HLG 320H-C2100A

[The Dawg]

Can Someone Explain to Me How These Drivers Are Able To Drive Above Their Stated Wattage. I Have 2 Of Them Doing It

 

[BM9AGS]

Can Someone Explain to Me How These Drivers Are Able To Drive Above Their Stated Wattage. I Have 2 Of Them Doing It View attachment 3717477 View attachment 3717478 View attachment 3717479 View attachment 3717480 View attachment 3717481

Can't explain it but I'll say my HLG 185s are pulling 213w!?! So at least there's a trend.

 

[Malocan]

Can Someone Explain to Me How These Drivers Are Able To Drive Above Their Stated Wattage. I Have 2 Of Them Doing It View attachment 3717477 View attachment 3717478 View attachment 3717479 View attachment 3717480 View attachment 3717481

maybe thats the reason. this picture is from the test report

 

[Malocan]

maybe thats the reason. this picture is from the test report

oh fuck this picture is from other test report, sorry

edit: no it was correct one sorrryyyy

 

[captainmorgan]

Most drivers have some overhead and you need to take into account driver loss.

 

[Malocan]

my HLG 185s are pulling 213w

i have the HLG-185(A version) too, it pulls too over 210 watt.
You can google from Meanwell driver a Test report, then you will see the most driver have overhead like captainmorgan said above.

google: HLG 320H-C2100 test report

 

[Rahz]

Is that just the driver? or do you have fan's running on that circuit too?

390 is about 120% over the expected draw so it would be unusual even with some overhead.

If it's an issue you can dial it down and use the watt meter to estimate the current, or use an ammeter on the DC circuit to dial in an exact current.

 

[Malocan]

151V*2,369A=357,719watt
357,719watt/0,925%(driver)=386,723watt

Maybe his driver has even a bit more Ampere

 

[JorgeGonzales]

Is that just the driver? or do you have fan's running on that circuit too?

390 is about 120% over the expected draw so it would be unusual even with some overhead.

If it's an issue you can dial it down and use the watt meter to estimate the current, or use an ammeter on the DC circuit to dial in an exact current.

Test report is 12% over, plus 6% driver loss...382W? Still, I wouldn't want to see those numbers.

Edit oops @Malocan beat me to it.

 

[Malocan]

Test report is 12% over, plus 6% driver loss...382W? Still, I wouldn't want to see those numbers.

Edit oops @Malocan beat me to it.

driver efficiency @ 115VAC should be around 92% if i follow the datasheet and test report, but still the numbers dont fit
Edit:
152V * 2,369A = 360,008Watt
360,008Watt / 0,92%(driver) = 391,4Watt

 

[JorgeGonzales]

driver efficiency @ 115VAC should be around 92% if i follow the datasheet and test report, but still the numbers dont fit

I'm sure the maximum amps varies. If there's one thing analog electronics ain't it's precise.

 

[The Dawg]

Is that just the driver? or do you have fan's running on that circuit too?

390 is about 120% over the expected draw so it would be unusual even with some overhead.

If it's an issue you can dial it down and use the watt meter to estimate the current, or use an ammeter on the DC circuit to dial in an exact current.

Just My Beloved Vero29's And Nothing Else. I Bought Them from Mouser So I'm Going to E-mail Them About This Issue.

 

[Will Thayer]

Have you tested your Kill A watt with something else that you know the draw of?

Cheers,
Will

 

[BOBBY_G]

My 185H-48As go up to 220W
120H-48A go up to 150W

 

[Atulip]

Spec sheet does say 115v @ 3.5A.

152v at 2.3A with driver loss probably comes close to that. And I'm assuming 4 veros is on for high side of voltage

http://www.meanwell.com/mw_search/HLG-320H-C/HLG-320H-C-spec.pdf

 

[Rahz]

I Bought Them from Mouser So I'm Going to E-mail Them About This Issue.

The internal pot is there for a reason... I'm not sure Mouser will be keen on replacing a unit that isn't malfunctioning. Why not just adjust it?

 

[The Dawg]

Have you tested your Kill A watt with something else that you know the draw of?

Cheers,
Will

The internal pot is there for a reason... I'm not sure Mouser will be keen on replacing a unit that isn't malfunctioning. Why not just adjust it?

Brother Will Thayer Yes I Have Tested My Killa-A -Watt Meter Against My 400 Watt Cmh And My Inventronics Drivers. All 3 Of My Inventronics Are 320-2100B's And They All Read 343 Watts From The Wall. Which In My Plus Or Minus 10% Mind Is Ok

Brother Rahz I Did Turn Down The Driver To 300 Watts Still These Numbers Don't Make Sense To This 60 Year Old Mind And Why Does An Electronic Device Take 2 Hours To Warm Up. Yes My Mean Wells Start Out Around 345 Then Jump Up To 391 And 373 After 2 Hours Running? These Drivers Remind Me Of The Old Vacuum Tubes. For You Youngens That Was What We Used Before Solid State Circuitry

 

[guod]

max. current for the HLG 320H = 2.369 Amps

http://www.meanwell.com/mw_search/HLG-320H-C/HLG-320H-C2100-rpt.pdf


typ. Voltage for the Vero29 at 2.369 Amps = 38.5 Volts

Led-Power = Volt X Amps = 38.5 V x 2.369 A = 91.2W for one Vero. or 364.8 if you use 4 Cobs
with eff. of the driver (92%) we see 396.5 Watts from the wall.

more power for the @The Dawg

 

[JorgeGonzales]

max. current for the HLG 320H = 2.369 Amps
View attachment 3717814
http://www.meanwell.com/mw_search/HLG-320H-C/HLG-320H-C2100-rpt.pdf


typ. Voltage for the Vero29 at 2.369 Amps = 38.5 Volts
View attachment 3717817
Led-Power = Volt X Amps = 38.5 V x 2.369 A = 91.2W for one Vero. or 364.8 if you use 4 Cobs
with eff. of the driver (92%) we see 396.5 Watts from the wall.

more power for the @The Dawg

And now he can go ahead and yank it right back down to ~347W for 100% load.

 

[NoFucks2Give]

Start Out Around 345 Then Jump Up To 391 And 373 After 2 Hours Running

Did you ever resolve this issue? The 391 to 373 over two hours can be attributed to thermal dynamics. It takes about two hours for the system to reach thermal equilibrium. During the time the LEDs are heating up. As the temperature increases the forward voltage decreases.

You are measuring the wrong end of the power supply. Watts in means nothing unless you know the watts out. You should use a current shunt and volt meter to measure the current and voltage out.

The 345 to 391 is not as simple without knowing how the LEDs are wired. I'm going to guess there is something wired in parallel. You should not wire LEDs in parallel and power them with an HLG without some circuitry to balance the loads in the parallel paths. A resistor does not count as circuitry.

Without load balancing the parallel paths with struggle with each other due to the thermal effects on the LED's dynamic resistance changing with the temperature changes. that can play out in various ways depending on differences in forward voltage changes due to the current changing the forward voltage. One path the current will increase raising the forward voltage while the current decreases in the other path it's forward voltage decreases. The current rising in the one path will increase the temperature and decrease the forward voltage. This goes on and on for days if you do not turn off the lights.

This is more dramatic when the LEDs are on different boards at different temperatures. Bottom line, it appears the LEDs are incorrectly wired. But that is just a guess.

I doubt Mouser was of much help. They are nice guys but this was not their problem. The wattage of the supply is a minimum, not a typical or a maximum. If you still have a problem and would like to resolve it, I can help you do that.

Remind Me Of The Old Vacuum Tubes.

Vacuum tubes always reminds me of slide rules. When I was going to school it was vacuum tubes and slide rule. And tuition was $12 a semester, a pound of weed cost $125. A quarter pound of Red Lebanese hash was $300. The draft had just ended.