Okay, folks, here is what will be the official thread for any questions about my DC throttle project, and any consideration of building these for hire.
The most recent photos, and pricing are here:
https://www.therailwire.net/forum/index.php?topic=55335.msg769047#msg769047Youtube video of it operating in a test on my workbench.
If anyone is interested...
I need a guinea pig, er, beta tester... somebody other than myself.
So if anyone actually decides to buy one of these, the first person who does
can have the throttle + receiver + remote for $200 instead of $335... in exchange, of course, for being willing to do some back-and-forth with me about things they might want to change, doing experiments I might ask for, testing refinements if there are any problems with it, and so on.
In reply to the most recent questions...
I can build it using either the 433 MHz or 315 MHz frequency band. These are the two for which inexpensive transmit/receive modules are readily available. The wireless protocol is very simple. It's just OOK (on-off-keying). It's the sort of thing normally used for products like garage door openers, remote outdoor weather stations, and other consumer remote control devices that just have to send short simple messages. As it happens, controlling a train is pretty low-volume data sending. It just has to send commands to change speed and direction, and they don't get sent very often. So this scheme handles it well.
As for distance. I just distance-tested it about as well as I can. I rigged up a hand-held to be in "barrage mode", where it just keeps sending out speed commands ramping up and down from 0 to full, then back to 0 again, over and over, spaced apart by about 100 mSec. ( I know... who changes speed every 1/10th of a second...).. Anyway...
Through two walls from inside my train room, with the controller outside in the yard, reliable control distance is about 50 feet. By 75 feet you get nothing, and somewhere in between, it starts getting spotty.
Line-of-Site: Throttle sitting on my deck, the hand-held controller out into the yard as far as I can go..
100 feet... and still working. and I'm out of yard. Since the receiver can be powered by a USB as well as a normal "train" power supply, I will try plugging it into the car dash and then just going far out down the street to see what the true maximum line-of-sight distance is. But I think these distances are realistic.
The two walls is not an insignificant thing to consider. It has to work when people, benchwork, a wall, or who-knows-what gets in the way.
----
Interference testing.... Because you can use more then one remote at a time with multiple throttles, and they are all on the same frequency, if two controllers send at the same time, the messages will not be received. So all messages are sent multiple times for redundancy. I tested it in the train room with two hand-helds running in that continuous "barrage" mode, while I ran an actual train with a third controller. It seemed to work perfectly fine.
I would say if you really put 5 or 6 of these in one room, you might have problems. But in that case, I would suggest building 3 of them for 433 MHz and 3 of them for 315 MHz. That would cut the collision problem in half.
