A cautionary tale with cheap ebay Voltage Regulators.

ALL the cheapy voltage regulators on ebay using the switching regulator, out of about 10 ive bought they all share the same fault well not really a fault, but
a cautionary tale..

when low resistance is applied the the regulated voltage increases, so after running it for an hour, the temprature
slowly creeped up (at the IC end), with heat came a slow rising voltage.... take any switching regulator, get your multimeter out and then place a decent load (a couple of ohms) across
and watch the voltage rise....

So careful hooking a regulated 5v source directly to an arduino without any regulation, it could when over heating easily kill your board / device.

From now on, i'm going to use a 5v linear regulator from a switching power supply in future (unless you spend good money on a good regulator)

[edited, futile LED conversation, if i had a linear regulator, the voltage would not have increased no matter how how, no drift]

it seems nothing runs directly from the wall correctly, but odd story..

I bought a bunch of 6 volt switching wall warts from china, to run though didode to LDO 5v regulator for a personal project

After some buyers remorse while they were in the mail I checked all my little switchers, cellphones, tablets, cameras, cable boxes everything

the little 1.20$ 6 volt warts I got were the only ones that even bothered to copy the UL logo, and on top of that provided a UL number (it could be for a toaster for all I know)

I have had one nailed across a very low resistance, high load for a while now, nearly maxing out its rating ... stupid thing still measures 5.99 volts, go figure

I was refering to the switching regulators on ebay.

those kinds of boards....

yea, add a bit of plastic and a plug, you essentially have a wall wart

you essentially have a wall wart

Not really; they're designed for relatively low DC Vin (<35V), and don't even need to pretend to have any isolation or high voltage safety provisions (the way the plug-in supplies are supposed to have, and frequently don't.)

You'd think that a basic lm2596 "reference circuit" wouldn't have a lot that could be done wrong. I wonder why you're seeing the behavior you see? Bad caps? Counterfeit chip? Or real flaw in the chip?

You're driving a LED based on voltage, then you're making it worse by using a regulator circuit that is specified at +/- 2.5% regulation. Grumpy Mike would kick your butt for doing it that way. There's nothing about a LED V/I curve that suggests anything but eventual failure.

It's also not necessarily a knock-off/counterfit LM2596 issue. Nat Semi specs their LM2596 at +/- 4% regulation:

Other features include a guaranteed ± 4% tolerance on out-
put voltage under specified input voltage and output load
conditions...

cjdelphi:
I've blown several high power (>1amp cree) LED's with these, when they get hot (or becomes shorted) the regulated voltage increases, so after running it for an hour, the temp slowly creeped up, with heat came a slow rising voltage until death....

Sounds to me like you're using the wrong sort of board and overloading it. Anything will fail if it gets hot enough.

LEDs are supposed to be driven by current, not voltage. They make those boards with constant-current output (adjustable):

The boards with three adjusters on them also have a shutdown voltage, for charging batteries. ie. The board supplies a constant current then shuts down if the output voltage reaches a certain voltage level.

If you want to go the whole hog (and you should if you're using expensive Cree LEDs you can even get them with heatsinks, just in case.

cjdelphi:
what i do and do not do with my LED is my own buisness...

Sure...

cjdelphi:
secondly... You're wrong what killed my LED's is not current at all but heat.... these power supplies got hot to drive the led which increases the light, truth is even at 3 amps which i can assure you these can not deliver at 4.2v ... even at 12v and even if it could... it's well within max current specifications... but no all i required was a lot bigger heat sink... heat and heat alone caused the death as the regulator crept up in voltage so did the current death from heat NOT anything else

If the thing was getting too hot then you were overloading it.

What counts is the power dissipation (wattage), not the amps. The board may be rated for 2A max but 2A at 5V isn't the same as 2A at 20V. The voltage conversion is only 90% efficient at best, the rest turns into heat.

If you look at the board you posted there no way that board can handle a 20 volt 2 amp drop that's 40 watts
the chip should shut down, lower its voltage not increase it.

I've blown several high power (>1amp cree) LED's with these, when they get hot (or becomes shorted) the regulated voltage increases

If the regulated voltage increases when those devices are shorted, those are miracle devices.

What you are likely observing, without realizing it, is why a serial resistor is sometimes needed with leds: to prevent thermal runaway.

20 volt 2 amp drop that's 40 watts

This is a switching mode regulator.

There's onboard thermal regulation which prevents anything excess current being delivered to the LED.

That doesn't mean the less-than-excessive voltage from the regulator wouldn't cause excessive current / power dissipation on the led.

No, the board does not regulate current output at all: they call it a voltage regulator for a reason.

case closed.

I am actually still curious as to how its output voltage increased when you shorted it.

It is so out of this world.

want a video?

I can show a stable voltage on video to the device you're powering, but decrease the resistance the voltage increases.

I can show a stable voltage on video to the device you're powering, but decrease the resistance the voltage increases.

That's probably quite different than saying that the voltage increases when you short them.

dhenry:

20 volt 2 amp drop that's 40 watts

This is a switching mode regulator.

There's onboard thermal regulation which prevents anything excess current being delivered to the LED.

That doesn't mean the less-than-excessive voltage from the regulator wouldn't cause excessive current / power dissipation on the led.

No, the board does not regulate current output at all: they call it a voltage regulator for a reason.

Read the data sheet it said if the output is shorted the chip decreases the voltage

you saying ohm 's law don't apply dherry if the voltage goes down the current can't go up.

20 volt 1 ohm load 20amps 5 volt 1 ohm load 5 amps

Now whats this say

(3) The oscillator frequency reduces to approximately 18 kHz in the event of an output short or an overload which causes the regulated
output voltage to drop approximately 40% from the nominal output voltage. This self protection feature lowers the average power
dissipation of the IC by lowering the minimum duty cycle from 5% down to approximately 2%.

dhenry:

I can show a stable voltage on video to the device you're powering, but decrease the resistance the voltage increases.

That's probably quite different than saying that the voltage increases when you short them.

the voltage sure does rise when you short them, i'm uploading a video of me just brushing 2 crockadile clips together, i then make it switch between voltage in and voltage out (it alternates). then as i short the clips
you'll see the voltage jump, the voltage reader is correct, confirmed it by the multimeter, but when it gets hot powering a device with a large current the voltage does also increase, but it has to be a large current, eg an arduino alone wont be effected too little current.... but if you start connecting bigger items, motors and things? I dunno, i only discovered it by accident when shorting it once time and blowing a small 5mm LED never thought much of it until this board which displays the voltage on automatically arrived..

So i was playing with it and noticed that the 5? pin regulator on this was behaving the same as the even cheaper boards with an even less wattage rated IC switcher... but still this board can supply more watts big whoop, not interested, what I am interested in is why the voltage increases when shorted briefly or after long periods of heat the voltage goes up, device goes um poof.

the voltage sure does rise when you short them

Sounds like you have defined "short" uniquely.

"A short circuit is an abnormal connection between two nodes of an electric circuit intended to be at different voltages. This results in an excessive electric current/overcurrent"

  • wiki

touching the clips results in max amp discharge causing the wires to give off heat. is this not a "short" ? I'm serious.....

You probably want to focus on the part where it talks about very low / no resistance.

You cannot have a voltage drop over a wire with no resistance.