Something so simple ends up as a scary thing for some people, thank you for the step by step guide as to how you did it. This will definitely get the grey cells working for many of us who think it is too complicated to even think about. Please keep sharing your DIY tips with us. Oh by the way don’t forget to tap the thumbs up and subscribe to the channel.
I did a OO scale brake van years ago with a 3mm red LED on normal analogue 12volt, with rectifier for reverse, 2 of rechargeable AAA batteries and charge limit and LED resistors for the current in and out of the batteries ! 😊 😊
Nice video, this is a simple and good solution for installing tail lights (and other lights) in model wagons. 👌😎👍 I have one note though*: Due to the fact that an electric motor (like the one in a locomotive) can generate a CEMF (Counter-ElectroMotive Force) that can be of considerably higher voltage than the power normally fed to the rail, it may be safer to use a capacitor rated for 25 volts instead of the 16 volt capacitor recommended here, this will minimize risk of capacitor leakage (or even explosion)❗*(see correction in my reply below)
@@4623620 Hi thanks for the comment. I worked on the basis that for DCC systems,(as opposed to DC), commercial solutions for stay alive capacitors commonly supply 16v capacitors. Also of course for DCC there is a decoder between the track rail supply and the motor. However these are only assumptions as I am not an expert.
@@LlanfordParkModelRailway Please forgive me, you are right, I did not realise it was for DCC, should have read your text (but I am a lazy dyslexic). Than I could have known I had to mention that my suggestion is for DC systems. 😳
Nice build, though very fiddly 😂. I do recommend to solder a resistor and reverse diode between the rectifier + and the capacitor + to limit the capacitor load current.
I put a tail light into the same brakevan using a length of fiber-optic cable. The LED is inside the van, the fiber runs horizontally into a tiny square of plasticard representing a tail lamp. Much dimmer than a SMD viewed directly! I'd like to develop it into a system where yeu can tap a magnet on the roof to turn the lamp on or off
Just fit a reed switch in the line to the led, inside the roof panel, then a strong magnet will work. you only need to fit the switch on one of the wires, either one will do.
Love the idea. For older stock running old style lamps it's great. I run 1980s to 1990s that would be flashing tail lamps. Could u make this system but add flashing ?
It is possible but would need some more electronic components for the flashing circuit. For N scale the challenge is always fitting components into the space available
100µF 24V is better And I would have used the thin wires of the LED and brass strips for pickups You can buy wheels with one side conductive, so no need for conductive paint
Great presentation, well done. What about heat, 16V to 3 V with the resistor. Does it generate heat? And are the components and van body OK with the heat generated?
Thanks for your comment 😀. I don’t think heat should be a problem with a 2 kohm or higher dropper resistor the current flowing is in the order of 10ma through the LED, and the power dissapated by the resistor is in the order of 140 mW. Although I recommend you check the temperature of the resistor to be sure. I did not notice the dropper resistor getting warm myself.
Only problem with this is its way too bright. I started on the footplate in 1980 still in the BR paraffin lamp era and the best you could hope for from a tail lamp, even a signal light is dull flickering glow.
I do agree having run mine for a while. I started with a 1 K ohm resistor and that was far too bright, so as in the video changed to 2 k ohm resistor to lower the brightness. I would use an even higher value dropper resistor next time maybe 2.5 k ohm or even 3 k ohm’s
The paraffin signal lights were really bad. North/north west of Edinburgh was predominantly semaphore signals back then. Being cautioned at night resulted in peering into the darkness to spot the signal. As one old driver used to say you have to find them before you can stop at them!
Something so simple ends up as a scary thing for some people, thank you for the step by step guide as to how you did it. This will definitely get the grey cells working for many of us who think it is too complicated to even think about. Please keep sharing your DIY tips with us. Oh by the way don’t forget to tap the thumbs up and subscribe to the channel.
Thanks for your comments, I am glad that you found the video helpful
Excellent step by step guide. Look forward to trying this myself.
Thanks
I did a OO scale brake van years ago with a 3mm red LED on normal analogue 12volt,
with rectifier for reverse, 2 of rechargeable AAA batteries and charge limit and LED
resistors for the current in and out of the batteries ! 😊 😊
DCC does make things easier 😀
@@LlanfordParkModelRailway I am 66 yrs, and when I was about 19 yrs
I don`t think there was any DCC ?
@@pjeaton581980ish? might've had Hornby's Zero-1 but from what I've heard it was quite unfriendly 😄
That is by far the most informative video on this subject that I have seen. I will now hit the subscribe button.
Thank you for the comment and also thank you for subscribing. 😀
Nice video, this is a simple and good solution for installing tail lights (and other lights) in model wagons. 👌😎👍
I have one note though*: Due to the fact that an electric motor (like the one in a locomotive) can generate a CEMF (Counter-ElectroMotive Force) that can be of considerably higher voltage than the power normally fed to the rail, it may be safer to use a capacitor rated for 25 volts instead of the 16 volt capacitor recommended here, this will minimize risk of capacitor leakage (or even explosion)❗*(see correction in my reply below)
@@4623620 Hi thanks for the comment. I worked on the basis that for DCC systems,(as opposed to DC), commercial solutions for stay alive capacitors commonly supply 16v capacitors. Also of course for DCC there is a decoder between the track rail supply and the motor. However these are only assumptions as I am not an expert.
@@LlanfordParkModelRailway Please forgive me, you are right, I did not realise it was for DCC, should have read your text (but I am a lazy dyslexic).
Than I could have known I had to mention that my suggestion is for DC systems. 😳
@@4623620 no problem, thanks for watching the video
Excellent video. Encouraged me to give it a go.
Thanks, I'm glad you liked the video
Very good indeed thanks for sharing
Thanks for the comment appreciated
Nice build, though very fiddly 😂. I do recommend to solder a resistor and reverse diode between the rectifier + and the capacitor + to limit the capacitor load current.
Thanks😀. I did try and measure the capacitor inrush current, but the charge was so fast I couldn’t read it on my DVM .
Brillant. Well done.
Thanks
Excellent video. Thanks for sharing :)
Thanks
Easy to follow instructions. I am encouraged, thanks and have subscribed. Looking for ward to more helpful hints.
BarryDevon
Thanks for the comment, I’m glad you liked the video. Also thanks for the subscription.
Great video, kept me entertained, well done!
Glad you enjoyed it!
I put a tail light into the same brakevan using a length of fiber-optic cable. The LED is inside the van, the fiber runs horizontally into a tiny square of plasticard representing a tail lamp. Much dimmer than a SMD viewed directly!
I'd like to develop it into a system where yeu can tap a magnet on the roof to turn the lamp on or off
Just fit a reed switch in the line to the led, inside the roof panel, then a strong magnet will work. you only need to fit the switch on one of the wires, either one will do.
Awesome video...
LLAP 🖖
Thanks
Excellent video. Subscribed.
Thanks glad you liked it
works very well .
Thanks
Love the idea. For older stock running old style lamps it's great. I run 1980s to 1990s that would be flashing tail lamps. Could u make this system but add flashing ?
It is possible but would need some more electronic components for the flashing circuit. For N scale the challenge is always fitting components into the space available
@LlanfordParkModelRailway very true. I model oo at the moment so space is not as much of an issue
100µF 24V is better
And I would have used the thin wires of the LED and brass strips for pickups
You can buy wheels with one side conductive, so no need for conductive paint
Great presentation, well done. What about heat, 16V to 3 V with the resistor. Does it generate heat? And are the components and van body OK with the heat generated?
Thanks for your comment 😀. I don’t think heat should be a problem with a 2 kohm or higher dropper resistor the current flowing is in the order of 10ma through the LED, and the power dissapated by the resistor is in the order of 140 mW. Although I recommend you check the temperature of the resistor to be sure. I did not notice the dropper resistor getting warm myself.
@@LlanfordParkModelRailway Thanks, very fast reply. Could set it up on a breadboard to check heat, and desired brightness of the LED.
Only problem with this is its way too bright. I started on the footplate in 1980 still in the BR paraffin lamp era and the best you could hope for from a tail lamp, even a signal light is dull flickering glow.
I do agree having run mine for a while. I started with a 1 K ohm resistor and that was far too bright, so as in the video changed to 2 k ohm resistor to lower the brightness. I would use an even higher value dropper resistor next time maybe 2.5 k ohm or even 3 k ohm’s
The paraffin signal lights were really bad. North/north west of Edinburgh was predominantly semaphore signals back then. Being cautioned at night resulted in peering into the darkness to spot the signal. As one old driver used to say you have to find them before you can stop at them!
@@LlanfordParkModelRailway Try a variable resistor maybe?
@maltnz That’s a good idea thanks
True, I am a former secondman east London Stratford depot, and yes your right it was always a dull glow at best !!!!
It's a back light, stop talking American for god's sake,