Although the caption of the first picture in Dennis Brennan’s February, 2011, CTT article, “Switch machine wiring”, says that it “doesn’t have to be complicated”, simplicity wasn’t the impression that the article left me with. I got to wondering whether the whole thing, activation and indication, couldn’t be done with a single wire, by encoding the switch position as voltage polarity and stealing Lionel’s venerable trick of piggybacking the indication on the activation wires.
One thing I noticed is that Brennan doesn’t make any provision for shutting off the solenoid after the turnout throws, even though the switch machine provides contacts that appear useful for that. In fact, he issues a warning to “[t]ouch and release immediately. A prolonged contact will burn out a coil.” Yet it looks like contact pairs 9-6 and 8-5 would handily disconnect each of the coils after throwing. So I propose that those should be connected in series with terminals 2 and 3 (or perhaps 3 and 2, since I can’t tell from the picture which coil opens which contact).
After that, I would insert a 1N4001 diode in series with each contact pair, with one contact facing a cathode and the other an anode facing the contact. Then I would tie the free ends of the diodes together and to a single wire leading to the control panel. Terminal 1, the solenoid common, would connect to an AC supply, track voltage or a fixed accessory voltage.
At the control panel, I would put another diode pair, again with the diodes facing opposite directions, and then arrange to throw the switch by connecting the free end of one or the other diode to common. Here we can make a choice among the momentary SPDT switch that Brennan prefers, individual pushbuttons, or my favorite, two studs on the panel and a probe connected to common.
Since polarity of the diode connected through a solenoid coil and its contact to the single wire will determine the polarity of voltage on the wire, all th