JPH07163146A - Dc-dc converter - Google Patents

Abstract

PURPOSE:To provide a mechanically strong DC-DC converter having high power conversion efficiency by reducing the size, the thickness, and DC resistance. CONSTITUTION:A plurality of dielectric resin sheets 5, 6, 7, each having coil conductors 8, 10 formed on the surface thereof by etching a copper foil, are laminated and the coil conductors 8, 10 are interconnected thus producing a multilayer board 2 incorporating a coil winding part 12. Circuit elements 14 are arranged on the outer surface of the multilayer board 2 and first and second magnetic cores 3, 4 are disposed on the opposite sides of the multilayer board 2 thus constituting a DC-DC converter.

Description

Detailed Description of the Invention

[0001]

The present invention relates to a personal computer, FA equipment,
The present invention relates to a DC-DC converter used for wired communication devices and the like.

[0002]

2. Description of the Related Art Generally, a DC-DC converter converts a DC output into an AC output by a transmitter, rectifies the AC output,
It is an electronic component that has the function of DC output. Therefore, the DC-DC converter includes circuit elements such as a diode, a capacitor, and a resistor, in addition to the circuit elements that constitute the oscillator, such as a transformer and a transistor.

A conventional DC-DC converter is shown in FIGS.
Shown in. In FIG. 2, the DC-DC converter 21 is
A circuit board (not shown) made of alumina or the like is printed on the surface of the substrate 22 with a transformer, a diode,
A circuit element 23 such as a capacitor is arranged, and further, the substrate 2
An electrode 24 and a lead terminal 25 connected to the electrode 24 are attached to the two opposite ends. Further, in FIG. 3, the DC-DC converter 31 is the ceramic laminate 3
2. A circuit pattern is printed on the surface of 2, and the circuit element 33 is arranged on this circuit pattern.
Electrodes 34 are attached to the two opposite ends. Among them, the ceramic laminated body 32 is composed of a plurality of ceramic sheets 35 made of magnetic ceramic such as ferrite.
A coil conductor (not shown) made of silver or the like is printed in an L shape on each surface of the above, and these are laminated. Here, a notch (not shown) is formed in at least one of the opposing ceramic sheets 35, and one end of the coil conductor printed on the one ceramic sheet 35 is formed through this notch. , One end of the coil conductor printed on the other ceramic sheet 35 is connected. In this way, the plurality of ceramic sheets 35
The coil winding portion of the transformer is formed inside the ceramic laminated body 32 in which the coil conductors are connected to each other. The circuit element 33 arranged on the surface of the ceramic laminated body 32 is composed of a circuit element other than the transformer, such as a diode or a capacitor.

[0004]

Among the circuit elements constituting the DC-DC converter, the transformer is larger than other circuit elements, and thus there is a recent demand for downsizing and thinning of electronic components. In order to realize the above in a DC-DC converter, it was necessary to downsize the transformer and reduce the external dimensions of the DC-DC converter. However, in the DC-DC converter 21 shown in FIG.
A circuit element (transformer) was arranged on the surface of No. 2, making it difficult to realize it. On the other hand, D shown in FIG.
According to the C-DC converter 31, by forming the coil winding portion of the transformer inside the ceramic laminated body,
The size of the transformer has been reduced, the external dimensions of the DC-DC converter can be reduced, and the demands for downsizing and thinning of electronic components have been satisfied.

However, the DC-DC converter having the coil winding portion formed therein also has the following problems. That is, since the coil conductor forming the coil winding portion is formed by printing on a ceramic sheet, the cross-sectional area is small, which results in high DC resistance and poor power conversion efficiency. Further, since it is formed by using the ceramic sheet, the mechanical strength is weak, and even when a high output is obtained, the coil winding portion cannot be enlarged within the allowable range. Therefore, it is an object of the present invention to provide a DC-DC converter that is small and thin, and has a low DC resistance, so that the power conversion efficiency is good and the mechanical strength is strong.

[0006]

In order to achieve the above object, in the present invention, a copper foil is etched to laminate a plurality of insulating sheets made of a resin having a coil conductor formed on the surface thereof. A laminated board having a coil winding portion formed therein by connecting the coil conductors to each other, and a circuit element arranged on an outer surface of the laminated board, and sandwiching the laminated board, The first magnetic material core and the second magnetic material core are arranged.

[0007]

In the DC-DC converter of the present invention, the coil winding portion of the transformer is formed inside the laminated substrate, and it is not necessary to dispose the transformer on the outer surface of the DC-DC converter. The DC-DC converter of is obtained. Further, since the coil conductor used in the coil winding portion is formed by etching the copper foil, it has a large cross-sectional area, which reduces the direct current resistance and provides a DC-DC converter with good power conversion efficiency. To be Furthermore, since the coil winding portion is formed by using the insulating sheet made of resin, a DC-DC converter which is rich in elasticity as the coil winding portion and has high mechanical strength can be obtained. In addition, since the coil winding portion and the circuit element are sandwiched between the magnetic cores, the shield effect is improved.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The structure of a DC-DC converter according to an embodiment of the present invention will be described with reference to FIG. In FIG.
The DC-DC converter 1 comprises a laminated substrate 2 sandwiched between a first magnetic core 3 and a second magnetic core 4.

Of these, the laminated substrate 2 is formed by laminating a plurality of insulating sheets 5, 6, 7 made of a resin such as polyimide. Here, the insulating sheet 5 is formed with a first through hole 5a at the center and a second through hole 5b near the center. Further, on the surface of the insulator sheet 5, a coil conductor 8 formed by etching a copper foil is formed in a spiral shape, for example, surrounding the first through hole 5a. One end of the coil conductor 8 projects from the edge of the insulator sheet 5 to form a lead portion 8a, and the other end of the coil conductor 8 closes the second through hole 5b near the center of the insulator sheet 5, A wide lead portion 8b is formed. In addition, a plurality of dummy lead-out portions 9 made of silver or the like are formed on the edge of the insulating sheet 5 where the lead-out portion 8a is formed and the other edge opposite to the edge. Further, on the back surface of the insulator sheet 5,
A circuit pattern (not shown) made of silver or the like is printed, and circuit elements (not shown) such as diodes are arranged.

The back surface of the insulating sheet 6 is superposed on the front surface of the insulating sheet 5. Insulator sheet 6 is provided with third through holes 6a and fourth through holes 6b corresponding to first through holes 5a and second through holes 5b of insulator sheet 5. Further, a coil conductor 10 formed by etching a copper foil is formed in a spiral shape on the surface of the insulator sheet 6 so as to surround the third through hole 6a, for example. One end of the coil conductor 10 projects to the edge of the insulator sheet 6 to form a lead-out portion 10a, and the other end closes the fourth through hole 6b on the surface of the insulator sheet 6 near the center. so,
A wide extraction portion 10b is formed. At this time, the coil conductor 10 is formed in the opposite direction to the coil conductor 8 of the insulator sheet 5 when viewed from the surface of the insulator sheet 6. In addition, a plurality of dummy lead-out portions 11 made of silver or the like are formed on the edge of the insulating sheet 6 where the lead-out portion 10a is formed and the other edge opposite to the edge. The lead-out portions 8b and 10b of the coil conductors 8 and 10 are the second,
Through the fourth through holes 5b and 6b, the coil winding portion 12 is formed by being connected by spot welding, for example.

The back surface of the insulating sheet 7 is superposed on the front surface of the insulating sheet 6 to form the laminated substrate 2. The insulator sheet 7 is formed with a fifth through hole 7a corresponding to the first and third through holes 5a, 6a of the insulator sheets 5, 6, and the through hole 7a on the surface of the insulator sheet 7 is formed. Around
A circuit element 14 such as a capacitor is arranged.

The first magnetic core 3 is bonded to the back surface of the laminated substrate 2 thus formed, and the second magnetic core 4 is bonded to the front surface of the laminated substrate 2. The first magnetic core 3 is made of ferrite or the like, and has a flat plate portion 3a.
And a flange 3b extending upward from one of the opposite edges of the flat plate 3a, and a middle leg 3c extending upward from the center of the surface of the flat plate 3a. The second magnetic core 4 is made of ferrite or the like,
It has a flat plate shape. And the first magnetic core 3
The middle leg portion 3c is formed of the first, third, and fifth through holes 5a, 6a, 7 of the insulating sheets 5, 6, 7 constituting the laminated substrate 2.
The upper surface of the collar portion 3b and the upper surface of the middle leg portion 3c are inserted into a and come into contact with the second magnetic core 4. in this way,
The first and second magnetic cores 3 and 4 are arranged and fixed with the laminated substrate 2 sandwiched therebetween to form a DC-DC converter.

In the DC-DC converter having the above-mentioned structure, the coil winding portion is formed inside the laminated substrate, and a small and thin DC-DC converter can be obtained. In addition, the coil conductor used in the coil winding section is
Since the copper foil is formed by etching and has a large cross-sectional area, the direct current resistance is small, and thus a DC-DC converter with good power conversion efficiency can be obtained. Further, since the coil winding portion is formed by using the insulating sheet made of resin, a DC-DC converter having a high elasticity and a high mechanical strength can be obtained as the coil winding portion. In addition, since the coil winding portion and the circuit element are sandwiched between the magnetic cores, the shield effect is improved.

In this embodiment, the case where the coil conductor is formed on the entire surface of the insulator sheet has been described. However, the insulator sheets having the coil conductor formed on a part of the surface are laminated, A laminated substrate may be formed.

In this embodiment, the case where the circuit elements are arranged on the front surface of one insulating sheet and the back surface of the other insulating sheet has been described. The circuit element may be arranged only on the body sheet. Further, three or more insulating sheets may be used and the circuit element may be arranged on any of them.

The number of insulating sheets forming the laminated substrate may be any number. Further, the dummy lead-out portion at the end of the coil conductor does not necessarily have to be formed, and the number thereof may be arbitrary.

In addition, the shape of the middle leg portion formed in the first magnetic core and the first, third, and fifth through holes formed in each insulator sheet is such that the middle leg portion is the first. The shape is not limited to the columnar shape and the circular shape as long as it can be inserted into the first, third, and fifth through holes. Furthermore, the middle leg of the first magnetic core and the first, third, and fifth through holes of the insulating sheet are not always necessary. That is, by using a laminated substrate formed by laminating insulating sheets in which the first, third, and fifth through holes are not formed, the first magnetic core without the middle leg and the second magnetic body Even if the laminated substrate is sandwiched between the core and the core to form the DC-DC converter, the same effect as that of the present embodiment can be obtained.

[0018]

In the DC-DC converter of the present invention, the coil winding portion is formed inside the laminated substrate,
A small and thin DC-DC converter can be obtained. Also,
The coil conductor used in the coil winding portion is formed by etching a copper foil and has a large cross-sectional area, so that the direct current resistance is small, and thus the DC-electric power conversion efficiency is good.
A DC converter is obtained. Furthermore, since the coil winding portion is formed using the insulating sheet made of resin,
DC with high elasticity and high mechanical strength as a coil winding
-A DC converter is obtained, which is particularly effective when a high output is obtained. In addition, since the coil winding portion and the circuit element are sandwiched between the magnetic cores, the shield effect is improved, thereby reducing the influence on other circuit elements.

[Brief description of drawings]

FIG. 1 is a structural exploded perspective view of a DC-DC converter according to the present invention.

FIG. 2 is a sectional view of a conventional DC-DC converter.

FIG. 3 is a sectional view of another conventional DC-DC converter.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 DC-DC converter 2 Laminated substrate 3 First magnetic material core 4 Second magnetic material core 5,6,7 Insulator sheet 8,10 Coil conductor 12 Coil winding portion 14 Circuit element (other than transformer)

Claims (1)

[Claims] 1. A copper foil is etched to laminate a plurality of insulating sheets made of a resin having a coil conductor formed on the surface thereof, and the coil conductors are connected to each other.
A laminated board having a coil winding portion formed therein, and a circuit element arranged on the outer surface of the laminated board,
A DC-DC converter in which a first magnetic core and a second magnetic core are arranged with the laminated substrate interposed therebetween.