Claims
- 1. A method of fabricating a ferromagnetic device, comprising the steps:
- (a) providing a ferromagnetic core comprising an annular body having an outer periphery and an inner periphery surrounding a hole and embedding the core in a carrier having a non-magnetic insulating layer and providing inside the core hole a non-magnetic insulating material,
- (b) providing on opposite surfaces of the insulating layer first and second conductive layers, respectively,
- (c) forming conductive through-holes extending through said carrier outside of the annular body and through the insulating material inside the hole of the annular body and connected to the first and second conductive layers,
- (d) patterning the first and second conductive layers to form, together with some of the conductive through-holes, at least one set of interconnected conductive turns encircling the ferromagnetic core body to form at least a first coil of said ferromagnetic device.
- 2. The method of claim 1, further comprising the step of patterning the first and second conductive layers to form, together with others of the conductive through-holes, at least another set of interconnected conductive turns encircling the ferromagnetic core body to form at least a second coil magnetically coupled by the ferromagnetic core to the first coil.
- 3. A method of fabricating electronic components for use as transformers, chokes or inductors, comprising the steps:
- (a) embedding a plurality of spaced discrete annular ferromagnetic cores having holes in a non-magnetic insulating layer with the holes filled with non-magnetic insulating material,
- (b) laminating to opposite surfaces of the insulating layer first and second conductive layers, respectively,
- (c) forming conductive through-holes extending through said insulating layer outside of each of the annular cores and through the insulating material inside the holes of each of the annular cores and connected to the first and second conductive layers,
- (d) thereafter patterning the first and second conductive layers to form, together with some of the conductive through-holes, at least one set of interconnected conductive turns encircling each ferromagnetic core to form at least a first coil of an electronic component.
- 4. The method of claim 3, wherein a plurality of spaced cavities are provided in the carrier, and placing in each of the cavities a discrete ferromagnetic core.
- 5. The method of claim 3, wherein the cavities are blind holes.
- 6. The method of claim 3, further comprising:
- (f) providing on opposite sides of the carrier second and third insulating layers each covered with third and fourth outer conductive layers, respectively,
- (g) forming conductive through-holes on opposite sides of the ferromagnetic core and connected to the third and fourth conductive layers,
- (h) patterning the third and fourth conductive layers to form together with the through-holes of step (g) at least a second set of conductive turns encircling some of the ferromagnetic cores.
- 7. The method of claim 3, further comprising severing from the carrier one or more electronic components each comprising a ferromagnetic core or cores encircled by at least one coil and providing at least 1 set of contact pads connected thereto.
- 8. The method of claim 1, further comprising step (d) being carried out after steps (a)-(c).
- 9. A method of fabricating an electronic component for use as an inductor, transformer or choke, comprising the steps:
- (a) providing a carrier having a middle non-magnetic insulating layer laminated on opposite surfaces with at least first and second conductive layers, respectively,
- (b) providing at least one cavity in the carrier,
- (c) inserting in the cavity an annular core of ferromagnetic material having a center hole and filling the hole with non-magnetic insulating material,
- (d) forming conductive through-holes extending through said carrier outside of the annular core and through the insulating material inside the hole of the annular core and connected to the first and second conductive layers,
- (e) thereafter patterning the first and second conductive layers to form, together with some of the conductive through-holes, at least one set of interconnected conductive turns encircling the ferromagnetic core to form at least a first coil of said electronic component,
- (f) thereafter laminating to opposite sides of the carrier second and third insulating layers each covered with third and fourth outer conductive layers, respectively,
- (g) thereafter forming conductive through-holes outside of the annular core and through the insulating material inside the hole of the annular core and connected to the third and fourth conductive layers,
- (h) thereafter patterning the third and fourth conductive layers to form together with the through-holes of step (g) at least a second set of conductive turns encircling some of the ferromagnetic cores.
- 10. A method of fabricating a ferromagnetic device containing a toroidal magnetic core, comprising the steps:
- (a) providing a discrete magnetic core in a cavity in a first insulating layer, said magnetic core having an annular body having an outer periphery and an inner periphery surrounding a hole,
- (b) providing under a bottom surface of the first insulating layer a first conductive layer and patterning the first conductive layer to form first portions of coil turns,
- (c) providing an insulating material in the core hole,
- (d) forming outer conductive through-holes extending through said first insulating layer and outside of the outer periphery of the annular body and forming inner conductive through-holes extending through the insulating material in the hole inside of the inner periphery of the annular body,
- (e) providing over the top surface of the insulating layer a second conductive layer and patterning the second conductive layer to form second portions of the same coil turns,
- (f) the steps (b), (d), and (e) being carried out in such manner as to connect the first portions of the conductive turns to the second portions of the conductive turns via the inner and outer conductive through-holes to form at least one set of completed interconnected conductive turns encircling the annular body of the magnetic core to form at least a first coil of said ferromagnetic device.
Parent Case Info
This application is a division of application Ser. No. 08/505,955, filed Jul. 24, 1995, now U.S. Pat. No. 5,781,091.
US Referenced Citations (25)
Foreign Referenced Citations (1)
Number |
Date |
Country |
59-103320 |
Jun 1984 |
JPX |
Divisions (1)
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Number |
Date |
Country |
Parent |
505955 |
Jul 1995 |
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