This application is based upon and claims priority to Japanese Patent Application No. 2020-082413, filed on May 8, 2020, the entire contents of which are incorporated herein by reference.
Certain aspects of the embodiments discussed herein are related to coil structures, methods for manufacturing the coil structures, lead frames, and inductors.
In electric circuits, inductors may be used for purposes of stabilizing currents, converting voltages, or the like. In recent years, the size reduction of electronic devices, such as game consoles, smartphones, or the like, has accelerated. Consequently, there are demands to also reduce the size of the inductors provided in such electronic devices, and surface-mount type inductors have been proposed.
An example of such an inductor provided in the electronic device may have a configuration in which a coil structure is encapsulated by a resin. The coil structure may include windings formed from a thin metal plate, for example.
For example, Japanese Laid-Open Patent Publication No. 2020-027820 proposes an inductor having a relatively thin configuration.
In the coil structure having the windings formed from the thin metal plate, it is necessary to increase the number of turns in order to obtain a large induced electromotive force, however, it is difficult to increase the number of turns.
Accordingly, it is an object in one aspect of the embodiments to provide a coil structure having a configuration which can easily increase the number of turns.
According to one aspect of the embodiments, a coil structure includes n metal plates that are laminated, where n is a natural number greater than or equal to two, wherein each of the n metal plates includes a spiral conductor, and a row of terminals, aligned in a predetermined direction on an outer side of the conductor, and formed by n+1 or more plate portions thicker than the conductor, wherein two ends of the conductor are connected to two adjacent plate portions for each of the n metal plates, wherein the row of terminals of a first metal plate is bonded to the row of terminals of a second metal plate which is adjacent to the first metal plate, among the n metal plates that are laminated, and wherein the two ends of the conductor of a lowermost metal plate among the n metal plates are connected to the two adjacent plate portions located at a first end of the lowermost metal plate, the two ends of the conductor of a second lowest metal plate among the n metal plates are connected to the two adjacent plate portions located at a position shifted one place toward a second end opposite to the first end of the second lowest metal plate, and the position where the two ends of the conductor connect to the two adjacent plate portions shifts one place toward the second end for each upward increase in level within a laminate along a laminated direction of the n metal plates, so that the conductors of each of the n metal plates are connected in series to form a spiral coil.
The object and advantages of the embodiments will be realized and attained by means of the elements and combinations particularly pointed out in the claims.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and not restrictive of the invention, as claimed.
Preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, those parts that are the same are designated by the same reference numerals, and a repeated description of the same parts may be omitted.
A description will now be given of a coil structure, a method for manufacturing the coil structure, a lead frame, and an inductor according to each of the embodiments of the present invention.
As illustrated in
The coil structure 1 has a plurality of product regions M arranged vertically and horizontally in a checkerboard pattern in a plan view. Each product region M becomes an inductor after the entire coil structure 1 is encapsulated by a resin and singulated. A frame N having a picture-frame shape, which supports each product region M from a periphery thereof, is formed around each product region M. Adjacent frames N are integrally formed and connected to each other.
Each of the first metal plate 10, the second metal plate 20, the third metal plate 30, the fourth metal plate 40, the fifth metal plate 50, and the sixth metal plate 60 has a planar shape similar to that of
The product regions M illustrated in
As illustrated in
The row 12 of terminals includes a terminal portion 121, a connecting portion 122, and support portions 1231 through 1235 that are arranged in this order from the left side of
Upper surfaces (surfaces on the side of the second metal plate 20) of the conductor 11, the connections 13, and the frame N1 are approximately coplanar with upper surfaces (surfaces on the side of the second metal plate 20) of the terminal portion 121, the connecting portion 122, and the support portions 1231 through 1235. On the other hand, lower surfaces of the conductor 11, the connections 13, and the frame N1 are located at positions recessed toward the second metal plate 20 from lower surfaces of the terminal portion 121, the connecting portion 122, and the support portions 1231 through 1235. In this example, when an inductor is manufactured from the coil structure 1 and mounted on a substrate, the surface facing the substrate is regarded as the lower surface, and the surface facing the opposite side is regarded as the upper surface, and the same shall apply hereinafter.
The frame N1 may include a first portion having the same thickness as the conductor 11, and a second portion having the same thickness as the thick plate portion forming the row 12 of terminals. For example, in order to reinforce the frame N1 and prevent inclination of the metal plate, a reinforcing portion 14 may be provided, as the second portion, at the four corners of the frame N1. In this case, a lower surface of the reinforcing portion 14 is approximately coplanar with the lower surface of the terminal portion 121 or the like. The reinforcing portion 14 may be formed to an L-shape, for example. In order to reinforce the frame N1 and prevent the inclination of the metal plate, the second portion (thick plate portion) may be provided at positions other than the corners of the frame N1, in place of or in addition to the reinforcing portion 14.
Thicknesses of the terminal portion 121, the connecting portion 122, and the support portions 1231 through 1235 may be approximately 50 μm to approximately 500 μm, for example. Thicknesses of the conductor 11, the connections 13, and the frame N1 may be approximately one-half of the thickness of the terminal portion 121 or the like, for example. In the case where the reinforcing portion 14 is provided on the frame N1, the thickness of the reinforcing portion 14 may be approximately the same as the thickness of the terminal portion 121 or the like.
The terminal portion 121 is disposed inside the product region M1, and has one end thereof extending outside the product region M1 and connected to the frame N1. The extending portion of the terminal portion 121 is a thin plate portion similar to the connections 13. The other end of the terminal portion 121 is connected to a start point 111 of the conductor 11. The connecting portion 122 is disposed inside the product region M1, and has one thereof extending outside the product region M1 and connected to the frame N1. The extending portion of the connecting portion 122 is a thin plate portion similar to the connections 13. The other end of the connecting portion 122 is connected to an end point 112 of the conductor 11.
The support portions 1231 through 1235 are disposed inside the product region M1, and respectively have one end thereof extending outside the product region M1 and connected to the frame N1. The extending portion of each of the support portions 1231 through 1235 is a thin plate portion similar to the connections 13. The other end of each of the support portions 1231 through 1235 is not connected to the conductor 11. In other words, the support portions 1231 through 1235 and the conductor 11 are not electrically connected. Hence, in the row 12 of terminals of the first metal plate 10, the thick plate portions other than the thick plate portions (the terminal portion 121 and the connecting portion 122) connected to both ends of the conductor 11 are electrically isolated from the conductor 11, and function as support portions supporting the thick plate portions of the rows of terminals of other metal plates.
As illustrated in
More particularly, the product region M2 of the second metal plate 20 includes a conductor 21 formed in a generally rectangular spiral shape, and a row 22 of terminals aligned in a predetermined direction on an outer side the generally rectangular spiral shape formed by the conductor 21. The conductor 21 is connected to the frame N2 by a plurality of connections 23 (six connections 23 in this example) extending from the inside of the product region M2 toward the outside of the product region M2. The number and connecting positions of connections 23 may be arbitrarily determined, respectively, as long as the conductor 21 can be stably supported on the frame N2. However, the connections 23 are preferably disposed near the corners of the generally rectangular spiral shape of the conductor 21.
The row 22 of terminals includes a support portion 2231, a connecting portion 2221, a connecting portion 2222, and support portions 2232 through 2235 that are arranged in this order from the left side of
Upper surfaces (surfaces on the side of the third metal plate 30) of the conductor 21, the connections 23, and the frame N2 are approximately coplanar with upper surfaces (surfaces on the side of the third metal plate 30) of the connecting portion 2221, the connecting portion 2222, and the support portions 2231 through 2235. On the other hand, lower surfaces of the conductor 21, the connections 23, and the frame N2 are located at positions recessed toward the third metal plate 30 from lower surfaces of the connecting portion 2221, the connecting portion 2222, and the support portions 2231 through 2235.
The frame N2 may include a first portion having the same thickness as the conductor 21, and a second portion having the same thickness as the thick plate portion forming the row 22 of terminals. For example, in order to reinforce bonding with the adjacent metal plate and prevent inclination of the metal plate, a reinforcing portion 24 may be provided, as the second portion, at the four corners of the frame N2. In this case, a lower surface of the reinforcing portion 24 is approximately coplanar with the lower surface of the connecting portion 2221 or the like. The reinforcing portion 24 may be formed to an L-shape, for example. In order to reinforce the bonding with the adjacent metal plate and prevent the inclination of the metal plate, the second portion (thick plate portion) may be provided at positions other than the corners of the frame N2, in place of or in addition to the reinforcing portion 24.
Thicknesses of the conductor 21, the connections 23, and the frame N2 may be the same as that of the conductor 11 or the like, for example. Thicknesses of the connecting portion 2221, the connecting portion 2222, and the support portions 2231 through 2235 may be the same as that of the terminal portion 121 or the like, for example.
The connecting portions 2221 and 2222 are disposed inside the product region M2, and have one end thereof extending outside the product region M2 and connected to the frame N2. The extending portion of each of the connecting portions 2221 and 2222 is a thin plate portion similar to the connections 23. The other end of the connecting portion 2221 is connected to a start point 211 of the conductor 21. The other end of the connecting portion 2222 is connected to an end point 212 of the conductor 21.
The support portions 2231 through 2235 are disposed inside the product region M2, and respectively have one end thereof extending outside the product region M2 and connected to the frame N2. The extending portion of each of the support portions 2231 through 2235 is a thin plate portion similar to the connections 23. The other end of each of the support portions 2231 through 2235 is not connected to the conductor 21. In other words, the support portions 2231 through 2235 and the conductor 21 are not electrically connected. Hence, in the row 22 of terminals of the second metal plate 20, the thick plate portions other than the thick plate portions (the connecting portions 2221 and 2222) connected to both ends of the conductor 21 are electrically isolated from the conductor 21, and function as support portions supporting the thick plate portions of the rows of terminals of other metal plates.
As illustrated in
More particularly, the product region M3 of the third metal plate 30 includes a conductor 31 formed in a generally rectangular spiral shape, and a row 32 of terminals aligned in a predetermined direction on an outer side the generally rectangular spiral shape formed by the conductor 31. The conductor 31 is connected to the frame N2 by a plurality of connections 33 (six connections 33 in this example) extending from the inside of the product region M3 toward the outside of the product region M3. The number and connecting positions of connections 33 may be arbitrarily determined, respectively, as long as the conductor 31 can be stably supported on the frame N3. However, the connections 33 are preferably disposed near the corners of the generally rectangular spiral shape of the conductor 31.
The row 32 of terminals includes support portions 3231 and 3232, a connecting portion 3221, a connecting portion 3222, and support portions 3233 through 3235 that are arranged in this order from the left side of
Upper surfaces (surfaces on the side of the fourth metal plate 40) of the conductor 31, the connections 33, and the frame N3 are approximately coplanar with upper surfaces (surfaces on the side of the fourth metal plate 40) of the connecting portion 3221, the connecting portion 3222, and the support portions 3231 through 3235. On the other hand, lower surfaces of the conductor 31, the connections 33, and the frame N3 are located at positions recessed toward the fourth metal plate 40 from lower surfaces of the connecting portion 3221, the connecting portion 3222, and the support portions 3231 through 3235.
The frame N3 may include a first portion having the same thickness as the conductor 31, and a second portion having the same thickness as the thick plate portion forming the row 32 of terminals. For example, in order to reinforce bonding with the adjacent metal plate and prevent inclination of the metal plate, a reinforcing portion 34 may be provided, as the second portion, at the four corners of the frame N3. In this case, a lower surface of the reinforcing portion 34 is approximately coplanar with the lower surface of the connecting portion 3221 or the like. The reinforcing portion 34 may be formed to an L-shape, for example. In order to reinforce the bonding with the adjacent metal plate and prevent the inclination of the metal plate, the second portion (thick plate portion) may be provided at positions other than the corners of the frame N3, in place of or in addition to the reinforcing portion 34.
Thicknesses of the conductor 31, the connections 33, and the frame N3 may be the same as that of the conductor 11 or the like, for example. Thicknesses of the connecting portion 3221, the connecting portion 3222, and the support portions 3231 through 3235 may be the same as that of the terminal portion 121 or the like, for example.
The connecting portions 3221 and 3222 are disposed inside the product region M3, and have one end thereof extending outside the product region M3 and connected to the frame N3. The extending portion of each of the connecting portions 3221 and 3222 is a thin plate portion similar to the connections 33. The other end of the connecting portion 3221 is connected to a start point 311 of the conductor 31. The other end of the connecting portion 3222 is connected to an end point 312 of the conductor 31.
The support portions 3231 through 3235 are disposed inside the product region M3, and respectively have one end thereof extending outside the product region M3 and connected to the frame N3. The extending portion of each of the support portions 3231 through 3235 is a thin plate portion similar to the connections 33. The other end of each of the support portions 3231 through 3235 is not connected to the conductor 31. In other words, the support portions 3231 through 3235 and the conductor 31 are not electrically connected. Hence, in the row 32 of terminals of the third metal plate 30, the thick plate portions other than the thick plate portions (the connecting portions 3221 and 3222) connected to both ends of the conductor 31 are electrically isolated from the conductor 31, and function as support portions supporting the thick plate portions of the rows of terminals of other metal plates.
As illustrated in
More particularly, the product region M4 of the fourth metal plate 40 includes a conductor 41 formed in a generally rectangular spiral shape, and a row 42 of terminals aligned in a predetermined direction on an outer side the generally rectangular spiral shape formed by the conductor 41. The conductor 41 is connected to the frame N4 by a plurality of connections 43 (six connections 43 in this example) extending from the inside of the product region M4 toward the outside of the product region M4. The number and connecting positions of connections 43 may be arbitrarily determined, respectively, as long as the conductor 41 can be stably supported on the frame N4. However, the connections 43 are preferably disposed near the corners of the generally rectangular spiral shape of the conductor 41.
The row 42 of terminals includes support portions 4231 through 4233, a connecting portion 4221, a connecting portion 4222, and support portions 4234 and 4235 that are arranged in this order from the left side of
Upper surfaces (surfaces on the side of the fifth metal plate 50) of the conductor 41, the connections 43, and the frame N4 are approximately coplanar with upper surfaces (surfaces on the side of the fifth metal plate 50) of the connecting portion 4221, the connecting portion 4222, and the support portions 4231 through 4235. On the other hand, lower surfaces of the conductor 41, the connections 43, and the frame N4 are located at positions recessed toward the fifth metal plate 50 from lower surfaces of the connecting portion 4221, the connecting portion 4222, and the support portions 4231 through 4235.
The frame N4 may include a first portion having the same thickness as the conductor 41, and a second portion having the same thickness as the thick plate portion forming the row 42 of terminals. For example, in order to reinforce bonding with the adjacent metal plate and prevent inclination of the metal plate, a reinforcing portion 44 may be provided, as the second portion, at the four corners of the frame N4. In this case, a lower surface of the reinforcing portion 44 is approximately coplanar with the lower surface of the connecting portion 4221 or the like. The reinforcing portion 44 may be formed to an L-shape, for example. In order to reinforce the bonding with the adjacent metal plate and prevent the inclination of the metal plate, the second portion (thick plate portion) may be provided at positions other than the corners of the frame N4, in place of or in addition to the reinforcing portion 44.
Thicknesses of the conductor 41, the connections 43, and the frame N4 may be the same as that of the conductor 11 or the like, for example. Thicknesses of the connecting portion 4222, the connecting portion 4222, and the support portions 4231 through 4235 may be the same as that of the terminal portion 121 or the like, for example.
The connecting portions 4221 and 4222 are disposed inside the product region M4, and have one end thereof extending outside the product region M4 and connected to the frame N4. The extending portion of each of the connecting portions 4221 and 4222 is a thin plate portion similar to the connections 43. The other end of the connecting portion 4221 is connected to a start point 411 of the conductor 41. The other end of the connecting portion 4222 is connected to an end point 412 of the conductor 41.
The support portions 4231 through 4235 are disposed inside the product region M4, and respectively have one end thereof extending outside the product region M4 and connected to the frame N4. The extending portion of each of the support portions 4231 through 4235 is a thin plate portion similar to the connections 43. The other end of each of the support portions 4231 through 4235 is not connected to the conductor 41. In other words, the support portions 4231 through 4235 and the conductor 41 are not electrically connected. Hence, in the row 42 of terminals of the fourth metal plate 40, the thick plate portions other than the thick plate portions (the connecting portions 4221 and 4222) connected to both ends of the conductor 41 are electrically isolated from the conductor 41, and function as support portions supporting the thick plate portions of the rows of terminals of other metal plates.
As illustrated in
More particularly, the product region M5 of the fifth metal plate 50 includes a conductor 51 formed in a generally rectangular spiral shape, and a row 52 of terminals aligned in a predetermined direction on an outer side the generally rectangular spiral shape formed by the conductor 51. The conductor 51 is connected to the frame N5 by a plurality of connections 53 (six connections 53 in this example) extending from the inside of the product region M5 toward the outside of the product region M5. The number and connecting positions of connections 53 may be arbitrarily determined, respectively, as long as the conductor 51 can be stably supported on the frame N5. However, the connections 53 are preferably disposed near the corners of the generally rectangular spiral shape of the conductor 51.
The row 52 of terminals includes support portions 5231 through 5234, a connecting portion 5221, a connecting portion 5222, and a support portion 5235 that are arranged in this order from the left side of
Upper surfaces (surfaces on the side of the sixth metal plate 60) of the conductor 51, the connections 53, and the frame N5 are approximately coplanar with upper surfaces (surfaces on the side of the sixth metal plate 60) of the connecting portion 5221, the connecting portion 5222, and the support portions 5231 through 5235. On the other hand, lower surfaces of the conductor 51, the connections 53, and the frame N5 are located at positions recessed toward the sixth metal plate 60 from lower surfaces of the connecting portion 5221, the connecting portion 5222, and the support portions 5231 through 5235.
The frame N5 may include a first portion having the same thickness as the conductor 51, and a second portion having the same thickness as the thick plate portion forming the row 52 of terminals. For example, in order to reinforce bonding with the adjacent metal plate and prevent inclination of the metal plate, a reinforcing portion 54 may be provided, as the second portion, at the four corners of the frame N5. In this case, a lower surface of the reinforcing portion 54 is approximately coplanar with the lower surface of the connecting portion 5221 or the like. The reinforcing portion 54 may be formed to an L-shape, for example. In order to reinforce the bonding with the adjacent metal plate and prevent the inclination of the metal plate, the second portion (thick plate portion) may be provided at positions other than the corners of the frame N5, in place of or in addition to the reinforcing portion 54.
Thicknesses of the conductor 51, the connections 53, and the frame N5 may be the same as that of the conductor 11 or the like, for example. Thicknesses of the connecting portion 5221, the connecting portion 5222, and the support portions 5231 through 5235 may be the same as that of the terminal portion 121 or the like, for example.
The connecting portions 5221 and 5222 are disposed inside the product region M5, and have one end thereof extending outside the product region M5 and connected to the frame N5. The extending portion of each of the connecting portions 5221 and 5222 is a thin plate portion similar to the connections 53. The other end of the connecting portion 5221 is connected to a start point 511 of the conductor 51. The other end of the connecting portion 5222 is connected to an end point 512 of the conductor 51.
The support portions 5231 through 5235 are disposed inside the product region M5, and respectively have one end thereof extending outside the product region M5 and connected to the frame N5. The extending portion of each of the support portions 5231 through 5235 is a thin plate portion similar to the connections 53. The other end of each of the support portions 5231 through 5235 is not connected to the conductor 51. In other words, the support portions 5231 through 5235 and the conductor 51 are not electrically connected. Hence, in the row 52 of terminals of the fifth metal plate 50, the thick plate portions other than the thick plate portions (the connecting portions 5221 and 5222) connected to both ends of the conductor 51 are electrically isolated from the conductor 51, and function as support portions supporting the thick plate portions of the rows of terminals of other metal plates.
As illustrated in
More particularly, the product region M6 of the sixth metal plate 60 includes a conductor 61 formed in a generally rectangular spiral shape, and a row 62 of terminals aligned in a predetermined direction on an outer side the generally rectangular spiral shape formed by the conductor 61. The conductor 61 is connected to the frame N6 by a plurality of connections 63 (six connections 63 in this example) extending from the inside of the product region M6 toward the outside of the product region M6. The number and connecting positions of connections 63 may be arbitrarily determined, respectively, as long as the conductor 61 can be stably supported on the frame N6. However, the connections 63 are preferably disposed near the corners of the generally rectangular spiral shape of the conductor 61.
The row 62 of terminals includes support portions 6231 through 6235, a connecting portion 622, and a terminal portion 621 that are arranged in this order from the left side of
Upper surfaces (surfaces on the side opposite from the fifth metal plate 50) of the conductor 61, the connections 63, and the frame N6 are approximately coplanar with upper surfaces (surfaces on the side opposite from the fifth metal plate 50) of the terminal portion 621, the connecting portion 622, and the support portions 6231 through 6235. On the other hand, lower surfaces of the conductor 61, the connections 63, and the frame N6 are located at positions recessed toward a direction opposite from the fifth metal plate 50 from lower surfaces of the terminal portion 621, connecting portion 622, and the support portions 6231 through 6235.
The frame N6 may include a first portion having the same thickness as the conductor 61, and a second portion having the same thickness as the thick plate portion forming the row 62 of terminals. For example, in order to reinforce bonding with the adjacent metal plate and prevent inclination of the metal plate, a reinforcing portion 64 may be provided, as the second portion, at the four corners of the frame N6. In this case, a lower surface of the reinforcing portion 64 is approximately coplanar with the lower surface of the connecting portion 622 or the like. The reinforcing portion 64 may be formed to an L-shape, for example. In order to reinforce the bonding with the adjacent metal plate and prevent the inclination of the metal plate, the second portion (thick plate portion) may be provided at positions other than the corners of the frame N6, in place of or in addition to the reinforcing portion 64.
Thicknesses of the conductor 61, the connections 63, and the frame N6 may be the same as that of the conductor 11 or the like, for example. Thicknesses of the terminal portion 621, the connecting portion 622, and the support portions 6231 through 6235 may be the same as that of the terminal portion 121 or the like, for example.
The connecting portion 622 is disposed inside the product region M6, and has one end thereof extending outside the product region M6 and connected to the frame N6. The extending portion of the connecting portion 622 is a thin plate portion similar to the connections 63. The other end of the connecting portion 622 is connected to a start point 611 of the conductor 61. The terminal portion 621 is disposed inside the product region M6, and has one end thereof extending outside the product region M6 and connected to the frame N6. The extending portion of the terminal portion 621 is a thin plate portion similar to the connections 63. The other end of the terminal portion 621 is connected to an end point 612 of the conductor 61.
The support portions 6231 through 6235 are disposed inside the product region M6, and respectively have one end thereof extending outside the product region M6 and connected to the frame N6. The extending portion of each of the support portions 6231 through 6235 is a thin plate portion similar to the connections 63. The other end of each of the support portions 6231 through 6235 is not connected to the conductor 61. In other words, the support portions 6231 through 6235 and the conductor 61 are not electrically connected. Hence, in the row 62 of terminals of the sixth metal plate 60, the thick plate portions other than the thick plate portions (the connecting portion 622 and the terminal portion 621) connected to both ends of the conductor 61 are electrically isolated from the conductor 61, and function as support portions supporting the thick plate portions of the rows of terminals of other metal plates.
As illustrated in
More particularly, the row 22 of terminals of the second metal plate 20 is laminated on the row 12 of terminals of the first metal plate 10, and the two rows 22 and 12 of terminals are bonded to each other. In other words, the support portion 2231 is laminated on the terminal portion 121, the connecting portion 2221 is laminated on the connecting portion 122, the connecting portion 2222 is laminated on the support portion 1231, the support portion 2232 is laminated on the support portion 1232, the support portion 2233 is laminated on the support portion 1233, the support portion 2234 is laminated on the support portion 1234, and the support portion 2235 is laminated on the support portion 1235. In addition, one reinforcing portion 24 is bonded to each reinforcing portion 14.
Accordingly, the connecting portion 122 connected to the end point 112 of the conductor 11, and the connecting portion 2221 connected to the start point 211 of the conductor 21, are electrically connected, thereby connecting the conductor 11 and the conductor 21 in series. In addition, because the conductors 11 and 21 are made thinner than the rows 12 and 22 of terminals, the upper surface of the conductor 11 and the lower surface of the conductor 21 do not make contact with each other. Moreover, because one of the thick plate portions of the row 12 of terminals is always disposed below each thick plate portion of the row 22 of terminals, the vertically adjacent metal plates, that is, the first and second metal plates 10 and 20, can easily be bonded to each other.
Similarly, the row 32 of terminals of the third metal plate 30 is laminated on the row 22 of terminals of the second metal plate 20, and the two rows 32 and 22 of terminals are bonded to each other. The support portion 3231 is laminated on the support portion 2231, the support portion 3232 is laminated on the connecting portion 2221, the connecting portion 3221 is laminated on the connecting portion 2222, the connecting portion 3222 is laminated on the support portion 2232, the support portion 3233 is laminated on the support portion 2233, the support portion 3234 is laminated on the support portion 2234, and the support portion 3235 is laminated on the support portion 2235. In addition, one reinforcing portion 34 is bonded to each reinforcing portion 24.
Accordingly, the connecting portion 2222 connected to the end point 212 of the conductor 21, and the connecting portion 3221 connected to the start point 311 of the conductor 31, are electrically connected, thereby connecting the conductor 21 and the conductor 31 in series. In addition, because the conductors 21 and 31 are made thinner than the rows 22 and 32 of terminals, the upper surface of the conductor 21 and the lower surface of the conductor 31 do not make contact with each other. Moreover, because one of the thick plate portions of the row 22 of terminals is always disposed below each thick plate portion of the row 32 of terminals, the vertically adjacent metal plates, that is, the second and third metal plates 20 and 30, can easily be bonded to each other.
Similarly, the row 42 of terminals of the fourth metal plate 40 is laminated on the row 32 of terminals of the third metal plate 30, and the two rows 42 and 32 of terminals are bonded to each other. The support portion 4231 is laminated on the support portion 3231, the support portion 4232 is laminated on the support portion 3232, the support portion 4233 is laminated on the connecting portion 3221, the connecting portion 4221 is laminated on the connecting portion 3222, the connecting portion 4222 is laminated on the support portion 3233, the support portion 4234 is laminated on the support portion 3234, and the support portion 4235 is laminated on the support portion 3235. In addition, one reinforcing portion 44 is bonded to each reinforcing portion 34.
Accordingly, the connecting portion 3222 connected to the end point 312 of the conductor 31, and the connecting portion 4221 connected to the start point 411 of the conductor 41, are electrically connected, thereby connecting the conductor 31 and the conductor 41 in series. In addition, because the conductors 31 and 41 are made thinner than the rows 32 and 42 of terminals, the upper surface of the conductor 31 and the lower surface of the conductor 41 do not make contact with each other. Moreover, because one of the thick plate portions of the row 32 of terminals is always disposed below each thick plate portion of the row 42 of terminals, the vertically adjacent metal plates, that is, the third and fourth metal plates 30 and 40, can easily be bonded to each other.
Similarly, the row 52 of terminals of the fifth metal plate 50 is laminated on the row 42 of terminals of the fourth metal plate 40, and the two rows 52 and 42 of terminals are bonded to each other. The support portion 5231 is laminated on the support portion 4231, the support portion 5232 is laminated on the support portion 4232, the support portion 5233 is laminated on the support portion 4233, the support portion 5234 is laminated on the connecting portion 4221, the connecting portion 5221 is laminated on the connecting portion 4222, the connecting portion 5222 is laminated on the support portion 4234, and the support portion 5235 is laminated on the support portion 4235. In addition, one reinforcing portion 54 is bonded to each reinforcing portion 44.
Accordingly, the connecting portion 4222 connected to the end point 412 of the conductor 41, and the connecting portion 5221 connected to the start point 511 of the conductor 51, are electrically connected, thereby connecting the conductor 41 and the conductor 51 in series. In addition, because the conductors 41 and 51 are made thinner than the rows 42 and 52 of terminals, the upper surface of the conductor 41 and the lower surface of the conductor 51 do not make contact with each other. Moreover, because one of the thick plate portions of the row 42 of terminals is always disposed below each thick plate portion of the row 52 of terminals, the vertically adjacent metal plates, that is, the fourth and fifth metal plates 40 and 50, can easily be bonded to each other.
Similarly, the row 62 of terminals of the sixth metal plate 60 is laminated on the row 52 of terminals of the fifth metal plate 50, and the two rows 62 and 52 of terminals are bonded to each other. The support portion 6231 is laminated on the support portion 5231, the support portion 6232 is laminated on the support portion 5232, the support portion 6233 is laminated on the support portion 5233, the support portion 6234 is laminated on the support portion 5234, the support portion 6235 is laminated on the connecting portion 5221, the connecting portion 622 is laminated on the connecting portion 5222, and the terminal portion 621 is laminated on the support portion 5235. In addition, one reinforcing portion 64 is bonded to each reinforcing portion 54.
Accordingly, the connecting portion 5222 connected to the end point 512 of the conductor 51, and the connecting portion 622 connected to the start point 611 of the conductor 61, are electrically connected, thereby connecting the conductor 51 and the conductor 61 in series. In addition, because the conductors 51 and 61 are made thinner than the rows 52 and 62 of terminals, the upper surface of the conductor 51 and the lower surface of the conductor 61 do not make contact with each other. Moreover, because one of the thick plate portions of the row 52 of terminals is always disposed below each thick plate portion of the row 62 of terminals, the vertically adjacent metal plates, that is, the fifth and sixth metal plates 50 and 60, can easily be bonded to each other.
According to the configuration of the coil structure 1 described above, the end point 112 of the conductor 11 and the start point 211 of the conductor 21, the end point 212 of the conductor 21 and the start point 311 of the conductor 31, the end point 312 of the conductor 31 and the start point 411 of the conductor 41, the end point 412 of the conductor 41 and the start point 511 of the conductor 51, and the end point 512 of the conductor 51 and the start point 611 of the conductor 61, are successively connected. For this reason, a single spiral coil is formed from the start point 111 of the conductor 11 to the end point 612 of the conductor 61.
First, in the process illustrated in
Next, in the process illustrated in
Next, in the process illustrated in
In the plate-shaped metal 100, a region where the resist layers 310 and 320 overlap in the plan view, maintains the original thickness because this region is not etched, thereby forming the thick plate portion. Moreover, a region where both the resist layers 310 and 320 are not formed in the plan view, are half-etched from both the upper and lower surfaces of the plate-shaped metal 100, thereby forming a through hole. In addition, a region where only the resist layer 310 is formed in the plan view is half-etched only from the lower surface of the plate-shaped metal 100, thereby forming the thin plate portion having a thickness which is approximately one-half the original thickness. In a case where the plate-shaped metal 100 is copper, a ferric chloride solution, for example, may be used for the half-etching.
Next, in the process illustrated in
Next, in the process illustrated in
The coil structure 1 can be completed by the processes described above. However, an inductor 2 can be manufactured by continuing to perform the processes illustrated in
In the process illustrated in
Next, in the process illustrated in
The side surface and the lower surface of the terminal portion 121 of the row 12 of terminals, the side surface of the support portion 2231 of the row 22 of terminals, the side surface of the support portion 3231 of the row 32 of terminals, the side surface of the support portion 4231 of the row 42 of terminals, the side surface of the support portion 5231 of the row 52 of terminals, and the side surface of the support portion 6231 of the row 62 of terminals, exposed from the encapsulating resin 70, respectively form an external connection terminal 1A. In addition, the side surface and the lower surface of the support portion 1235 of the row 12 of terminals, the side surface of the support portion 2235 of the row 22 of terminals, the side surface of the support portion 3235 of the row 32 of terminals, the side surface of the support portion 4235 of the row 42 of terminals, the side surface of the support portion 5235 of the row 52 of terminals, and the side surface of the terminal portion 621 of the row 62 of terminals, exposed from the encapsulating resin 70, respectively form an external connection terminal 1B.
As described above, the coil structure 1 has the configuration in which the six metal plates are laminated. Each metal plate includes a conductor formed in a spiral shape, and a row of terminals aligned in a predetermined direction on an outer side the spiral shape formed by the conductor, where the row of terminals includes seven thick plate portions having the same thickness which is thicker than the conductor. Six such metal plates are laminated, and the terminals of the adjacent metal plates are bonded to each other. In addition, both ends of the conductor of each metal plate are connected to two adjacent thick plate portions, among the thick plate portions forming the row of terminals of each metal plate.
Both ends of the conductor 11 of the lowermost metal plate are connected to the terminal portion 121 and the connecting portion 122, which are two thick plate portions located on a first end (left side in the example illustrated in
According to the configuration described above, it is easy to increase the number of turns of the coil by increasing the number of metal plates that are laminated. As a result, by using the coil structure 1, it is possible to form the inductor 2 which has a small size but can obtain a large induced electromotive force. In other words, by encapsulating the coil structure 1 by the encapsulating resin 70 so as to expose the external connection terminals 1A and 1B, it is possible to form the inductor 2 which is small but can obtain the large induced electromotive force.
The number of metal plates that are laminated is not limited to six, and may be n, where n is a natural number greater than or equal to two. In this case, each metal plate may include the conductor having the spiral shape, and the row of terminals aligned in the predetermined direction on the outer side the spiral shape formed by the conductor, where the row of terminals includes n+1 thick plate portions having the same thickness which is thicker than the conductor. Alternatively, the number of thick plate portions forming the row of terminals may be greater than or equal to n+1. For example, when using a common metal plate and varying the number of metal plates that are laminated depending on the application, the number of thick plate portions forming the row of terminals may be greater than or equal to n+1.
For example, if n metal plates were laminated, and the number of thick plate portions forming the row of terminals were less than or equal to n, the support from the lower end would become insufficient when the metal plates are bonded by applying heat and pressure in the vertical direction, thereby causing some thick plate portions to assume a floating state. Such a floating state of the thick plate portions would make the bonding difficult.
On the other hand, according to the coil structure 1, each of the n metal plates includes the conductor having the spiral shape, and the row of terminals, aligned in the predetermined direction on the outer side the spiral shape formed by the conductor, includes n+1 thick plate portions. For this reason, the metal plates can be easily bonded together by the diffusion bonding or the like.
Moreover, in the coil structure 1, the six thick plate portions laminated at one end of the row of terminals become the external connection terminal 1A, and the six thick plate portions laminated at the other end of the row of terminals become the external connection terminal 1B. In other words, the support portions 2231, 3231, 4231, 5231, and 6231 are successively laminated on the terminal portion 121, thereby forming the external connection terminal 1A. Further, the support portions 2235, 3235, 4235, and 5235, and the terminal portion 621 are successively laminated on the support portion 1235, thereby forming the external connection terminal 1B.
Because one end of the row of terminals of each of the metal plates is laminated on the terminal portion 121 of the first metal plate 10 in the external connection terminal 1A, an external connection to an external device or the like can be made by an arbitrary metal plate of the external connection terminal 1A. Similarly, because the other end of the row of terminals of each of the metal plates is laminated on the support portion 1235 of the first metal plate 10 in the external connection terminal 1B, the external connection to the external device or the like can be made by an arbitrary metal plate of the external connection terminal 1B.
In the example described above, the side of the conductor 11 is regarded as the start point, and the side of the conductor 61 is regarded as the end point, for the sake of convenience. However, because the coil structure 1 is non-polar, the current may flow from the external connection terminal 1A toward the external connection terminal 1B, or may flow from the external connection terminal 1B toward the external connection terminal 1A.
The coil structure 1 may be shipped as a product, or the inductor 2 may be shipped as a product. In addition, any one or more of the first metal plate 10, the second metal plate 20, the third metal plate 30, the fourth metal plate 40, the fifth metal plate 50, and the sixth metal plate 60 before the lamination may be shipped as a lead frame. In other words, in the lead frame that is shipped, the metal plate may include the conductor formed in the spiral shape, and the row of terminals aligned in the predetermined direction on the outer side the spiral shape formed by the conductor, where the row of terminals includes three or more thick plate portions having the same thickness which is thicker than the conductor, and both ends of the conductor of the metal plate are connected to two adjacent thick plate portions among the thick plate portions forming the row of terminals of the metal plate.
A second embodiment illustrates an example in which the conductor or the like is covered by an insulating film. In the second embodiment, those parts that are the same as those corresponding parts of the first embodiment are designated by the same reference numerals, and a description thereof may be omitted.
More particularly, the insulating film 80 is formed on the surfaces of each of the conductor 11, the connections 13, and the frame N1 of the first metal plate 10; the conductor 21, the connections 23, and the frame N2 of the second metal plate 20; the conductor 31, the connections 33, and the frame N3 of the third metal plate 30; the conductor 41, the connections 43, and the frame N4 of the fourth metal plate 40; the conductor 51, the connections 53, and the frame N5 of the fifth metal plate 50; and the conductor 61, the connections 63, and the frame N6 of the sixth metal plate 60. In addition, the insulating film 80 is formed on the surfaces of the laminated structure in which each portion (terminal portion, connecting portion, and support portion) of the rows 12, 22, 32, 42, 52, and 62 of terminals is laminated.
A material used for the insulating film 80 may be an insulating resin, such as epoxy-based resins, polyimide-based resins, or the like, for example. A thickness of the insulating film 80 may be approximately 10 μm, for example. The insulating film 80 may be formed by electrodeposition, for example. When the insulating film 80 is formed by the electrodeposition, an insulating film having an approximately uniform thickness can be formed on the surfaces of each of the metal plates.
Soft magnetic powder, for example, may be used for the magnetic filler. Examples of the soft magnetic powder include iron-based amorphous alloy powder, carbonyl iron powder, ferrite or permalloy powder, or the like. Examples of the insulating resin include thermosetting resins or thermoplastic resins, such as epoxy-based resins, polyimide-based resins, phenolic-based resins, acrylic-based resins, or the like. A blending or mixing ratio of the magnetic filler material and the insulating resin may be adjusted so as to secure the required permeability and moldability.
In order to form the inductor 4, the insulating film 80 is formed on the surfaces of each of the metal plates of the structure by the electrodeposition or the like, as illustrated in
As described above, because the coil structure 3 of the inductor 4 is encapsulated with the encapsulating resin 71 made of the insulating resin including the magnetic filler, it is possible to improve the inductance of the inductor 4. Further, because the surfaces of each of the metal plates are covered by the insulating film 80, it is possible to prevent the adjacent metal plates from becoming electrically connected to each other via the filler.
Although the preferred embodiments are described above in detail, various variations, modifications, and substitutions may be made in each of the embodiments, without departing from the scope of the present disclosure.
For example, the planar shapes of the conductor and the frame of each of the metal plates are not limited to the generally rectangular shapes, and may have a circular shape, an elliptical shape, or the like, including other and more complex shapes.
According to the disclosed technique, it is possible to provide a coil structure having a configuration which can easily increase the number of turns.
Various aspects of the subject-matter described herein may be set out non-exhaustively in the following numbered clauses:
Although the embodiments are numbered with, for example, “first,” or “second,” the ordinal numbers do not imply priorities of the embodiments. Many other variations and modifications will be apparent to those skilled in the art.
All examples and conditional language recited herein are intended for pedagogical purposes to aid the reader in understanding the invention and the concepts contributed by the inventor to furthering the art, and are to be construed as being without limitation to such specifically recited examples and conditions, nor does the organization of such examples in the specification relate to a showing of the superiority and inferiority of the invention. Although the embodiments of the present invention have been described in detail, it should be understood that the various changes, substitutions, and alterations could be made hereto without departing from the spirit and scope of the invention.
Number | Date | Country | Kind |
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2020-082413 | May 2020 | JP | national |
Number | Name | Date | Kind |
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20100033288 | Yokoyama | Feb 2010 | A1 |
20200051728 | Matsumoto et al. | Feb 2020 | A1 |
20200128675 | Matsumoto | Apr 2020 | A1 |
20210343471 | Wang | Nov 2021 | A1 |
Number | Date | Country |
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2005142284 | Jun 2005 | JP |
2009-135320 | Jun 2009 | JP |
2009135320 | Jun 2009 | JP |
2020-027820 | Feb 2020 | JP |
2020-065007 | Apr 2020 | JP |
Entry |
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Office Action mailed on Jan. 9, 2024 issued with respect to the basic Japanese patent application No. 2020-082413. |
Office Action mailed on Sep. 5, 2023 with respect to the corresponding Japanese patent application No. 2020-082413. |
Number | Date | Country | |
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20210350978 A1 | Nov 2021 | US |