Claims
- 1. A multilayer inductor comprising:
- a plurality of integrally stacked magnetic material sheets, each one of said plurality of integrally stacked magnetic material sheets having a conductor pattern with an extreme lead-out portion and a dummy conductor pattern spaced apart from said conductor pattern and disposed in substantial registry with said extreme lead-out portion formed on an upper surface thereof;
- a through-hole formed completely through each one of said plurality of integrally stacked magnetic material sheets except a bottom one of said plurality of integrally stacked magnetic material sheets, said through-hole being formed at a position where said conductor patterns formed on surfaces of each one of said integrally stacked magnetic material sheets are vertically aligned and being filled with a conductive material that contacts said conductor patterns formed on surfaces of each one of said plurality of integrally stacked magnetic material sheets; and
- external electrodes connected to said extreme lead-out portion of each one of said conductor patterns.
- 2. A multilayer inductor according to claim 1 wherein said through-hole has a diameter r.sub.0 at an upper surface of a top one of said plurality of integrally stacked magnetic material sheets and a diameter of r.sub.1 at an upper surface of said bottom one of said plurality of integrally stacked magnetic material sheets, r.sub.0 being greater than r.sub.1.
- 3. A multilayer inductor according to claim 2, wherein the ratio r.sub.0 /r.sub.1 is in the range of 1.2 to 1.7.
- 4. A multilayer inductor according to claim 1, wherein each of one said plurality of integrally stacked magnetic material sheets has a thickness of at least 0.2 millimeters.
- 5. A multilayer inductor according to claim 4, comprising exactly three integrally stacked magnetic material sheets of approximately equal thickness, a metal thickness of said multilayer inductor being in the range of 0.5 millimeters to 2 millimeters.
- 6. A multilayer inductor according to claim 5, wherein each one of said conductive patterns is formed in a rectangular spiral shape and interconnected via said conductive material filling said through-hole so as to form a continuous rectangular spiral of at least 21/4 total turns.
- 7. A multilayer inductor according to claim 2, further comprising pads located at points of connection between each one of said conductor patterns and said conductive material filling said through-hole, said pads being wider than a pattern width of each one of said conductor patterns.
- 8. A multilayer inductor comprising: a plurality of integrally stacked magnetic material sheets, each one of said plurality of integrally stacked magnetic material sheets having a conductor pattern with an extreme lead-out portion formed on an upper surface thereof and having a thickness of at least 0.2 millimeters;
- a through-hole formed completely through each of said plurality of integrally stacked magnetic material sheets except a bottom one of said plurality of integrally stacked magnetic material sheets, said through-hole being formed at a position where said conductor patterns formed on surfaces of each one of said integrally stacked magnetic material sheets are vertically aligned and being filled with a conductive material that contacts said conductor patterns formed on surfaces of each one of said plurality of integrally stacked magnetic material sheets;
- external electrodes connected to said extreme lead-out portion of each one of said conductor patterns; and
- pads located at points of connection between each one of said conductor patterns and said conductive material filling said through-hole, said pads being wider than a pattern width of each one of said conductor patterns.
- 9. A multilayer inductor according to claim 8, wherein said through-hole has a diameter r.sub.0 at an upper surface of a top one of said plurality of integrally stacked magnetic material sheets and a diameter of r.sub.1 at an upper surface of said bottom one of said plurality of integrally stacked magnetic material sheets, r.sub.0 being greater than r.sub.1.
- 10. A multilayer inductor according to claim 9, wherein the ratio r.sub.0 /r.sub.1 is in the range of 1.2 to 1.7.
- 11. A multilayer,inductor according to claim 8, comprising exactly three integrally stacked magnetic material sheets of approximately equal thickness, a total thickness of said multilayer inductor being in the range of 0.5 millimeters to 2 millimeters.
- 12. A multilayer inductor according to claim 11, wherein each one of said conductor patterns is formed in a rectangular spiral shape and interconnected via said conductive material filling said through-hole so as to form a continuous rectangular spiral of at least 21/4 total turns.
- 13. A multilayer inductor according to claim 11, wherein said through-hole is formed through a central area of each of said plurality of integrally stacked magnetic material sheets, and wherein said conductor patterns form a continuous rectangular spiral of at least one turn.
- 14. A multilayer inductor according to claim 10, wherein said diameter r.sub.1 is in the range of 50-200 micrometers, said pads have a width in the range of 150-400 micrometers, and said conductor patterns have a width in the range of 50-300 micrometers.
Priority Claims (1)
Number |
Date |
Country |
Kind |
3-137127 |
May 1991 |
JPX |
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Parent Case Info
This application is a Continuation of application Ser. No. 07/882,539, filed on May 13, 1992, now abandoned.
US Referenced Citations (7)
Foreign Referenced Citations (6)
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57-78609 |
May 1982 |
JPX |
60-50331 |
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102215 |
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Continuations (1)
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Number |
Date |
Country |
Parent |
882539 |
May 1992 |
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