SU1004920A1 - Insulation break-down indicating device - Google Patents

Description

. (54) CONSTITUTION FOR INSULATION BREAKDOWN INDICATION

The invention relates to electrical engineering,

and can be used in systems for testing electrical insulation strength, for example, in a complex of equipment for testing the electrical strength of insulation of electronic devices using a microprocessor. .

A device is known for testing the insulation strength with alternating current, containing a voltage source connected to a high-voltage transformer equipped with a current sensor in the secondary circuit, and a test voltage switch, a phase slip meter, the first input of which is connected to the current sensor in the secondary circuit, the second voltage source, and the output is connected to the input of the threshold circuit Z.

The disadvantages of the known device are low reliability and safety during high voltage tests.

The closest to the invention of the invention is a device for controlling the breakdown voltage of arresters, comprising a power transformer, a voltage controller,

power supply, isolation transformer, start button, auxiliary thyristor and a resistor connected between the power thyristor and the primary winding of the power transformer, an additional auxiliary thyristor connected through the third resistor in parallel with the capacitor by the capacitor and through the opening contacts of the start-up BUTTON - with the output of the trigger 2.

The disadvantages of the known device are its low reliability and safety.

15 when conducting high voltage tests, and also has low noise immunity.

The purpose of the invention is to increase reliability and noise immunity.

20

Claims (2)

This goal is achieved by the fact that a device for indicating a probe is zolocled, containing a power transformer, the first output of the primary winding of which is connected to the first output of the apr regulator, whose inputs are connected to terminals for connecting the AC voltage network, the first output of the secondary winding of the power supply the transformer is connected to the first terminal for connecting the test object, an isolation transformer with two secondary windings, the first of which is connected to the inputs of a constant voltage source, The primary winding of the isolation transformer is connected to the terminals for connecting an alternating voltage network, switch.resistors, two transistor optocouplers are introduced, a second constant voltage source, a thyristor optocoupler, a diode, and the positive terminal of the second DC source connected to the positive input of the first transistor optocoupler and the first input of the switch, the output of which is connected1 {with the first input of the second transistor optocoupler, the second input of which is connected to the first output of the first cut torus, the positive input of the second transistor of the optocoupler is connected with positive terminal of the first source of constant voltage and a first input of the first tran zistornogo photocoupler, negative terminal. The first DC voltage source is connected to the ground search and to the negative input of the second transistor optocoupler; connected through the second resistor with the second output of the secondary winding of the power transformer, the cathode of the diode is connected to the second terminal for connecting the test object ol, anode photothyristor thyristor optocoupler connected to the second output of the first resistor, the output of the second transistor optocoupler connected to the output terminal, the input terminal of the first transistor optocoupler / output connected to the second input of the switch, and the second secondary winding of the isolation transformer connected to the inputs of the second source of constant voltage. FIG. 1 shows a functional block diagram of the device; in fig. 2 is a circuit diagram of a transistor optocoupler. The device contains a power transformer 1 ,. voltage regulator 2, rezstor 3, diode 4, test object 5, separation transformer 6, first source 7 constant voltage, switch 8, first transistor optocoupler 9 to second transistor optocoupler 10, second constant voltage source 11, transistor optocoupler 12 with an LED 13 and a photothyristor 14, a resistor 15, the output terminal 16 of the device to the input terminal 17 of the device. Transistor optocouplers 9 and 10 contain LEDs 18, a photodiode 19, transistors 20-23, diode 24, resistors 25-30. The device works as follows. In the initial state, the phototherm 14 of the optocoupler 12 is closed and the control current at the input of the second transistor optocoupler 10 is absent, there is no signal at the output aerial 16. During the breakdown of the decal pp in the test object 5, the current breakdown passes through the resistor 3, diode 4 and the LED 13 of the thyristor optron 12- At this time, the photothyristor 14 of the thyristor optocoupler 12n is illuminated and goes to the conducting state. A phototransistor 14 circuit is created, a resistor 15, a light diode 18 of the second transistor optocoupler 10, a switch 8 through which current passes, and an output breakdown appears at the output of the second transistor ontron 10 (terminal 16). Thus, the information on the breakdown of the insulation in the test object 5 is fed to the output terminal 16 through the tyrnstorny optocoupler 12, which is simultaneously a memory element, and the second transistor optocoupler 10. In the main device 7 and an additional 11 power sources with each other galvanically developed by means of a separating transformer 6 through the input circuits, and by means of transistor optocouplers 9 and 10 with terminals 17 and 16. At this, the main power supply 7 is galvanically connected to the power supply inputs of the second transistor The optocoupler 10, the input circuits of the first transistor optocoupler and the input and output terminals 17 and 16. The second constant voltage source 11 is also galvanically connected to the power supply of the first transistor optocoupler circuit 9, the switch 8, the input circuits of the second transistor optocoupler 10, a resistor 15 and a photoresistor 14 of a transistor optocoupler 12, which Schodnts is in a conducting state for as long as the switch 8 is in the open state. For the photo thyristor 14 of the transgeneration optocoupler 12, the supply circuit is interrupted for a short time Twomey otklyuchatep 8. At an input terminal 17 is supplied to the reset pulse of negative polarity at the output of the first transistor optrot. 9, a control pulse of the switch 8 appears. The photo thyristor 14 is closed and the device assumes the initial state. In the proposed device, the reliability of control and indication is improved, the accuracy of indication of breakdown is ensured, the noise immunity is increased, and the possibility of interference to external tires of the device during breakdown is eliminated, the safety of the personnel is ensured when working with high test voltages. isolate ssh containing power. transformer, the first output of the primary winding of which is connected. with the first exit. voltage regulator,. the inputs of which are connected to terminals for connecting or disconnecting an alternating voltage network, the first output of the secondary winding of the power transformer is connected to the first terminal for connecting the test object, a split transformer with two secondary windings, the first and connected to. The inputs of the DC source, the primary winding of the isolation transformer are connected to the terminals of an AC voltage connection, a rt switch, a resistor / rya, which, in order to improve the reliability and immunity of the device, two transistor optocouplers are inserted into it, the second source of constant voltage, thyristor optro, diode, and a positive on the terminal of the second source of constant voltage is connected to the positive input of the first transistor optocoupler on the first input of the 1st transistor the output of which is connected to the first input of the second transistor optocoupler, the second input of which is connected to the first output of the first resistor, the positive input of the second transistor optocoupler is connected to the positive terminal of the first constant voltage supply and the first input of the first transistor, negative terminal of the first constant voltage source connected to the earth bus and to the negative input of the second transistor one. The negative side of the second source of the constant voltage is connected to the negative input of the first transistor optocoupler and to the cathode of the photoresistor of the thyristor optocoupler, the LED of which is connected counter-parallel with the diode, the anode of which is connected through the second resistor to the second output of the secondary transformer of the power transformer, the cathode of the diode is connected to the diode, which is connected via a second resistor to the second output of the secondary winding of the power transformer, the cathode of the diode is connected to the diode, which is connected via a second resistor to the second output of the secondary winding of the power transformer, the cathode of the diode is connected to the diode, the cathode of which is connected through the second resistor to the second output of the secondary winding of the power transformer, the cathode of the diode is connected to the diode; with the second terminal for connecting the test object, the anode of the photo thyristor of the thyristor optocoupler is connected to the second terminal of the first resistor, the output of the second transistor test The throne is connected to the output terminal, the input terminal is connected to the second input of the first transistor optocoupler, the output of which is (Needin with the second input of the switch, and the terminals of the second secondary winding of the distributed transformer are connected to the inputs of the second DC source. expert 1 s 1. USSR author's certificate No. 533888, class, .a 01 I 31/14. 1975. 2. USSR author's certificate number 699445 Cl. G 01 R 19/02, 1977.