Hi thanks for the info, I did as suggested, measured the voltage on the series caps (including the resistor, diode combination) when powered on track and it read 12.8v (which my track voltage from my NCE SB5 Smart Booster) and then lifted the loco off the track and measured again and it ready 10.2v ?? not really sure what's happening there unless its dropping the 2v across the diode and then doesn't have enough voltage to drive the loco anymore? any suggestions would be great please? I assume if I take the diode out of the circuit the caps will discharge through the 47ohm resistor and still drop voltage across it? cheers Kevin
What you see seems normal. It is backwards of what you described. The caps charge at a slower rate through the 47 ohm resistor, and once the track power is removed, the caps supply the power (discharge) through the diode providing power to the decoder and rest of the loco.
When you were taking the measurements did you have your meter's leads connected throughout the entire period, or you the test leads across the caps while they were powered and charging, then disconnected the leads to take the model off the track and then hooked them up again to measure the cap voltage? Basically I'm surprised that the instant the charging voltage is removed, the voltage across the caps drops from 12.8 to 10.2V.
If you leave the meter connected, do you see the voltage continuing to drop from that 10.8V?
As for the 1N400X diode, it will drop about 0.7V. I prefer using Shottky diodes because the drop less voltage. Usually 0.5V but often drop even less. Decoders often utilize Shottky diodes in their rectifiers to minimize voltage drop.
But even if the 10.8V was measured at the output of the keep-alive (0ast the resistor/diode), to me that should be plenty high for the decoder to stay powered up. If it doesn't keep on running at 10.8V then maybe it is designed to stop the motor when it stops receiving DCC packets.
Did you try the keep-alive on both of the decoders you asked about?
