JP5181802B2 - Noise filter - Google Patents

Description

  The present invention relates to an improvement of a noise filter suitable for use in a power conversion device or the like.

As this type of noise filter, there is an example of FIG.
As shown in FIG. 6, the filter includes two stages of line capacitors C _X0 and C _X1 connected between a pair of power supply lines, and two stages of common mode choke coils L1 and L2 connected in series to the power supply line. , And two stages of ground capacitors C _Y1 and C _Y2 for connecting each of the pair of power supply lines to the ground potential, and each element is connected to C _X0 , L1, C _X1 , C _Y1 , L2, They are connected in the order of C _Y2 .

The line-to-line capacitors C _X0 and C _X1 reduce normal mode noise, and the common mode choke coils L1 and L2 and the ground capacitors C _Y1 and C _Y2 mainly reduce common mode noise. Here, the normal mode noise flows between the two AC power supply lines, and the common mode noise flows through the ground and returns in phase through the two AC power supply lines.

FIG. 7 shows a mounting example of the noise filter. Here, only the printed wiring board A and the common mode choke coils L1 and L2 are shown, and other components are omitted.
The printed wiring board A has a printed wiring pattern and is equipped with a noise filter component. The common mode choke coils L1 and L2 are formed by winding a pair of power supply lines around a core in such a direction that magnetic fluxes induced by currents reciprocating between the pair of power supply lines have opposite polarities.

The conventional noise filter is configured as described above, and the common mode noise is reduced by the large impedance effect due to the inductance of the common mode choke coils L1 and L2 and the small impedance effect of the ground capacitors C _Y1 and C _Y2. This is reduced by the large impedance effect due to the leakage inductance of the common mode choke coils L1 and L2 and the small impedance effect of the line capacitors C _X0 and C _X1 .

However, the noise filter has the following problems. The common mode choke coils L1 and L2 are arranged close to each other for miniaturization. As a result, there is a considerable amount of stray capacitance between the common mode choke coils L1 and L2, and the equivalent circuit can be represented as shown in FIG. These stray capacitances C _S and C _S ′ bypass the two common mode choke coils L1 and L2, and thus act to inhibit the noise reduction effect due to the inductance of the common mode choke coil. As a result, the noise filter Deteriorates the attenuation characteristics.

For example, Non-Patent Documents 1 to 3 disclose that stray capacitance between two conductors is suppressed by arranging these conductors close to a ground (earth).
On the other hand, Patent Document 2 has been proposed to solve the above problems. This is because the ground potential between the common mode choke coils L1 and L2 is reduced as shown in FIG. 10 in order to reduce the stray capacitance between the plurality of choke coils, which is a factor that deteriorates the attenuation characteristic of the noise filter. The metal plate B connected to is disposed. This can be said to utilize the ideas of Non-Patent Documents 1 to 3.

  Moreover, although the objective is different, there exists patent document 3 as a prior art example from which the same effect with respect to the said subject is acquired, for example. The purpose of this is to stabilize the ground potential and to dissipate heat by laying a metal substrate (40) on the back surface of the printed wiring board on which the filter component is mounted as shown in FIG.

Japanese Patent Laid-Open No. 01-160357 JP-A-11-346472 Japanese Patent Laid-Open No. 05-161268 Published by Kenichi Ito and published by Nikkan Kogyo Shimbun '75 “Earth and Guidance” p.75 Katsumi Furuya, published by Sangyo Tosho Co., Ltd. '92 “Points for Noise Countermeasures” p.58-59 http // www.miyazaki-gijutsu.jp / series2 / noise081.html See section "Practical noise countermeasure technology 10. Noise from AC power lines"

However, the configurations as described in Patent Documents 2 and 3 require a metal plate and a metal substrate, which not only makes the manufacturing process complicated, but also increases the cost.
Accordingly, an object of the present invention is to reduce the stray capacitance between common mode choke coils by using a configuration that does not require addition of new parts, that is, a printed pattern, and to improve filter characteristics.

In order to solve such a problem, in the invention of claim 1, an AC power supply line of an electric device comprising an element including at least two common mode choke coils and a capacitor and mounted on a printed wiring board and including a power converter or In the noise filter inserted into the DC line after rectifying the input current,
A solid pattern is laid on the surface of the surface of the printed wiring board on which the element is mounted to cover the area of the portion where at least one common mode choke coil is mounted, and this solid pattern is connected to the ground potential. It is characterized by connecting.
In this invention of Claim 1, the thickness of the said solid pattern can be made into the range of 10 micrometers-200 micrometers (invention of Claim 2).

According to the invention of claim 3 , it is composed of an element including at least two common mode choke coils and a capacitor, and is inserted into an AC power supply line or a DC line after input current rectification of an electric device mounted on a printed wiring board and including a power converter. In the noise filter
A printed wiring pattern connecting between the at least two common mode choke coils is disposed on one surface of the printed wiring board on which an element is mounted, and a first printed wiring pattern connecting the common mode choke coil and a power source; A second printed wiring pattern for connecting the common mode choke coil and another electrical device is disposed on the other surface of the printed wiring board, and the first and second printed wiring patterns are connected to the ground potential between the first and second printed wiring patterns. 3 printed wiring patterns are arranged.

  According to the present invention, there can be obtained an advantage that it can be manufactured by the same manufacturing process and cost as in the prior art, and the noise filter attenuation characteristics of the multistage configuration can be dramatically improved.

FIG. 1 is a sectional view showing an embodiment of the present invention, and FIG. 2 is an equivalent circuit diagram for explaining its function.
As shown in FIG. 1, common mode choke coils 2A (L1) and 2B (L2) are arranged on the printed wiring board 1. A line capacitor and a ground capacitor are also arranged on the printed wiring board 1, but are not shown here. In this case, a printed wiring pattern 4A is laid on the surface (also referred to as the front surface) on which the coils 2A (L1) and 2B (L2) of the printed wiring board 1 are arranged, and this wiring pattern 4A is connected to the ground potential. (Also known as a solid earth pattern).

  On the other hand, the printed wiring pattern 4B for connecting the power supply line is laid on the side opposite to the front surface (also referred to as the back surface) via the via (plating hole) 3. That is, elements and components are arranged on the front surface, and the printed wiring pattern 4B that connects them is arranged on the back surface. The solid earth pattern needs a predetermined area to sufficiently reduce the coupling due to the stray capacitance existing between the two common mode choke coils.

The function of the noise filter configured as shown in FIG. 1 will be described with reference to FIG. The presence of a ground potential near the common mode choke coils 2A (L1) and 2B (L2) reduces the stray capacitance that exists between the two coils, and instead floats between the coil and the solid earth pattern. Capacitance (C _S11 , C _S12 , C _S21 , C _S22 , C _S11 ′, C _S12 ′, C _S21 ′, C _S22 ′) is generated, and this floating capacitance serves as a grounding capacitor. Become. In addition, since the stray capacitance is sufficiently smaller than the ground capacitors C _Y1 and C _Y2 , the influence of these stray capacitances can be almost ignored.

That is, the stray capacitance that deteriorates the attenuation characteristic of the filter becomes small, and the newly formed stray capacitance is negligibly small with respect to the grounding capacitor, so that the attenuation characteristic of the filter is improved. In addition, since it is not necessary to add a new part, it can be manufactured in the same manufacturing process as before.
The printed wiring pattern is 10 μm to 200 μm, which is a typical value for the printed wiring pattern, and is a thickness that does not require a special ground electrode.

FIG. 3 is a top view showing another embodiment of the present invention.
In addition to the case where the substrate is configured by a single noise filter as shown in FIG. 1, an electrical device such as a power converter may be mounted on the same printed circuit board after the noise filter. FIG. Is assumed. Here, the mounting method of the common mode choke coil 2 and the point where the solid earth pattern 4A is arranged on the surface are the same as in FIG. 1, but the installation position of the solid earth pattern 4A is limited to a part 11 of the printed wiring board 1. It is different in point.

That is, it is indicated that it is not necessary to lay a solid earth pattern in the subsequent power conversion device portion 12 mounted on the same substrate 1. Since the magnitude of the coupling between the common mode choke coils varies depending on the area of the solid earth pattern, the solid earth pattern 4A covers the area covering the two common mode choke coils 2 as shown in FIG. Should. However, in principle, if there is a solid earth pattern in the area covering the area of one common mode choke coil 2, the coupling between the solid earth pattern and the coil can be strengthened, so that the stray capacitance between the choke coils can be reduced. Is possible. In addition,
The principle of improving the attenuation characteristic by this filter is the same as that shown in FIG.

FIG. 4 is a sectional view showing still another embodiment of the present invention.
The cause of the deterioration of the filter attenuation characteristics is not only the stray capacitance between the choke coils but also the stray capacitance between the printed wiring patterns connected to the common mode choke coil, and FIG. 4 reduces this stray capacitance. Similar to FIG. 1, the printed wiring board 1 is provided with common mode choke coils 2A (L1) and 2B (L2). A line capacitor and a ground capacitor are also arranged on the printed wiring board 1, but they are not shown here.

  In FIG. 4, a printed wiring pattern 4B3 that connects between the coils 2A (L1) and 2B (L2) is printed on the surface of the printed wiring board 1, and a printed wiring pattern 4B1 that connects the system power supply and the coil 2A (L1), The printed wiring pattern 4B2 connecting the coil 2B (L2) and the electric device such as the inverter is laid on the back surface of the substrate 1, and the printed wiring pattern 4A connected to the ground potential is provided between the printed wiring patterns 4B1 and 4B2. Install. The printed wiring pattern 4A has a predetermined area to such an extent that the coupling due to the stray capacitance existing between the printed wiring patterns 4B1 and 4B2 is broken.

For example, when the coil is mounted as shown in FIG. 7, the stray capacitances C _S and C _S ′ between the common mode choke coils and the stray capacitances C _SP and C _SP ′ between the printed wiring patterns are connected in parallel as shown in FIG. It exists in the form of Therefore, by configuring as shown in FIG. 4, the former stray capacitance does not change, but the latter stray capacitance can be reduced. Instead, the stray capacitance C between the printed wiring patterns 4B1 and 4B2 and the ground pattern 4A can be reduced. _S1 , C _S2 , C _S1 ′, and C _S2 ′ are generated, and the equivalent circuit changes from FIG. 8 to FIG. In other words, the common mode choke coils 2A (L1) and 2B (L2) are bypassed, and only the stray capacitances C _S and C _S 'impede the noise reduction effect of the common mode choke coils. Thus, the attenuation characteristic is improved.

  In the above description, the noise filter is assumed to be a single-phase circuit, but the same applies to a three-phase circuit. Moreover, although the example which mounted the common mode choke coil horizontally was given, the same effect is acquired also when it mounts vertically, and the mounting direction is not ask | required. Furthermore, although a two-stage noise filter has been described as an example, a multi-stage filter is also effective regardless of the number of filter stages.

Configuration diagram showing an embodiment of the present invention Equivalent circuit diagram for explaining the function of FIG. Configuration diagram showing another embodiment of the present invention The block diagram which shows other embodiment of this invention Equivalent circuit diagram for explaining the function of FIG. Equivalent circuit diagram showing noise filter disclosed in Patent Document 1 Mounting diagram of the first conventional example of noise filter Equivalent circuit diagram for explaining the function of FIG. Equivalent circuit diagram for explaining stray capacitance between coils Mounting diagram of the second conventional example of noise filter Mounting diagram of the third conventional example of noise filter

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Printed wiring board, 11 ... Filter circuit mounting part, 12 ... Main circuit mounting part, 2, 2A, 2B
... common mode choke coil, 21 ... core, 22 ... winding, 3 ... via (plated hole), 4A, 4B, 4B1, 4B2, 4B3 ... printed wiring pattern, 5 ... insulating substrate.

Claims (3)

In a noise filter composed of an element including at least two common mode choke coils and a capacitor, which is mounted on a printed wiring board and inserted into an AC power supply line or an input current rectified DC line of an electric device including a power converter,
A solid pattern is laid on the surface of the surface of the printed wiring board on which the element is mounted to cover the area of the portion where at least one common mode choke coil is mounted, and this solid pattern is connected to the ground potential. A noise filter characterized by being connected.   The noise filter according to claim 1, wherein the solid pattern has a thickness in a range of 10 μm to 200 μm. In a noise filter composed of an element including at least two common mode choke coils and a capacitor, which is mounted on a printed wiring board and inserted into an AC power supply line or an input current rectified DC line of an electric device including a power converter,
A printed wiring pattern connecting between the at least two common mode choke coils is disposed on one surface of the printed wiring board on which an element is mounted, and a first printed wiring pattern connecting the common mode choke coil and a power source; A second printed wiring pattern for connecting the common mode choke coil and another electrical device is disposed on the other surface of the printed wiring board , and the first and second printed wiring patterns are connected to the ground potential between the first and second printed wiring patterns. 3. A noise filter, wherein three printed wiring patterns are arranged.

Images