Method and apparatus for fabricating a susceptor coil assembly ribbon

We claim: 1. An apparatus for fabricating a susceptor coil assembly ribbon, the apparatus comprising: a tensioning section configured to provide a predetermined amount of tension to a plurality of susceptor coil assemblies; a collimating section configured to receive the plurality of susceptor coil assemblies from the tensioning section and configured to align the plurality of susceptor coil assemblies, wherein the collimating section comprises a plurality of guide tubes, each guide tube of the plurality of guide tubes being configured to receive a susceptor coil assembly of the plurality of susceptor coil assemblies, and wherein the collimating section comprises a rotatable aligning member comprising a plurality of grooves that are configured to align the plurality of susceptor coil assemblies; a first roller and a second roller configured to receive the plurality of susceptor coil assemblies aligned by the collimating section and configured to impale the plurality of susceptor coil assemblies into a matrix material so as to fabricate a susceptor coil assembly ribbon; a face plate coupled to the first roller such that the first roller can rotate with respect to the face plate; an adjusting plate coupled to the second roller such that the second roller can rotate with respect to the adjusting plate, the adjusting plate also being slidably coupled to the face plate; an adjustment screw configured to be turned to adjust a distance between a first rotation axis of the first roller and a second rotation axis of the second roller; and a third roller, wherein the face plate is rotatable about the first rotation axis to adjust a tension exerted between the second roller and the third roller. 2. The apparatus of claim 1 , further comprising a take up section configured for receiving the susceptor coil assembly ribbon and winding the susceptor coil assembly ribbon onto a take up spool. 3. The apparatus of claim 2 , wherein the take up section comprises: a programmable drive that is programmable to operate a motor, the motor being operable to pull the plurality of susceptor coil assemblies from the tensioning section through the first roller and the second roller. 4. The apparatus of claim 1 , wherein the tensioning section comprises a plurality of spools, wherein each of the plurality of spools is configured to be wound with one susceptor coil assembly of the plurality of susceptor coil assemblies. 5. The apparatus of claim 4 wherein, at least one spool of the plurality of spools is mounted to an adjustable drag member. 6. The apparatus of claim 5 , wherein the adjustable drag member comprises a slip-clutch mechanism, wherein the slip-clutch mechanism is configured to allow at least one susceptor coil assembly of the plurality of susceptor coil assemblies wound on the spool to slip as the plurality of susceptor coil assemblies are pulled from the tensioning section towards the first roller and the second roller. 7. The apparatus of claim 1 further comprising at least one matrix material source. 8. The apparatus of claim 1 , wherein the first roller and the second roller are configured to impale the plurality of susceptor coil assemblies into at least one layer of the matrix material so as to fabricate the susceptor coil assembly ribbon. 9. The apparatus of claim 1 , further comprising a slitting section configured to receive the susceptor coil assembly ribbon from the first roller and the second roller and slit the susceptor coil assembly ribbon to a desired width. 10. The apparatus of claim 1 , further comprising an arch structure, wherein the plurality of guide tubes pass through respective holes of the arch structure. 11. The apparatus of claim 10 , wherein the plurality of guide tubes are fixedly attached to the arch structure. 12. The apparatus of claim 1 , wherein the plurality of guide tubes comprise a material configured to reduce friction with the plurality of susceptor coil assemblies. 13. The apparatus of claim 12 , wherein the material configured to reduce friction comprises polymerized tetrafluoroethylene. 14. The apparatus of claim 1 , wherein the adjustment screw is configured to be turned to adjust a thickness of the susceptor coil assembly ribbon. 15. A method for fabricating a susceptor coil assembly ribbon, the method comprising: turning an adjustment screw, thereby moving an adjusting plate with respect to a face plate and adjusting a distance between a first rotation axis of a first roller and a second rotation axis of a second roller, wherein the face plate is coupled to the first roller such that the first roller can rotate with respect to the face plate and the adjusting plate is coupled to the second roller such that the second roller can rotate with respect to the adjusting plate; pulling a plurality of susceptor coil assemblies from a tensioning section towards a collimating section; collimating the plurality of susceptor coil assemblies so as to align the plurality of susceptor coil assemblies using (i) a plurality of guide tubes that receive respective susceptor coil assemblies of the plurality of susceptor coil assemblies and (ii) a rotatable aligning member comprising a plurality of grooves; impaling, using the first roller and the second roller the plurality of susceptor coil assemblies into a matrix material so as to fabricate the susceptor coil assembly ribbon; and rotating the face plate about the first rotation axis to adjust a tension exerted between the second roller and a third roller. 16. The method of claim 15 , further comprising: receiving the susceptor coil assembly ribbon from the first roller and the second roller by a take up section comprising a take up spool, and winding the susceptor coil assembly ribbon onto the take up spool. 17. The method of claim 15 , further comprising: utilizing a programmable drive to pull the plurality of susceptor coil assemblies from the tensioning section through the first roller and the second roller, the programmable drive being programmable to operate a motor. 18. An apparatus for fabricating a susceptor coil assembly ribbon, the apparatus comprising: a tensioning section configured to provide tension to a plurality of susceptor coil assemblies; a collimating section configured to receive the plurality of susceptor coil assemblies from the tensioning section and configured to align the plurality of susceptor coil assemblies; a first roller and a second roller configured to receive the plurality of susceptor coil assemblies aligned by the collimating section and configured to impale the plurality of susceptor coil assemblies into a matrix material so as to fabricate a susceptor coil assembly ribbon; a face plate coupled to the first roller such that the first roller can rotate with respect to the face plate; an adjusting plate coupled to the second roller such that the second roller can rotate with respect to the adjusting plate, the adjusting plate also being slidably coupled to the face plate; an adjustment screw configured to be turned to adjust a distance between a first rotation axis of the first roller and a second rotation axis of the second roller; and a third roller, wherein the face plate is rotatable about the first rotation axis to adjust a tension exerted between the second roller and the third roller. 19. The apparatus of claim 18 , wherein the tensioning section comprises a plurality of spools, wherein each of the plurality of spools is configured to be wound with one susceptor coil assembly of the plurality of suscept