Rich, do you have any diodes in these LED circuits?
It seems to me that this might simply be the bipolar LED not liking the DCC signal on the one color?
LED's are after all, DC devices. The DCC signal is not really DC.
The thing that concerns me about this is voltage drop?
Sheldon
richhotrain I mentioned that my Peco Insulfrog turnouts are powered by feeders on alll three ends of each turnout. That being the case, all of the rails are powered on each turnout. Only the plastic frog is dead. Rich
I mentioned that my Peco Insulfrog turnouts are powered by feeders on alll three ends of each turnout. That being the case, all of the rails are powered on each turnout. Only the plastic frog is dead.
Rich
richhotrain If the Insulfrog is powered only on the stock rails at the tail end of the turnout, only the point rail touching its stock rail is powered, thus power routing. I guess that this would be useful for dead rail sidings. However, when the Insulfrog is powered on all three ends of the turnout, as in my case, both point rails are always energized, effectively defeating the benefit of power routing. Rich
If the Insulfrog is powered only on the stock rails at the tail end of the turnout, only the point rail touching its stock rail is powered, thus power routing. I guess that this would be useful for dead rail sidings.
However, when the Insulfrog is powered on all three ends of the turnout, as in my case, both point rails are always energized, effectively defeating the benefit of power routing.
However, this only worked in certain situations. I could successfully power my dwarf signals which used separate red and green LEDs. But, I failed to power my search light signals which use a bi-polar red/green LED. The problem arises with the common wire.
With the dwarf signal, I can pigtail the common wire and connect it to the opposite rail on both the straight through and divergent routes. But when I do that with the search light signal, the bi-polar LED turns amber on one of the routes.
Any suggestions with how to deal with the common wire on a bi-polar LED setup?
Alton Junction
richhotrain Doughless I'm no electrician, but Mel's idea makes sense to me (maybe that's why?) If I'm thinking of this correctly, sliding a point rail against something metal activates a separate circuit that changes the sitting green signal to red, or visa versa. The circuit doesn't run through the rails at all, making insulfrog vs electrofrog or power routing issues moot in this situation. What troubles me about what I call "mechanical" solutions to the problem is that they are prone to fail. The beauty of an "electronic" solution to the problem is that it is not likely to fail since it does not depend upon physical forces.
Doughless I'm no electrician, but Mel's idea makes sense to me (maybe that's why?) If I'm thinking of this correctly, sliding a point rail against something metal activates a separate circuit that changes the sitting green signal to red, or visa versa. The circuit doesn't run through the rails at all, making insulfrog vs electrofrog or power routing issues moot in this situation.
I'm no electrician, but Mel's idea makes sense to me (maybe that's why?)
If I'm thinking of this correctly, sliding a point rail against something metal activates a separate circuit that changes the sitting green signal to red, or visa versa. The circuit doesn't run through the rails at all, making insulfrog vs electrofrog or power routing issues moot in this situation.
What troubles me about what I call "mechanical" solutions to the problem is that they are prone to fail. The beauty of an "electronic" solution to the problem is that it is not likely to fail since it does not depend upon physical forces.
But I think all on/off switches rely upon physical forces. Point rail to stock rail contact is physical force, as is what ever makes contact within those little plastic boxes we call switches. When we press a button or flip a throwbar, something inside the box touches something else. How else does electricity know which path to take?
Its seems like you're trying to use the rails of the turnouts themselves as the signal's on/off switch. I think there is another way, but the specifics of how to build it are above my pay grade.
- Douglas
then, isolating one of the point rails from the other end of the turnout, relying on the power routing mechanism (tab or otherwise) of the turnout and attaching a wire to that rail provides a signal indicating turnout position.
greg - Philadelphia & Reading / Reading
gregc does this mean the points not aligned with the stock rail are un-powered?
does this mean the points not aligned with the stock rail are un-powered?
gregcdoes this mean the points not aligned with the stock rail are un-powered?
Mike
RR_MelThe only problem with this is the Peco points are the power pickup for the power through the turnout.
On my last layout, I used Atlas Custom Line turnouts, powered by Tortoises. One of the internal switches on the Tortoise controlled the signal associated with that turnout. This system worked flawlessly.
On my new layout I decided to use Peco turnouts because the idea of a spring loaded turnout really appealed to me, and it eliminated the need for a Tortoise to control point rail movements. A significant advantage of this arrangement is the elimination of under layout turnout controls. No drilling, no laying on my back to install motorized devices.
I don't intend to reverse that decision at this point. For that reason, I revived this thread to learn if there was an electronic solution. By electronic solution, I mean a method of wiring alone that will power the signal. It does not appear that such a solution exists with the Peco Insulfrog.
rrinkerI'm not sure that I understand this idea at all. Would this involve drilling through the plywood layout surface? Rich Yes, you would have to clear a space below the turnout. The Peco motors and the contacts both are designed to hang off the bottom of the turnout under the throwbar. Depending on how thick the contacts are, you might get away with just clearing the space in the roadbed, unless you are laying the track right on the plywood
Hi Randy and Rich,
This is pure speculation, but I wonder if either of the Peco switches could be mounted below the subroadbed with just a small hole required to make space for the rod that links the throw bar to the switch. The rod would have to be mounted securely in the hole in the switch so that it moves the contacts as the throw bar moves, but I don't see why the Peco switch has to be right tight to the bottom of the turnout.
Something that I would suggest is to mount the Peco switch on a larger piece of thicker styrene. With somewhat oversized holes in the styrene and washers on the mounting screws, the switch position could be easily adjusted to make it work properly.
Just an idea.
Dave
I'm just a dude with a bad back having a lot of fun with model trains, and finally building a layout!
richhotrain rrinker I like Dave's idea of using the Peco contacts. The contacts, like their solenoid motors, are free moving - they don't have over center prints or wipers to hold in position like a regular switch, or like an Atlas solenoid motor, because the over center spring to hold the points to one side is part of the turnout itself. So by rigging the Peco contacts to the throwbar, you gain the electrical contacts needed to operate signals or whatever, and still have the manual push the points control of the turnout, no additional electronics needed. --Randy I'm not sure that I understand this idea at all. Would this involve drilling through the plywood layout surface? Rich
rrinker I like Dave's idea of using the Peco contacts. The contacts, like their solenoid motors, are free moving - they don't have over center prints or wipers to hold in position like a regular switch, or like an Atlas solenoid motor, because the over center spring to hold the points to one side is part of the turnout itself. So by rigging the Peco contacts to the throwbar, you gain the electrical contacts needed to operate signals or whatever, and still have the manual push the points control of the turnout, no additional electronics needed. --Randy
I like Dave's idea of using the Peco contacts. The contacts, like their solenoid motors, are free moving - they don't have over center prints or wipers to hold in position like a regular switch, or like an Atlas solenoid motor, because the over center spring to hold the points to one side is part of the turnout itself. So by rigging the Peco contacts to the throwbar, you gain the electrical contacts needed to operate signals or whatever, and still have the manual push the points control of the turnout, no additional electronics needed.
--Randy
I'm not sure that I understand this idea at all. Would this involve drilling through the plywood layout surface?
Yes, you would have to clear a space below the turnout. The Peco motors and the contacts both are designed to hang off the bottom of the turnout under the throwbar. Depending on how thick the contacts are, you might get away with just clearing the space in the roadbed, unless you are laying the track right on the plywood. You'd need to clear space under the turnout for Mel's DIY method as well, but it's effectively the same thing.
Another way would be to combine the methods - a small protrusion down from the throwbar like the screw in Mel's example, impacting on a snap action switch laid on its side. I'm pretty sure you can get ones thin enough to fit within the thickness of cork roadbed. In one position, the lever of the switch would be released, and the normally clsoed contacts woudl be active. Flip the throwbar the other way, and the nub added to the bottom pushes the lever of the switch, closing the normally open contacts. Quick searching, I can find some that are 5mm thick, same as HO cork. There might be thinner ones out there.
Modeling the Reading Railroad in the 1950's
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richhotrain RR_Mel Rick How about a Caboose Hobbies Ground Throw with the SPDT switch? https://www.cabooseind.com/product-info Mel That would work of course, but the whole reason for installing Pecos was to to be able to take advantage of the spring loaded point rails, so that I can throw them with a flick of the finger. Rich
RR_Mel Rick How about a Caboose Hobbies Ground Throw with the SPDT switch? https://www.cabooseind.com/product-info Mel
That would work of course, but the whole reason for installing Pecos was to to be able to take advantage of the spring loaded point rails, so that I can throw them with a flick of the finger.
points contact with stock rails. self cleaning
Even using Electrofrog turnouts woudn't completely solve the problem. If installed unmodified, you would get the electrical switch action, but it would be relying on the point rails contacting the stock rails, bot to light the signals AND power the raisl through the turnout. Not a reliable way of doing things at all.
I'm using Electrofrog on my new layout, all modified using the jumper points to isolate the frog for independent powering, and tying the point/closure rails to the adjacent stock rails. By the time I get that far, the Code 70 stuff should be readily available, so I am plannign on using that for sidings and yards. Those are expected to all be the new Unifrog design, but given that these will be areas traversed by smaller locos, at lower speeds, I will probably at the very least make arrangements to power even the small insulated section of frog, even if it turns out I don't need to hook it up to anything. That worked out well on my last layout - every turnout was pre-wired to power the frog before installation, and then it turned out I had quite reliable operation without actually hooking those wires up.
What I should have done, if I care to second guess myself, was to install Peco Electrofrogs, not Insulfrogs.
Mel, thank you for your time and effort, especially the explanation and photos.
Let me take a closer look at this fix.
Peco has two types of contacts that can be mounted below their turnouts but both supposedly require a Peco turnout double solenoid motor to mount them. I wonder how difficult it would be to mount them without the motor? You would have to glue a pin into the sliding part of the contacts which would then go through the throw bar.
Here is the less expensive unit. This one is just glued to the bottom of the motor so making up a mounting plate shouldn't be hard at all:
https://peco-uk.com/collections/peco/products/accessory-switch-turnout-motor-mounting
Here is the pricier one if you need more than one set of contacts:
https://peco-uk.com/collections/peco/products/twin-microswitch-turnout-motor-mounting
It has become obvious to me that I do not have a switching device on the Peco Insulfrog to trigger the red/green LEDs on the signal.
Had I bought and installed Peco Electrofrogs, I could have used the powered metal frog as the switching device. But I chose Insulfrogs over Electrofrogs because the Insulfrogs were each $3.00 cheaper and a lot easier to install without the need for gaps. I don't regret that choice.
And I sure did not want to install 60 to 70 Tortoises. So, I chose spring loaded Pecos over Tortoise controlled Atlas turnouts.
My feeling is that since the Pecos require manual action to throw the spring loaded point rails, what's the big deal about using the same finger to activate the signal. After all, even with the Tortoise controlled turnouts, I still needed to flip the toggle switch on the DPDT on my last layout.
The one flaw in my plan is that I could forget to activate the switching device, resulting in the wrong color LED on the signal device. However, if I use a SPT toggle mounted on the fascia, I can install a bi-polar LED right next to the SPT to show which way the point rails are thrown. So, that is probably the way that I will go with the signal plan.
In the dark ages of DC and power routing hand layed all rail turnouts, if we did not want the turnout to control the siding, we simply gapped the two frog rails past the frog, and ran a jumper or second feeder to the track past the turnout.
The route not selected would have both rails the same polarity up to the point of the gap in the frog rail - no problem.
But I will no longer rely on turnout points to conduct power, and I prefer the Atlas wiring scheme as it works better with my control system, the reasons why are too complex to explain here and are part of the automatic train control feature of my control system.
So as explained above, even my manual turnouts are connected to electrical switches which perform a number of functions depending on the situation.
if you had a power routed frog, all you would need is an LED and series resistor between it and one of the stock rails. The LED would be lit when the frog is powered from the opposite rail.
in this case, an LED and series resistor connected to a power routed point rail and the opposite stock rail would indicate when the points rail is powered.
Such a thing is definitely possible, but by the time you build the electronics, just using a simple snap switch pushed by the throwbar when moving the points by hand is far simpler.