I continue to have a problem with the operation of my AR. It is wired from the main buss to the rails in the reversing section. This is a direct connection with no interveining switches, toggles, etc. There are no other power leads into the reversing section. The reversing section is properly isolated at both ends.
A locomotive (DCC/sound) enters from the main section and transverses the reversing section smoothly. At exit of the reversing section, it stops, shuts everything down on the layout, including other locomotives, and after 2-3 seconds light and sound come back, but it does not resume running unless I nudge it. The AR is an MRC AD520. The AR emits an audible “click” at the moment of shut down, and then will continue clicking until the loco is completely out of the reversing section.
I have test run a BLI F7 A/B which ends up half in, half out during the shut down. I’ve also test run a Kato SW7. Results are the same.
I need a fresh idea to trouble shoot this. I’ve got one or two more ideas to try, but then I’m running on empty. Help!
You may have a faulty auto-reverse module, If it has a sensitivity adjustment, I have never had any luck getting them to work equally well at both ends of a reverse loop, and replaced them with a different brand – Digitrax, or even better a totally electronic one such as the PSX-AR. A module with a mechanical relay is too slow to respond.
It is often recommended that the gaps be staggered transversely across from each other by about 1/8". Did you do that? Instead of, say, using a rail saw and cutting at 90 deg so that both gaps are directly opposite each other, you should place one of them before the other by a fraction of an inch. This may not affect the analog mechanical ones, but Digitrax recommends that practice for their digital reversers, such as the PSX-AR.
The audible click sounds like the MRC unit may not be fully electronic, don’t know for sure. But, cacole has a good idea if you have the money for the PSX-AR. BTW, we still use DPDT in certain areas–no problems.
One thing not mentioned, what is the DCC system? If it’s one of the ones on the lower end of the power scale, it may be tripping the command station before the AR reacts.
Verify absolutely that no feeders are crossed anywhere - disconnect the AR and check for any voltage between either rail outside of the loop and either rail of the loop track. One feeder connected to the main when it should be connected to the AR can make really wierd things happen.
The Digitrax AR-1 is adjustable with a potentiometer to adjust the trip current. Generally works with anything because of this. Too slow? If you count microsecodns I suppose. They flip plenty fast enough to avoid sound dropouts. And plenty reliable. The relay contacts are rated for enough operations that if it clicked once per second 24 hours a day, 365 days a year, it would still eb going 10 years later.
This sounds like the auto-reverser is unable to resolve the short by flipping, so it keeps toggling back and forth. The things that could cause this are a misplaced feeder, incomplete gapping of the reverse section, or a train or freight car truck crossing the “entrance” gap while the engine is crossing the “exit” gap.
Just to correct a previous mis-statement, the PSX-AR is made by DCC Specialties (Tony’s Trains,) not by Digitrax.
Thanks for all the helpful ideas. I have not had time today to go to the layout and follow up. That is tomorrow’s priority, and I’ll report. I can say that I’ve used a multi-meter to check continuity/polarity and that is not an issue so I don’t think this is a “crossed wires” problem. I’ll recheck this, but the AC voltage on the main tracks entering the loop is about 15.6v and at the other end at the exit point I get about 1v less. The main track at the exit from the reversing section loops through a hidden staging yard and the linear track footage through that yard is far greater than the track footage from the entering point back to the DCC system. Unless I’m completely mis-remembering my high school (and college) physics, the distance from the power supply should not create a voltage drop. The system is an MRC Prodigy Wireless.
There are at least half a dozen sound equiped locomotives sitting at idle on the layout so I wonder if the problem could be a system overload when the AR tries to reset. The AR is rated at 5 amps, but maybe the cumulative effect of these active sound/light systems at the moment of exit is causing the problem. Is that possible?
Are all these idling engines actually in the reversing section? The steady-state power going to them should not be a problem, but you need to consider “inrush current” when a lot of sound engines are simultaneously powered up.
Still, I don’t think this is your problem. However, just to eliminate this as a possible problem, take the idling engines off the layout and repeat your testing.
Copper wire is a very good conductor, but it still has some resistance so there will be a voltage drop. More wire length, more current, and smaller wire size will make it worse. However, if you size the wire properly, it’s usually negligible and can be ignored. Here’s some good info on the topic:
This brings up another question, though: Have you done the “quarter test” at various spots around the layout? If not, you should. If there is excessive resistance in your wiring, the loco entering/leaving the reverse section may act more as an overload, than the dead short that’s required to flip the polarity.
All you guys have been very helpful as I try to sort this out. Many thanks.
I was only able to work on this matter for about 15 minutes today and, of course, the AR worked at both ends–about half the time! I’ll dive back in tomorrow, but I need to ask another question:
The voltage drop at the “far” end of the loop is close to 2v—15.6v down to 13.8v on the other side of the insulated gap. Is that enough to be causing the AR to not switch polarity and hold it? I can easily run a feeder from the buss to the other (low voltage) side of the main. I may do that tomorrow.
That’s a pretty substantial voltage drop, enough that it could certainly be the cause of your AR issues.
Have you tried the “quarter test” at various spots around the layout yet? It’s quick, easy, and can tell you a lot about the overall health of your bus/feeder system. Lacking that, tell us about your bus and feeders - gauge and length for both the bus and for the feeders, what is the distance (track length) between your feeders, etc.
Your comment about running a feeder “to the other (low voltage) side of the main” sure makes it sound as if you have marginal wiring to the track. That could cause the voltage drop you’re seeing, and that voltage drop in turn could cause the AR issues.
Oh, and it’ll work at either end about half the time because the reverse loop’s phase will match the main line’s phase on either one end or the other. And when the AR does flip the phase, well, now the other end becomes the one that “doesn’t work”. That’s likely to continue until the underlying issue gets resolved.
Agreed, and not only substantial but probably critical. I forget where, but I read fairly recently that DCC doesn’t like voltage differentials greater than a volt. Some will do okay, while others will give you grief. I don’t tolerate voltage drops on my layouts greater than a full volt, and so far none have come close.
The problem is in the way you wired it up. The wires from the AR ARE NOT connected to the bus wires. There should be 4 wires coming out of the AR. 2 go to the track on 1 side of the gap. The other 2 go on the other side: IE 2 red on one side 2 yellow on the other side. Go to Digitrax web site and look up their AR1. Down load the manual for it and follow the wiring diagram. This should solve the problem if your AR isn’t fried. Joe
I’m about to go recheck the voltage readings to confirm what I’ve already posted. If earlier readings were correct showing an almost 2v drop, I’ll ad that additional set of feeders and see what happens. As to the AR being hooked up incorrectly, I posted a seperate inquery several days ago and was assured by several responders that attaching the wires to the main buss rather than the track outside the reversing section would work just fine so long as I don’t cross polarity with the wires connected inside the reversing section.
Regarding the “quarter test.” What exactly will that prove–that a short at a given spot on the layout will trip the breaker and shut everything down? I already know that by experience, so what am I going to gain?
The deal with the quarter test though is that you do not press down. Just the weight of the quarter. This is typically al ittle different then say if a loco derails and the weight of it is pressing down ont he rails. You can easily have spots on the layotu where if you put a screwdriver across the rails, it trips the breaker, but if you set a quarter on the track it doesn’t. Just as Ken about inadequate feeders and the breaker not tripping…
How many feeders from the AR to the reversing section? How long is the section? It sound to me that there is some resistance or bad connections (same thing) between the AR and the reverse section.
The importance of a quarter test is to test the wiring and connections to the command station and boosters. Never Never underestimate the importance of this test. Melted rail and ties, toasted decoders, and the chance of a fire should never be taken lightly. If the safety systems do not trip instantly then trouble you will have. It does not cost anything to do and takes just a few moments in time. A friend of mine was working on his layout and had a loco pulling a track cleaning car on the main. He went to make a phone call and when he returned found that it had derailed on a switch. The booster did not trip and sent that 5 amp power through the 28 gauge feeders. The insulation was melted off and the wire got cherry red hot. The switch points had turned blue and melted into the ties. If he had been a few minutes longer we are sure a fire was next. Go ahead and take a chance. Its not my house that will burn down. Too many times modelers will rely on rail joiners and sparse feeders to transmit all that amperage.
The quarter test isn’t so much to see if the breaker will trip at a given spot, but more to insure that the breaker does trip at every spot.
Auto-reversers, especially the relay-based designs, are like circuit breakers except that instead of cutting the power, the relays are wired to flip the phase. And like a circuit breaker, a high level of resistance (ie, a load) on the output side looks “normal” and will prevent them from flipping.
An insufficiently sized bus, or too few feeders, will increase the resistance that the AR/circuit breaker “sees”, with the result being that it won’t trip/reverse.
A nearly 2v drop from one side of the layout to the other indicates a fair amount of resistance somewhere. If you look at the Wiring for DCC Web site I posted the link to earlier, you’ll find that nickle-silver track has a relatively high level of resistance, as does copper wire sized too small for the amount of current it’s expected to carry over a given distance.
That’s why I suspect your underlying problem is too small of a wire size for your bus, and/or too few feeders. The quarter test every few feet around your layout (or some info on the length/size of your bus and length/size/spacing of your feeders, which was also requested earlier) will go a long way towards identifying the problem, or at least eliminating one possible, and at this point I’d have to say highly probable cause.
After going back through the post I have pretty much figured out a plan of action. I do have too few feeders in the longer section. Since most of it is a ‘hidden staging yard’ that is not currently used, I had not paid much attention to it. That section of the layout has only two feeders for 20 liner feet of track, much of which is 4 or 5 track parallel in the yard. I’m going to go ahead and run a feed from the bus to the end of that yard section at a point just outside the reversing section. It may be a day or so before I can get that done, but I will post results.