminal. A second resistor 13 terminal is connected to a first resistor terminal 12 and an anode of a protective diode 7, the cathode of which is connected to the control electrode of the auxiliary thyristor 10 whose anode is connected.

IBS 017 β has a second light indicator terminal 6 for indicating a good valve and whose cathode is connected to a first output terminal a, to which the positive terminal of the memory capacitor 11 and one light indicator terminal 4 for indicating a faulty test valve are connected. The second terminal of the light indicator 6 is connected to the anode of the first diode 5 and the cathode of the third diode 6, which has an anode connected to it by the negative terminal of the memory capacitor 11 and the second terminal of the second resistor 12. the output of a third resistor 14, a pulse source capacitor 16, and a second output terminal b of the apparatus. The second terminal of the third resistor 14 is connected by the β anode of the second diode 9 and the negative terminal of the filter capacitor 15, the positive terminal of which is connected to the cathode of the fourth diode 8, the second terminal of the pulse source capacitor 16 and connected via disc 17 to the third output terminal c. A protective capacitor 2 is connected to the transformer 1.

The wiring function according to the invention for testing semiconductor valves is as follows: power is provided through the power transformer 1. A light indicator 3, preferably a green indicator, connected in series with an auxiliary thyristor 10, which is each positive half-period of the power supply voltage switched resistor 13 and diode T, ^I f is the test valve 18 is broken, passes through it in a negative half periods of the mains voltage the current through the diode which illuminates light £ 4, preferably red indicator for indicating a defective test valve 18. voltage at £ signálka the diode 6 charges the capacitor 11 in such a way that, during the following positive half-period through the resistor 12, the auxiliary thyristor 10 is switched on to illuminate the indicator light 3. The capacitor 2 connected in parallel to the secondary winding of the power transformer 1 serves to absorb the overvoltage The ignition pulse source consists of diac 17 and capacitor 1, which is charged from capacitor 1fi via a resistor 14 during positive half-period mains voltage. The capacitor 15 is then charged *; the fourth diode 8 and the second diode 9 are each in the negative half periods. The condition of proper function is that the capacitor 15 has a considerably greater capacity than the capacitor 16. The ignition pulses are then generated only during the positive half-period of the line voltage, which also allows the triacs to be tested.

Claims (2)

object of the invention 1. Test equipment for semiconductor valves, in particular thyristors, triacs and diodes, consisting of a power transformer and two oppositely oriented semiconductor valves, each with a light indicator, characterized in that they are connected to the first outlet of the power transformer (1). the cathodes of the first diode (5) and the second diode (9), as well as one light indicator outlet (3) to indicate good test valve and one outlet of the first resistor (13), the second outlet of the first resistor (13) being connected to the first outlet d a second resistor (12) and an anode of a protective diode (7), the cathode of which is connected to the control anode of the auxiliary thyristor (10), the anode of which is connected by 8 second light indicator terminal (3) to indicate a good test valve; 01ββ 017 whose cathode is connected to the first output terminal (a), to which the positive capacitor terminal (11) is connected and one light indicator outlet (4) to indicate a faulty test valve and the other light indicator outlet (4) is connected to an anode of the first diode (5/9) with a third diode (6) kit having an anode connected to the negative terminal of the memory capacitor (11) and a second terminal of the second resistor (12), while a second diode anode is connected to the second terminal of the power transformer 8), one terminal of the third resistor (14), the pulse source capacitor (16) and the second output terminal (b) of the apparatus and the second terminal of the third resistor (14) are connected to the anode of the second diode (9) and the negative pole of the filter capacitor (15). whose positive pole is connected to the cathode of the fourth diode (8), the second terminal of the pulse source capacitor (16) and connected to the third output terminal (c) via diac (17), 2. The appliance according to claim 1, characterized in that a protective capacitor (2) is connected to the secondary winding of the supply transformer (1).