A friend and I – both electronics hobbyists – figured replacing the blown LEDs in his home exterior lighting fixtures couldn't be THAT hard… (pause for all to say 'yeah, it's not straightforward you two idiots!'). I'm seeing some behavior that I can't really explain or understand, so thought it was time to give in and seek some help.
Here's the basic setup, what we've tried, and what seems strange. Thank you all in advance for your help and insight.
Setup
The lighting fixture gets installed into standard 120V AC and its first component is a variable output power supply with the following specs:
- Vin: 108-135 VAC 50/60Hz
- Iin: .10 A Max
- Vout: 14-20 VDC
- Iout: 350 mA C.C.
- Max Pout: 7W
- PF: >0.92
The output leads from the power supply then feed an LED cluster – all surface mounted LEDs with some circuitry buried under the surface foil which I cannot see nor peel back without destroying the copper layer underneath – so I have no idea how the LEDs are wired. But that doesn't really matter, except I was hoping it would shine some light on why our replacement attempts aren't working…
Strange thing #1
I have two of these blown fixtures from my friend – call them A and B. I've tested the power supply on each, feeding 120V straight from the wall and hooking up a multimeter to the output leads from the power supply.
- A reads 27V
- B reads 29V
…both obviously higher than the rated 20V max output. Something seems wrong here… but we can't tell if the power supplies are both malfunctioning, or just rated incorrectly (as the power output is relatively stable, fluctuating +-.2V while read continuously, which seemed reasonable given possible 120V line fluctuations and this being a variable output transformer). We have plans to pull one of the working fixture and test that power supply, but have not yet.
Strange thing #2
My friend bought a 12V LED bank to wire in as a replacement a while back – obviously this will blow given the power output of the supply. But he noted that when he hooked it up to power supply A, it just blinked on and off. When I hook the same 12V LED bank up to power supply B, it lights continuously (although it will blow, and already smoked once, so I disconnect it pretty quickly – I know we're killing it… it's a burner at this point anyway). If I add any resistors in series with the LED bank to try to regulate the power/voltage down, the LEDs just blink, even if the resistor is too small to really have any significant effect on the current.
For my personal tests, I assembled 10 LEDs (2.8-3.2V) in series on a breadboard to handle the 29V output. When I connect my LEDs to power supply B, they just blink as well. It's actually probably more accurate to say they flash bright, then fade down to dark… flash bright, then fade down to dark… repeatedly. Adding any resistors into the series only makes the LED flash pattern dimmer, but the flashing pattern continues.
My research would suggest that the power supply is going into safety mode and cycling between attempting to power, and shutting down. I've measured the Amps draw for my LED cluster on a bench power supply and it appears to be well within spec for the fixture power supply:
- 10x LED Cluster @ 30V : 5 mA
I've also tried to test the Amps draw on the 12V LED bank when hooked up to the fixture power supply, but can't get a reading. This is what happens:
- 10A Setting: LEDs do not illuminate. 0.00 reading on meter.
- 200mA Setting: LEDs illuminate. 0L reading on meter.
- 20mA Setting: LEDs flash. 0L on meter.
- 2000µA Setting: LEDs flash. 0L on meter.
So…
Much appreciated if you're still with me! The resulting questions we have are:
When we try to hook up new LEDs to the existing power supply, why do they blink and not illuminate continuously?
Is there a way to utilize this power supply and repair this lighting fixture with new LEDs?
Is there something we should be wary of with the power output on these power supplies being higher than the max spec? (I have to assume this is why the stock LEDs have been burning out)
Thanks again for any insight!
Best Answer
It's a 350mA constant current power supply, so the load will set the voltage. For example if the load is 5 LEDs with 3.2V Vf at 350mA, so total 16V, then it will output 16V to get the required 350mA.
The supply is specified to work in constant current mode with an output voltage range of 14-20V. Outside of that, it will probably trip a safety and go on an on/off cycle, ie it will blink.
So if you put 10 LEDs, total 30V, that's outside the voltage range where it operates in constant current. Since it tries to regulate current to 350mA anyway, it will increase its output voltage until the overvoltage protection trips, and it will blink.
You don't give any info on the 12V light you used for testing, but if it smoked, that means it's low power, probably a LED strip with resistors. So the power supply tries to push 350mA through it, but the load can't take all the current, output voltage rises, and it shuts down. If you add a resistor in series, output voltage rises more, so it also shuts down.
If you want to test it, you need to use a load that will drop 14-20V at 350mA. For example you could use a 47 ohm resistor (or ten 470 ohm resistors in parallel, or 20 1kOhm resistors in parallel, if you only have 1/4W resistors). Then check with a voltmeter, you should have a stable voltage.
I think that's answered above.
Yes, you need LEDs that will take 350mA with a voltage in 14-20V range, for example five 1W LEDs in series.
No that's normal, on a constant current driver, voltage will increase if the load doesn't draw enough current.
Most likely cause is "cost-optimized" heat sinking causing it to cook to death. So if you replace the LEDs, the new one will also suffer the same fate, unless you also fix the heat sinking issue.
With the original LEDs: if it blinks and all the LEDs light, then the LEDs work, and the driver is toast. If not all the LEDs light, then there is a blown LED and the driver may still work.
Note these power supplies basically cost nothing, and these were also probably cooked to near death, so unless this is a learning experience you're wasting your time.
If you want 12/24V LED strips with excellent color rendition, ask in the comments.