JP2003008153A - Electronic circuit device and low-pass filter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic circuit device which radiates less electromagnetic waves and a low-pass filter useful for the constitution of the electronic circuit device which radiates less electromagnetic waves. SOLUTION: A narrow portions 13 and 23 are formed in a power supply pattern 10 and in a ground pattern 20 to concentrate currents, and a low-pass filter is placed in the position where the narrow portions 13 and 23 are formed. Thus, high-frequency noise produced in an integrated circuit 40 does not flow to the power supply pattern 10 or the ground pattern 20 on the side of a direct- current power circuit 60 whose patterns are formed wide. As a result, radiation of spurious electromagnetic waves is reduced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic circuit device having an integrated circuit mounted on a circuit board, and more particularly to a technique for reducing radiated electromagnetic waves.

[0002]

2. Description of the Related Art In designing an electronic circuit device, how to reduce electromagnetic waves emitted is an important issue. Examples of the electromagnetic wave generation source include noise generated in an integrated circuit operating at high frequency. It is known that the noise generated in the integrated circuit is strongly radiated especially from the power supply pattern or the ground pattern connected to the integrated circuit. In order to prevent the emission of such unnecessary electromagnetic waves, the power supply pattern and the ground pattern are usually designed to be thick and short. Then, a bypass capacitor is arranged near the integrated circuit between the power supply pattern and the ground pattern. In some cases, a low pass filter is provided near the integrated circuit. This prevents noise from entering the integrated circuit from the power supply pattern, and at the same time prevents noise from entering the power supply pattern and the ground pattern from the integrated circuit.

[0003]

However, the conventional design method has not been able to sufficiently reduce the emission of electromagnetic waves from the electronic circuit device. One of the reasons is shown in Figure 1.
2 will be described. FIG. 12 is a schematic configuration diagram of a conventional electronic circuit device. Note that FIG. 12 is schematically shown to facilitate the description.

As shown in FIG. 12, a power source pattern 2 and a ground pattern 3 are formed on the circuit board 1. An integrated circuit 4 is mounted on the circuit board 1. Specifically, the power supply terminal 4a of the integrated circuit 4 is connected to the power supply pattern 2, and the ground terminal 4b is connected to the ground pattern 3. The power supply pattern 2 and the ground pattern 3 are connected to the DC power supply circuit 5. The power supply pattern 2 and the ground pattern 3 are designed to be wide in order to keep the inductance value between the integrated circuit 4 and the power supply circuit 5 as low as possible. A bypass capacitor 6 is arranged between the power supply pattern 2 and the ground pattern 3 near the integrated circuit 4. In such a circuit board 1, the power supply pattern 2 and the ground pattern 3 having wide current paths are provided.
Is formed over the entire area of. Here, consider the current path 7 of the ground pattern 3 which is separated from the bypass capacitor 6. This current path 7 is a bypass capacitor 6
The high-frequency noise superimposed on the DC current flowing through the current path 7 is not affected by the bypass capacitor 6 because it is separated from the current path 7. That is, the high frequency noise generated in the integrated circuit 4 flows through the ground pattern 3. As a result, unnecessary electromagnetic waves are emitted.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an electronic circuit device that emits little electromagnetic waves and a low-pass filter that is useful for constructing an electronic circuit device that emits little electromagnetic waves. Especially.

[0006]

In order to achieve the above object, in claim 1, an electronic circuit comprising a circuit board on which a power supply pattern and a ground pattern are formed, and an integrated circuit mounted on the circuit board. In the device, the power supply terminal of the integrated circuit is connected to the power supply pattern, the ground terminal of the integrated circuit is connected to the ground pattern, and the power supply pattern and the ground pattern are formed to be narrower in width than other parts in order to concentrate the current. An element for short-circuiting a high-frequency component superposed on a power supply current is provided between the narrow portion of the power supply pattern and the narrow portion of the ground pattern facing the narrow portion. Suggest what to do.

According to the present invention, the power source current flowing through the integrated circuit always passes through the narrow portion of the power pattern and the narrow portion of the ground pattern. Since an element for short-circuiting the high frequency component superimposed on the power supply current is provided between the narrow part of the power supply pattern and the narrow part of the ground pattern, noise generated in the integrated circuit flows out to the power supply pattern and the ground pattern. do not do. This can prevent the noise from being radiated from the power supply pattern and the ground pattern.

As an example of a preferred aspect of the present invention, in claim 2, in the electronic circuit device according to claim 1, the power source pattern is a non-conductive first power source pattern on the integrated circuit side and a power source side on the integrated circuit side. A second power source pattern, the narrow portion is formed at a portion where the first power source pattern and the second power source pattern face each other, and the element has a low pass having a pair of input / output terminals and one ground terminal. A filter, one input / output terminal connected to the first power supply pattern, the other input / output terminal connected to the second power supply pattern,
We propose that the ground terminal is connected to the narrow part of the ground pattern.

According to a third aspect of the present invention, in the electronic circuit device according to the first aspect, the power source pattern comprises a first power source pattern on the integrated circuit side and a second power source pattern on the power source side which are non-conducting from each other. The narrow portion is formed at a portion where the first power supply pattern and the second power supply pattern face each other,
The ground pattern is composed of a first ground pattern on the integrated circuit side and a second ground pattern on the power supply side that are non-conducting from each other, and in the narrow portion, the first ground pattern and the second ground pattern face each other. The element is formed of a low pass filter having a pair of input / output terminals and a pair of ground terminals, one input / output terminal is connected to the first power supply pattern, and the other input / output terminal is the second input / output terminal. Connected to the power supply pattern, one ground terminal is the first
Is proposed, and the other ground terminal is connected to the second ground pattern.

Further, a fourth aspect of the present invention proposes the electronic circuit device according to the first aspect, wherein the element is a capacitor.

Further, in a fifth aspect, in the electronic circuit device according to any one of the first to fourth aspects, the narrow portion is formed in the vicinity of the integrated circuit, and in the sixth aspect, A low-pass filter having a pair of input / output terminals and a pair of ground terminals, and arranging the terminals so that the line connecting the pair of input / output terminals and the line connecting the pair of ground terminals do not intersect is proposed. .

According to the present invention, the configuration of the electronic circuit device according to the third aspect can be easily realized.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION (First Embodiment) An electronic circuit device according to a first embodiment of the present invention will be described with reference to FIGS. 1 is a configuration diagram of an electronic circuit device according to a first embodiment, FIG. 2 is an external perspective view of a low-pass filter according to the first embodiment, and FIG. 3 is an equivalent circuit diagram of a low-pass filter according to the first embodiment. Is. It should be noted that FIG. 1 schematically shows only the pattern of the power supply system for ease of explanation.

As shown in FIG. 1, the electronic circuit device is
A circuit board 30 on which the power supply pattern 10 and the ground pattern 20 are formed, an integrated circuit 40 including a power supply terminal 41 and a ground terminal 42, a four-terminal low-pass including input / output terminals 51 and 52, and ground terminals 53 and 54. And a filter 50. The power supply pattern 10 and the ground pattern 10 are connected to the DC power supply circuit 60, respectively.

One end of the power supply pattern 10 is the integrated circuit 4
0 is connected to the power supply terminal 41 and the other end is the low-pass filter 5
The first power supply pattern 11 connected to one input / output terminal 51 of 0 and the second power supply pattern 12 connected to the DC power supply circuit 60 at one end and the other input / output terminal 52 of the low-pass filter 50 at the other end. Consists of. Here, the second power supply pattern 12 is formed wide to reduce the inductance. In addition, the second power supply pattern 12
Is formed such that a portion facing the first power supply pattern 11, that is, an end portion on the low-pass filter 50 side is narrower in width than other portions. Furthermore, the first power supply pattern 11
Has substantially the same width as the end of the second power supply pattern 12 on the low-pass filter 50 side. That is, the power supply pattern 10 has a narrow width portion 13 having a narrow width at a portion where the first power supply pattern 11 and the second power supply pattern 12 face each other.
Is equipped with.

The ground pattern 20 has a first ground pattern 21 having one end connected to the ground terminal 42 of the integrated circuit 40 and the other end connected to one ground terminal 53 of the low-pass filter 50, and one end connected to the DC power supply circuit 60. The second ground pattern 22 is connected and the other end side is connected to the other ground terminal 54 of the low-pass filter 50. Here, the second ground pattern 22 is formed wide so as to reduce the inductance. Also,
The second ground pattern 22 is a portion facing the first ground pattern 21, that is, the low-pass filter 50.
The end portion on the side is formed to have a width smaller than that of other portions.
Further, the first ground pattern 21 has substantially the same width as the end of the second ground pattern 22 on the low pass filter 50 side. That is, the ground pattern 20
Is a narrow portion 23 having a narrow width at a portion where the first ground pattern 21 and the second ground pattern 22 face each other.
Is equipped with.

The narrow portion 13 of the power supply pattern 10 and the narrow portion 23 of the ground pattern 20 are preferably arranged near the integrated circuit 40. That is, it is preferable to make the current path by the first power supply pattern 11 and the second ground pattern 21 as short as possible.

As shown in FIG. 2, the low-pass filter 50 has input / output terminals 51 and 52 and ground terminals 53 and 54 formed at four corners of a substantially rectangular parallelepiped element body 55. Here, the terminals are arranged so that the line connecting the input / output terminals 51 and 52 and the line connecting the ground terminals 53 and 54 do not intersect. As shown in FIG. 3, the equivalent circuit of the low-pass filter 50 includes an inductor 56 connecting between the input / output terminals 51 and 52, and an inductor 51, respectively.
57, 58 connected between one end of the
And the ground terminals 53 and 54 are short-circuited.

In such an electronic circuit device, the power supply current supplied from the DC power supply circuit 60 is the second power supply pattern 12, the low pass filter 50, and the first power supply pattern 1.
1, the integrated circuit 40, the first ground pattern 21, the low-pass filter 50, and the second ground pattern 22. Therefore, the high-frequency noise generated in the integrated circuit 40 does not flow into the second power supply pattern 12 and the second ground pattern 22 which have a large area due to the low-pass filter 50 and electromagnetic waves are easily radiated. This can reduce unnecessary electromagnetic radiation.

In this embodiment, the 4-terminal low-pass filter 50 having the equivalent circuit shown in FIG. 3 is illustrated, but the ladder-type equivalent circuit shown in FIG. 4 and the equivalent circuit shown in FIG.
It may have a combined equivalent circuit shown in FIG.
The ladder-type four-terminal low-pass filter shown in FIG. 4 includes an inductor 71 connecting between the input / output terminals 51 and 52 and an inductor 72 connecting between the ground terminals 53 and 54.
And the input / output terminal 51 side of the inductor 71 and the inductor 7
And a capacitor 73 for connecting the second ground terminal 53 side. 5 is a ladder-type low-pass filter of FIG. 4 in which the inductor 71 and the inductor 72 are magnetically coupled.

Further, as shown in FIG. 6, a part of the first power supply pattern connecting the low pass filter 50 and the integrated circuit 40 may have a width wider than the narrow portion 13. That is, the power supply pattern 10 and the ground pattern 20 may include the narrow portions 13 and 23 in which current concentrates, and the low-pass filter 50 that short-circuits the high-frequency current may be arranged between the narrow portions 13 and 23.

(Second Embodiment) An electronic circuit device according to a second embodiment of the present invention will be described with reference to FIGS. 7 is a configuration diagram of an electronic circuit device according to the second embodiment, FIG. 8 is an external perspective view of a low-pass filter according to the second embodiment, and FIG. 9 is an equivalent circuit diagram of the low-pass filter according to the second embodiment. Is. It should be noted that FIG. 7 schematically shows only the pattern of the power supply system for ease of explanation. Also, in the figure, the same components as those in the first embodiment are designated by the same reference numerals.

The main difference of the electronic circuit device according to the present embodiment from the first embodiment is that it uses a 3-terminal low-pass filter instead of the 4-terminal low-pass filter.

This electronic circuit device, as shown in FIG.
The circuit board 30 on which the power supply pattern 10 and the ground pattern 80 are formed, the integrated circuit 40 including the power supply terminal 41 and the ground terminal 42, the three-terminal low-pass filter 9 including the input / output terminals 91 and 92 and the ground terminal 93.
It has 0 and. The power supply pattern 10 and the ground pattern 80 are connected to the DC power supply circuit 60, respectively.

As in the first embodiment, the power supply pattern 10 has one end connected to the power supply terminal 41 of the integrated circuit 40 and the other end connected to one input / output terminal 81 of the low-pass filter 80.
And a second power supply pattern 12 having one end connected to the DC power supply circuit 60 and the other end connected to the other input / output terminal 82 of the low-pass filter 80.
Consists of. Here, the second power supply pattern 12 is formed wide to reduce the inductance. The second power supply pattern 12 is the first power supply pattern 1
The portion facing 1 (i.e., the end portion on the low-pass filter 80 side) is formed to have a smaller width than the other portions. Furthermore, the first power supply pattern 11 is the second power supply pattern 1
The width is almost the same as the end of the second low-pass filter 80 side. That is, the power supply pattern 10 includes a narrow portion 13 having a narrow width at a portion where the first power supply pattern 11 and the second power supply pattern 12 face each other.

The ground pattern 80 has one end connected to the ground terminal 42 of the integrated circuit 40 and the other end connected to the DC power supply circuit 60. Ground pattern 8
0 has a narrow portion 81 which is formed to have a width narrower than other portions at a portion facing the narrow portion 13 of the first power source pattern 11. That is, the ground pattern 80 has a shape in which the first ground pattern 21 and the second ground pattern 22 in the first embodiment are connected. The narrow portion 81 of the ground pattern 80 is connected to the ground terminal 93 of the low pass filter 90.

The narrow portion 13 of the power supply pattern 10 and the narrow portion 81 of the ground pattern 80 are preferably arranged near the integrated circuit 40. That is, it is preferable that the current path from the first power supply pattern 11 and the current path from the end of the ground pattern 80 on the integrated circuit 40 side to the narrow portion 81 are as short as possible.

As shown in FIG. 8, the low-pass filter 90 includes input / output terminals 91 and 92 formed at adjacent corners of a substantially rectangular parallelepiped element body 94, and input / output terminals 91 and 92.
And a ground terminal 93 formed on the end portion of the element body 94 in which the is not formed. As shown in FIG. 9, the equivalent circuit of the low-pass filter 90 has input / output terminals 91 and 92.
And an inductor 95 for connecting the
And an inductor 96 having the other end connected to both ends of the inductor 95 via capacitors 96 and 97.

In such an electronic circuit device, the power supply current supplied from the DC power supply circuit 60 is generated by the second power supply pattern 12, the low-pass filter 90, and the first power supply pattern 1.
1, the integrated circuit 40 and the ground pattern 80. Here, a narrow portion 81 is provided in the ground pattern 80, and the low pass filter 9 is provided in the narrow portion 81.
Since 0 is connected, high-frequency noise generated in the integrated circuit 40 flows to the second power supply pattern 12 having a large area and easily radiated by electromagnetic waves by the low-pass filter 90 and the land pattern 80 on the DC power supply circuit 60 side. There is no. This can reduce unnecessary electromagnetic radiation.

In the present embodiment, the 3-terminal low-pass filter 90 having the equivalent circuit shown in FIG. 9 is illustrated, but the T-type equivalent circuit shown in FIG. 10 may be used. The T-type low-pass filter illustrated in FIG. 10 includes inductors 99 and 100 connected in series between input / output terminals 91 and 92, and a capacitor 10 that connects a connection point between the inductors 99 and 100 and a ground terminal 93.
1 and.

(Third Embodiment) A third embodiment of the present invention will be described with reference to FIG. FIG. 11 is a configuration diagram of the electronic circuit device according to the third embodiment. It should be noted that FIG. 11 schematically illustrates only the pattern of the power supply system for ease of explanation. Also, in the figure, the same components as those in the first embodiment are designated by the same reference numerals.

The main difference of the electronic circuit device according to this embodiment from that of the first embodiment is that a capacitor is used instead of the 4-terminal low-pass filter.

As shown in FIG. 11, this electronic circuit device includes a circuit board 30 having a power supply pattern 110 and a ground pattern 120, an integrated circuit 40 having a power supply terminal 41 and a ground terminal 42, and a capacitor 130. Is equipped with. The power supply pattern 110 and the ground pattern 120 are connected to the DC power supply circuit 60, respectively.

The power supply pattern 110 has one end connected to the power supply terminal 41 of the integrated circuit 40 and the other end connected to the DC power supply circuit 60. The power supply pattern 110 includes a narrow portion 111 that is narrower in width at a connection portion with the capacitor 130 than at other portions. Power supply pattern 110
The parts other than the narrow part 111 are formed wide to reduce the inductance.

The ground pattern 120 has one end connected to the ground terminal 41 of the integrated circuit 40 and the other end connected to the DC power supply circuit 60. The ground pattern 120 includes a narrow portion 121 that is narrower in width than the other portions at the connection portion with the capacitor 130. Portions other than the narrow portion 121 of the ground pattern 120 are formed wide to reduce the inductance.

According to such an electronic circuit device, the power source current supplied from the DC power source circuit 60 is the power source pattern 1
10, the integrated circuit 40, and the ground pattern 120. Here, the power supply pattern 110 has a narrow portion 11
1 is provided and the narrow portion 121 is provided in the ground pattern 120, the power supply current is
Pass 1 and 121. Since the capacitor 130 is connected between the narrow portions 111 and 121, the high-frequency noise generated in the integrated circuit 40 has a large area and the electromagnetic wave is easily radiated by the DC power circuit 60. It does not flow to the ground pattern 120. This can reduce unnecessary electromagnetic radiation.

Although the embodiment of the present invention has been described above, the present invention is not limited to this. The scope of the invention is indicated by the claims, and all modifications that come within the meaning of each claim are intended to be included in the invention.

For example, in each of the above embodiments, the power supply pattern and the ground pattern were formed on the surface of the circuit board, but the present invention is not limited to this. A multilayer board may be used as the circuit board, and one or both of the power supply pattern and the ground pattern may be formed in the inner layer.

[0039]

As described in detail above, according to the present invention,
The power supply current flowing through the integrated circuit always passes through the narrow part of the power pattern and the narrow part of the ground pattern. Since an element for short-circuiting the high frequency component superimposed on the power supply current is provided between the narrow part of the power supply pattern and the narrow part of the ground pattern, noise generated in the integrated circuit flows out to the power supply pattern and the ground pattern. do not do. This can prevent the noise from being radiated from the power supply pattern and the ground pattern.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an electronic circuit device according to a first embodiment.

FIG. 2 is an external perspective view of the low-pass filter according to the first embodiment.

FIG. 3 is an equivalent circuit diagram of the low-pass filter according to the first embodiment.

FIG. 4 is an equivalent circuit diagram of a low-pass filter according to another example of the first embodiment.

FIG. 5 is an equivalent circuit diagram of a low-pass filter according to another example of the first embodiment.

FIG. 6 is a configuration diagram of an electronic circuit device according to another example of the first embodiment.

FIG. 7 is a configuration diagram of an electronic circuit device according to a second embodiment.

FIG. 8 is an external perspective view of a low pass filter according to a second embodiment.

FIG. 9 is an equivalent circuit diagram of the low-pass filter according to the second embodiment.

FIG. 10 is an equivalent circuit diagram of a low-pass filter according to another example of the second embodiment.

FIG. 11 is a configuration diagram of an electronic circuit device according to a third embodiment.

FIG. 12 is a configuration diagram of a conventional electronic circuit device.

[Explanation of symbols]

10 ... Power source pattern, 11 ... First power source pattern, 12
... second power supply pattern, 13 ... narrow portion, 20 ... ground pattern, 21 ... first ground pattern, 22 ... second
Ground pattern, 23 ... narrow portion, 30 ... circuit board,
40 ... Integrated circuit, 41 ... Power supply terminal, 42 ... Ground terminal, 50 ... Low pass filter, 51, 52 ... Input / output terminal, 53, 54 ... Ground terminal, 60 ... DC power supply circuit,
80 ... Ground pattern, 81 ... Narrow part, 90 ... Low pass filter, 91, 92 ... Both input / output terminal, 93 ... Ground terminal, 110 ... Power supply pattern, 111 ... Narrow part, 12
0 ... Ground pattern, 121 ... Narrow part, 130 ... Capacitor

Claims (6)

[Claims] 1. An electronic circuit device comprising a circuit board on which a power supply pattern and a ground pattern are formed, and an integrated circuit mounted on the circuit board, wherein a power supply terminal of the integrated circuit is connected to the power supply pattern. The ground terminal of is connected to the ground pattern, and the power supply pattern and the ground pattern are provided with a narrow portion formed to have a narrower width than other portions in order to concentrate the current. An electronic circuit device, wherein an element for short-circuiting a high-frequency component superimposed on the power supply current is provided between the narrow portion of the ground pattern and the ground pattern. 2. The power supply pattern is composed of a first power supply pattern on the integrated circuit side and a second power supply pattern on the power supply side, which are non-conducting with each other, and the narrow portion has the first power supply pattern and the second power supply pattern. The element is formed in a portion facing a power source pattern, and the element comprises a low-pass filter having a pair of input / output terminals and one ground terminal, one input / output terminal is connected to the first power source pattern, and the other input / output is connected. The electronic circuit device according to claim 1, wherein the terminal is connected to the second power supply pattern, and the ground terminal is connected to the narrow portion of the ground pattern. 3. The power supply pattern comprises a first power supply pattern on the integrated circuit side and a second power supply pattern on the power supply side, which are non-conducting from each other, and the narrow portion includes the first power supply pattern and the second power supply pattern. The ground pattern is formed at a portion opposed to a power source pattern, and the ground pattern is composed of a first ground pattern on the integrated circuit side and a second ground pattern on the power source side which are non-conducting from each other, and the narrow portion has a first width. The ground pattern and the second ground pattern are formed at opposite portions, and the element is a low-pass filter having a pair of input / output terminals and a pair of ground terminals, and one input / output terminal is connected to the first power supply pattern. The other input / output terminal is connected to the second power supply pattern, one ground terminal is connected to the first ground pattern, and the other ground terminal is connected to the second ground pattern. Electronic circuit device according to claim 1, characterized in that connection to. 4. The electronic circuit device according to claim 1, wherein the element comprises a capacitor. 5. The electronic circuit device according to claim 1, wherein the narrow portion is formed near an integrated circuit. 6. A pair of input / output terminals and a pair of ground terminals are provided, and each terminal is arranged so that a line connecting the pair of input / output terminals does not intersect with a line connecting the pair of ground terminals. Low pass filter.