JP2017158136A - Noise filter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a noise filter for causing an electric element formed in a lead of a capacitor to function as a filter element.SOLUTION: A noise filter A includes: a capacitor 20; a coil lead 25 (lead) provided in the capacitor 20; and an inductor 26 (electric element) formed on the coil lead 25. Since the inductor 26 functions as a filter element, the number of parts is smaller as compared with the case where an inductor separate from the capacitor 20 is provided.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a noise filter.

  Patent Document 1 discloses a π-type noise filter in which two capacitors and one coiled inductor are provided in a case. One of the two leads protruding from each capacitor is connected to the input / output terminal, and the other lead is connected to the ground terminal. Both ends of the coil are connected to two input / output terminals.

JP 2009-290377 A

  The noise filter has a problem that the number of parts is large because the capacitor and the coil are separate parts.

  The present invention has been completed based on the above situation, and an object thereof is to reduce the number of parts.

The noise filter of the present invention is
A capacitor,
A lead provided on the capacitor;
An electrical element formed on the lead and functioning as a filter element is provided.

  According to this configuration, since the electric element formed on the lead of the capacitor can function as a filter element, the number of components can be reduced as compared with the case where a filter element separate from the capacitor is provided.

The top view of the noise filter of Example 1 Equivalent circuit of noise filter of embodiment 1 The top view of the noise filter of Example 2 Equivalent circuit of noise filter of embodiment 2 The top view of the noise filter of Example 3 Equivalent circuit of noise filter of embodiment 3 The top view of the noise filter of Example 4 Equivalent circuit of noise filter of embodiment 4

  In the present invention, two capacitors are provided, and each of the two capacitors has an input / output side electrode and a ground side electrode, and an input / output terminal is connected to each of the two input / output side electrodes. A ground terminal is connected to the ground side electrode, the leads individually led out from the two input / output side electrodes are connected to each other, and the electric element is formed on at least one of the two leads. May be. According to this configuration, the noise filter functions as a π-type filter.

  In the present invention, the capacitor includes an input / output side electrode and a ground side electrode, and the input / output side electrode is connected to one of the input / output terminals of a pair of input / output terminals, and the ground side electrode A ground terminal is connected to the lead, and the electrical element is formed on the lead led out from the input / output side electrode, and the lead may be connected to the other input / output terminal. According to this configuration, the noise filter functions as an L-type filter.

  In the present invention, the capacitor has an input / output side electrode and a ground side electrode, the two leads are led out from the input / output side electrode, and the electric element is formed on both of the two leads, Each of the two leads may be connected to an input / output terminal, and a ground terminal may be connected to the ground side electrode. According to this configuration, the noise filter functions as a T-type filter.

<Example 1>
Embodiment 1 of the present invention will be described below with reference to FIGS. The noise filter A according to the first embodiment includes a case 10, two input / output terminals 15, one ground terminal 16, and two capacitors 20. The case 10 is made of an insulating material such as a synthetic resin. The case 10 includes a main body 11 having an accommodating space 12 inside, and a pair of left and right fitting parts 14 protruding forward from the front wall 13 of the main body 11 in a hood shape.

  A pair of left and right input / output terminals 15 are attached to the front wall 13 of the main body 11 in a form penetrating in the front-rear direction. One input / output terminal 15 is an input side terminal, and the other input / output terminal 15 is an output side terminal. A front end portion of each input / output terminal 15 is accommodated in the fitting portion 14 and connected to a wire harness (not shown). The rear end portion of each input / output terminal 15 is arranged at the front end portion of the accommodation space 12.

  A grounding terminal 16 is attached to the rear end of the main body 11. The front end portion of the grounding terminal 16 is disposed in the accommodation space 12 and functions as a connection portion with the capacitor 20. The rear end portion of the grounding terminal 16 is exposed to the outside rear side of the main body portion 11 and serves as a ground function portion 17 for connection to the ground point E.

  Two capacitors 20 are housed side by side in the housing space 12. The front end surface of the outer surface of each capacitor 20 is an input / output side electrode 21. The rear end surface of the outer surface of each capacitor 20 is a ground side electrode 22. A terminal-side lead 23 is led forward from each input / output electrode 21. The front end portion of each terminal-side lead 23 is connected to the rear end portion of the input / output terminal 15 by soldering or the like. A ground side lead 24 is led out from each ground side electrode 22 to the rear. The rear end portion of each ground side lead 24 is connected to the front end portion of the ground terminal 16 by soldering or the like.

  From each input / output side electrode 21, one coil lead 25 (lead described in claims) is led forward. The lead-out ends (front ends) of the two coil leads 25 are connected so as to be conductive by soldering or the like. Inductors 26 (electrical elements described in claims) are formed in the middle of each coil lead 25 in the length direction. The inductor 26 is obtained by forming the coil lead 25 into a spiral shape. The inductor 26 functions as a filter element, like the capacitor 20. The two inductors 26 conduct the two input / output terminals 15 through the coil leads 25, the input / output side electrodes 21, and the terminal side wires.

  The noise filter A of the first embodiment includes two capacitors 20, a coil lead 25 provided on the capacitor 20, and a coiled inductor 26 that is formed on the coil lead 25 and functions as a filter element. Yes. According to this configuration, the inductor 26 that is an electrical element formed on the coil lead 25 of the capacitor 20 functions as a filter element. Therefore, compared to the case where an inductor 26 (filter element) separate from the capacitor 20 is provided, The number of parts is small.

  In the noise filter A according to the first embodiment, the two capacitors 20 each have an input / output side electrode 21 and a ground side electrode 22, and the two input / output side electrodes 21 are respectively input / output. The grounding terminal 16 is connected to the grounding side electrode 22. The coil leads 25 individually led out from the two input / output electrodes 21 are connected to each other, and an inductor 26 is formed on both of the two coil leads 25. With this configuration, the noise filter A according to the first embodiment functions as a π-type filter.

<Example 2>
Next, a second embodiment of the present invention will be described with reference to FIGS. In the noise filter B of the second embodiment, a capacitor 30 and an inductor 36 (an electric element recited in claims) are configured differently from the first embodiment. The other configurations (case 10, input / output terminal 15, and ground terminal 16) are the same as those in the first embodiment. Therefore, the same reference numerals are given to the same configurations, and the structure, operation, and effects are described. Omitted.

  One capacitor 30 is accommodated in the accommodating space 12 of the case 10. The front end surface of the outer surface of the capacitor 30 is an input / output side electrode 31. The rear end surface of the outer surface of the capacitor 30 is a ground side electrode 32. A terminal direct connection lead 33 is led out from the input / output side electrode 31. The front end portion of the terminal direct connection lead 33 is connected to the rear end portion of one input / output terminal 15 of the pair of input / output terminals 15 by soldering or the like. The rear end portion of the ground side lead 34 led out from the ground side electrode 32 is connected to the front end portion of the ground terminal 16 by soldering or the like.

  From the input / output side electrode 31, one coil lead 35 (lead described in claims) is led forward. The front end portion of the coil lead 35 is connected to the rear end portion of the other input / output terminal 15 of the pair of input / output terminals 15 by soldering or the like. An inductor 36 is formed in the middle of the coil lead 35 in the length direction. The inductor 36 is formed by spirally forming the coil lead 35, and connects the input / output terminal 15 and the capacitor 30. The inductor 36 functions as a filter element, like the capacitor 30.

  The noise filter B according to the second embodiment includes one capacitor 30, a coil lead 35 provided on the capacitor 30, and a coiled inductor 36 that is formed on the coil lead 35 and functions as a filter element. Yes. According to this configuration, the inductor 36, which is an electrical element formed on the coil lead 35, functions as a filter element. Therefore, the number of components is smaller than when an inductor 36 (filter element) separate from the capacitor 30 is provided. Less is enough.

  The capacitor 30 has an input / output side electrode 31 and a ground side electrode 32, and one input / output terminal 15 of the pair of input / output terminals 15 is connected to the input / output side electrode 31. A grounding terminal 16 is connected to the electrode 32. An inductor 36 is formed on the coil lead 35 led out from the input / output side electrode 31, and the coil lead 35 is connected to the other input / output terminal 15. With this configuration, the noise filter B of the second embodiment functions as an L-type filter.

<Example 3>
Next, a third embodiment of the present invention will be described with reference to FIGS. In the noise filter C of the third embodiment, a capacitor 40 and an inductor 45 (an electric element recited in claims) are configured differently from the first embodiment. The other configurations (case 10, input / output terminal 15, and ground terminal 16) are the same as those in the first embodiment. Therefore, the same reference numerals are given to the same configurations, and the structure, operation, and effects are described. Omitted.

  One capacitor 40 is accommodated in the accommodating space of the case 10. A rear end surface of the outer surface of the capacitor 40 is a ground side electrode 41. The rear end portion of the ground side lead 42 led out from the ground side electrode 41 is connected to the front end portion of the ground terminal 16 by soldering or the like. The front end surface of the outer surface of the capacitor 40 is an input / output side electrode 43.

  From the input / output side electrode 43, a pair of left and right coil leads 44 (leads recited in claims) lead out forward. The front end portions of the pair of coil leads 44 are individually connected to the rear end portions of the pair of input / output terminals 15 by soldering or the like. Inductors 45 are formed in the middle of the pair of coil leads 44 in the length direction. The inductor 45 is formed by spirally forming the coil lead 44 and connects the input / output terminal 15 and the capacitor 40. The inductor 45 functions as a filter element, like the capacitor 40.

  The noise filter C of the third embodiment includes one capacitor 40, a coil lead 44 provided on the capacitor 40, and a coiled inductor 45 that is formed on the coil lead 44 and functions as a filter element. Yes. According to this configuration, the inductor 45, which is an electrical element formed on the coil lead 44 of the capacitor 40, functions as a filter element. Therefore, compared to the case where an inductor 45 (filter element) separate from the capacitor 40 is provided, The number of parts is small.

  The capacitor 40 has a ground side electrode 41 and an input / output side electrode 43, and a ground terminal 16 is connected to the ground side electrode 41. Two coil leads 44 are led out from the input / output side electrode 43, and an inductor 45 is formed on each of the two coil leads 44. . The leading ends of the two leads are individually connected to the input / output terminals 15, respectively. According to this configuration, the noise filter C functions as a T-type filter.

<Example 4>
Next, a fourth embodiment of the present invention will be described with reference to FIGS. In the noise filter D of the fourth embodiment, a capacitor 50 and an inductor 55 (an electric element recited in claims) are configured differently from the first embodiment. The other configurations (case 10, input / output terminal 15, and ground terminal 16) are the same as those in the first embodiment. Therefore, the same reference numerals are given to the same configurations, and the structure, operation, and effects are described. Omitted.

  One capacitor 50 is accommodated in the accommodating space of the case 10. One of the outer surfaces of the capacitor 50 is a first electrode 51, and the other outer surface is a second electrode 52. From the first electrode 51 and the second electrode 52, one terminal direct connection lead 53 is bent forward and led out. The front end portion of one terminal direct connection lead 53 is connected to the rear end portion of one input / output terminal 15 of the pair of input / output terminals 15 by soldering or the like. The front end portion of the other terminal direct connection lead 53 is connected to the rear end portion of the other input / output terminal 15 of the pair of input / output terminals 15 by soldering or the like.

  In addition to the terminal direct connection lead 53, a ground side lead 54 (lead described in claims) is led out from the first electrode 51 by bending backward. The rear end portion of the ground side lead 54 is connected to the front end portion of the ground terminal 16 by soldering or the like. In the middle of the ground side lead 54 in the length direction, an inductor 55 (an electric element recited in claims) is formed. The inductor 55 is formed by forming a ground side lead 54 in a spiral shape (coil shape), and connects the capacitor 50 and the ground terminal 16. The inductor 36 functions as a filter element, like the capacitor 30.

  The noise filter D of the fourth embodiment includes one capacitor 50, a ground side lead 54 provided on the capacitor 50, and a coiled inductor 55 formed on the ground side lead 54 and functioning as a filter element. Yes. According to this configuration, the inductor 55, which is an electrical element formed on the ground-side lead 54, functions as a filter element. Therefore, the number of components is smaller than when an inductor 55 (filter element) separate from the capacitor 50 is provided. Less is enough. Further, while the noise filters A, B, and C of the first to third embodiments function as a low-pass filter, the noise filter D of the fourth embodiment functions as a high-pass filter.

<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention.
(1) In the first embodiment, the inductor is formed on both of the two capacitors. However, the inductor may be formed on only one of the capacitors.
(2) In the first to third embodiments, the ground side electrode and the ground terminal are connected via the ground side lead, but the ground side electrode and the ground terminal are directly connected without providing the ground side lead. May be.
(3) In the first to third embodiments, the inductor (electric element) is wound in a coil shape. However, the inductor (electric element) may be wound in a spiral on the same plane. Good.
(4) In the first to third embodiments, the function as the filter element (inductor) is exhibited only by the coiled one, but the one in which the magnetic core is disposed inside the coil or the same plane An electric element (inductor) having a magnetic core disposed at the center of the vortex of the wire wound in a spiral shape may be used.
(5) In the first to third embodiments, the electric element formed by the lead of the capacitor is an inductor, but the electric element formed by the lead may be a known winding resistance.
(6) In the first to third embodiments, two leads are led out from one electrode, but the number of leads led out from one electrode may be three or more.

A, B, C, D ... noise filter 15 ... input / output terminal 16 ... ground terminal 20, 30, 40, 50 ... capacitor 21, 31, 43 ... input / output side electrode 22, 32, 41 ... ground side electrode 25 , 35, 44 ... Lead for coil (lead)
26, 36, 45, 55 ... Inductors (electric elements)
54 ... Earth side lead (lead)

Claims (4)

A capacitor,
A lead provided on the capacitor;
And a noise filter formed on the lead and functioning as a filter element. Two said capacitors are provided;
Each of the two capacitors has an input / output side electrode and a ground side electrode,
An input / output terminal is connected to each of the two input / output side electrodes,
A ground terminal is connected to the ground side electrode,
The leads individually led out from the two input / output side electrodes are connected,
The noise filter according to claim 1, wherein the electric element is formed on at least one of the two leads. The capacitor has an input / output side electrode and a ground side electrode,
One input / output terminal of a pair of input / output terminals is connected to the input / output side electrode,
A ground terminal is connected to the ground side electrode,
The electrical element is formed on the lead led out from the input / output side electrode,
The noise filter according to claim 1, wherein the lead is connected to the other input / output terminal. The capacitor has an input / output side electrode and a ground side electrode,
Two leads are derived from the input / output side electrode,
The electrical element is formed on both of the two leads,
The two leads are connected to input / output terminals, respectively.
The noise filter according to claim 1, wherein a ground terminal is connected to the ground side electrode.

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