Indeed, the AMP coring tool is more a cutter than a drill, and it doesn't go all the way to the center conductor, which would short out the segment as the cutter is metallic. It doesn't screw in though, it has a shoulder that stops on the seating surface of the vampire tap body. I don't know if this is consistent with the original 3 mbit Ethernet, as I've never worked with that.
The "stinger" contact gets screwed into the threaded hole in the vampire tap body. Some AMP literature refers to the stinger as being spring loaded, but none of mine are, and I don't think any of the ones from CCNA days were either. The shaft of the stinger contact is insulated, only the very tip is bare. The tip is finished in a sharp conical point, which penetrates the last little bit of the foamed dielectric and actually makes contact with the center conductor. I don't know how far it penetrates into the copper, I suspect it just displaces a small divot around itself. Cutting/coring is absolutely necessary to get through the quad shield ground layer on real Belden 9880 or 89880 Ethernet coax. It's tough stuff. I have to comb out the outer braid and cut the first foil layer to get the inner braid to open enough for the N connector to seat! In case anyone was wondering about the color and designation, the yellow coax is typically Belden 9880 and is non-plenum, whereas the orange stuff I have is Belden 89880 plenum rated cable. If I had better video-recording equipment, I'd make a video of the N connector crimping and tap installation process. I think it'd be easier to demonstrate that way. Thanks, Jonathan On Tue, Jun 26, 2018 at 2:37 PM, Noel Chiappa via cctalk < cctalk@classiccmp.org> wrote: > > From: Paul Koning > > > I believe the original concept was just a probe that would poke > through > > the cable to contact the center connector. The drill came because the > > cable was too tough to penetrate without it. > > No, the original 3 Mbit Ethernet also used a 'drill' (actually, a > cylindrical > cutter which screwed into the thread of the tap housing; threading which > was > then used to screw in the transceiver). > > Anyway, there has to be a hole cut _through_ the cylindrical ground layer > (foil, or woven wire) around the center conductor. If you just stuck a > probe > into the cable to the center conductor, it would short it out. > > Noel >