Return-Path: Received: from ycc.com ([204.155.150.41]) by truman.olsusa.com (Post.Office MTA v3.5.1 release 219 ID# 0-52269U2500L250S0V35) with SMTP id com for ; Wed, 23 Jun 1999 08:35:31 -0400 Received: from YccPrimaryDomain-Message_Server by ycc.com with Novell_GroupWise; Wed, 23 Jun 1999 07:44:45 -0500 Message-Id: Date: Wed, 23 Jun 1999 07:44:39 -0500 From: "Bill Gradwohl" To: Subject: Re:Flap Motor Wiring Mime-Version: 1.0 Content-Disposition: inline X-Mailing-List: lancair.list@olsusa.com <<<<<<<<<<<<<<<<--->>>>>>>>>>>>>>>> << Lancair Builders' Mail List >> <<<<<<<<<<<<<<<<--->>>>>>>>>>>>>>>> >> I believe IBM's Token Ring Shielded Twisted Pair (STP) cabling system was the first wide spread commercial use of twisted pair wiring intended to increase the cables immunity to electrical noise. It consisted of wire pairs twisted around each other, with several pairs per "cable", and all the pairs shielded by a single continuous foil shield that would be grounded. STP was expensive, and hard to work with. It isn't used much any more. UTP (Unshielded Twisted Pair) wiring is commonly used in the microcomputer networking business. Any site that runs a typical Ethernet network these days is using Category 5 UTP cable to move the signals. These UTP cables are intended to be even more immune to the effects of ambient electrical noise on the signals they carry than the STP was. The secret is in the number of twists per inch. Todays UTP has many more twists than yesterdays STP. Other than that, UTP is basically STP but without the foil shield. It was discovered that taking 2 wires and tightly twisting them around each other, so that you have several twists per inch, greatly reduces noise that can interfere with the intended signal. The reason is that any electrical noise that makes its way to the UTP gets canceled out due to the twists. Any cables that carry a significant current, like those running motors and lights, become an antenna that radiate electrical noise especially at start up and shut down. Using UTP wiring would help eliminate some of it, but STP would be even better because of the power levels. Here you are trying to eliminate the generation of electrical noise at relatively high power levels. Since the wire diameter is also larger, its tough to get the high twist per inch count, and consequently additional shielding helps. Any cables that carry electrical signals, typically of low power, would benefit by being twisted. Here you are trying to eliminate the reception of electrical noise as is the case with the typical Ethernet network cabling. UTP is fine. Since wire diameter is small, you can get lots of twist per inch. If you intend to run two wires from point A to point B, consider using a drill to tightly twist them around each other to produce your own twisted pair of whatever current carrying capacity you need. That would be UTP. Trying to make your own STP isn't reasonable. Remember, that you'll end up using more wire and adding weight to span a distance. Bill Gradwohl IV-P Builder >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> LML homepage: http://www.olsusa.com/Users/Mkaye/maillist.html