KR20030072045A - Charger for testing a condenser's characteristic - Google Patents

Abstract

PURPOSE: A charge and discharge device for testing the performance of a condenser is provided to exactly identify the status of charge and discharge of the device by displaying the operation of charge and discharge to outside. CONSTITUTION: A charge and discharge device(80) for testing the performance of a condenser includes a charge probe(60) contact with the bottom of the charge and discharge device(80) for charging the condenser(50) by applying a voltage thereto, a discharge probe(70) contact to the charged condenser for discharging the charged voltage, a display block(86) and a control block. In the charge and discharge device(80), the display block(86) displays the status of the operational status of the charge probe(60) and the discharge probe(70). And, the control block generates an alarm signal through an alarm signal generating block when the charge probe(60) and the discharge probe(70) are not operated and stops the line to supply the condenser.

Description

Charger for testing a capacitor's performance {Charger for testing a condenser's characteristic}

The present invention relates to a charge-discharger for testing a capacitor, and more particularly, the charge-discharger for testing the performance of the capacitor can display the state of charging and discharging operation on the capacitor to the outside to accurately check the charge-discharge operation of the capacitor The present invention relates to a charger and battery for testing the performance of a capacitor.

A general method of manufacturing a solid electrolyte capacitor is, first, mixing D-Camper, which acts as a binder in tantalum powder in the forming step, drying and removing the solvent, and then weighing the tantalum, which is an anode lead wire, into a cylindrical or square pellet. Insert the wire to form a certain density. In the sintering step following the molding step, the molded device is loaded in a vacuum sintering furnace and heated in a vacuum of about 10 ^-5 mmHg to about 1600 ° C to 2000 ° C to sinter at the same time as removing the adhesive. After the sintering step, in the chemical conversion step, a dielectric of a capacitor composed of two electrodes and a dielectric inserted therebetween is generated. It produces a coating Ta ₂ O ₅ , which becomes a dielectric. In the calcining step followed by the calcining step, a manganese dioxide layer of an electrolyte is formed on the surface of the oxide film generated in the calcining step. In other words, in order to attach the manganese dioxide layer on the surface of the oxide film in the pores of the device, the manganese dioxide layer is obtained by dipping and impregnating the device in an aqueous solution of manganese nitrate. After the firing step, in the assembling step, the process after the manganese dioxide layer is formed in the firing step is completed by the necessary carbon coating, silver paste coating, and lead welding to the exterior of the device.

The capacitor manufactured through the above process tests the characteristics of the capacitor in the blanking and taping process. In other words, to test the capacity of the capacitor, it is charged by applying voltage to the capacitor and then discharged to test whether the capacitor performs smoothly. 1 is a view schematically showing a charger / discharger for testing the performance of a conventional tantalum capacitor. Referring to FIG. 1, the charger / discharger 10 has a charging probe 20 and a discharge probe 30 at a lower end thereof. Are each provided, and the capacitor 40 is first contacted with the charging probe 20 to be charged by applying a voltage from the charger 10. When the capacitor 40 is charged by applying a voltage to the charging probe 20, the capacitor 40 contacts the discharge probe 30 to discharge all the charged voltages. In the process of charging the capacitor 40 by applying a voltage to the capacitor 40 by contacting the capacitor 40 with the charging probe 20, the charger 10 has a separate indication that the charging is smoothly performed. There is no inconvenience in that it is not possible to check whether the capacitor 40 is being charged while charging the capacitor 40. Therefore, in order to confirm whether the capacitor 40 is charged, there is a problem in that it is necessary to check the state of charge using a separate tester.

The present invention has been made to solve the above problems, an object of the present invention to accurately display the charge and discharge operation of the capacitor by displaying the state of the charge and discharge operation of the capacitor to the capacitor to test the performance of the capacitor. To provide a charger for testing the performance of a capacitor that can be identified.

1 is a view schematically showing a charger for testing the performance of a conventional capacitor.

2 is a view schematically showing a charger / discharger for testing the performance of a capacitor according to the present invention.

3 is a block diagram schematically showing a part of a charger / discharger for testing the performance of a capacitor according to the present invention.

<Brief description of symbols for the main parts of the drawings>

50: condenser 60: charging probe

70: discharge probe 80: charger

82: control unit 84: alarm sound generating unit

86: light emitting display

In order to achieve the above object, the present invention provides a charging and discharging device for testing the performance of a capacitor by applying a voltage to a capacitor completed through a manufacturing process, thereby charging and discharging the battery. A charging probe for charging the capacitor by applying; A discharge probe configured to discharge the voltage charged in the capacitor by contacting the capacitor charged with the voltage by the charging probe; A light emitting display for displaying an operation state of the charging probe and the discharge probe; And the charging and discharging for testing the performance of the capacitor, characterized in that when the charging probe and the discharge probe does not operate to detect this by generating a warning sound through the warning sound generating unit and stop the line supplying the capacitor To provide.

According to the present invention, the charging and discharging unit for testing the performance of the capacitor by applying a voltage to the capacitor and charging the capacitor and then discharging the capacitor again, emits light when the charging probe and the discharge probe operate normally. Is provided. When the light emitting display does not display the light after the capacitor contacts the charging probe and the discharge probe, the controller detects this and generates a warning sound at the warning sound generating unit to notify the worker and to supply a capacitor to the charger. By stopping, the characteristic experiment of the capacitor can be executed accurately and quickly.

Hereinafter, the present invention will be described.

2 is a view schematically showing a charger and charger for testing the performance of the capacitor according to the invention, Figure 3 is a block diagram schematically showing a part of the charger and charger for testing the performance of the capacitor according to the present invention.

Referring to the present invention with reference to Figures 2 and 3, first, after completing the condenser 50 through a manufacturing process, it is necessary to test whether the charging and discharging performance of the condenser 50 is normal. In order to test the charge and discharge characteristics of the condenser 50, the charger 80 is used. The charger 80 is equipped with a charging probe 60 on one side of the bottom portion. When the charging probe 60 contacts the capacitor 50, a voltage is applied to the capacitor 50 and charged. The discharge probe 70 is mounted in the vicinity of the charging probe 60. As the discharge probe 70 contacts the charging probe 60 with the capacitor 50 charged with the voltage, all of the voltage charged in the capacitor 50 is discharged through the discharge probe 70. The positive and negative terminals of the capacitor 50 are in contact with the charging probe 60 and the discharge probe 70. The light emitting display unit 86 is connected to the charging probe 60 and the discharge probe 70. The light emitting display unit 86 is configured to emit light. When the charging probe 60 and the discharge probe 70 operate, the light emitting display unit 86 emits light. By confirming that the light emitting display unit 86 emits light, the operator can smoothly check the charging and discharging operations.

The control unit 82 is connected to the light emitting display unit 86, and the control unit 82 generates a warning sound by applying a signal to the alarm sound generating unit 84 when the light emitting display unit 86 does not emit light. At the same time, the line (not shown) for supplying the capacitor 50 to the charger 80 is stopped. The light emitting display unit 86 emits light when the capacitor 50 is not correctly contacted with the charging probe 60 and the discharge probe 70 or when charging and discharging is not performed due to a failure of the capacitor 50. Since the control unit 82 detects this and generates a warning sound through the alarm sound generating unit 84, the line supplying the condenser 50 is stopped. When a warning sound is generated in the alarm sound generating unit 84 and the line is stopped, the operator can check this and remove the problematic capacitor 50, thereby greatly improving the reliability of the capacitor 50.

As can be seen from the above description, the present invention applies a voltage to a capacitor, charges a voltage to the capacitor, and then discharges it again, so that the charging probe and the discharge probe are normally operated in the charger for testing the performance of the capacitor. A light emitting display for emitting light is provided. When the light emitting display does not display the light after the capacitor contacts the charging probe and the discharge probe, the controller detects this and generates a warning sound at the warning sound generating unit to notify the worker and to supply a capacitor to the charger. By stopping, the characteristic experiment of the capacitor can be executed accurately and quickly.

Claims (1)

In a charger / charger that tests the performance of a capacitor by applying a voltage to a capacitor completed through a manufacturing process and charging and discharging, a charging probe for charging the capacitor by applying a contact pressure to the capacitor at the bottom of the charger. ; A discharge probe configured to discharge the voltage charged in the capacitor by contacting the capacitor charged with the voltage by the charging probe; A light emitting display for displaying an operation state of the charging probe and the discharge probe; And the charging and discharging for testing the performance of the capacitor, characterized in that when the charging probe and the discharge probe does not operate to detect this by generating a warning sound through the warning sound generating unit and stop the line supplying the capacitor .