hobo9941 I fail to see how a capacitor would act as a keep alive in a DCC circuit. DCC keeps a constant AC voltage on the tracks. A capacitor across AC acts as a direct short. If the capacitor is charged up, and the AC voltage is momentarily interupted, the capacitor would discharge a strong DC current and voltage, until discharged or the AC was restored. If the capacitor discharges through a diode, and resistor, again it discharges a DC voltage and current. But the decoder operates on AC! Considering how my Tsunami stumbles on dirty track, I question if the capacitor is acting as a keep alive, or some other function.
I fail to see how a capacitor would act as a keep alive in a DCC circuit. DCC keeps a constant AC voltage on the tracks. A capacitor across AC acts as a direct short. If the capacitor is charged up, and the AC voltage is momentarily interupted, the capacitor would discharge a strong DC current and voltage, until discharged or the AC was restored. If the capacitor discharges through a diode, and resistor, again it discharges a DC voltage and current. But the decoder operates on AC! Considering how my Tsunami stumbles on dirty track, I question if the capacitor is acting as a keep alive, or some other function.
I can see you need an understanding on how DCC decoders work. Here is a decoder with stay alive as an example.
Modify your theory.
Rich
If you ever fall over in public, pick yourself up and say “sorry it’s been a while since I inhabited a body.” And just walk away.
The decoder circuitry actually operates off of DC and has a bridge rectifier to convert the AC into DC. A keep-alive cap would be installed in the circuit after the bridge rectifier.
When using the diode/resistor circuit that Randy mentioned, the cap does not discharge through the diode and resistor. The cap charges through the resistor, the resistor limiting the current so the circuit breaker does not think it is a short, but discharges through the diode, the diode allowing the current to bypass the resistor and supply full current to the decoder.
Which reminds me, I need to order a few of the KAT1's to repalce the T1's in my Geeps before the next club show - see if that will allow me to run a single power unit and get past the sometimes dead connector tracks between modules. Someday all the modules will be of the newer style, with no connector tracks, but until then, you need either multiple units or a long steam loco with pickups from both sides of both the engine and tender. The KAT1 should help greatly - there's less than 4" of track to traverse before hitting solid power on either side fo the fitter piece.
--Randy
Modeling the Reading Railroad in the 1950's
Visit my web site at www.readingeastpenn.com for construction updates, DCC Info, and more.
Thanks for the info guys!
Kyle.
rrinker TCS has several sizes of keep-alive modules, plus decoders with them already built in. Marcus updated his web site to show using the TCS unit instead of the discrete capacitor. 16V should be fine unless you up the track voltage. With a nominal HO setting of 15V to the track, and the cap connects after the rectifier on the decoder, so it shouldn't get more than about 13V A large cap cn cause an inrush problem, howver if it gets hooked up with a resistor and diode like Marcus used to show, and as it's shown in the Loksound user manuals, it generally alleviates the problem. The more the better, but in N scale that can be a problem. --Randy
TCS has several sizes of keep-alive modules, plus decoders with them already built in. Marcus updated his web site to show using the TCS unit instead of the discrete capacitor.
16V should be fine unless you up the track voltage. With a nominal HO setting of 15V to the track, and the cap connects after the rectifier on the decoder, so it shouldn't get more than about 13V
A large cap cn cause an inrush problem, howver if it gets hooked up with a resistor and diode like Marcus used to show, and as it's shown in the Loksound user manuals, it generally alleviates the problem. The more the better, but in N scale that can be a problem.
Store the link in Favorites and look at his site every so often. Marcus is active in some Yahoo DCC Groups.
http://www.members.optusnet.com.au/mainnorth/alive.htm
That is close but should work. I use the NCE Power Cab and the voltage for my Tsunami is about 12.2 vdc at the stay alive cap.
Remember, the stay alive with the Tsunami is 220 ufd and is only for the sound. Not enough capacitance for the motor.
With HO, some go as high as 4,700 ufd.
Keeping track, wheels and wipers clean will make the biggest difference along with powered frogs. Cleaning the rail along the inside top of the rail is another little trick.
One decoder company is selling a keep alive module which I understand works. Cannot remember which forum I read some reports in.
Electrolytic caps use the minus lead of the cap as an indicator.
Tantalum caps use the positive lead as an indicator. Be careful.
A cap blowing up is usually because of reverse polarity unless the voltage is really quite high.
rrinkerWhat value capacitors did you get?
I've ordered 100uF / 16V SMD Tantalum caps, for 25 cents a piece.I hope the 16V aren't cutting it too close though. Might have to do some testing before I drop one into an engine. I did have caps blow up on me before. It's.. interesting..
What value capacitors did you get? That's the key to if they will work or not. There are two ratings for a capcitor, voltage and capacitance. The voltage is the maximum it can handle without failing - and capacitors have a tendency to fail spectacularly when the ratings are exceeds - as in, explode. The capacitence determines how much energy it cna store. This is in direct properotion to both the size and chemistry used.
A 1uF or even a 10uF tantalum capcitor is not going to provide much if any keep alive capability, it just doesn;t store enough energy. To get to the second or two range you need something much larger than tantalum capcitors usually are available in, in the neighborhood of 4700uF.
richg1998 Some DCC suppliers sell a SMD Tantalum specifically for the space reason. Rich
Some DCC suppliers sell a SMD Tantalum specifically for the space reason.
Thanks Rich!
I've ordered some SMD Tantalum caps pretty cheap on eBay to see how they compare to the "regular" electrolytic caps that come with the decoder. The difference in size is enough for N scale to look into this I'd say.
I believe this is the keep alive cap. Do you realise this is a sound only decoder? If you want to use it you need a motor decoder already installed. Joe
gandydancer19No. The electrical characteristics are different. You may be able to subsitute the electrolytic with a tantalum type or an SMT electrolytic type.
Bummer..I thought that might be the case or decoders would be shipped with ceramic caps to begin with.
Thanks Elmer,Kyle
Dr.Gonzo62 I know that this is an older post, but I am still interested in the answer;Can you use a ceramic capacitor instead of an electrolytic capacitor as a keep alive without compromising the keep alive effect? Provided it is the same capacity, like a couple of ceramic caps in parallel? Thanks,Kyle
I know that this is an older post, but I am still interested in the answer;Can you use a ceramic capacitor instead of an electrolytic capacitor as a keep alive without compromising the keep alive effect? Provided it is the same capacity, like a couple of ceramic caps in parallel?
Thanks,Kyle
No. The electrical characteristics are different. You may be able to subsitute the electrolytic with a tantalum type or an SMT electrolytic type.
Elmer.
The above is my opinion, from an active and experienced Model Railroader in N scale and HO since 1961.
(Modeling Freelance, Eastern US, HO scale, in 1962, with NCE DCC for locomotive control and a stand alone LocoNet for block detection and signals.) http://waynes-trains.com/ at home, and N scale at the Club.
I know that this is an older post, but I am still interested in the answer;Can you use a ceramic capacitor instead of an electrolytic capacitor as a keep alive without compromising the keep alive effect? Provided it is the same capacity, like a couple of ceramic caps in parallel?The smaller form factor of ceramic caps would make the install in N scale engines a bit easier than finding the room for an electrolytic capacitor.
rrinker On my Soundbug the capacitor is not in series with the speaker. I'm pretty sure it's a keep-alive capacitor, although without cutting off the shrink wrap of the decoder I can't tell 100%. However, AJ designed these things right and they don't need a special booster on the program track nor do they cause a current inrush problem in the event of a track short. --Randy
On my Soundbug the capacitor is not in series with the speaker. I'm pretty sure it's a keep-alive capacitor, although without cutting off the shrink wrap of the decoder I can't tell 100%. However, AJ designed these things right and they don't need a special booster on the program track nor do they cause a current inrush problem in the event of a track short.
They are polarized on threh Digitrax decoders so they are used for energy storage (i.e. filtering) and not as a bandpass filter or DC blocking capacitor, which would require a nonpolarized capacitor.
Engineer Jeff NS Nut Visit my layout at: http://www.thebinks.com/trains/
The first message says a non-polarized cap. This type of capacitor would not be used in a stay alive configuration. The value used is 33ufd.
I have an SFX0416, and, as I recall, it's not on the speaker leads at all. The capacitor on the speaker leads is meant to filter out audio noise. But, this is a "cleaner" design. Here, the capacitor is to smooth out the power to the decoder. If there is a short "dropout" in power, quickly restored, then the capacitor helps the decoder continue smoothly without interruption. It's like a flywheel, only for electric power rather than motor motion.
Take a look at how the capacitor is wired. Is it really in line with the speaker?
It takes an iron man to play with a toy iron horse.
If the capacitor is in series with one speaker wire, then it is keeping the DC out of the speaker. A few people have increased the value of the capacitor for lower frequencies but the physical size is a little larger.
Working with electronics over the years, I have seen solid state audio amps use non polarized capacitors between the IC and speaker but polarity had to be observed. I have built some IC powered audio amps and used non polarized caps. I suspect SoundTraxx went this route as some people would not understand the polarity requirement. Non-polarized capacitors do not care, read fool proof.
If you have more questions about SoundTraxx products, there is a Yahoo SoundTraxx group that that I belong to that specializes in SoundTraxx products with two or three online DCC suppliers in the group.
http://groups.yahoo.com/group/soundtraxx/
The Location: Forests of the Pacific Northwest, OregonThe Year: 1948The Scale: On30The Blog: http://bvlcorr.tumblr.com
If your are talking about SoundTraxx, the older DSD types require a 33ufd bi-polar capacitor to keep DC from getting to the speaker. Don't substitute a smaller value. You will lose lower frequencies. This has been discussed before.
The Tsunami do not require the bi-polar capacitor but have a polarized stay alive 250ufd capacitor which is a totally different issue. Many new decoder users frequently confuse the two issues.
Take time to download and read the SoundTraxx documents.
Hi,
I have a couple of questions regarding the use of capacitors in sound decoder installations. What does the capacitor between the sound decoder and speaker actually do? And I've noticed that most of the provided capacitors are the non-polarised electrolytic type - is it possible to substitute these with a space-friendly (e.g. ceramic disc) capacitor of equal value?
Thanks,
tbdanny