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There are a few car lighting projects that the Rapido and FVM lighting kits won't work well on. The first is the Conrail OCS9 with its class and ditch lights. I plan on using a DCC decoder for this.Two other projects are also looking to be difficult. The Bachman Super Dome needs a very low profile lighting kit in the dome and a smaller secondary light on the lower deck. I think the peel and stick "rope light" that I'm using for layout lighting would also work well here. I have been able to remove the protective clear "bead" to create a self stick SMD strip less than 2mm tall. I think this would be perfect for the dome.Since this won't be to be fancy, I figured I'd just use Kato live trucks wired to a bridge rectifier, a few capacitors and a small diode (the strip is rated at 12v but I think it will be too bright so I want to bring it to about half brightness).Looking at bridge rectifiers at Digikey, they are all rated at several hundred volts. Am I right in assuming that voltage doesn't matter as long as you don't go over the amp rating?
Correct. The voltage rating should be higher than the highest voltage it will see in your circuit, but the high limit is irrelevant. Same applies to the amperage.If you peek into this thread, we have been discussing car lighting. To quote: A much cheaper alternative would be to pick up an LED strip from eBay then power it up from the track (using my deflicker circuit). Craig is using the circuit I posted in https://www.therailwire.net/forum/index.php?topic=29654.0 . He loves it. That is a lengthy thread - for the schematic and technical stuff start here. The parts list in this post has a really small bridge rectifier robust enough for a typical N scale lighting strip. If you continue reading that thread, on subsequent page, Craig has posted a photo showing how small the circuit it.
I’ve used the circuit,with self adhesive LED strips, on several dome cars. It’s not a terribly realistic lighting effect, especially if looking at track level. Even with a massive resistor there is a lot of light and they are about an inch apart so you get hot spots. But it worked.
I’ve used the circuit,with self adhesive LED strips, on several dome cars. It’s not a terribly realistic lighting effect, especially if looking at track level. Even with a massive resistor there is a lot of light and they are about an inch apart so you get hot spots. But it worked. I also used it in my VIA park car with two different values of current limiting resistors for the drum head and marker lights. It works well, it’s cheap, and it’s easy to build. I’ll see if I can find some time in the next couple of days to set up a dome car and a coach, and take some photos. Craig
Yeah, he meant high value resistor. If you look at the other thread he is already using a 15k resistor (white LEDs are very efficient). And the hot-spots will be present (since LEDs are point-sources of light) unless he installs some sort of a diffuser (also mentioned here earlier).Actually I just thought of another way to diffuse light. Paint the inside of the roof (arched ceiling) flat white and suspend the LED strip in the center of the roof, with the LEDs facing up towards the ceiling. That way the light will bounce off the ceiling and shine through the open area between the edges of the strip and edges of the ceiling.
My experience with lights that shine upwards inside coach roofs is that they tend to make visible light come through those roofs in a darkened room. I had to clad the ceilings with tin foil to stop that, then paint the tin foil to keep the reflected light from being too harsh. After thinking about that, I probably should have just used white paper under the foil, because that is easier.
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Topic: Question on bridge rectifiers (Read 2207 times)
