When you touch two opposing rails with my metter set to measure continuity, one line connected to the black buss and the other line to the red buss, the buzzer sounds. If I put a quarter on the same set of rails, then I get a short. The buzzer warns me that it is a short, but it is not enough to trigger the PSX circuit breaker.
Maybe I'm just not seeing it, but other than Randy's explanation, why did the buzzer buzz?
Henry
COB Potomac & Northern
Shenandoah Valley
Thanks Randy, I did not realize that the PSX only isolates one of the wires. Sure enough, I went back and tested from the PSXs and found that the black wires are not isolated even when the power is off.
This seems to indicate that my cross over between power districts must be on a red line of the buss. Too late to check tonight.
Once I figure this all out I will make sure I post the solution.
JPDI am rather surprised that I am still able to run trains with this wire issue going on.
Are you troubleshooting without a complaint? That is the pathway to the darkside.
If you are not having operational issues, what led to the diagnostics?
If you are using an ohm meter, or a continuity tester, on a circuit that is not completely isolated on at least one side from the rest of the layout, misleading results will happen.
-Kevin
Living the dream.
What meter do you have? I can't say I have heard one with a buzzer in addition to the continuity beep.
However, perhaps you have it switched into a different mode - my better meters group the continuity with the resistence settings and use the range button to select a specific option.
Something that sounds curious - if you are testing from the frog to the OPEN point rail, that should have voltage, if the power is on. The buzz could be the meter warning of an incorrect setting (applying voltage to the resistence/continuity range). Which is nice if it does that instead of simply blowing up or frying something internally. Two of my meters detect certain goofs, like trying to measure voltage with the probe in the current jack, but it just gives off the same beep as the continuity test.
If the power is off - off the top of my head, I'm at a loss. You MIGHT get continuity across power district gaps on the same rail - two sides of a given gap, since the PSX only breaks one side of the circuit, and the other connects to all other PSXs through the circuit boards - if you have the feeds from the booster to each PSX wired the same way - Rail A to the same terminal of all PSXs, Rail B to the other.
Across the rail that is on the switched side, you may or may not get continuity, depends on the meter and the internal resistence of the PSX's circuit.
Diagonally across gaps (left rail on one side, right rail ont he other) you should never get continuity, unless one of the PSX's has its input or output reversed.
With the frog power wired throuth the Tortoise ocntacts, you should always get continuity from the closed point side and the frog, and never get continuioty from the open point side and the frog. Test both positions - the continuity (or lack thereof) should follow the point position.
You can also check voltage, it doesn;t have to be accurate, you jsut want to see a consistent result. When checking voltage, witht he power on of course, now you should see voltage between the frog and the OPEN point rail. ANd NO voltage across gaps in the same rail, but you should get voltage diagonally across the gaps.
Final thought, if this didn;t start until you did some action, then 99.9% of the time it was that last thing that caused the issue - if it even is an issue, since you said trains do run. If there was a crossed feeder or something otherwise seriously connected wrong, it is unlikely that trains would run. If there is one crossed feeder - the PSX for that section would most likely trip, for example. If the wiring feeding the PSXs developed a short, the command station should trip.
I think you are on the right track (no pun intended - or maybe it was) thinking a feeder is connected to the wrong bus, that could make for some oddness if the outputs of two of the PSXs are effectively tied together. Including odd continuity readings across power disctric gaps - but not on the whoel layout, just for the affected two sections. ANd that meter buzz thing.
--Randy
Modeling the Reading Railroad in the 1950's
Visit my web site at www.readingeastpenn.com for construction updates, DCC Info, and more.
Setup: Digitrax Evolution Command Station, layout divided into five power districts four protected by a PSX circuit breaker and one PSX-AR for the wye. Each power district has a separate DCC bus. Turnouts operated by Tortoise Motors wired to a DPDT toggle switch on its own 12-volt DC bus.
I have used black and red wire for the DCC bus, but marked off the different power districts by using color coded zip ties. I checked the power districts and bus lines with the quarter test before adding drops and frog wires.
Problem: When I check continuity of the frogs of the turnouts everything has been fine until today. Now when I check the frog continuity with my meter, I get the correct ring tone for the points when they are switched. However, if I check the frog and the rail that is not touching a point, I get a buzzer from my meter and not the ring tone.
Also, I have noticed that the isolation gaps are no longer working. When I use the meter I get the continuity ring tone when I check the rails that should be isolated.
Lastly, when I turn off the DCC power and check the continuity between sections I only get the continuity ring on the black bus line, not the red bus line.
I am rather surprised that I am still able to run trains with this wire issue going on.
This only started when I added the last set of drops and turnouts.
Clearly, I must have tapped into the wrong bus wire, but I have so far been unable to detect where.
Solution: I plan on doing the following:
(1) Double check that no metal is laying across the tracks or between districts.
(2)I plan on testing again the end of the line for each of the power districts to make sure I can short them out.
(3)I will double check every drop and make sure that black is to the back, red is to the front, and I am connecting to the correct color-coded power district.
(4)I will double check all the turnout frog connections to the DCC bus.
(5)I will pay particular attention to the drops and frogs I worked on in the last few days.
I have already lost a day on this diagnosing the problem. I had to walk away from it because it was driving me nuts. Any other suggestions for solving this problem would be appreciated.
I am particularly curious as to the buzzer noise coming from my meter. There is no mention of it in the manual. Any ideas?
Thanks again. Time to go join the family and celebrate St. Patrick's day, hope you all have a great celebration.