RU2012935C1 - Device for determination of polarity of leads of electrolytic capacitors - Google Patents

Abstract

FIELD: electronics. SUBSTANCE: device has control unit 1, five keys 2-6, voltmeter 7, two registers 8, 9, comparison circuit 10, power supply source 11, indicator 12, two capacitors 13, 14 (controlled with known polarity). By combination of keys commutation of leads of electrolytic capacitors is performed with their connection to circuit of charging from source of constant voltage and to measurement circuit. Determination of polarity of leads of capacitor with unknown polarity occurs by comparison of voltage across this capacitor in both versions of its connection in series to capacitor with known polarity. EFFECT: facilitated manufacture of capacitors. 1 dwg

Description

 The invention relates to electronic equipment and can be used in technological equipment in the manufacture of electrolytic capacitors or during their installation on products of electronic equipment.

 A device is known for determining the polarity of electrodes of electrolytic capacitors, comprising a socket for fixing the capacitor body, clamps for connecting unidirectional wire leads that bend them and connect to the measuring circuit, an RF generator.

 The disadvantage of this device is the ability to determine the polarity of the terminals of only cylindrical electrolytic capacitors with flexible unidirectional leads. In addition, the use of this device, the operation of which is based on the use of leakage currents, is possible only for electrolytic capacitors with significant leakage currents. At low leakage currents, the reliability of determining the polarity of the terminals decreases.

 A device for indicating the direction of the current or the polarity of the direction of the current or the polarity of the voltage, containing two keys, amplifier, driver, threshold element, indicator of the sign of the output signal.

 The disadvantage of this device is the inability to control electrolytic capacitors in their manufacture.

 The aim of the invention is to expand the scope of use.

 This is achieved by using two electrolytic capacitors connected in series, the polarity of the terminals of one of which is known, while the other remains to be determined, and the keys that connect the DC voltage source to the electrolytic capacitors and switch their terminals, and the polarity of the terminals of the electrolytic capacitor with an unknown polarity is determined by the values voltages on this capacitor, which are measured, are read into registers and compared with each other in two vari Hm connection of capacitors.

 In FIG. 1 shows a functional diagram of the device.

 The device contains a control unit 1, keys 2-6, voltage meter 7, registers 8, 9, a comparison circuit 10 and a constant voltage source 11 (not shown), indicator 12, capacitors 13 - controlled (SN) and with known polarity 14 (Sizv )

 Two outputs of the first key 2 are connected to the corresponding terminals for connecting the monitored capacitor 13 and the terminals of the fifth key 6, and the third is combined with the third output of the second key 3 and connected to the first output of the control unit 1, the first output of the second key 3 is connected to the first output of the capacitor 14 and through the third switch 4 - with the positive terminal of the power supply 11, the other terminal of the capacitor 14 is connected to the second terminal of the second switch 3, with the input of the voltage meter 7 and with the first terminal of the fourth switch 5, the second and third conclusions of which connected to the corresponding terminals for connecting the monitored capacitor 13, the third terminal of the fifth key 6 is connected to the negative terminal of the power source 11, and the fourth is connected to the second output of the control unit 1 and the fourth terminal of the fourth key 5, the third output of the control unit 1 is connected via voltage meter 7 with the first input of the first register 8, the fourth output - with the second input of the first register 8, the fifth - with the first input of the second register 9 and with the third input of the first register 8, the sixth - with the second input of the second register 9, tr Tille input coupled to a second output meter 7, the output "reset" the control unit 1 is connected to fourth inputs of both registers 8, 9, which outputs through the data comparison circuit 10 connected to the indicator 12.

 The device operates as follows.

 In accordance with the polarity of its terminals, an electrolytic capacitor 14 is connected to the terminals a and b with the known polarity of Sizv, and to points c and d an electrolytic capacitor 15, the polarity of the terminals of which is unknown to Sn. A DC voltage source 11 with a voltage not higher than the rated voltage Szv and Sn is connected to the terminals (+) and (-). The DC voltage source turns on.

 With the arrival of the “Start” signal, the control unit 1 generates a pulse 1 (Fig. 2) of switching on the keys 2, 3, which discharge the capacitors Sizv and Sn. The next pulse 2 of circuit 1 includes a key 4, which connects the capacitors to the power source 1. The capacitors are charged through the keys 5, 6. At the end of the pulse 2, the power is turned off (key 4), circuit 3 receives a pulse 3 to turn on the meter 7, which measures the voltage to which the capacitor Sn was charged. By pulse 4 from block 1, register 8 is turned on and the measured voltage from meter 7 is read into this register 8. Pulse 5 is supplied to keys 2, 3, the capacitors are discharged, and pulse 6 is used to switch keys 5, 6, which switch the terminals of the capacitor Sn. The connection of the terminals of the capacitor Sn to Sizv changes to the opposite. By pulse 7, the power supply 11 is reconnected to the capacitors, the capacitors are charged in a new version of their connection and the process is repeated (pulses 8, 9), but now the measured voltage is written into register 9. With the arrival of pulse 10 in block 1, the registers 8, 9 are turned on simultaneously. and the voltages recorded in them are compared by comparison circuit 10. Depending on the voltage to which the capacitor Cn has been charged in two versions of its connection, comparison circuit 10 produces a signal either more (>) or less e (<). If it turned out that the capacitors were initially connected in series, then the voltage recorded in register 8 will be greater than in register 9. The initial opposite-series connection of capacitors will be the opposite, which makes it possible to determine the polarity of the terminals of electrolytic capacitors. Pulse "Reset" the device is reset.

 Since when determining the polarity of the terminals of electrolytic capacitors, their internal properties are used, namely the property of unipolarity, the device allows you to determine the polarity of any electrolytic capacitors.

 In addition, the polarity of the conclusions is determined by the magnitude of the voltage across the electrolytic capacitor and leakage currents can only have a parasitic effect.

Claims (1)

 DEVICE FOR DETERMINING THE POLARITY OF OUTPUTS OF ELECTROLYTIC CAPACITORS, containing two keys, an indicator, characterized in that three keys are inserted into it, a control unit, a voltage meter, two registers, a comparison circuit, a capacitor with a known polarity, two terminals of the first key are connected to the corresponding terminals for connecting the controlled capacitor and the corresponding outputs of the fifth key, and the third is combined with the third output of the second key and connected to the first output of the control unit, the first output of the second key cha is connected to the first output of the capacitor with known polarity and through the third key to the positive output of the power supply, another output of the capacitor with known polarity is connected to the second output of the second key, to the input of the voltage meter and to the first output of the fourth key, the second and third conclusions of which are connected with the corresponding terminals for connecting the monitored capacitor, the third terminal of the fifth key is connected to the negative terminal of the power source, and the fourth to the second output of the control unit and four the fourth key output, the third output of the control unit through a voltage meter is connected to the first input of the first register, the fourth output to the second input of the first register, the fifth to the first input of the second register and the third input of the first register, the sixth to the second input of the second register, the third input of which is connected to the second output of the voltage meter, the "Reset" output of the control unit is connected to the fourth inputs of both registers, the outputs of both registers are connected to the indicator through a comparison circuit.

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