RU219800U1 - Stand for testing the operation of thyristors and triacs - Google Patents

Abstract

The utility model relates to electrical engineering, namely to bench equipment, and can be used to measure and test the performance of electronic components that are part of various types of metalworking machines. For example, in lathes and coordinate machines, thyristors are part of the control drives and are present there in a significant amount. Unlike the prototype, it additionally contains the first connector configured to supply a 24-390 V supply voltage to it, the second connector configured to connect an additional load and an additional measuring device to it, a platform for connecting the element under test and a control panel, which includes includes the first, second, third, fourth, fifth, sixth toggle switches, a turn-on light indicator, a main load unit, a leakage current measurement unit, a test element turn-on unit and a phase control unit, while the site for connecting the test element contains an anode, a cathode and control contact, the output of the first connector is connected to the input of the first toggle switch, the first output of the first toggle switch is connected to the input of the protection unit, the second output of the first toggle switch is connected to the first input of the turn-on light indicator, to the cathode of the platform for connecting the element under test, to the first input of the phase control unit and to the first input of the block for switching on the element under test, the output of the protection block is connected to the input of the second connector, to the input of the second toggle switch for connecting the main load block and to the second input of the light indicator of inclusion, in turn, the output of the second toggle switch is connected to the input of the main load block, while the outputs the second connector and the main load unit are connected to each other and to the inputs of the fourth toggle switch and the leakage current measurement unit, the output of the leakage current measurement unit is connected to the input of the fifth toggle switch, while the outputs of the fourth toggle switch and the fifth toggle switch are connected to each other, as well as to the first input of the sixth toggle switch , the input of the third toggle switch and with the anode of the platform for connecting the element under test, the output of the third toggle switch is connected to the second input of the block for switching on the element under test, the output of which is connected to the second input of the sixth toggle switch, the first output of the sixth toggle switch is connected to the control contact of the platform for connecting the element under test, and the second output with the second input of the phase control unit, at the same time, the output of the phase control unit is connected to the third input of the sixth toggle switch. The technical result in the implementation of the claimed solution is the expansion of functionality, high efficiency of testing the thyristor/triac, including through the implementation of the forced phase control function to change the closing/opening angle of the tested thyristor/triac. 1 ill.

Description

The utility model relates to electrical engineering, namely to bench equipment, and can be used to measure and test the performance of electronic components included in various types of metalworking machines. For example, in lathes and coordinate machines, thyristors are part of the control drives and are present there in a significant amount.

A device for testing a panel of thyristors EPS is known (Proceedings of the All-Russian Scientific and Practical Conference "Transport-2007" part 2, p. 208, a scientific publication of the RGUPS, Rostov-on-Don, 2007, UDC 629.423.001.4: 621.382), representing It is a breadboard model that simulates input actions, namely, pulses with variable duration, amplitude and phase, synchronized with an industrial network. The disadvantage of this device is the lack of load resistors, control devices, indication.

The closest technical solution, chosen as a prototype, is a device for testing power diodes and thyristors in the converter (Patent RU No. 37834, 2004, IPC: G01R 31/02, G01R 31/28), containing a power source, a milliammeter, two measuring resistors , the first voltmeter, the first measuring probe. At the same time, it is equipped with a protection unit, the second and third measuring probes, a second voltmeter, while the first and second inputs of the protection unit are connected to the positive and negative terminals of the power source, respectively, the first output of the protection unit is connected to the common point of the cathode group of power elements of the semiconductor converter, and the second output of the protection unit is connected to the input of a milliammeter, the output of which is connected to the common point of two measuring resistors connected in series, the input of the first measuring probe is connected to the common point of the measuring resistors, the other leads of the measuring resistors are connected to the inputs of the second and third measuring probes, and the outputs of all measuring probes are connected to the anodes of the tested power elements of the parallel branches of the cathode group of the semiconductor converter, the first and second voltmeters are connected in parallel to two measuring resistors, respectively. The disadvantage of this device is the lack of the possibility of forced control of the closing and opening of the thyristor/triac under test and the possibility of connecting an additional load, which makes it possible to check the operation of the thyristor/triac in a more visual form, as well as smooth adjustment of the opening angle of the thyristor/triac and connecting an oscilloscope to observe the shape of the anode voltage.

The technical problem solved by the creation of this utility model is the impossibility of forced phase control to change the closing / opening angle of the thyristor/triac under test.

The technical result is aimed at creating a stand with extended functionality that provides high efficiency of testing the thyristor/triac, including through the implementation of the forced phase control function to change the closing/opening angle of the tested thyristor/triac.

To achieve a technical result, the stand for testing the operation of thyristors and triacs (hereinafter referred to as elements) contains a protection unit. At the same time, unlike the prototype, it additionally contains the first connector, configured to supply a supply voltage of 24 - 390 V, the second connector, configured to connect an additional load and an additional measuring device to it, a platform for connecting the element under test and a control panel, which includes the first, second, third, fourth, fifth, sixth toggle switches, a turn-on light indicator, a main load unit, a leakage current measurement unit, a test element turn-on unit and a phase control unit, at the same time, the site for connecting the test element contains an anode , cathode and control contact, the output of the first connector is connected to the input of the first toggle switch, the first output of the first toggle switch is connected to the input of the protection unit, the second output of the first toggle switch is connected to the first input of the power indicator light, to the cathode of the platform for connecting the element under test, to the first input of the phase control and with the first input of the block for switching on the element under test, the output of the protection block is connected to the input of the second connector, to the input of the second toggle switch for connecting the main load block and to the second input of the light indicator of switching on, in turn, the output of the second toggle switch is connected to the input of the main load block, with In this case, the outputs of the second connector and the main load unit are connected to each other and to the inputs of the fourth toggle switch and the leakage current measurement unit, the output of the leakage current measurement unit is connected to the input of the fifth toggle switch, while the outputs of the fourth toggle switch and the fifth toggle switch are connected to each other, as well as to the first input of the sixth toggle switch, the input of the third toggle switch and with the anode of the platform for connecting the element under test, the output of the third toggle switch is connected to the second input of the block for switching on the element under test, the output of which is connected to the second input of the sixth toggle switch, the first output of the sixth toggle switch is connected to the control contact of the platform for connecting the element under test, and the second output is connected to the second input of the phase control unit, at the same time, the output of the phase control unit is connected to the third input of the sixth toggle switch.

The essence of the claimed technical solution is illustrated by a drawing, which shows a block diagram of the stand for testing the operation of thyristors and triacs.

The stand for checking elements contains the first connector X ₁ 1, the second connector X ₂ 2, the platform for connecting the element under test (PPE) 3 and the control panel (PU) 4, which includes the first toggle switch (T ₁ ) 5 for connecting network, power indicator light (SI) 6, protection unit (BZ) 7, for example, in the form of a fuse, designed to protect the stand from overcurrents that occur during a short circuit or as a result of critical overloads, a second toggle switch (T ₂ ) 8 for connecting the unit the main load, the main load unit (BON) 9, the leakage current measurement unit (BITU) 10, which serves to measure the magnitude and direction of the leakage current due to the built-in, for example, milliammeter, the fourth toggle switch (T ₄ ) 11 on / off mode measurement of leakage current, the fifth toggle switch (T ₅ ) 12 change the direction of the leakage current, the third toggle switch (T ₃ ) 13 switching the position of the thyristor "open / close", the sixth toggle switch (T ₆ ) 14 switching on / off the phase control mode, the unit for switching on the element under test (BVE) 15 and phase control unit (BFU) 16 with a built-in phase adjustment knob. At the same time, PES 3 contains an anode (A) 17, a cathode (K) 18 and a control contact (CC) 19 for connecting the corresponding terminals of the element under test. At the same time, X ₂ 2 is configured to connect an additional load (DN) 20 to it, for example, an incandescent lamp, a heating element, a powerful resistor, or a combination thereof, depending on the passport data of the element under test, and an additional measuring device (DIP) 21, for example, voltmeter to measure the voltage flowing through the element under test. It is also possible to connect an oscilloscope (OS) 22 to the stand.

The output X ₁ 1, configured to supply a supply voltage of 24 - 390 V, depending on the passport data of the element under test, is connected to the input T ₁ 5, which is used to turn on the stand.

The first output T ₁ 5 is connected to the input of BZ 7. The second output T ₁ 5 is connected to the first input of SI 6, to K 18, to the first input of BFU 16 and to the first input of BVE 15.

The output of BZ 7 is connected to the input X ₂ 2, to the input T ₂ 8 and to the second input SI 6.

The output of T ₂ 8 is connected to the input of BON 9. At the same time, the outputs of X ₂ 2 and BON 9 are connected to each other and to the inputs of T ₄ 11 and BITU 10.

The output of the BITU 10 is connected to the input of T ₅ 12, while the outputs of T ₄ 11 and T ₅ 12 are connected to each other and also to the first input of T ₆ 14, the input of T ₃ 13 and to A 17.

The output of T ₃ 13 is connected to the second input of BVE 15, the output of which is connected to the second input of T ₆ 14.

The first output of T ₆ 14 is connected to the UK 19, and the second output to the second input of the BFU 16, at the same time the output of the BFU 16 is connected to the third input of the toggle switch T6 14.

Consider the operation of the stand using the example of testing thyristors and triacs, which includes several stages.

At the first stage, the stand is prepared for work.

Before each stage of the checks, you must make sure that the toggle switches are in their original position, namely T ₁ 5, T ₂ 8, T ₄ 11, T ₆ 14 in the “off” position, and T ₃ 13 in the “close” position.

An additional load DN 20 is connected to the second connector X ₂ 2, for example, in the form of a 220V incandescent lamp. On A 17, K 18 and UK 19 PES 3 connect the corresponding conclusions of the element being checked, for example, the KU202N thyristor.

Also, DIP 21 is connected to X ₂ 2, for example, a voltmeter to measure the voltage flowing through the thyristor.

The second output T ₁ 5 is connected to the input OS 22, the output of which is connected to A 17 of the thyristor. OS 22 is used to measure the voltage waveform and electrical characteristics of the element under test. At the same time, for safety, OS 22 must be grounded, at the same time, the stand does not need grounding.

Voltage, for example, 220V, is connected to the first connector X ₁ 1 to power the stand.

At the second stage, the element is tested for breakdown.

T ₁ 5 is switched from the “off” position to the “on” position, while the light indicator SI 6 lights up, which indicates that the stand is connected to the network.

When switching the toggle switch T ₃ 13 from the "close" position to the "open" position, the voltage is supplied to the UK 19 of the thyristor through the BVE 15 and T ₆ 14, and the thyristor opens, while the incandescent lamp lights up. When the toggle switch T ₃ 13 is switched back from the “open” position to the “close” position, the control voltage is “reset”, and the thyristor closes, and the incandescent lamp goes out. If the toggle switch is in the “close” position, but the lamp is still on, then we can conclude that the thyristor under test is “broken”, that is, it is faulty.

If the thyristor is working, then we continue to further check the parameters.

At the third stage, the leakage current is checked.

T ₄ 11 is switched from the “off” position to the “on” position to measure the current flowing through the thyristor in the closed state, while the current is redirected to the circuit with BITU 10. Using T ₅ 12, the direct measurement mode (anode-cathode) is switched and reverse (cathode-anode) leakage currents. The magnitude of the leakage current and its direction are monitored using, for example, a milliammeter, which is built into the BITU 10. If the leakage current exceeds the passport characteristics of the element under test, then the element is considered unsuitable for use.

At the fourth stage, the element is checked in the operating mode.

To turn on the phase control mode, T ₆ 14 is switched from the “off” position to the “on” position, while the BFU 16 is activated in the circuit. Using the phase adjustment knob built into the BFU 16, the opening angle of the thyristor is smoothly changed.

Since the alternating voltage has a sinusoidal shape, as a result of changing the opening angle of the thyristor, incomplete half-waves of the sinusoid are supplied to the load, which can be controlled on the OS 22 screen, as a result of such regulation, the effective operating voltage is reduced, due to which the brightness of the incandescent lamp will change. With the help of OS 22, the parameter "on time" of the thyristor and the shape of the front of the oscillogram are controlled. If the rotation of the knob does not lead to a change in the oscillogram, or temporal distortions of its front begin, or the front changes from straight to "torn", then a conclusion is made about the unsuitability of this element.

When testing a thyristor with a high operating current, for example, TS112-10-12 or TS125-8, at the stage of preparing the stand for operation, additional actions are performed:

for TS 112-10-12 include BON 9 by switching T ₂ 8 from the "off" position to the "on"position;

for TS125-8, in addition to turning on BON 9, a specially selected powerful resistor is connected to the X ₂ 2 connector, in addition to the incandescent lamp, as an additional load.

The decision to turn on the BON 9 and / or connect the selected additional load is made based on the power of the element being checked, indicated in its passport characteristics.

The stand for testing the operation of thyristors and triacs allows you to check the element for operability not only by indirect methods (“dialing”, test for breakdown, measurement of leakage current), but also test it in operating mode, at operating currents.

Claims (3)

1. Bench for testing thyristors and triacs, containing a protection unit, characterized in that it additionally contains a first connector configured to supply a 24-390 V supply voltage to it, a second connector configured to connect an additional load and an additional measuring device to it , a platform for connecting the tested element and a control panel, which includes the first, second, third, fourth, fifth, sixth toggle switches, a light indicator of inclusion, a main load unit, a leakage current measurement unit, a unit for switching on the tested element and a phase control unit, in at the same time, the site for connecting the tested element contains an anode, a cathode and a control contact, the output of the first connector is connected to the input of the first toggle switch, the first output of the first toggle switch is connected to the input of the protection unit, the second output of the first toggle switch is connected to the first input of the power-on indicator light, to the cathode of the site to connect the element under test, with the first input of the phase control unit and with the first input of the unit for switching on the element under test, the output of the protection unit is connected to the input of the second connector, to the input of the second toggle switch for connecting the main load unit and to the second input of the power indicator light, in turn, the output of the second toggle switch is connected to the input of the main load unit, while the outputs of the second connector and the main load unit are connected to each other and to the inputs of the fourth toggle switch and the leakage current measurement unit, the output of the leakage current measurement unit is connected to the input of the fifth toggle switch, while the outputs of the fourth toggle switch and of the fifth toggle switch are connected to each other, as well as to the first input of the sixth toggle switch, the input of the third toggle switch and to the anode of the platform for connecting the tested element, the output of the third toggle switch is connected to the second input of the block for switching on the tested element, the output of which is connected to the second input of the sixth toggle switch, the first output of the sixth of the toggle switch is connected to the control contact of the platform for connecting the element under test, and the second output is connected to the second input of the phase control unit, at the same time the output of the phase control unit is connected to the third input of the sixth toggle switch. 2. The stand for testing thyristors and triacs according to claim 1, characterized in that it is made with the ability to connect an oscilloscope to it by connecting its input to the second output of the first toggle switch, and its output to the anode or control contact of the platform for connecting the element under test. 3. Bench for testing thyristors and triacs according to claim 1, characterized in that a milliammeter is built into the leakage current measuring unit.

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