KR20160110681A - Output terminal with improved emc feature - Google Patents

Abstract

An output terminal with an improved EMC feature includes a case which surrounds one end of an output terminal; a core which is fixed to the inside of the case and allows the output terminal to penetrate through a center part; and a ground bus bar which is prepared in the case, and has one end touching one end of the output terminal and the other end which is grounded. A capacitor is interposed between the ground bus bars. So, noise can be efficiently removed.

Description

Output terminal with enhanced EMC characteristics {OUTPUT TERMINAL WITH IMPROVED EMC FEATURE}

The present invention relates to an output terminal designed to improve EMC characteristics by performing efficient noise rejection.

Problems related to Electro Magnetic Compatibility (hereinafter referred to as EMC) are emerging in the development of environment vehicles in which demand has surged recently.

EMC refers to the ability to perform functions perfectly in compliance with the permissible range of electromagnetic interference to the surrounding environment, ie, properties that are not affected by the electromagnetic environment and that do not affect others. The environment vehicle is different from a general internal combustion engine vehicle in that a high voltage system is added, and power conversion devices of such high voltage systems each include a high frequency switching circuit.

Among the problems related to environmental difference EMC, the characteristic that needs improvement is the Radio Frequency Interference (RFI) characteristic.

In general, a high-voltage power converter (LDC: Low DC-DC converter, OBC: On Board Charger) uses a method of directly mounting a noise filter element inside a power converter to remove high frequency noise at the output stage. Thus, the high-voltage power conversion apparatus improves EMC characteristics by providing a noise filter element inside to remove noise. However, when a filter device is mounted inside a power conversion device as in the prior art, a separate space is required inside the power conversion device, which inevitably increases the size of the component.

In order to efficiently reduce the output noise, it is preferable to arrange the position of the filter as close as possible to the end of the output end. However, in the conventional method of mounting the noise filter element inside the power conversion component, output noise reduction can not be efficiently performed .

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

KR 10-2013-0066042A

SUMMARY OF THE INVENTION The present invention has been made in order to solve such problems and it is an object of the present invention to provide an output terminal capable of raising the noise reduction efficiency without increasing the package volume of the power conversion apparatus by forming the EMC filter structure in the output terminal, The purpose is to provide.

According to an aspect of the present invention, there is provided an output terminal having improved EMC characteristics, including: a case configured to surround one end of an output terminal; A core fixed to the inside of the case and having the output terminal passing through a central portion thereof; And a ground bus bar provided inside the case, the ground bus bar having one end being in contact with one end of the output terminal and the other end being grounded, and a capacitor is provided between the ground bus bars.

The case may have a plurality of fastening holes to be fastened to the high voltage power converter, and the other end of the ground bus bar may extend to one of the fastening holes.

A ground hole is formed at the other end of the ground bus bar, and the ground hole is formed to correspond to one of the coupling holes.

And the ground hole is connected to the housing ground through the fastening bolt when the case and the high-voltage power inverter are fastened.

One end of the output terminal is bent downward, and one end of the ground bus bar is in surface contact with one end of the bent output terminal.

The core may be formed such that a central portion thereof is spaced apart from the output terminal by a predetermined distance, and an outer portion is fixed by a case.

The case may be formed with a groove so that the capacitor is exposed to the outside.

According to the output terminal having the improved EMC characteristic as described above, a noise filter is integrally formed with the output terminal, and no additional filter is added in the high voltage power converter. As a result, It may not increase the volume.

Further, by providing a noise filter structure at the output terminal which is the output end, the EMC improvement effect can be maximized.

1 is a view showing an output terminal with improved EMC characteristics according to an embodiment of the present invention.
2 is a diagram illustrating a noise filter configuration included in an output terminal according to an embodiment of the present invention.

Hereinafter, an output terminal having improved EMC characteristics according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a view showing an output terminal with improved EMC characteristics according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating a noise filter configuration included in an output terminal according to an embodiment of the present invention. Referring to FIGS. 1 and 2, an output terminal 100 having improved EMC characteristics includes a case 120, which surrounds one end of an output terminal 110; A core (130) fixed inside the case (120), the output terminal (110) passing through the center portion; And a ground bus bar 140 provided inside the case 120 and having one end in contact with one end of the output terminal 110 and the other end of which is grounded, (150) is provided.

Conventionally, the output terminal of the high voltage power converter has been provided for simply fixing the output terminal to the housing of the high voltage power converter. However, in the present invention, the output terminal 100 is provided with a filter structure for fixing the output terminal 110 to the high-voltage power conversion device and further removing the noise component from the output terminal.

When the output terminal 110 is coupled with the high voltage power conversion devices, current flows from the other end to the one end side. A current flowing along the output terminal 110 is provided to surround the output terminal 110 The EMC characteristic is improved by the core 130. Specifically, the core 130 is provided in a ring shape, and the central portion thereof is penetrated by the output terminal 110. With respect to the output terminal 110 passing through the core 110, the core provides an inductance, and the noise component generated at the output terminal 110 is removed by the inductance.

The inductance for noise removal is conventionally installed inside the high voltage power converter. Therefore, a separate space for constructing the inductance is required inside the power conversion device, resulting in inefficiency of the package. However, the present invention prevents an increase in the package inside the power conversion apparatus by providing the core 130 inside the output terminal 100, not inside the power conversion apparatus. Particularly, since the case 120 of the output terminal 100 is provided to fix the output terminal 110 to the high-voltage power conversion apparatus, the case 120 can be easily connected to the inside of the output terminal 100 The present invention can be implemented by merely changing the structure. For example, the output terminal 110 may be fixed to pass through the center of the core 130 by molding the core 130 directly inside the case 120.

The case 120 may be fastened to the housing of the high voltage power conversion apparatus in such a direction that the other end of the output terminal 110 is connected to the power conversion apparatus.

It is preferable that the core 130 occupies a minimum space inside the case, and it is preferable that the core 130 is formed in a shape of a bus bar through-hole.

The ground bus bar 140 is connected to one end of the output terminal 110 to remove noise generated from the output terminal 110. Particularly, since the capacitor 150 is connected through the ground bus bar 140, the noise in the region that could not be removed through the core 130 can be removed through the capacitor 150. Specifically, the noise of the output terminal 110 is bypassed to ground through the ground bus bar 140 by the capacitor 150 connected to the ground bus bar 140.

A plurality of fastening holes 123 are formed in the case 120 so as to be fastened to the high voltage power conversion device and the other end of the ground bus bar 140 can be extended to one of the fastening holes 123. A ground hole 143 is formed at the other end of the ground bus bar 140 and the ground hole 143 may correspond to one of the coupling holes 123.

That is, the output terminal 110 must be fastened to the housing of the power conversion device to output the power of the high voltage power conversion device. The output terminal 100 is connected to the power conversion device through the fastening hole 123 provided in the case 120 Can be concluded. At this time, one of the fastening holes 123 is provided at a position corresponding to the housing ground of the power conversion apparatus, so that the other end of the ground bus bar 140 extends toward the fastening hole 123 and is grounded.

In this process, the ground bus bar 140 may be bent according to the shape of the case 120, so that the internal space of the case 120 may not be increased.

Specifically, when the case 120 is fastened to the high voltage power converter, the ground hole 143 may be connected to the housing ground 140 through a fastening bolt.

In general, a fastening bolt is used to fasten the output terminal 100 to the power conversion apparatus. As described above, one of the fastening holes 123 and the ground hole 143 of the ground bus bar 140 are connected to each other . Thereafter, the output terminal 100 can be fastened to the high-voltage power converter by inserting the fastening bolt through the fastening hole 123 and the ground hole 143, and fixing the same to the housing of the power converter. At this time, the ground bus bar 140 is in contact with a fastening bolt made of a conductive material, and the fastening bolt is connected to the ground of the power conversion device, thereby connecting the ground bus bar 140 with the ground.

As a result, since the case 120 of the output terminal 100 is bolted to fix the case 120, if the ground bus bar 140 is grounded using the bolting method, A capacitor filter structure can be provided in the terminal 100. [

One end of the output terminal 110 is bent downward and one end of the ground bus bar 140 is in surface contact with one end of the bent output terminal 110.

The folded output terminal 110 is a final stage of the output terminal 110 and a capacitor 150 filter structure is connected to an end of the output terminal 110. By connecting the noise filter structure to the final stage of the output terminal 110, it is possible to maximize the noise removing effect, that is, the EMC improvement effect. As a result, the RFI reception performance is improved and the merchantability can be improved.

The core 130 may be spaced apart from the output terminal 110 by a predetermined distance, and the outer portion may be fixed by the case 120.

The core 130 serves as an inductance to remove noise from the output terminal 110 even if the core 130 does not directly contact the output terminal 110. Therefore, it is not necessary to separately configure the core 130 to be connected to the output terminal 110, so that the outer portion of the core 130 is molded and fixed in the case 120 while the central portion of the core 130 is spaced apart from the output terminal 110. [ . Therefore, the noise filter can be integrally provided inside the output terminal 100 by fixing the core 130 inside the case 120, without applying an additional fastening device such as bolting to the inside of the output terminal 100.

In addition, a groove 125 may be formed in the case 120 so that the capacitor 150 is exposed to the outside.

The two terminals of the capacitor 150 are connected to the ground bus bar 140 provided inside the case 120 but the head of the capacitor 150 can be exposed to the outside by the groove 125 . This makes it possible to easily replace the capacitor 150 when the failure of the capacitor 150 occurs and the filter function is not smooth. Therefore, even if the entire output terminal 100 is not exchanged, it is possible to easily repair the capacitor 150 when the capacitor 150 fails, so that the repairing cost can be reduced.

According to the output terminal having the improved EMC characteristic as described above, a noise filter is integrally formed with the output terminal, and no additional filter is added in the high voltage power converter. As a result, It may not increase the volume.

Further, by providing a noise filter structure at the output terminal which is the output end, the EMC improvement effect can be maximized.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

100: output terminal 110: output terminal
120: case 123: fastening hole
125: groove 130: core
140: ground bus bar 143: ground hole
150: Capacitor

Claims (7)

A case provided to surround one end of the output terminal;
A core fixed to the inside of the case and having the output terminal passing through a central portion thereof; And
And a ground bus bar provided inside the case, the ground bus bar having one end being in contact with one end of the output terminal and the other end being grounded,
And a capacitor is provided between the ground bus bars. The method according to claim 1,
A plurality of fastening holes are formed in the case so as to be fastened to the high voltage power conversion device,
And the other end of the ground bus bar is extended to one of the coupling holes. The method of claim 2,
A ground hole is formed at the other end of the ground bus bar,
And the ground hole is formed to correspond to one of the coupling holes. The method of claim 3,
And the ground hole is connected to the housing ground through the fastening bolt when the case and the high voltage power conversion apparatus are fastened. The method according to claim 1,
One end of the output terminal is bent downward,
And one end of the ground bus bar is in surface contact with one end of the bent output terminal. The method according to claim 1,
Wherein the core is formed such that a central portion thereof is spaced apart from the output terminal by a predetermined distance, and an outer portion is fixed by a case. The method according to claim 1,
Wherein the case is formed with a groove to expose a capacitor to the outside.

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