JP4682425B2 - Noise filter and electronic device using the noise filter - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a noise filter used as a noise countermeasure for a mobile phone, an information device, and the like, and an electronic device using the noise filter.
[0002]
[Prior art]
A conventional noise filter described in Japanese Patent Laid-Open No. 62-257709 is known.
[0003]
FIG. 7 is a plan view of a laminated transformer which is an example of a conventional noise filter.
[0004]
In FIG. 7, reference numeral 1 denotes a plurality of magnetic sheets. Reference numeral 2 denotes a first coil pattern, and reference numeral 3 denotes a second coil pattern, each being provided on the upper surface of one magnetic sheet 1.
[0005]
The first and second coil patterns 2 and 3 provided on each magnetic sheet 1 have a spiral shape of about 0.25 to 0.75 turns in the same direction when viewed from above. The second coil patterns 2 and 3 are provided so as to be substantially parallel to each other.
[0006]
Furthermore, a plurality of magnetic sheets 1 are laminated, and a plurality of first coil patterns 2 provided on each magnetic sheet 1 are connected to each other as shown in FIGS. One coil 4 connects a plurality of second coil patterns 3 to each other to form a second coil 5.
[0007]
At this time, via electrodes 6 and 7 are respectively provided at both ends of the first and second coil patterns 2 and 3 formed on each magnetic sheet 1, and the via electrodes 6 and the via electrodes 7 are respectively magnetic. It is electrically connected through a via hole 8 formed in the body sheet 1.
[0008]
Note that lead electrodes 9a to 9d as shown in FIGS. 7B and 7F are provided at both end portions of the first and second coils 4 and 5, that is, the lowermost and uppermost coil patterns 2 and 3, respectively. The lowermost and uppermost coil patterns 2 and 3 have a spiral shape of about 0.5 turns except for the extraction electrodes 9a to 9d and the vicinity thereof.
[0009]
As shown in FIGS. 7A and 7G, a predetermined number of magnetic sheets 1 are provided on the upper and lower surfaces of the first and second coils 4 and 5 as necessary.
[0010]
A conventional noise filter can be obtained by laminating and integrating the first and second coils 4 and 5 and the plurality of magnetic sheets 1.
[0011]
In this conventional noise filter, when common mode noise is applied to the first coil 4 and the second coil 5, the directions of the currents flowing through the coils 4 and 5 are the same in a top view. As a result, common mode noise can be removed.
[0012]
[Problems to be solved by the invention]
However, the conventional noise filter described above has a problem that the common mode impedance cannot be further increased.
[0013]
That is, since the first coil pattern 2 and the second coil pattern 3 formed on the same sheet of magnetic material 1 have about 0.25 to 0.75 turns, the first effect is exerted on adjacent effects. The lengths of the coil pattern 2 and the second coil pattern 3 are short, so that the magnetic flux generated by the first coil 4 and the magnetic flux generated by the second coil 5 cannot be strengthened more efficiently. Because.
[0014]
SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and an object thereof is to provide a noise filter capable of further increasing the common mode impedance and having a high common mode noise removal characteristic, and an electronic apparatus using the noise filter.
[0015]
[Means for Solving the Problems]
In order to achieve the above object, the present invention has the following configuration.
[0016]
Claim 1 of the present invention In particular, in the described invention, only the spiral third inner conductor connected to the first inner conductor via the second magnetic sheet is provided on the upper surface of the first inner conductor, and the second inner conductor is provided on the lower surface. Only the spiral fourth inner conductor connected to the inner conductor is provided respectively, As a result, the lengths of the first inner conductor and the second inner conductor that exert influence on the same magnetic sheet are increased, and such first and second inner conductors are provided. By providing a plurality of magnetic sheets, the lengths of the first inner conductor and the second inner conductor that influence each other are further increased, thereby increasing the impedance when common mode noise is applied. Yes, normal mode Even if this noise is applied, the effect that the impedance can be increased by the third inner conductor and the fourth inner conductor can be obtained.
[0017]
Claim 2 In the described invention, in particular, the length of the first coil composed of the first inner conductor and the third inner conductor is the same as the length of the second coil composed of the second inner conductor and the fourth inner conductor. As a result, the effect of making the impedances of the first and second coils the same can be obtained.
[0018]
Claim 3 The described invention particularly has a configuration in which a non-magnetic material is provided on at least one of the upper surface of the third inner conductor and the lower surface of the fourth inner conductor, whereby the third inner conductor and / or Since the magnetic flux generated by each of the fourth inner conductors can be reduced, the impedance of the normal mode and the common mode in the third inner conductor and / or the fourth inner conductor can be reduced, thereby providing the magnetic material sheet. The effect of being able to stabilize the normal mode and common mode impedances generated in the first inner conductor and the second inner conductor can be obtained.
[0019]
Claim 4 In particular, the described invention has a configuration in which a magnetic material impregnated with a fluorine-based silane coupling agent is used, so that fine pores existing in the magnetic material have a water-repellent fluorine-based silane. Since it is filled with a coupling agent, the effect that moisture resistance can be improved is obtained.
[0020]
Claim 5 In particular, the described invention has a configuration in which a noise filter configured to connect a first inner conductor and a second inner conductor to a pair of signal lines in a wireless communication device is used. Since the impedance value of the common mode and the normal mode can be further increased in the pair of signal lines to which the noise of the common mode and the normal mode is applied, for example, the audible noise can be reduced in the audio line as the pair of signal lines. Is obtained.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
In the following, the present invention is particularly claimed by using the first embodiment. 4 Will be described.
[0022]
1A and 1B are plan views of a noise filter according to Embodiment 1 of the present invention, and FIG. 2 is a perspective view thereof.
[0023]
1 and 2, reference numerals 11a and 11b denote first magnetic sheets, each having a first inner conductor 12 and a second inner conductor 13 on the upper surface. In addition, lead electrodes 14a to 14d are provided on the end faces of the first magnetic sheets 11a and 11b, and via electrodes 15a to 15d are provided near the center. The first magnetic sheets 11a and 11b are made of a magnetic material such as ferrite.
[0024]
The first inner conductor 12 and the second inner conductor 13 each have a spiral shape of one or more turns made of a conductor such as silver, and the second inner conductor 13 is located inside the first inner conductor 12. It is provided so as not to short-circuit each other. That is, when the 1st inner conductor 12 and the 2nd inner conductor 13 are made into 1 set, this 1 set is spiral. Further, the direction of the spiral is the same for both the first inner conductor 12 and the second inner conductor 13 in a top view.
[0025]
One end of each of the first inner conductor 12 and the second inner conductor 13 is connected to the extraction electrodes 14a to 14d, and the other ends, that is, the centers of the spirals are via electrodes 15a to 15d, respectively.
[0026]
At this time, an extraction electrode 14a is formed on the first inner conductor 12 formed on the first magnetic sheet 11a, and an extraction electrode 14c is formed on the second inner conductor 13 on the other first magnetic sheet 11b. The first inner conductor 12 is connected to an extraction electrode 14b, and the second inner conductor 13 is connected to an extraction electrode 14d. The extraction electrodes 14a to 14d are made of a conductor such as silver.
[0027]
The via electrode 15a is provided on the first magnetic sheet 11a, the via electrode 15b is provided on the other first magnetic sheet 11b, and the via electrodes 15a and 15b are provided on the other first magnetic sheet 11b. The first coil 17 is configured by electrically connecting the first inner conductors 12 to each other through the through holes 16a.
[0028]
Similarly, the via electrode 15c is provided on the first magnetic sheet 11a, the via electrode 15d is provided on the other first magnetic sheet 11b, and the via electrodes 15c and 15d are provided on the other first magnetic sheet 11b. The first inner conductors 13 are electrically connected to each other through the through hole 16b provided in the first coil 18 to form the second coil 18.
[0029]
The via electrode 15a is disposed in the vicinity of the via electrode 15c, and the via electrode 15b is disposed in the vicinity of the via electrode 15d so as not to short-circuit each other.
[0030]
Further, a predetermined number of dummy magnets are provided on the upper surface of another first magnetic sheet 11b having the first inner conductor 12 and the second inner conductor 13, or on the lower surface of the first magnetic sheet 11a as necessary. A body sheet 19 (not shown) is provided. And the magnetic body 20 is formed by laminating | stacking so that it may become an above-described structure.
[0031]
Furthermore, external electrodes 21a and 21c are formed on one end face of the magnetic body 20, and the extraction electrode 14a is connected to the external electrode 21a, and the extraction electrode 14c is connected to the external electrode 21c. Similarly, external electrodes 21b and 21d are formed on the other end surface of the magnetic body 20, and the external electrode 21b is connected to the extraction electrode 14b, and the external electrode 21d is connected to the extraction electrode 14d.
[0032]
Regarding the noise filter according to the first embodiment of the present invention configured as described above, a manufacturing method thereof will be described below with reference to the drawings.
[0033]
3 (a) to 3 (c) and FIGS. 4 (a) to 4 (d) are perspective views showing a method for manufacturing the noise filter according to the first embodiment of the present invention.
[0034]
First, square first magnetic sheets 11a and 11b are prepared from a mixture of oxide and resin of ferrite powder.
[0035]
Next, as shown in FIG. 3A, the magnetic sheet 11b is punched by laser, punching, or the like, and the center of the spiral that becomes the other end of the first inner conductor 12 and the second inner conductor 13 is formed. A plurality of first and second via holes 16a and 16b are provided near the portion. The first via hole 16a is formed in the vicinity of 16b.
[0036]
Next, as shown in FIG. 3 (b), a spiral first interior of one or more turns is formed on the upper surface of the other first magnetic sheet 11b having the first and second via holes 16a and 16b. The conductor 12 and the second inner conductor 13 are formed by printing, plating, or the like. Further, the second inner conductor 13 is formed inside the first inner conductor 12 so as not to short-circuit each other. Further, via electrodes 15b and 15d (not shown) are formed on the other ends of the first inner conductor 12 and the second inner conductor 13 so as to be connected to the first and second via holes 16a and 16b, respectively. .
[0037]
One end of each of the first inner conductor 12 and the second inner conductor 13 is connected to lead electrodes 14b to 14d (not shown).
[0038]
At the same time, the first and second via holes 16a and 16b are filled with a conductive material such as silver.
[0039]
Similarly, a spiral first inner conductor 12 and second inner conductor 13 each having one or more turns are formed on the upper surface of the first magnetic sheet 11a.
[0040]
Next, another first magnetic sheet 11b is laminated on the first magnetic sheet 11a to obtain an arrangement relationship as shown in FIG. That is, the first magnetic sheet 11a on which the dummy magnetic sheet 19, the first inner conductor 12, and the second inner conductor 13 are formed, the first inner conductor 12, and the second inner conductor 13 are formed from below. The other first magnetic sheet 11b and the dummy magnetic sheet 19 are stacked in this order. The dummy magnetic sheet 19 includes the first inner conductor 12 formed on the other first magnetic sheet 11b, the upper surface of the second inner conductor 13, and the first magnetic sheet 11a as necessary. A predetermined number of sheets are formed on the lower surface.
[0041]
At this time, the first inner conductors 12 and the second inner conductors 13 are electrically connected to each other via the first and second via holes 16a and 16b.
[0042]
The internal conductors 12 and 13 and the extraction electrodes 14a to 14d (not shown) are formed by a method such as printing, plating, vapor deposition, or sputtering.
[0043]
Next, as shown in FIG. 4A, the first inner conductor 12 and the second inner conductor 13 are cut in one noise filter by dicing or the like so that one noise filter is provided in each noise filter. One laminate 22 as shown in (b) is obtained. At this time, the extraction electrodes 14a and 14c are exposed from both end surfaces of the laminate 22, and the extraction electrodes 14b and 14d are exposed from the other end surfaces, respectively.
[0044]
Next, the laminate 22 is fired at a predetermined temperature for a time to form the magnetic body 20.
[0045]
Next, as shown in FIG. 4C, the magnetic body 20 is chamfered with a barrel or the like.
[0046]
Finally, as shown in FIG. 4D, external electrodes 21a to 21d made of a conductor such as silver are formed so as to be connected to the extraction electrodes 14a to 14d exposed on both end faces of the magnetic body 20, respectively. A noise filter according to an embodiment of the invention is manufactured.
[0047]
The external electrodes 21a to 21d may be provided with nickel plating by plating on the upper surface of a conductor such as silver and tin or solder low melting point metal plating by plating on the surface of the nickel plating.
[0048]
Further, after forming the conductor with silver or the like and before forming the nickel plating, the magnetic body 20 may be impregnated with a fluorine-based silane coupling agent in a vacuum. By doing so, since the fluorine-based silane coupling agent having water repellency can be filled into the fine pores existing in the magnetic body 20, the moisture resistance of the noise filter itself can be improved.
[0049]
As described above, in the noise filter according to the first embodiment of the present invention, the first and second inner conductors 12 and 13 provided on the first magnetic sheet 11a are each in a spiral shape having one or more turns. The second inner conductor 13 is provided inside the inner conductor 12 so as not to short-circuit each other, and the other end of the first inner conductor 12 is provided in the vicinity of the other end of the second inner conductor 13. The other end of each of the second inner conductors 12 and 13 is configured to be connected to the other end of each of the first and second inner conductors 12 and 13 provided on the other first magnetic sheet 11b. Therefore, the length of the first inner conductor 12 and the second inner conductor 13 that exert influence on the same first magnetic sheet 11a, 11b is increased, and the first, The first magnetic material sheet provided with the second inner conductors 12, 13 By providing a plurality of 11a and 11b, the lengths of the first inner conductor 12 and the second inner conductor 13 that further influence each other are increased, and thus when the common mode noise is applied, the impedance is further increased. Can be high. As a result, it is possible to obtain an effect that a noise filter having high common mode noise removal characteristics can be obtained.
[0050]
That is, when a current flowing in the same direction, that is, clockwise or counterclockwise in the top view of the magnetic body 20, flows through the first coil 17 and the second coil 18, the first inner conductor 12 and the second coil Since the magnetic fluxes generated by the inner conductors 13 can be strengthened to each other, the common mode impedance value can be made higher than that of the conventional noise filter shown in FIG.
[0051]
Therefore, when a current in the same direction flows through the first coil 17 and the second coil 18, the impedances of the first inner conductor 12 and the second inner conductor 13 become high, and these inner conductors are in common mode. Reduce noise.
[0052]
In addition, since the first inner conductor 12 and the second inner conductor 13 have a spiral shape of one turn or more, the adjacent first inner conductor 12 and the second inner conductor 12 have a spiral shape or a meandering shape. The length of the inner conductor 13 can be increased, and thereby the common mode impedance can be increased.
[0053]
Furthermore, if the distance between the first inner conductor 12 and the second inner conductor 13 is minimized so as not to short-circuit each other, the first inner conductor 12 and the second inner conductor 13 are respectively generated. The magnetic fields strengthen each other, thereby increasing the common mode impedance.
[0054]
The first magnetic sheet provided with the first inner conductor 12 and the second inner conductor 13 is not only two sheets of the magnetic sheets 11a and 11b, but three sheets or more. The magnetic fields generated respectively by the inner conductor 12 and the second inner conductor 13 further strengthen each other, whereby the common mode impedance can be further increased.
[0055]
On the other hand, the first inner conductor 12 and the second inner conductor 13 are overlapped so that the second inner conductor 13 is not positioned inside or outside the spiral first inner conductor 12. If they are arranged separately, even if they are spiral, the distance between the first inner conductor 12 and the second inner conductor 13 becomes longer, and the magnetic fields generated by them do not strengthen each other. The mode impedance cannot be increased.
[0056]
(Embodiment 2)
Hereinafter, the present invention is particularly claimed by using the second embodiment. 1-3, 5 Will be described.
[0057]
5A to 5C are plan views of the noise filter according to the second embodiment of the present invention.
[0058]
In addition, about the thing which has the structure similar to Embodiment 1, the same code | symbol is attached | subjected and the description is abbreviate | omitted.
[0059]
5A to 5C, the difference from the first embodiment is that on the upper surface of the first magnetic sheet 11b or 11a on which the first inner conductor 12 and the second inner conductor 13 are formed, The second magnetic sheet 25 having only the third inner conductor 24 connected to the first inner conductor 12 has only the fourth inner conductor 26 connected to the second inner conductor 13 on the lower surface. The third magnetic sheet 27 is provided.
[0060]
The fourth inner conductor 26 may be provided directly on the dummy magnetic sheet 19 instead of the third magnetic sheet 27.
[0061]
In this way, the third inner conductor 24 formed on the second magnetic sheet 25 and the fourth inner conductor 26 formed on the third magnetic sheet 27 are the first inner conductor 12. Since the distance is increased via the first magnetic sheet 11b in which both the second inner conductor 13 and the second inner conductor 13 are formed, even when a reverse current flows through the first coil 17 and the second coil 18. The generated magnetic fluxes do not weaken each other, thereby obtaining the effect of increasing the normal mode impedance.
[0062]
Further, when the current in the same direction flows through the first coil 17 and the second coil 18, as described in the first embodiment, the internal conductor 12 provided on the first magnetic sheet 11b and The second internal conductor 13 can increase the common mode impedance.
[0063]
That is, with the configuration of FIG. 5 described above, both the common mode and normal mode impedance can be increased.
[0064]
At this time, the first inner conductor 12 and the third inner conductor 24 constitute the first coil 17, and the second inner conductor 13 and the fourth inner conductor 26 constitute the first coil 17. 2 The coil 18 is configured.
[0065]
At this time, the third inner conductor 24 and the fourth inner conductor 26 have a spiral shape such as a spiral shape or a spiral shape. As a result, the magnetic flux generated is stronger than in a straight line or the like, so that the normal mode impedance can be increased.
[0066]
If the lengths of the third inner conductor 24 formed on the second magnetic sheet 25 and the fourth inner conductor 26 formed on the third magnetic sheet 27 are adjusted to predetermined lengths, respectively. The total length of each of the first coil 17 and the second coil 18, that is, the length between the extraction electrodes, can be made the same, whereby the resistance values of the first coil 17 and the second coil 18 can be made. The impedance value can be the same.
[0067]
Further, when the third inner conductor 24 and the fourth inner conductor 26 are provided in order to make the resistance value and impedance of the first coil 17 and the second coil 18 the same as described above, If a non-magnetic material is provided on at least one of the upper surface of the conductor 24 and the lower surface of the fourth inner conductor 26, the magnetic flux generated in the third inner conductor 24 and / or the fourth inner conductor 26 can be reduced. The impedance of the normal mode and the common mode in the third inner conductor 24 and / or the fourth inner conductor 26 can be lowered, whereby the first inner conductor 12 and the second inner conductor 12 provided in the first magnetic sheet 11b. The normal mode and common mode impedances generated in the inner conductor 13 can be stabilized.
[0068]
As the non-magnetic material, nothing may be provided on the upper surface of the third inner conductor 24 and / or the lower surface of the fourth inner conductor 26. However, if glass, resin, or the like is provided, the third inner conductor 24 24, the insulation and moisture resistance of the fourth inner conductor 26 can be improved.
[0069]
The second magnetic sheet 25 having only the third inner conductor 24 on the lower surface of the first inner conductor 12 and the second inner conductor 13 formed on the first magnetic sheet 11b is formed on the upper surface. A third magnetic sheet 27 having only four inner conductors 26 may be provided.
[0070]
On the other hand, in the conventional noise filter shown in FIG. 7, since the first coil pattern 2 is always formed outside the second coil pattern 3, the resistance values and impedances of the first coil 4 and the second coil 5 are determined. It was impossible to make them the same.
[0071]
The first magnetic sheet provided with both the first inner conductor 12 and the second inner conductor 13 is not limited to one sheet 11b but may be two or more sheets.
[0072]
Hereinafter, the noise filter according to the first and second embodiments of the present invention is used as a pair of signal lines in a wireless communication device such as a mobile phone as an example of an electronic device. Law Will be described.
[0073]
For example, the signal line of a communication line such as a headset of a mobile phone is usually composed of a pair of cables, that is, a signal line, and a high-frequency signal such as a carrier wave of a mobile phone is simultaneously superimposed on the cable in the same phase as radiation noise. Therefore, common mode high frequency noise is input to this signal line. On the other hand, the audio signal and control signal of the mobile phone are signals in the normal mode.
[0074]
The normal mode signal is damaged by the common mode high frequency noise because the low frequency components in the signal are detected by the non-linear elements and the capacitance in the circuit, and the normal mode signal is This is because they are superimposed.
[0075]
An example of how the noise filter is used in the first and second embodiments of the present invention is shown in FIG. At this time, the noise filter 33 of the present invention is connected to the two signal lines 34 of the mobile phone headset connected to the headphones 35 via the external electrodes 21a to 21d at both ends shown in FIG. ing. That is, the signal line 34 is connected to each of the first coil 17 and the second coil 18.
[0076]
At this time, when a 900 MHz carrier 31 (TDMA carrier) is transmitted / received at a burst frequency 32 of 217 Hz in a transmission / reception circuit of a TDMA type mobile phone as shown in FIG. 6B, 217 Hz is detected and normal An audible noise can be heard by being superimposed on the mode audio signal. Accordingly, if normal mode and induced common mode currents can be suppressed, noise such as audio output can be reduced.
[0077]
FIG. 6C is a diagram showing the attenuation characteristics of the noise filter in Embodiments 1 and 2 of the present invention, that is, the relationship between the frequency and the attenuation.
[0078]
As apparent from FIG. 6C, common mode and normal mode noises are attenuated even at a carrier of 900 MHz of the mobile phone. Therefore, the 217 Hz signal of the burst frequency 32 detected together with the carrier 900 MHz can be reduced, and audible noise can not be heard.
[0079]
As described above, when the noise filter of the present invention is connected to the first coil 17 and the second coil 18 to a pair of signal lines in a wireless communication device such as a cellular phone, common mode noise is applied. Since the impedance of both the common mode and the normal mode can be increased in the pair of signal lines and the signal can be attenuated, for example, an audible noise can be reduced in the audio line as the pair of signal lines.
[0080]
【The invention's effect】
As described above, the noise filter of the present invention is A magnetic body composed of first and second magnetic sheets, a plurality of external electrodes formed on both end faces of the magnetic body, a first inner conductor and a second provided on the first magnetic sheet An inner conductor of the first magnetic material sheet and an extraction electrode connecting the outer electrode and one end of each of the first and second inner conductors to an end of the first magnetic material sheet, and the first magnetic material sheet The first and second inner conductors provided in the first and second inner conductors each have a spiral shape of one turn or more, and are provided inside the first inner conductor so that the second inner conductors are not short-circuited with each other, and The other end of the inner conductor is provided near the other end of the second inner conductor, and a spiral connected to the first inner conductor on the upper surface of the first inner conductor via the second magnetic sheet. Only the third inner conductor having the shape of a spout is connected to the second inner conductor on the lower surface. Lal shaped fourth such that only the inner conductor are respectively provided Accordingly, the lengths of the first inner conductor and the second inner conductor that affect each other provided in the same magnetic sheet are increased. By providing a plurality of magnetic sheets provided with an inner conductor, the length of the first inner conductor and the second inner conductor that further influence each other is increased, and thus when common mode noise is applied. , Higher impedance it can. In addition, the impedance can be increased by the third inner conductor and the fourth inner conductor even when normal mode noise is applied. There is an effect.
[Brief description of the drawings]
1A and 1B are plan views of a noise filter according to Embodiment 1 of the present invention.
FIG. 2 is a perspective view of the same.
FIGS. 3A to 3C are perspective views showing the same manufacturing method.
FIGS. 4A to 4D are perspective views showing the same manufacturing method.
FIGS. 5A to 5C are plan views of a noise filter according to a second embodiment of the present invention.
6A is a diagram showing an example of how the noise filter is used in the first and second embodiments of the present invention. FIG.
(B) The figure which shows the waveform of the carrier wave in a pair of signal line of a mobile telephone
(C) The figure which shows the relationship between the frequency and attenuation when the noise filter in Embodiment 1 and 2 of this invention is used for a pair of signal line of a mobile telephone.
FIG. 7 is a plan view of a conventional laminated transformer.
[Explanation of symbols]
11a, 11b First magnetic sheet
12 First inner conductor
13 Second inner conductor
14a-14d Extraction electrode
17 First coil
18 Second coil
20 Magnetic material
21a-21d External electrode
24 Third inner conductor
25 Second magnetic material sheet
26 Fourth inner conductor

Claims (5)

  A magnetic body composed of first and second magnetic sheets, a plurality of external electrodes formed on both end faces of the magnetic body, a first inner conductor and a second provided on the first magnetic sheet An inner conductor of the first magnetic material sheet and an extraction electrode connecting the outer electrode and one end of each of the first and second inner conductors to an end of the first magnetic material sheet, and the first magnetic material sheet The first and second inner conductors provided in the first and second inner conductors each have a spiral shape of one turn or more, and are provided inside the first inner conductor so that the second inner conductors are not short-circuited with each other, and The other end of the inner conductor is provided near the other end of the second inner conductor, and a spiral connected to the first inner conductor on the upper surface of the first inner conductor via the second magnetic sheet. Only the third inner conductor having the shape of a spout is connected to the second inner conductor on the lower surface. Lal shaped fourth noise filter only the internal conductor are provided each. The length of the first coil composed of the first inner conductor and the third inner conductor is made equal to the length of the second coil composed of the second inner conductor and the fourth inner conductor. The noise filter according to 1 . Third to one top and at least one of the lower surface of the fourth internal conductor of the inner conductor, the noise filter according to claim 1 wherein in which a non-magnetic material.   The noise filter according to claim 1, wherein a magnetic material impregnated with a fluorine-based silane coupling agent is used. A magnetic body composed of first and second magnetic sheets, a plurality of external electrodes formed on both end faces of the magnetic body, a first inner conductor and a second provided on the first magnetic sheet An inner conductor of the first magnetic material sheet and an extraction electrode connecting the outer electrode and one end of each of the first and second inner conductors to an end of the first magnetic material sheet, and the first magnetic material sheet The first and second inner conductors provided in the first and second inner conductors each have a spiral shape of one turn or more, and are provided inside the first inner conductor so that the second inner conductors are not short-circuited with each other, and The other end of the inner conductor is provided near the other end of the second inner conductor, and a spiral connected to the first inner conductor on the upper surface of the first inner conductor via the second magnetic sheet. Only the third inner conductor having the shape of a spout is connected to the second inner conductor on the lower surface. Only Lal shaped fourth internal conductors noise filter provided respectively, the pair of signal lines in a wireless communication device, with each of the first conductor, the noise filter so as to connect the second conductor Electronics.

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