Hello Mel
I have ordered some of these 6 pin dip sockets, about the same price as the DB 107. Look forward to trying the out.
Thanks
Alez
would it be too complicated to have a separate double-pole switch for that spur that can be wired to the Atlas selector power supplies to control the track volage, avoid the need for a rectifier and provides the proper voltage to the signal regardless of the track voltage?
the plastic mount in the image is expensive, i think an adequate mount can be made with some bent metal with holes for the switch and screws, or just an angled bracket.
it's a learning experience
greg - Philadelphia & Reading / Reading
Previous post, he's using an Atlas Selector, so no spare contacts.
--Randy
Modeling the Reading Railroad in the 1950's
Visit my web site at www.readingeastpenn.com for construction updates, DCC Info, and more.
Alez,
how are you controlling power to your spur?
are you switching power to both rails? could you use a double pole switch and switch power to just one rail and use the other pole of the switch to control your signal?
Hello
I have order a dozen or so of these DB107 refractors. They look easy enough to us. But I am concerned about over heating. Is there another way to attach wire to the ends of the DB107 other than soldering.
Thanks for all your help
Nice pictures.
How did you attach it to your layout. Is Hot Glue ok, or is there a special board it needs to go on..
Does anyone have pictures of the DB107 installed on their train layout so I can see how to position it with my other wiring.
Alez Will the DB107 prolong the life of the crossing light? Thanks Alez
Will the DB107 prolong the life of the crossing light?
This is the conundrum. It's not blinkign because there's not enough voltage to operate the flasher part of the circuit, but without the resistor, if you turn the throttle up too far, then it will get too much voltage (and current for the LED) and it will burn out. If you add the bridge rectifier, it will work regardless of the direction switch, but the power pack will need to be turned up even more to get it to flash, but still full throttle will exceed the rated voltage without the resistor. If you can remember to never run full throttle on the branch track, you can install it without the resistor. It's just the nature of DC control being a variable voltage.
If I use this DB107 rectifier do I still use the resistor?
Will the light on the crossing/light stay solid or blink?
Thanks for the help
gregc earlier you said Alez Next, to test the light, I got a 9V battery and attached the black wire the negative end the battery and the red wire to the positive. Alez As soon as I change the direction to reverse on the power pack the crossing/light turns off the reverse switch changes the polarity on the track. You've now got the red wire connected to negative. earlier Mel suggested using a full-wave rectifier so that the red wire is always connected to positive
earlier you said
Alez Next, to test the light, I got a 9V battery and attached the black wire the negative end the battery and the red wire to the positive.
Alez As soon as I change the direction to reverse on the power pack the crossing/light turns off
the reverse switch changes the polarity on the track. You've now got the red wire connected to negative.
earlier Mel suggested using a full-wave rectifier so that the red wire is always connected to positive
About the only way I see that the OP can get what He wants to do and keep it simple without any other circuitry..is to change the Red Led To an 1.7/2.4 mm 12v Red incandesant bulb, which won't flash, but will be on without regards to polarity. It will change brightness with change of voltage, but will be on. I also believe He is using common rail wiring and that will work for that also. Without any need for resistors.
His call........
Take Care!
Frank
AlezNext, to test the light, I got a 9V battery and attached the black wire the negative end the battery and the red wire to the positive.
AlezAs soon as I change the direction to reverse on the power pack the crossing/light turns off
One step closer. We have light but …
Went through my entire layout with a voltage meter and got any polarity issues resolved. Now the crossing/light will stay a solid red when the power is turned on and the power pack direction is forward to the spur line. As soon as I change the direction to reverse on the power pack the crossing/light turns off, this is the same result on the main line if the cross/light was attacked there.
Note: This is without using a resistor wired to the crossing/light.
Tried attaching the resistor to either wire of the crossing/light and got nothing. But the crossing/light still blinks with a 9v battery hooked up.
I could live with a crossing/light that is always a solid red and works only when the power pack was in forward. Mostly because my spur lines are so short, restricted because of space. I was nice when the crossing light that as blinking.
It might be a resistor problem and what type would I need to get the crossing/light blinking?
Thanks for your help.
I would say they do not light now because the polarity is backwards. Throw the reverse switch on the power pack and they should light if wired across the rails, one rail to the resistor, the free leg of the resistor to the signal, and the free wire of the signal to the other rail. LEDs are polarity sensitive, they only work one way. As long as the resistor was used, no damage will occure from wiring it backwards - - at least for ordinary LEDs. Since they don't show how the built in flasher circuit is designed, it's possible it could be damaged by wiring it up backwards. The picture shows red and black wires - the red should be + and the black -. Resistor goes on either side, it makes no differnce but it's best to be consistent. If you use your meter on the rails, and touch the red probe to the rail that the red signal wire connects to and the black to the rail the black wire is connected to, you should see a +15 volt reading. If you see a -15 volt reading - the signal wires are backwards, or just flip the direction switch on the power pack. Of course, this means the light will only flash when trains are going one way on the branch.
Rich's solution of using the Atlas Snap Relay along with using the bridge rectifier on the AC terminals of your power pack will mean the signal will flash any time the switch is thrown for the branch line, regardless of the state of track power. Since you are using the Atlas Connector to power the branch track, there's no easy way to make it so that the switch must be lined AND the track power turned on for the flasher to work. You COULD hook the AC side of a bridge rectifier to the rails, and hook the flasher and resistor to the + and - terminals of the bridge, and it will work no matter what the direction switch is set for (the bridge rectifier fixes the polarity issue) but you would need to have the power pack up to somewhere around 5V or more before it will start to flash.
Those are pretty much your options. There are some rather complex ways that could make it work any time the track power is turned on, but that's a rather involved electronic circuit.
EZ track turnouts are twin coil if I see this correctly. Use an Atlas Snap relay with separate power pack ONLY for the lights. The contacts in the relay do the work. The snap relay coil is powered by the same power for the turnout coil. I did this many years ago with a DC layout.
When the loco power pack is at zero, the crossing will still be flashing. No LED's when I did this. I used 12 volt mini lamps.
For many years, snap switches and snap relays were used.
Edit.
I just looked up the power pack As someone said, a full wave bridge rectifier across the 16 vac terminals will work. The light will dim some when firing the turnout coil. Not sure if the resistor will be high enough resistance. Probably will not need a separate supply for the lights.
Rich
If you ever fall over in public, pick yourself up and say “sorry it’s been a while since I inhabited a body.” And just walk away.
Sorry it took so long to reply. I will try to answer all your question but without pictures of my layout its tuff.4
Answers:
1. The first thing that I checked when the crossing/light did not light up was to see if the throttle was at 100%, then I checked to see if the power supply was plugged in. No problem
2 Running a DC layout using EZ track
3.Using a Spectrum Magnum power supply, the power supply it tested at 15.31v
4. I have isolated the spur line, in fact all 4 of my spur lines, and turn the power on/off using an Atlas Connector. The spur lines are all connected to one power supply. Only run one train at a time.
5. Voltage at the spur line when the power is turned on is 15.31v
6. The train crossing/light is attached to the rails using Atlas feeder jointers
7. Picture of the cross and where I bought it. All this crossing or light does is blink, just what i wanted. https://www.ebay.com/itm/2-x-HO-Scale-Railroad-crossing-signal-light-one-target-flashing-red-led-/152218105741?hash=item2370e7f78d
8. Picture of resistors that come with the crossing/light https://www.ebay.com/itm/10-x-1K-ohm-Resistors-HO-N-scale-led-street-Lights-Lamp-Posts-12V-16V-use-/152013048083?hash=item2364af0913
9. Wiring Instructions that I was referred to. But I am not running the crossing/lights parallel, all individual crossing/lights. http://stores.ebay.com/WEHONEST/Instructions-of-my-model-lampposts.html
10. I realize that the crossing/lights voltage will go down when the throttle is turned down
I thought this crossing/light was the easiest one to wire plus it was exactly what I was looking for.
“All I wanted is the crossing lights to blink red when the power is switch on to the spur line or passing track to remind me that the switch is on and for effect.”
Hopefully I have answered all your questions but if you have any more just let me know
Thanks for your help
The problem is, if you wire the indicator across the track, you could have the siding switch turned on, but if you have the speed at stop, the light will not be in. The only way you can indicate that the switch is turned on is to use a switch with more sets of contacts and an independent power supply (not the one that controls train speed). The, no matter if the train is stopped or runnign full speed, if the switch is on, the light will be on. You can even get toggle switches with lights built in to them. Not sure why you would use a grade crossing flasher for this application.
i am running DC on EZ track
Alez Wiring Simple HO Scale Train Crossing Lights All I want is the crossing lights to blink red when the power is switch on to the spur line or passing track to remind me that the switch is on and for effect. Any help would be appreciated. Thanks Alez
Wiring Simple HO Scale Train Crossing Lights
All I want is the crossing lights to blink red when the power is switch on to the spur line or passing track to remind me that the switch is on and for effect.
Any help would be appreciated.
Thanks Alez
AlezBut when I attached the light to my spur line rails and turned on the power switch the train moved but the crossing light did not go on. I also reversed the light wires with the same result.
as Frank said, using track voltage, the crossing will only come on if the throttle is set high enough and if the track voltage polarity (forward/reverse) is correct if you're using DC. As you said, you want positive voltage on the red lead.
if you using DCC, there is typically 14V AC on the rails. This may be too high for the crossing. (you may want to test it again using the 9V battery). An extra diode may be needed.
but it's not clear what you mean by "power is switch on to the spur line". Is the spur a separately powered DC block?
sounds like what you're really asking to do is power the crossing when the turnout is switched to the spur. This requires a power source within the limits of the crossing and spdt switch tied to the turnout somehow. How do you control the turnout?
but a more typical use for a crossing is to indicate that a train is approaching. Power to the track wouldn't be used to power the crossing. LED occupancy detectors could be used on either side of the crossing to control a circuit that provides power to the crossing.
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I'm assuming You are using DC to control Your trains.....If so the arrangement You have with the LED crossing lights will not work the way You want...until You turn the throttle up which may be too fast for the train. You don't say.....but I'm assuming You have LED's that work for fixed 12vdc with resistor to limit current to a lower working voltage which is probably around 3.8volts for a RED blinking LED.
You can get a lower rated resistor, (ohms)) like about 1/2 of what they gave You and put that in series with LED and see if they will flash when throttle hits around 1,4 volts...but that is iffy. What You need is a completely different circuit, like is used in DC lighted constant brightness passengers cars used with Variable DC output.
Hook-up the LED's again to Your siding, but without an engine on the track and turn up the throttle, watching how far You have to turn it up before LED's work. If You go too far...they will burn out.
More info would be necessary on Your system and the Led's to help You any further.
What are you powering your trains with? DC or DCC?
Mike