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All:

Background:

I have acquired a brand new MTH PS1 fan-driven smoke unit (part # AA0000011).  The original thought was to drive it with my Mean Well LRS-150-12 (Input: 120 VAC  Output: 12 VDC, 12.5 A) power supply.  I have determined that 12VDC isn't quite enough power to make it smoke (fan does run).  I was able to get to function correctly at 15 VAC (it will run on A/C or D/C).

Question(s):

  1. Can anyone recommend a DC step-up transformer to get 12VDC to 15VDC (or an adjustable value)?
  2. My preferred solution is to use a transformer rather than another power supply to do this.  I will be driving (eventually) up to 4 such smoke units.  Any problems with this approach?
  3. Is there a better way to do this?


Thank you!

George

Original Post

Replies sorted oldest to newest

Do you know how much current the smoke unit uses?

A transformer only works on AC, so you can't use a transformer. Depending on your current requirements, you might be able to use a step-up DC-DC converter.

You can find plenty of cheap ones on eBay, but I have always had good experiences with Pololu products. Here is a 15V output converter that is rated for 6A continuous input current.

Last edited by Professor Chaos

Do you know how much current the smoke unit uses?

A transformer only works on AC, so you can't use a transformer. Depending on your current requirements, you might be able to use a step-up DC-DC converter.

You can find plenty of cheap ones on eBay, but I have always had good experiences with Pololu products. Here is a 15V output converter that is rated for 6A continuous input current.

You are correct, the term "transformer" is technically incorrect.

Thank you for the link.  The device looks promising.

George

@Norton posted:

Something is wrong here. 12.5 amps will run about 6 trains with smoke units. A typical fan motor is rated for between 3 and 5 volts.

Pete

Yes, but I have info from the MTH Parts dept. that suggests 12V is the minimum for this PS1 item.  And 15V is better.  Plus, it's not the fan that fails to perform - it's the smoke unit (heater) itself that isn't generating smoke at 12VDC.  It does work at 15VAC.

George

@G3750 posted:


...
  1. Can anyone recommend a DC step-up transformer to get 12VDC to 15VDC (or an adjustable value)?

Taking your question at face-value, you can get remarkably inexpensive DC-to-DC step-up "transformers" (oh, all right, converters) with adjustable output:

dc dc boost

So these are less than $3 each and include screw-terminals so soldering may not be required.  The previously linked example is indeed more compact and potentially puts out more power (I'd have to study the specs more) but at $25 each and apparently requiring soldering...yikes!

dc dc boost miniature

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@G3750 posted:
I have acquired a brand new MTH PS1 fan-driven smoke unit (part # AA0000011).  The original thought was to drive it with my Mean Well LRS-150-12 (Input: 120 VAC  Output: 12 VDC, 12.5 A) power supply.  I have determined that 12VDC isn't quite enough power to make it smoke (fan does run).  I was able to get to function correctly at 15 VAC (it will run on A/C or D/C).

I'm curious how you determined the MTH PS/1 smoke unit doesn't work on 12VDC.  That flies in the face of my quick test here.  I tried a second one with the same results.  AAMOF, I've previously run these on 12VDC and had no issues.

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@stan2004 posted:

Taking your question at face-value, you can get remarkably inexpensive DC-to-DC step-up "transformers" (oh, all right, converters) with adjustable output:

dc dc boost

So these are less than $3 each and include screw-terminals so soldering may not be required.  The previously linked example is indeed more compact and potentially puts out more power (I'd have to study the specs more) but at $25 each and apparently requiring soldering...yikes!

dc dc boost miniature

Yikes!  I didn't realize it was that expensive.  

By the way, I have been informed that the PS1 smoke unit draws 0.75-1.0 amps for those of you keeping score at home.

Thanks to everyone that chimed in!  Stan2004, that suggestion looks like a winner!

George

I'm curious how you determined the MTH PS/1 smoke unit doesn't work on 12VDC.  That flies in the face of my quick test here.  I tried a second one with the same results.  AAMOF, I've previously run these on 12VDC and had no issues.

I think the only reason it's emitting smoke is that you're squeezing it in that vise.  That's cruel! 

Mine simply wasn't producing smoke at that voltage until I partially blocked the stack with a rag.  Why?  I don't know, but that's what was happening.

George

I am curious about your choice of the MTH PS1 AA-0000011 smoke unit.  Apparently these are $50+ each...and you're planning on 4 units?  Can you share the application - presumably this is NOT for installation in an engine or rolling stock?

So here's the thing.  While you can indeed hook it to a DC power supply, the PS1 smoke unit has a clever voltage regulator circuit - considering it was designed in the last century.

aa0000011

There are 2 smoke heater resistors.  The on-board circuit uses the track voltage to "decide" whether to use one or both resistors.  The circuit has been posted and discussed many times in previous OGR threads and I suppose we can re-visit the component-level nitty-gritty if need be.

The upshot is you may find that when operating with DC voltage, there is a range of voltage where you get LESS smoke as you increase voltage!  And the behavior will be different between AC and DC.  So, for example, it could be that going from 12 to 15V AC increases smoke to your requirements, but that same increase from 12V to 15V DC produces less smoke! 

So back to my original question about how committed you are to using the AA-0000011.

There are other fan-driven MTH (and others) smoke units that don't have the PS1 regulator circuit and instead give you direct connection to the smoke heater resistors.  In which case more voltage will guarantee more smoke - and 15V AC will produce the same amount of smoke as 15V DC.

Apparently you got/bought a new PS1 smoke unit...but if you already had the 4 units I'd consider modifying this voltage regulator part of the circuit to give direct access to the heater resistors.  It can be a messy affair, cutting wires or circuit board traces, soldering, etc..

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I'd use the PS/2 smoke unit and a lower voltage DC power supply.  For the fan, you can simply use a couple dropping diodes from the heater voltage.  The heater at 8 ohms will require from 7 to 9 VDC to product a lot of smoke, the fan will run on anything from around 3V to 5V and produce a nice air stream.

FWIW, the actual behavior of the one I have in my vise in the shot above didn't regulate down until 16 volts DC, then the current dropped a bunch but still plenty of smoke.  On AC (pure sine wave), at around 12.5V the switch occurs with the regulator circuit.

What he said.

And with similar pricing (less than $5), you can get a DC-to-DC step-down converter module.  To keep things simple, no soldering, etc., you could use 2 step-down converter modules both powered by your 12V DC supply.  One would be set to 7-9 VDC as GRJ suggests to power the heater resistors.  The other would be set to 3-5V DC to power the fan motors.

One DC-to-DC step-down module could certainly power all 4 fan motors.  From power limitations driving 4 heaters with 1 DC-to-DC step-down module may be pushing it (depending on which converter you have) so maybe you use 2 converters and each powers 2 heaters.

Plus, I'd think the PS2 smoke units would be more readily available (and less expensive) than PS1 smoke units?

Addendum:

dc dc stepdown with voltmeter for 3 bucks

For about $3, you can get a DC-to-DC step-down converter with a built-in digital voltmeter!

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Last edited by stan2004
@stan2004 posted:

I am curious about your choice of the MTH PS1 AA-0000011 smoke unit.  Apparently these are $50+ each...and you're planning on 4 units?  Can you share the application - presumably this is NOT for installation in an engine or rolling stock?

So here's the thing.  While you can indeed hook it to a DC power supply, the PS1 smoke unit has a clever voltage regulator circuit - considering it was designed in the last century.

aa0000011

There are 2 smoke heater resistors.  The on-board circuit uses the track voltage to "decide" whether to use one or both resistors.  The circuit has been posted and discussed many times in previous OGR threads and I suppose we can re-visit the component-level nitty-gritty if need be.

The upshot is you may find that when operating with DC voltage, there is a range of voltage where you get LESS smoke as you increase voltage!  And the behavior will be different between AC and DC.  So, for example, it could be that going from 12 to 15V AC increases smoke to your requirements, but that same increase from 12V to 15V DC produces less smoke!

So back to my original question about how committed you are to using the AA-0000011.

There are other fan-driven MTH (and others) smoke units that don't have the PS1 regulator circuit and instead give you direct connection to the smoke heater resistors.  In which case more voltage will guarantee more smoke - and 15V AC will produce the same amount of smoke as 15V DC.

Apparently you got/bought a new PS1 smoke unit...but if you already had the 4 units I'd consider modifying this voltage regulator part of the circuit to give direct access to the heater resistors.  It can be a messy affair, cutting wires or circuit board traces, soldering, etc..

Stan,

Great questions and I will address your points individually.

First, the application:  I am building a steel mill, specifically an Open Hearth (OH).  Such a mill has a number of ovens;  Weirton Steel's had 14.  I am building 4 ovens.  The effect I am trying to replicate with LEDs and a smoke unit is shown below.

175306384_300981968077459_7891951280554651661_n

My first experiment was with a Seuthe No. 7 smoke unit.  It was anemic, at best.  Recalling MTH's reputation for high output smoke units, I went onto their parts website and asked for a recommendation.  That's how I got the AA0000011.  I have bought 1 just to try it out.  And yes, they are expensive.  I am unaware of any previous discussions of this smoke unit or how it actually operates.

I am very interested in learning more about your statement:

"There are other fan-driven MTH (and others) smoke units that don't have the PS1 regulator circuit and instead give you direct connection to the smoke heater resistors.  In which case more voltage will guarantee more smoke - and 15V AC will produce the same amount of smoke as 15V DC."

Please tell me more.  I'd love an easier / simpler / better / less expensive alternative.

Thank you!

George

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@cjack posted:

Usually the difference is buying from a US importer, instead of waiting for a package from China.

In this case, it's from a US manufacturer instead of a Chinese import.

The board I linked (which is $19.95 for the fixed-voltage version, not $24.95) may well be overkill for 12 to 15 V step-up for this application, and have safety features you don't need. But consider that you're getting a fully-specified product with complete documentation and support.

It does appear that Pololu's prices have gone up recently;  they have a blog post discussing their issues.

As GRJ suggests, the PS2 smoke unit does not have the interfering electronics and gives direct access to the smoke heater resistors. The one thing nice about the PS1 unit is you only apply a single voltage as there is an onboard regulator to regulate the voltage to the fan motor.  I did not realize it too is $50 MSRP.

I used the off-the-shelf MTH units when there's space.  Otherwise I build my own fan-driven smoke units where the raw material cost is maybe just a few dollars.  But I do so not to save money but because of fit/space issues.  Even at minimum wage, the time spent in fabricating the chamber and plumbing and so on would make it cost prohibitive and getting the air-flow right can be exasperating.  Then you have to provision for refilling the smoke chamber when you don't have easy from-the-top access like in a steam engine (see sideways example below).  I'd think you have lots of space in your mill to install off-the-shelf albeit spendy MTH smoke units.

For example, here's a recycled photo showing a hand-built fan-driven smoke unit that fits inside the engine of a 1/48 scale F-14 Tomcat model.  It uses the same MTH fan motor but a copper tube as the smoke chamber holding the heater resistor.  I thought of this when I saw the orange smoke on the left side of your mill photo.  This goes to your point of using LEDs to illuminate or colorize the smoke.  It really is an effective technique.

f14

Separately, I've commented in other OGR threads (for example) on using so-called mister-fogger vibrating ceramic discs as used in aromatherapy diffusers.  I won't rehash the discussions; this route would require a lot of DIY tinkering though I figure the cost would be maybe $5 per "smoke" unit if that and you'd never have to buy smoke fluid again.    I made this video teaser showing a PS1 smoke unit relative size to a typical mister mechanism...about 2 Watts power.

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Last edited by stan2004
@stan2004 posted:

Does adjustment control have any effect?  According to the data sheet you can set the output to at least 10.2 to 13.8 VDC.  Also inspect the adjustment control to make sure it's not cracked or damaged.  The data sheet says there's a 3 year warranty on this item if that applies.

mw

Thank you, but I already checked that.  No joy.  RMA in hand; this unit's going back.

George

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