JPS6171616A - Ageing device of condenser - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a condenser aging device.

(Prior Art) One of the processes for manufacturing rF1-resolved capacitors made of aluminum, tantalum, etc. is an aging operation, in which a predetermined voltage is applied to the capacitor to restore the oxide film.

When aging condensers, a small number of them are connected in parallel, so if, for example, 1wU of them breaks down and short-circuits during aging, the normal condensers in the pond will not age.

(Problems with the prior art) Therefore, conventionally, a fuse or resistor is connected in series with the capacitor, but in the case of the OrI name, the fuse must be replaced every time the fuse is activated. However, there are drawbacks that the work is difficult and aging takes time, and in the latter case, the resistor consumes mental energy, which increases the electric horn Fjk and increases the manufacturing cost.

SUMMARY OF THE INVENTION The present invention aims to improve the above-mentioned drawbacks and to provide a capacitor circuit device that can separate aged capacitors from circuits.

(Means for solving the problem) 4\5 In order to achieve the purpose mentioned in 1, Ming.
In an aging device for a capacitor that adds ILF/I to the capacitor for aging, a contact part of a relay is connected directly to the capacitor, and a light emitting part is connected in series with the contact part of the relay. The photocoupler connected to the photocoupler and the photocoupler connected to the light receiving part
I 6 [1 switching N path, and a =1 Il section of a keep relay connected in series to the switching N path;
A series connection between the coil section of the relay and the contact section of the keep relay connected in parallel to the series connection between the coil section of the relay and the switching circuit; The present invention provides a mounting system for capacitors that is particularly suitable for connecting to a power source that has not been connected.

(Function) According to the present invention, when the capacitor is banked and short-circuited and a large current flows, the photocoupler is activated and the switching circuit is turned on. When the switching circuit is turned on, current flows through the keep relay coil and the contacts are released from the relay coil. Therefore, no current flows through the relay coil, and the relay contacts are opened. Therefore,
The defective capacitor is removed from the circuit and aging of the normal capacitor occurs without interruption.

(Example) Hereinafter, embodiments of the present invention will be described based on the drawings.

In the figure, 1 is a capacitor to be aged, which is connected to a constant voltage power supply 2 for aging. 3 is a contact portion of a relay, which is connected in series to the capacitor 1. 4 is a photocoupler, and a light emitting diode 5
is connected in series with contact 3 of the relay. 6 and 7 are resistors, each connected in series and parallel to the light emitting diode 5.

8 is a diode, which is connected in parallel with the light emitting diode 5 with opposite polarity. 9 is a switching circuit, which is connected to a constant voltage 1:t: 'tlN rAl 1 for operation via the photo 1 of the photocoupler 4 and the transistor 0. Switching N path 9 is pHll type 1
- A capacitor 13 and a resistor 1/1 connected between the transistor 12 and the emitter of this transistor 12.
1 parallel circuit, and a resistor 15 connected between the base and the phototransistor 10.

16 is a coil section of the 1-7 relay, and 7, 17, and 18 are diodes, each of which is provided with a set 1 input terminal S and a reset signal input terminal R.
- Connected to the signal input terminal S and the reset signal input terminal IR with opposite polarity. 19 is a coil portion of the relay, and is connected to the constant voltage power source 11. Reference numeral 20 denotes a contact portion of a keep relay, which is connected in series to the −” coil portion 19.

Next, the operation of the above embodiment will be described.

First, the capacitor 1 is aged by the constant voltage power supply 2. If the capacitor 1 is banked and short-circuited in the middle of the switching, a large current flows through the relay contact 3, the light emitting diode 5 of the A toggle 4, and the resistor 6.

As a result, the light emitting diode 5 emits light, and the phototransistor 10 receives the light, resulting in a Δ-shaped f8. When the photo 1 transistor 10 is turned on, the transistor 12 is turned on, and the coil section 16 of the keep relay is turned on.
A current flows from the constant voltage power supply 11 to. When current flows through the coil 16, the contact portion 20 is opened from terminal A and connected to terminal B.
One coil section of the relay is disconnected from the circuit and the flow of current is interrupted. For this purpose, the contact portion 3 of the relay is opened, and the capacitor 1 is disconnected from the constant voltage power supply 2.

Note that by inputting a reset signal to the reset signal input terminal R of the coil section 16 of the keep relay, the contact section 2
0 is connected to terminal A again and the original state is restored
do.

In addition, the defective capacitor 1 may be manually removed from the circuit, but the terminal B of the contact part 20 of the keep relay
The contact portion 20 is connected to the end t! By connecting it to B, the capacitor 1 is automatically removed.

(Effects of the Invention) As described above, according to the present invention, it is possible to automatically release from the circuit a capacitor whose leakage current has increased during aging or which has become short-circuited due to a bank, etc., thereby facilitating the aging work. This relates to an aging device for capacitors that aims to reduce costs.

[Brief explanation of drawings]

The figure shows a circuit diagram of an embodiment of the invention. 1... Capacitor, 3... Relay contact part, 4...
...Photocoupler, 5...Light emitting diode, 9.
...Switching circuit, 10... Phototransistor, 16... Coil part of keep relay, ]9... Coil part of relay, 20... Contact part of keep relay. Patent Applicant: Hitachi Condenna Co., Ltd. 1; Yuichidenza 3: 1J Reha Weir 100; Sekiyo 4; Home p19: +L coil fall

Claims (1)

[Claims] (1) A capacitor aging device that can age a capacitor by applying a voltage to the capacitor, comprising: a contact part of a relay connected in series with the capacitor; a photocoupler having a light emitting part connected in series with the contact part of the relay; a switching circuit connected to the light receiving section of the photocoupler to control on/off operation; a coil section of a keep relay connected in series to the switching circuit; and a coil section of the keep relay connected in series with the switching circuit. A capacitor aging device comprising a series connection between a coil portion of the relay and a contact portion of the keep relay, and a power source connected in parallel with the series connection.