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Well if you know of such a decoder...I ran some locomotives with the meter attached to see what was going on. I'm not sure I understand it though.Loco1 going up hill @4.6V when it gets to the top the meter reads 5V, then while going downhill @5.6VLoco2 (high geared Heisler) 7.6V up. 8V top. 8.2V down.So why is the voltage increasing when the loco is going down hill and presumably doesn't need as much power?Using a Rokuhan RC-02 http://www.zscalemonster.com/rokuhan/accessories/
When a real locomotive is given a throttle increase there is a lag time until the preselected speed is reached. Like-wise, when braking a life-size, fast moving train it usually takes a mile or so before it stops. But because lightweight model trains won't mimic this delay on their own, we create the momentum or inertia electronically, sometimes referred to as flywheel action. Accutec Technology provides smoother performance and helps maintain the extra power when climbing grades or running over poor track conditions. Advanced slow speed circuitry allows your locomotive to crawl and couple easily.
I found this about it: Hand Held controller fitted with feedback electronics to maintain a constant speed when travelling up and down inclines. GMC-HH : Single Track Hand Held Controller with Feedback
Otherwise a variable resistor for each zone could also work.
I like this! Would the locomotive bridging the gaps cause any problems?
It might be a PWM throttle. I'll try an old MRC pack later.
Well I do have a throttle with a LM317, but it is PWMhttp://www3.sympatico.ca/kstapleton3/851.HTMShould I use it for testing instead?
You could easily build one yourself
Have you met me? If you could find a list of the components I'll start ordering. If anything it will be fun to watch the smoke when I turn it on.
Do you have spare throttle with accessory terminals (to use as a source of power for the throttle), or should I also include a power transformer?I'll come up with a diagram and parts list.