beavercreek
Travel, Art, Theatre, Music, Photography, Trains
I am looking for one Aristocraft /Crest /Revolution 57091 (not the smaller 57090) PWC to linear converter.
WANTED Aristocraft / Crest / Revolution PWC to linear converter 57091 (not the smaller low amp one 57090)
- Thread starter beavercreek
- Start date
Greg Elmassian
Guest
They are hard to find nowadays, only have 5 of them left..
If I needed one, I would probably make one... I suppose I could measure the inductance on mine.
Greg
If I needed one, I would probably make one... I suppose I could measure the inductance on mine.
Greg
beavercreek
Travel, Art, Theatre, Music, Photography, Trains
Thank you Greg, yes it is hard to find them but it is most gratifying to know that you have five, I am sure you are very proud of them.
It is also good to know that you would make one..... and I am aware of the circuit diagram for making one but not sure that that has helped me in my initial search though....
but your input is most appreciated.
It is also good to know that you would make one..... and I am aware of the circuit diagram for making one but not sure that that has helped me in my initial search though....
but your input is most appreciated.
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Greg Elmassian
Guest
Not proud of them, figured when Aristo and Crest were going down the tubes, I would buy up stuff that might become unavailable in the future.
So if you want me to measure the inductor, then I think you could easily and cheaply build one for yourself... that actually was the point of posting (and if you are really stuck I would send you one for what I paid for it and postage, but probably that would be more than you wanted to spend, I think the shipping would exceed the cost of the unit).
If you haven't figured it out, I put myself in a corner by indicating that I had an excess of them, thus I would be honor bound to offer one to you... which I have done.
Greg
So if you want me to measure the inductor, then I think you could easily and cheaply build one for yourself... that actually was the point of posting (and if you are really stuck I would send you one for what I paid for it and postage, but probably that would be more than you wanted to spend, I think the shipping would exceed the cost of the unit).
If you haven't figured it out, I put myself in a corner by indicating that I had an excess of them, thus I would be honor bound to offer one to you... which I have done.
Greg
beavercreek
Travel, Art, Theatre, Music, Photography, Trains
I have already asked JK at Revolution if he has one or if they will be back in production. I am awaiting his reply.
If he does not and I cannot find one and would like to have one prebuilt then your offer would be very kind and I may take you up on it .... postage should be about $14.
If I end up making one, the induction value is 100uH.
If he does not and I cannot find one and would like to have one prebuilt then your offer would be very kind and I may take you up on it .... postage should be about $14.
If I end up making one, the induction value is 100uH.
Tony Walsham
Manufacturer of RCS Radio Control.
Not to brag either, but I still have a couple of them left as well.
I bought them to go with a pwm track-side R/C I was making.
They work OK but tended to make the control voltage a bit to ON & OFF for my liking. I found the H0 DCC sound equipped loco were much smoother in operation without them.
However I am willing to part with them as listed on the RCS website. https://www.rcs-rc.com/pages/trackside-r/c
Sorry about the cost but I got very little trade discount from Navin. Be advised they will cost a lot of money to post to the UK.
I bought them to go with a pwm track-side R/C I was making.
They work OK but tended to make the control voltage a bit to ON & OFF for my liking. I found the H0 DCC sound equipped loco were much smoother in operation without them.
However I am willing to part with them as listed on the RCS website. https://www.rcs-rc.com/pages/trackside-r/c
Sorry about the cost but I got very little trade discount from Navin. Be advised they will cost a lot of money to post to the UK.
beavercreek
Travel, Art, Theatre, Music, Photography, Trains
Hi John, that looks to be the one... That would be very kind of you.
Are the parts to the specification of the circuit diagram in my earlier post on the thread.
As the converter that I am after is not for onboard locos but to go with a trackside Revolution 'Super Base Station', it will have to be able to handle the Max 15 Amps and 24V output of the base station.
The inductor on yours does look smaller but that maybe due to different make etc.
The spec for the high amp inductor is 100uH
beavercreek
Travel, Art, Theatre, Music, Photography, Trains
That sounds great John...what cost just so that I make sure the funds are there!
The resistor on the Crest/revolution 57091 and also the 'home built' one in the photo and in the circuit diagram is 1K
beavercreek
Travel, Art, Theatre, Music, Photography, Trains
Fantastic John...many thanks
Greg Elmassian
Guest
Interesting, the "noise cap" passed enough current that the resistor got hot? The original looks like 1/4 watt....
That really should not be, did you use a mica cap? It surely appears that you did... hmmm......
Greg
That really should not be, did you use a mica cap? It surely appears that you did... hmmm......
Greg
Greg Elmassian
Guest
so that is a typical .1 mfd cap, whose resonant frequency is about 18 MHz....
So that capacitor filters the switching noise from the PWM circuit, which is running normally just a bit ultrasonic, like 27 MHz.... below is an impedance chart (the lower left green line)
So, I guess I see why the resistor got hot, it's almost shorting out the PWM... I wonder how much power is wasted. I would have thought that the inductor would have done the heavy lifting, since it's first in line, along with the "nonpolar capacitor" after it... but there it is... good call in increasing the resistor wattage.. (although the 1k resistor should have been way higher in impedance than the load applied to this unit, the current through the resistor, when the capacitor is a "short" is 24 milliamperes... (assuming 24v input) so the wattage in the worst case would be 0.576 watts, way over what you want in a 1/4 watt resistor... rule of thumb in resistors is run half the rated wattage, so for 0.576 watts you would go to a 1 or 1.5 watt resistor...
So it all hangs together, but this filter seems not well designed now that I look at it...
So that capacitor filters the switching noise from the PWM circuit, which is running normally just a bit ultrasonic, like 27 MHz.... below is an impedance chart (the lower left green line)
So, I guess I see why the resistor got hot, it's almost shorting out the PWM... I wonder how much power is wasted. I would have thought that the inductor would have done the heavy lifting, since it's first in line, along with the "nonpolar capacitor" after it... but there it is... good call in increasing the resistor wattage.. (although the 1k resistor should have been way higher in impedance than the load applied to this unit, the current through the resistor, when the capacitor is a "short" is 24 milliamperes... (assuming 24v input) so the wattage in the worst case would be 0.576 watts, way over what you want in a 1/4 watt resistor... rule of thumb in resistors is run half the rated wattage, so for 0.576 watts you would go to a 1 or 1.5 watt resistor...
So it all hangs together, but this filter seems not well designed now that I look at it...
Greg Elmassian
Guest
Whoops!!!!! A giant mistake...
The PWM frequency is just in the high ultrasonic range in general... so the 0.1mfd capacitor really should NOT be getting a lot of "business"... something is funny.... off to talk to my head electrical engineer.
Greg
The PWM frequency is just in the high ultrasonic range in general... so the 0.1mfd capacitor really should NOT be getting a lot of "business"... something is funny.... off to talk to my head electrical engineer.
Greg
Greg Elmassian
Guest
OK, so even at that frequency the cap is about 58 ohms worst case, so you add that to the 1k and you have 1058 ohms, which is about 0.023 amps, which figures to about 0.552 watts, again clearly too much for a 1/4 watt resistor. I'm surprised more don't overheat, but that's also worst case, based on 100% duty cycle. If you guess about 50% duty cycle (half speed on the loco) then you are about 1/4 watt into a 1/4 watt resistor, twice what you should do...
I wonder why they did not figure this, maybe they think a 1/4 watt resistor can actually dissipate 1/4 watt... that is a mistake.
Greg
I wonder why they did not figure this, maybe they think a 1/4 watt resistor can actually dissipate 1/4 watt... that is a mistake.
Greg
beavercreek
Travel, Art, Theatre, Music, Photography, Trains
Looking good John....15 amp would be good as the output of the PWC Revo super basestation is max 15 amps
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Greg Elmassian
Guest
Looks like G Scale Graphics in the US is going to build some more, for the US guys.
Contact Del directly, not on the site.
Greg
Contact Del directly, not on the site.
Greg
Fascinating thread, I just wish I knew what they're for
I will explainificate it if you want?
Greg Elmassian
Guest
Sort of just like the words say on the board:
Convert PWC (Aristo-Craft insisted on calling PWM (Pulse Width Modulation) Pulse Width Control...) to smoothed out DC, which for some reason is called "linear" in our hobby.
Basically all modern motor drives, and many "DC" power packs output PWM (pulsed power) instead of pure constant DC.... unfortunately this pulsing, while giving excellent motor control, can make some electronics, notably sound units, go nuts... they usually interpret the pulses as full speed all the time.
Solution, "smooth out" the pulses, i.e. "average" the voltage into something closer to smoothly varying DC, as opposed to full voltage pulses varying in duration.
Greg
Convert PWC (Aristo-Craft insisted on calling PWM (Pulse Width Modulation) Pulse Width Control...) to smoothed out DC, which for some reason is called "linear" in our hobby.
Basically all modern motor drives, and many "DC" power packs output PWM (pulsed power) instead of pure constant DC.... unfortunately this pulsing, while giving excellent motor control, can make some electronics, notably sound units, go nuts... they usually interpret the pulses as full speed all the time.
Solution, "smooth out" the pulses, i.e. "average" the voltage into something closer to smoothly varying DC, as opposed to full voltage pulses varying in duration.
Greg