JPH07272942A - Noise filter - Google Patents

Abstract

PURPOSE:To simplify the installation operation of an external terminal and to ground an enclosure at a shortest distance by a method wherein a conductive part, for a lid member, which is exposed on the outside of a case and the base end part of the external terminal are connected electrically inside the case. CONSTITUTION:A first Y-capacitor C3 is connected across a third fastening terminal 40 and fourth fastening terminal 42, and a second Y-capacitor C4 is connected across the fourth fastening terminal 42 and a fifth fastening terminal 44. The fourth fastening terminal 42 is grounded on an installation face via a conductive piece 48 which is arranged on the rear of a board 28 and via a heat sink 16. Thereby, the first Y-capacitor C3 and the second Y-capacitor C4 which have been connected to the fourth fastening terminal 42 are arranged in an enclosure at a shortest distance inside a case, and a frequency characteristic as a noise filter becomes good.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a noise filter, and more particularly to a coil and a capacitor in a synthetic resin case,
The present invention relates to a noise filter including electronic components such as resistors.

[0002]

2. Description of the Related Art Conventionally, various noise filters have been devised in order to prevent malfunction of electronic equipment due to various noises that enter the electronic equipment via external lines such as power supply lines or communication lines. ing. FIG. 16 shows an example thereof. The noise filter 90 includes a box-shaped synthetic resin case 91 having an opening at one end, in which various electronic components constituting a filter circuit are arranged, and Pull out multiple external terminals 92 from both sides to
Resin 91 is filled in 91 to close the case opening 94.

As the electronic parts, for example, as shown in FIG. 17, one common mode choke coil 34, two X capacitors (first X capacitor C ₁ , second X capacitor C ₂ ), 2 Y capacitors (first Y capacitor C ₃ , second Y capacitor C ₄ ) and one resistor R
Is applicable. The common mode choke coil 34 is formed by bifilarly winding a conductive wire around a toroidal core 34a, and has a first coil L ₁ and a second coil L ₂ .

These electronic components are placed on the bottom surface 95 of the case 91, and after a predetermined wiring process is performed between the electronic components and between the electronic components and the external terminals 92, resin injection is performed.
Fixing of each electronic component and closing of the case opening 94 are realized,
Thus, the noise filter 90 is completed. The noise filter 90 is installed by bringing the case opening 94 side into close contact with the installation surface (such as the chassis of the protected electronic device) and screwing the through hole 96a of the mounting piece 96.

The first coil L ₁ has a first external terminal 9
It is connected between 2a and the third external terminal 92c, and
The coil L ₂ of the second external terminal 92b and the fifth external terminal 9b
Connected between 2e. The resistor R and the first X capacitor C ₁ are connected between the first external terminal 92a and the second external terminal 92b, respectively. Also, the second X capacitor C
₂ is connected between the third external terminal 92c and the fifth external terminal 92e. Further, the first Y capacitor C ₃ is between the third external terminal 92c and the fourth external terminal 92d, and the second Y capacitor C ₄ is between the fourth external terminal 92d and the fifth external terminal 92e. Connected. As shown in FIG. 18, the fourth external terminal 92d is grounded to the installation surface 99 via a grounding conductor 97 and a screw 98. As a result, a filter circuit having the same configuration as the circuit shown in FIG. 6 is formed. The resistor R is inserted in order to discharge the current charged in the first capacitor C ₁ .

[0006]

The noise filter 90 described above is used.
Since the case 91 is made of synthetic resin and the case opening 94 is closed by filling with the resin 93, the manufacturing cost can be reduced. However, on the other hand, in order to ground the external terminal 92, it is necessary to extend the grounding conductor 97 from the fourth external terminal 92d to the outside of the case 91 as described above, which complicates the grounding work and deteriorates the appearance. . In addition, since the distance between the terminal of the electronic component connected to the fourth external terminal 92d and the grounding point is long (the length of the external terminal 92 + the length of the grounding conductor 97), the inductance increases accordingly. . Therefore, as described above, the Y capacitor (first Y capacitor C ₃
When the second Y capacitor C ₄ ) is connected, the amount of attenuation in the high frequency range becomes small and the frequency characteristic of the noise filter deteriorates.

Further, a common mode choke coil coil
The heat generated from the heat-generating electronic components such as 34 and the resistor R is not easily dissipated to the outside, and the heat accumulated inside deteriorates other electronic components, and in extreme cases, there is a risk of smoke and ignition. there were. In addition, the bottom of the case 95
There is a problem that the side wall of the case 91 is an obstacle when the electronic parts are placed on the electronic parts and the wiring work between the electronic parts and between the electronic parts and the external terminal 92 is performed, and the work efficiency is not improved.

The present invention is intended to solve the above-mentioned conventional problems, and a noise filter capable of grounding an external terminal without extending a grounding conductor outside the case while mainly using a low-cost case made of synthetic resin. The purpose is to realize. Another object of the present invention is to realize such a noise filter that is capable of effectively dissipating the heat generated by the electronic components arranged inside the case to the outside of the case. Alternatively, it is an object of the present invention to realize a noise filter that can easily perform wiring work between electronic components housed in a case.

[0009]

In order to achieve the above object, a noise filter according to the present invention comprises a box-shaped case made of synthetic resin having at least one end opened, and a plurality of electronic parts housed in the case. And a lid member that closes the case opening, and a plurality of external terminals whose base ends are arranged in the case, the lid member including a conductive portion exposed to the outside of the case. The conductive portion and the base end portion of at least one external terminal are electrically connected in the case.

It is desirable that the electronic component is arranged on the inner surface side of the lid member and connected. In addition, the lid member,
It may be configured to include a conductive heat dissipation plate and an insulator covering the surface of the heat dissipation plate, and the electronic component may be arranged on the surface of the insulator. Further, the base end portion of at least one external terminal may be configured to penetrate the insulator and be connected to the heat dissipation plate. Further, a plurality of external terminals may be provided on the lid member, and the base end portion of the external terminal and the electronic component may be connected on the inner surface side of the lid member.

It is desirable that the case be filled with a fixing material for fixing the electronic component at a predetermined position in the case. Alternatively, the electronic component storage portion may be formed in the case, and a fixing means for fixing the electronic component in the electronic component storage portion may be provided. The fixing means corresponds to, for example, an electronic component housing portion side and an engaging portion provided on the electronic component side, and a fixing material filled between the electronic component housing portion and the electronic component. It is desirable that the fixing material is made of a material having high thermal conductivity.

[0012]

As described above, since the conductive portion of the lid member exposed to the outside of the case and the base end portion of the external terminal are electrically connected in the case, the conductive portion is not attached to the installation surface (covered surface). The external terminal can be grounded only by arranging the noise filter so as to be in contact with the chassis of the protective electronic device), and it is not necessary to extend the grounding conductor from the external terminal to the outside of the case. Therefore, the work of grounding the external terminal can be simplified and a good appearance can be realized. In addition, the electronic component connected to the external terminal is grounded to the housing in the shortest distance.

If the electronic components are arranged on the inner surface side of the lid member, wiring between the electronic components can be completed on the lid member before closing the case opening. That is, it is not necessary to perform wiring between the electronic components placed on the bottom surface of the case, and therefore, the side wall of the case does not interfere with the wiring work and the efficiency of the wiring work is not reduced. If the external terminal is also provided on the lid member side and the wiring between the external terminal and the electronic component is completed on the lid member, the work efficiency is further improved.

If the lid member is composed of a conductive heat radiating plate and an insulator covering the surface of the heat radiating plate, and electronic parts are arranged on the surface of the insulator, a coil or a resistor is provided. The heat generated from the heat-generating electronic components such as can be effectively dissipated to the outside through the heat dissipation plate, and the deterioration and smoke generation of other electronic components
Ignition can be prevented. In this case, the external terminal can be grounded at the shortest distance by penetrating the insulator and contacting the conductive heat sink with the base end of the external terminal.

Fixing means such as an engaging member and a fixing material for fixing the electronic component in the electronic component storage portion while filling the fixing material in the case or forming the electronic component storage portion in the case. By taking the measures, the electronic component can be stably arranged at a predetermined position in the case, and the position can be prevented from being displaced due to external vibration. This is particularly effective for electronic parts having a relatively large weight such as coils. If the fixing material is made of a highly heat-conductive substance, the heat generated from the electronic component can be effectively conducted and diffused.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below based on the illustrated embodiments. FIG. 1 shows an external view of a noise filter according to the present invention. This noise filter 10 includes a box-shaped case 12 for accommodating various electronic components constituting a filter circuit,
It is roughly divided into a lid member 14 that closes the opening of the case 12.

As shown in FIG. 2, the lid member 14 comprises a heat radiating plate 16 and a terminal portion 18 mounted on the surface of the heat radiating plate 16. The heat dissipation plate 16 is formed of a conductive metal material having high heat conductivity such as aluminum, iron, brass, or copper, and as shown in FIG. 3, a rectangular flat plate portion 20 and a flat plate portion 20 of the flat plate portion 20. It has a pair of attachment terminals 22 protruding from both long sides. The flat plate portion 20 is provided with four screw insertion through holes 24. Further, each of the mounting terminals 20 is formed with a single screw insertion through hole 26.

The terminal portion 18 is, as shown in FIGS. 2 and 4, a rectangular substrate 28 on which electronic components are arranged, and the substrate 28.
It has a first side plate 30 and a second side plate 32 raised from both short sides of 28. This board 28 and both side plates 30, 32
Are integrally molded with an insulating material such as synthetic resin.
A common mode choke coil 34 is arranged in the center of the substrate 28, a resistor R and a first X capacitor C ₁ are provided near the first side plate 30, and a first R capacitor C ₁ is provided near the second side plate 32. Two X capacitors C ₂ , a first Y capacitor C ₃ and a second Y capacitor C ₄ are arranged respectively. Further, the first side plate 30 has two faston terminals (first faston terminal 36 and second faston terminal 38), and the second side plate 32 has three faston terminals (third faston terminal 40). , 4th Faston terminal 42, 5th Faston terminal
44) are arranged and fixed. Further, the board 28 is formed with four screw insertion through holes 46 corresponding to the through holes 24 formed in the heat dissipation plate 16.

The common mode choke coil 34 is formed by bifilarly winding a conductive wire around a toroidal core 34a made of ferrite or the like, and the first coil L ₁ is connected between the first faston terminal 36 and the third faston terminal 40. At the same time, the second coil L ₂ is connected between the second faston terminal 38 and the fifth faston terminal 44. The resistor R and the first X capacitor C ₁ are connected between the first faston terminal 36 and the second faston terminal 38, respectively, and the second X capacitor C ₂ is connected to the third faston terminal. It is connected between 40 and the fifth Faston terminal 44. Further, the first Y capacitor C ₃ is connected to the third faston terminal 4
The second Y capacitor C ₄ is provided between the fourth faston terminal 42 and the fifth faston terminal 42 between 0 and the fourth faston terminal 42.
It is connected between 4 respectively.

The fourth faston terminal 42 has its base end portion penetrating the substrate 28 and connected to the conductive piece 48 on the back surface of the substrate 28 as shown in FIG. The conductive piece 48 reaches the screw insertion through hole 46 of the substrate 28, and has a through hole 48a corresponding to the screw insertion through hole 46. Then, the heat sink
By making the back surface of the substrate 28 of the terminal portion 18 adhere to the surface of the 16th portion, the fourth faston terminal 42 can dissipate the heat radiation plate 16 having conductivity.
Will be electrically connected to. In addition, this conductive piece 48
May be integrally formed with the fourth faston terminal 42.

As a result of the above, the lid member 14 having the filter circuit of FIG. 6 is formed. Since the wiring between the electronic components and the wiring between the electronic components and the faston terminals described above are performed on the substantially flat board 28, a sufficient working space can be secured and good working efficiency can be realized. .

The case 12 is made of a highly heat-conductive substance obtained by kneading a metal oxide with a synthetic resin. As shown in FIG. 7, a cylindrical coil housing portion 50 is provided near the center of the bottom plate 49.
Further, screw receiving portions 52 are formed at the four corners of the bottom plate 49. A screw thread is formed inside the opening of the screw receiving portion 52.
Side walls rise up from the four sides of the bottom plate 49, and the first side plate 54 and the second side plate 56 of the terminal portion 18 are provided on the first side wall 54 and the second side wall 56 opposite thereto. Side plate
Notches 54a and 56a corresponding to the shape of 32 are formed, respectively. Further, notches 58a and 60a corresponding to the mounting terminals 22 of the heat dissipation plate 16 are formed in the third side wall portion 58 and the fourth side wall portion 60 opposite thereto, respectively. The third side wall portion 58 and the fourth side wall portion 60 are formed slightly higher than the first side wall portion 54 and the second side wall portion 56,
The third side wall portion 58 and the fourth side wall portion 60, and the first side wall portion 54
A step 62 having a height approximately half the thickness of the heat dissipation plate 16 is formed at each of the connecting portions with the second side wall portion 56.

A radiating disc 64 made of a metal material having excellent thermal conductivity such as aluminum, iron, brass, or copper is arranged in the coil housing portion 50. An insulating plate 66 made of a PET film or the like is placed on the heat radiation disc 64.
Further, although not shown, the coil housing portion 50 is filled with a fixing material made of a highly heat-conductive substance obtained by kneading a synthetic resin such as epoxy or urethane with a metal oxide such as aluminum oxide as a filler.

The case 12 and the lid member 14 are engaged with each other in the following manner. First, the common mode choke coil 34 arranged on the substrate 28 on the lid member 14 side is fitted into the coil housing portion 50 of the case 12, and the first side plate 30 of the terminal portion 18 is inserted.
Then, the second side plate 32 is fitted into the notches 54a, 56a formed in the first side wall portion 54 and the second side wall portion 56 of the case 12. At this time, the mounting terminal 22 of the heat dissipation plate 16 has the notch 58 formed in the third side wall portion 58 and the fourth side wall portion 60 of the case 12.
a, 60a. Next, the heat sink 16 and the terminal portion 18
The through holes 24 and 46 for screw insertion of and the opening of the screw receiving portion 52 of the case 12 are aligned, and the screw is inserted from the side of the heat dissipation plate 16 and tightened. As a result, the case member 68 is closed by the lid member 14.

In this noise filter 10, the back surface of the heat dissipation plate 16 exposed to the outside of the case 12 is brought into contact with the installation surface of a chassis or the like of electronic equipment, and the through hole 26 of the mounting terminal 22 is screwed and fixed. To be done. The first faston terminal 36 and the second faston terminal 38 are connected to an external power supply line or the like, and the third faston terminal 40 and the fifth faston terminal 44 are connected to a power transformer or the like of an electronic device. .
Further, the fourth faston terminal 42 is grounded to the installation surface via the conductive piece 48 arranged on the back surface of the substrate 28 and the heat dissipation plate 16.
It should be noted that the screw fastening when engaging the lid member 14 with the case 12 ensures more reliable contact between the conductive piece 48 and the heat dissipation plate 16. As a result, the first Y capacitor C ₃ and the second Y capacitor C ₃ connected to the fourth Faston terminal 42 are connected.
Case ₄ is grounded in the case 12 at the shortest distance, and the frequency characteristics of the noise filter are good.

As described above, the third side wall portion 58 of the case 12 is
Since the fourth side wall 60 and the fourth side wall 60 are formed slightly higher than the first side wall 54 and the second side wall 56, when the case 12 and the lid member 14 are engaged with each other, as shown in FIG. As shown in, by the third side wall portion 58 and the fourth side wall portion 60 of the case 12,
Most of the side surface of the heat dissipation plate 16 can be hidden. Moreover, since the difference in height is approximately half of the thickness of the heat dissipation plate 16, when the noise filter 10 is mounted on the installation surface 69, the third side wall portion 58 and the third side wall portion 58 of the case 12 are mounted. A slight gap 70 is formed between the side wall portion 60 of the No. 4 and the installation surface 69. As a result, the back surface of the heat dissipation plate 16 can be surely brought into contact with the installation surface 69.

As shown in FIG. 9, the upper surface of the common mode choke coil 34 is in contact with the heat radiating disk 64 via the insulating plate 66, and the lower surface of the common mode choke coil 34 is radiating plate 16 via the substrate 28 of the terminal portion 18.
A fixing material 72 made of a high thermal conductive material is filled between the heat radiation disc 64 and the heat radiation plate 16 without any gap.
The fixing material 72 also covers the outer peripheral surface of the common mode choke coil 34. Therefore, the heat generated in the common mode choke coil 34 is conducted and diffused through the fixing material 72, and is quickly dissipated from the heat dissipation plate 16 to the installation surface 69 (chassis or the like), or from the heat dissipation disc 64 to the case 12. Dissipated outside. Generally, when the number of windings of the conductive wire is increased to increase the inductance of the coil, the amount of heat generated by the coil is also increased, and other electronic components are deteriorated, and there is a risk of smoke and ignition. In the noise filter 10, since the heat generated in the coil is effectively dissipated to the outside, a common mode choke coil with a large number of turns
It becomes possible to incorporate 34.

In the above, the common mode choke coil 34 is fixed to the coil housing portion 50 by filling the fixing material 72 made of a high thermal conductive material between the two.
The two may be fixed to each other via a suitable engaging means. For example, as shown in FIG. 10, a pair of engaging groove portions 74 are formed on the coil housing portion 50 side of the case 12, and as shown in FIG. 11, a pair of engaging convex portions 76 are formed on the outer peripheral surface of the annular shape. The toroidal core is housed in the insulating case 78, and the conducting wire is wound around the surface of the annular insulating case 78 to form the common mode choke coil 34, and then the engaging convex portion 76 is formed in the engaging groove portion of the coil housing portion 50. The common mode choke coil 34 is fixed in the coil housing portion 50 by being press-fitted in the 74. The annular insulating case 78 is formed by fitting an upper part 78a and a lower part 78b made of a synthetic resin such as nylon, polycarbonate, polypropylene, polystyrene, etc., and enclosing the toroidal core from above and below. To do. The annular insulating case on the central through-hole 78c of the synthetic resin of the insulating partitioning plate 80 is disposed so as to ensure the first coil L ₁ and the insulation between the second coil L ₂ .

12 to 15 show another embodiment of the noise filter according to the present invention. This noise filter
As shown in FIG. 12, 10 is a heat dissipation plate 16 that constitutes the lid member 14.
It is characterized by the shape of. That is, the heat dissipation plate 16 is
The main heat radiation plate portion 82 has a rectangular shape, and the auxiliary heat radiation plate portion 83 is parallel to the main heat radiation plate portion 82 with a predetermined gap. The main heat radiating plate portion 82 and the auxiliary heat radiating plate portion 83 are connected to each other via a heat conducting wall portion 84 that is vertically erected from one side of the main heat radiating plate portion 82. Further, a pair of mounting terminals 22 are provided so as to project from both short sides of the main heat dissipation plate portion 82. In this main heat dissipation plate portion 82,
Four screw insertion through holes 24 are formed. Further, each of the mounting terminals 22 is formed with one screw insertion through hole 26. The heat dissipation plate 16 is made of a conductive metal material having excellent heat conductivity such as aluminum, iron, brass, and copper, and the main heat dissipation plate portion 82 and the auxiliary heat dissipation plate portion 8 are formed by sheet metal processing.
3, the heat conducting wall portion 84 and the mounting terminal 22 are integrally formed.

As shown in FIG. 13, the heat dissipation plate 16 and the terminal portion are
When the lid member 14 is configured by engaging with 18, the substrate 28 of the terminal portion 18 in which wiring between the electronic components and between the electronic component and the faston terminal has been completed in advance is used as the main radiation plate portion 82 of the heat radiation plate 16. The common mode choke coil 34 is inserted in a gap with the auxiliary heat dissipation plate portion 83 so that the upper surface of the common mode choke coil 34 is covered with the auxiliary heat dissipation plate portion 83 and the back surface of the substrate 28 is in contact with the main heat dissipation plate portion 82. Although not shown in FIG. 13, an insulating plate 66 similar to the above is interposed between the upper surface of the common mode choke coil 34 and the auxiliary heat dissipation plate portion 83.

The case 12 shown in FIG. 14 is used in this embodiment. This case 12 is different from the case 12 shown in FIG. 7 in that the bottom plate 49 is not provided with the coil housing portion 50.
And notches 58a in the third side wall 58 and the fourth side wall 60,
The feature is that 60a is not formed. Also,
Although illustration is omitted, the case 12 is previously filled with a fixing material made of a high thermal conductive material. This case 16
The opening 68 is closed by the lid member 14 formed by engaging the terminal portion 18 and the heat radiating plate 16 as shown in FIG. 13, and screwed in the same manner as above to complete the noise filter 10.

As shown in FIG. 15, the common mode choke coil 34 has its upper surface in contact with the auxiliary heat radiating plate portion 83 of the heat radiating plate 16 via the insulating plate 66, and has its lower surface in the substrate 28 of the terminal portion 18.
It is in contact with the main heat dissipation plate portion 82 via. Also, the main heat sink
Not only between 82 and the auxiliary heat dissipation plate portion 83, but also the outer peripheral surface of the common mode choke coil 34 is filled with the fixing material 72 made of a high thermal conductive material without any gap. Therefore, the heat generated in the common mode choke coil 34 is conducted / diffused through the fixing material 72 and quickly dissipated from the main heat dissipation plate portion 82 to the installation surface 69, or from the auxiliary heat dissipation plate portion 83 to the outside of the case 12. Be dissipated in.

The present invention is not limited to the above embodiments, but can be modified as appropriate without departing from the spirit of the invention. For example, the case 12 may be formed of a metal or a substance obtained by kneading a metal with a synthetic resin. As described above, when the case 12 is made of a metallic material, an electromagnetic wave shielding effect is also produced. Further, in the above, as the insulator covering the surface of the heat dissipation plate 16 having conductivity, the substrate 28 of the terminal portion 18 corresponds, but with applying an insulating coat or an insulating film to the surface of the heat dissipation plate 16, If external terminals and electronic components are provided on the surface of these insulator layers, it is not necessary to interpose the terminal portion 18, and the heat dissipation effect can be further enhanced.

[0034]

In the noise filter according to the present invention, since the conductive portion of the lid member exposed to the outside of the case and the base end portion of the external terminal are electrically connected in the case, The external terminal can be grounded only by disposing the noise filter so that the conductive portion is in contact with the installation surface, and it is not necessary to extend the grounding conductor from the external terminal to the outside of the case. Therefore, the work of grounding the external terminal can be simplified and a good appearance can be realized. In addition, the electronic component connected to the external terminal can be grounded to the housing in the shortest distance.

Further, the electronic components constituting the filter circuit are arranged on the inner surface side of the lid member which closes the opening of the box-shaped case, and the wiring between the electronic components is completed on the lid member side before closing the opening of the case. With this configuration, a sufficient work space for connection can be secured, and the work efficiency can be improved. Work efficiency can be further improved by disposing the external terminal on the lid member side and completing the wiring between the external terminal and the electronic component on the lid member.

If the lid member is composed of a conductive heat dissipation plate and an insulator covering the surface of the heat dissipation plate, and electronic parts are arranged on the surface of the insulator, coils, resistors, etc. The heat generated from the heat-generating electronic component can be effectively dissipated to the outside, and the deterioration, smoke, and ignition of other electronic components can be effectively prevented. Further, the fixing member for stably disposing the electronic component at the predetermined position in the case is made of the high thermal conductive material, so that the heat generated from the electronic component can be effectively conducted and diffused.

[Brief description of drawings]

FIG. 1 is a perspective view showing an embodiment of a noise filter according to the present invention.

FIG. 2 is a perspective view showing a lid member according to the above embodiment.

FIG. 3 is a perspective view showing a heat dissipation plate according to the above embodiment.

FIG. 4 is a plan view showing a lid member according to the above embodiment.

FIG. 5 is a plan view showing the back surface of the substrate of the terminal portion according to the above embodiment.

FIG. 6 is a circuit diagram of a noise filter according to the above embodiment.

FIG. 7 is a perspective view showing a case according to the above embodiment.

FIG. 8 is a front view showing the embodiment.

FIG. 9 is a schematic partial cross-sectional view showing the above embodiment.

FIG. 10 is a perspective view showing a case according to another embodiment.

FIG. 11 is a perspective view showing a common mode choke coil according to the above embodiment.

FIG. 12 is a perspective view showing a heat dissipation plate according to another embodiment.

FIG. 13 is a perspective view showing a lid member according to the above embodiment.

FIG. 14 is a perspective view showing a case according to the above embodiment.

FIG. 15 is a schematic partial cross-sectional view showing the above embodiment.

FIG. 16 is a perspective view showing a conventional noise filter.

FIG. 17 is a plan view showing an internal configuration of a conventional noise filter.

FIG. 18 is a schematic partial cross-sectional view showing a conventional noise filter.

[Explanation of symbols]

 10 Noise filter 12 Case 14 Lid member 16 Heat sink (conductive part) 28 Board (insulator) 34 Common mode choke coil 36 First faston terminal 38 Second faston terminal 40 Third faston terminal 42 Fourth faston terminal 44 Fifth faston terminal 48 Conductive piece 50 Coil storage part 68 Case opening 72 Fixing material 74 Engagement groove part 76 Engagement convex part

Continuation of front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location H05K 9/00 K 8123-5E H01F 15/06

Claims (10)

[Claims] 1. A box-shaped case made of synthetic resin having at least one end opened, a plurality of electronic components housed in the case, a lid member for closing the case opening, and a base end portion inside the case. A plurality of external terminals arranged, the lid member includes a conductive portion exposed to the outside of the case, and the conductive portion and a base end portion of at least one external terminal are provided in the case. A noise filter characterized by being electrically connected inside. 2. The noise filter according to claim 1, wherein the electronic component is arranged and connected to the inner surface side of the lid member. 3. The cover member is composed of a conductive heat dissipation plate and an insulator covering the surface of the heat dissipation plate, and the electronic component is arranged on the surface of the insulator. The noise filter described in. 4. A base end portion of at least one external terminal,
The noise filter according to claim 3, wherein the noise filter penetrates through the insulator and is connected to the conductive heat dissipation plate. 5. The lid member is provided with a plurality of external terminals, and a base end portion of the external terminal and the electronic component are connected to each other on an inner surface side of the lid member.
5. The noise filter according to any one of 4 to 4. 6. The noise filter according to claim 1, wherein the case is filled with a fixing material for fixing the electronic component at a predetermined position in the case. 7. The electronic component storage portion is formed in the case, and fixing means for fixing the electronic component in the electronic component storage portion is provided, according to any one of claims 2 to 6. Noise filter. 8. The noise filter according to claim 7, wherein the fixing means is an electronic component housing portion side and an engaging portion provided on the electronic component side. 9. The noise filter according to claim 7, wherein the fixing means is a fixing material filled between the electronic component storage portion and the electronic component. 10. The noise filter according to claim 6, wherein the fixing material is made of a material having high thermal conductivity.